MUELLER-ROEBER BERND (DE)
SOLTANINAJAFABADI MASOOD (IR)
MAX PLANCK GESELLSCHAFT (DE)
RUZICIC SLOBODAN (DE)
MUELLER-ROEBER BERND (DE)
SOLTANINAJAFABADI MASOOD (IR)
WO2004085641A1 | 2004-10-07 |
CN1491960A | 2004-04-28 | |||
US20070039076A1 | 2007-02-15 |
DUBOUZET J G ET AL: "OsDREB genes in rice, Oryza sativa L., encode transcription activators that function in drought-, high-salt- and cold-responsive gene expression", PLANT JOURNAL, BLACKWELL SCIENTIFIC PUBLICATIONS, OXFORD, GB, vol. 33, no. 4, 1 February 2003 (2003-02-01), pages 751 - 763, XP002264239, ISSN: 0960-7412
ITO YUSUKE ET AL: "Functional analysis of rice DREB1/CBF-type transcription factors involved in cold-responsive gene expression in transgenic rice", PLANT AND CELL PHYSIOLOGY, vol. 47, no. 1, January 2006 (2006-01-01), pages 141 - 153, XP002545375, ISSN: 0032-0781
QIU-LIN QIN ET AL: "Isolation, optimization, and functional analysis of the cDNA encoding transcription factor OsDREB1B in Oryza Sativa L", MOLECULAR BREEDING, KLUWER ACADEMIC PUBLISHERS, DO, vol. 19, no. 4, 21 November 2006 (2006-11-21), pages 329 - 340, XP019482985, ISSN: 1572-9788
ZHU ET AL: "Regeneration of transgenic rice plants using high salt for selection without the need for antibiotics or herbicides", PLANT SCIENCE, ELSEVIER IRELAND LTD, IE, vol. 174, no. 5, 15 February 2008 (2008-02-15), pages 519 - 523, XP022572029, ISSN: 0168-9452
TIAN XIU-HONG ET AL: "OsDREB4 genes in rice encode AP2-containing proteins that bind specifically to the dehydration-responsive element", JOURNAL OF INTEGRATIVE PLANT BIOLOGY, vol. 47, no. 4, April 2005 (2005-04-01), pages 467 - 476, XP002545376, ISSN: 1672-9072
Claims
1. An isolated polynucleotide selected from the group comprising:
(a) polynucleotide consisting of a sequence selected from the group comprising SEQ ID 5 NO.1 to SEQ ID NO.4, SEQ ID NO.35, SEQ ID NO.36, SEQ ID NO.38 to SEQ ID
NO.40, SEQ ID NO.43, SEQ ID NO.49, SEQ ID NO.50, SEQ ID NO.52, SEQ ID NO.53, SEQ ID NO.57, SEQ ID NO.59, SEQ ID NO.61 to SEQ ID NO.65, SEQ ID NO.67, SEQ ID NO.80 to SEQ ID NO.82, SEQ ID NO.90 to SEQ ID NO.97, SEQ ID NO.100, SEQ ID NO.102, SEQ ID NO.108, SEQ ID NO.111 , SEQ ID NO.
0 114, SEQIDNO.116, SEQIDNO.117, SEQIDNO.120, SEQIDNO.124, SEQ ID
NO. 125, SEQ ID NO. 128, SEQ ID NO. 129, SEQ ID NO. 133, SEQ ID NO. 134, SEQ ID NO. 136 to SEQ ID NO. 138, SEQ ID NO. 140, SEQ ID NO. 142, SEQ ID NO. 150, SEQ ID NO.152, SEQ ID NO.154 to SEQ ID NO.156, SEQ ID NO. 161, SEQIDNO.166, SEQIDNO.167, SEQIDNO.172, SEQIDNO.174, SEQIDNO.
5 184, SEQ ID NO. 194 to SEQ ID NO. 196, SEQ ID NO.200 to SEQ ID NO.206,
SEQ ID NO.210, SEQ ID NO.212, SEQ ID NO.214 to SEQ ID NO.220, SEQ ID NO.223 to SEQ ID NO.227,
(b) a polynucleotide consisting of a sequence having at least 70%, preferred 80%, more preferred 90% especially preferred 98% sequence identity to a sequence selected from
!0 the group comprising SEQ ID NO.1 to SEQ ID NO.4, SEQ ID NO.35, SEQ ID NO.
36, SEQ ID NO.38 to SEQ ID NO.40, SEQ ID NO.43, SEQ ID NO.49, SEQ ID NO.50, SEQ ID NO.52, SEQ ID NO.53, SEQ ID NO.57, SEQ ID NO.59, SEQ ID NO.61 Io SEQ ID NO.65, SEQ ID NO.67, SEQ ID NO.80 to SEQ ID NO.82, SEQ IDNO.90toSEQIDNO.97, SEQIDNO.100, SEQIDNO.102, SEQIDNO. 108,
:5 SEQIDNO.111,SEQIDNO.114, SEQIDNO.116, SEQIDNO.117, SEQIDNO.
120, SEQIDNO.124, SEQIDNO.125, SEQIDNO.128, SEQIDNO.129, SEQID NO.133, SEQ IDNO. 134, SEQIDNO. 136 to SEQ ID NO.138, SEQ IDNO.140, SEQ ID NO. 142, SEQ ID NO. 150, SEQ ID NO. 152, SEQ ID NO. 154 to SEQ ID NO. 156, SEQ lD NO. 161, SEQ ID NO. 166, SEQ IDNO. 167, SEQ IDNO. 172,
0 SEQ ID NO. 174, SEQ ID NO. 184, SEQ ID NO. 194 to SEQ ID NO. 196, SEQ ID
NO.200 to SEQ ID NO.206, SEQ ID NO.210, SEQ ID NO.212, SEQ ID NO.214 to SEQ ID NO.220, SEQ ID NO.223 to SEQ ID NO.227,
(c) a polynucleotide of (a) and/or (b), wherein said sequence is modified, to alter an abiotic stress tolerance of a plant, preferred drought tolerance. 5
2. A nucleotide construct comprising a polynucleotide of claim 1, wherein said polynucleotide is operably linked to a promoter that drives expression in a plant cell.
3. The nucleotide construct of the preceding claim, wherein said promoter is a constitutive promoter.
5 4. The nucleotide construct of at least one of the preceding claims, wherein said promoter is a tissue-preferred promoter.
5. The nucleotide construct of any of the preceding claims, wherein said promoter is an inducible promoter.
10
6. The nucleotide construct of at least one of the preceding claims, wherein said promoter is a stress-inducible promoter.
7. A polypeptide encoded by a polynucleotide and/or a nucleotide construct of at least one of the 15 preceding claims.
8. The polypeptide of the preceding claim, wherein said polypeptide is a transcription factor.
9. A vector comprising the polynucleotide and/or the nucleotide construct of any of the preceding 10 claims.
10. The vector of the preceding claim, wherein the vector is a viral expression vector, a phage display vector, a bacterial expression vector, a yeast expression vector, a mammalian vector, an vector for expression in insects cells, a vector for in-vitro expression, a fungus expression
.5 vector, an algae expression vector or a plant expression vector.
1 1. A host cell comprising a polynucleotide of claim 1 , a nucleotide construct of at least one of the claims 2 to 6, a polypeptide of the claim 7 or 8 and/or a vector of claim 9 or 10.
$0 12. The host cell of the preceding claim, wherein the host cell is selected from the group comprising a bacterial cell, a yeast cell, a fungus cell, an algae cell, an mammalian cell, an insect cell and/or a plant cell.
13. A transgenic plant cell having stably incorporated into its genome at least one nucleotide 55 construct comprising a polynucleotide according to claim 1 , operably linked to a promoter that drives expression in said cell.
14. A transgenic plant comprising at least one polypeptide of claim 7.
15. A transgenic plant having an altered tolerance to abiotic stress, preferred drought stress, compared to a wild-type plant, wherein the transgenic plant comprises at least one modified polynucleotide of claim 1, wherein the modified polynucleotide is selected from the group comprising an overexpressed polynucleotide, a suppressed polynucleotide and/or a knocked out polynucleotide.
16. The transgenic plant of claim 15, wherein the transgene comprises a polynucleotide sequence that hybridizes under stringent conditions to the complement polynucleotide of claim 1.
17. The transgenic plant according to any of the preceding claims, wherein said plant is a crop plant or a monocot or a cereal, such as maize, wheat, barley, millet, rye, sorghum, oats, preferred rice.
18. The transgenic plant according to any of the preceding claims, wherein the transgenic plant is a cultured host cell.
19. A seed produced from the tiarisgenic plant according to any of the preceding claims.
20. A transformed seed of the transgenic plant of any of the preceding claims.
21. A method for producing a plant according to any of the preceding claims, said method comprising the steps of: transforming a target plant with an expression vector comprising a polynucleotide of claim 1, encoding a transcription factor polypeptide.
22. A method for producing a plant according to any of the preceding claims, said method comprising the step of: suppressing a the expression level of polynucleotide of claim 1 or a polypeptide of claim 7 or
23. The method of the preceding claim, wherein the transformed plant has a morphology that is substantially similar to a control plant.
24. A method for altering a plant stress response, said method comprising stably introducing into the genome of a plant at least one nucleotide construct comprising a polynucleotide operably linked to a promoter that drives expression in a plant cell, wherein said polynucleotide is selected from the group comprising:
(a) polynucleotide consisting of a sequence selected from the group comprising SEQ ID NO. 1 to SEQ ID NO. 4, SEQ ID NO. 35, SEQ ID NO. 36, SEQ ID NO. 38 to SEQ ID NO. 40, SEQ ID NO. 43, SEQ ID NO. 49, SEQ ID NO. 50, SEQ ID NO. 52, SEQ ID NO. 53, SEQ ID NO. 57, SEQ ID NO. 59, SEQ ID NO. 61 to SEQ ID NO. 65, SEQ ID NO. 67, SEQ ID NO. 80 to SEQ ID NO. 82, SEQ ID NO. 90 to SEQ ID NO. 97, SEQ ID NO. 100, SEQ ID NO. 102, SEQ ID NO. 108, SEQ ID NO. 1 1 1 , SEQ ID NO. 1 14, SEQ ID NO. 1 16, SEQ ID NO. 1 17, SEQ ID NO. 120, SEQ ID NO. 124, SEQ ID NO. 125, SEQ ID NO. 128, SEQ ID NO. 129, SEQ ID NO. 133, SEQ ID NO. 134, SEQ ID NO. 136 to SEQ ID NO. 138, SEQ ID NO. 140, SEQ ID NO. 142, SEQ ID NO. 150, SEQ ID NO. 152, SEQ ID NO. 154 to SEQ ID NO. 156, SEQ ID NO. 161 , SEQ ID NO. 166, SEQ ID NO. 167, SEQ ID NO. 172, SEQ ID NO. 174, SEQ ID NO. 184, SEQ ID NO. 194 to SEQ ID NO. 196, SEQ ID NO. 200 to SEQ ID NO. 206, SEQ ID NO. 210, SEQ ID NO. 212, SEQ ID NO. 214 to SEQ ID NO. 220, SEQ ID NO. 223 to SEQ ID NO. 227,
(b) a polynucleotide consisting of a sequence having at least 70%, preferred 80%, more preferred 90% especially preferred 98% sequence identity to a nucleotide sequence of
(a),
(c) a polynucleotide of (a) and/or (b), wherein said sequence is modified.
25. A method of any of the preceding claims, wherein the method improves the plant stress tolerance, preferred drought tolerance.
26. A method for improving the yield of a plant, comprising stably incorporating into the genome of said plant at least one nucleotide construct comprising a polynucleotide operably linked to a promoter that drives expression in a plant cell, wherein said polynucleotide is selected from the group comprising:
(a) polynucleotide consisting of a sequence selected from the group comprising SEQ ID NO. 1 to SEQ ID NO. 4, SEQ ID NO. 35, SEQ ID NO. 36, SEQ ID NO. 38 to SEQ ID NO. 40, SEQ ID NO. 43, SEQ ID NO. 49, SEQ ID NO. 50, SEQ ID NO. 52, SEQ ID NO. 53, SEQ ID NO. 57, SEQ ID NO. 59, SEQ ID NO. 61 to SEQ ID NO. 65, SEQ ID NO. 67, SEQ ID NO. 80 to SEQ ID NO. 82, SEQ ID NO. 90 to SEQ ID NO. 97, SEQ ID NO. 100, SEQ ID NO. 102, SEQ ID NO. 108, SEQ ID NO. 1 1 1 , SEQ ID NO. 1 14, SEQ lD NO. 1 16, SEQ ID NO. 1 17, SEQ ID NO. 120, SEQ ID NO. 124, SEQ ID NO. 125, SEQ ID NO. 128, SEQ ID NO. 129, SEQ ID NO. 133, SEQ ID NO. 134,
SEQ ID NO. 136 to SEQ ID NO. 138, SEQ ID NO. 140, SEQ ID NO. 142, SEQ ID
NO. 150, SEQ ID NO. 152, SEQ ID NO. 154 to SEQ ID NO. 156, SEQ ID NO. 161,
SEQ ID NO. 166, SEQ ID NO. 167, SEQ ID NO. 172, SEQ ID NO. 174, SEQ ID NO. 184, SEQ ID NO. 194 to SEQ ID NO. 196, SEQ ID NO. 200 to SEQ ID NO. 206,
SEQ ID NO. 210, SEQ ID NO. 212, SEQ ID NO. 214 to SEQ ID NO. 220, SEQ ID
NO. 223 to SEQ ID NO. 227,
(b) a polynucleotide consisting of a sequence having at least 70%, preferred 80%, more preferred 90% especially preferred 98% sequence identity to a sequence of (a), (c) a polynucleotide of (a) and/or (b), wherein said sequence is modified. |
Transcription factors involved in drought stress in plants
Background
Environmental stress, for example drought, water-deficit or extreme temperatures, represent a few of 5 the major factors that affect plant growth, survival, and productivity. Droughts, extreme temperature or light fluctuations can be devastating to crop and ornamental plants, resulting in financial losses.
In the natural environment, plants often grow under unfavourable conditions, such as drought, high salinity, freezing, high temperature, flooding, or strong light. Any of these abiotic stresses can delay
10 growth and development, reduce productivity or cause the plant to die. In general, tolerance to abiotic stress is associated with a host of morphological and physiological traits; these include root structure, shoot architecture, variation in leaf cuticle thickness, stomatal regulation, osmotic adjustment, antioxidant capacity, hormonal regulation, desiccation tolerance e.g. via membrane and protein stability, maintenance of photosynthesis, or the timing of events during reproduction
15
Low water availability, which in a severe form is referred to as a drought, is a major factor in crop yield reduction worldwide. A drought is a period of dry weather that persists long enough to produce a hydrologic imbalance, which can result, for example, in wilting, senescence, and general crop damage. Short periods of dry weather can also lead to hydrologic imbalances of economic importance. In
-0 severe cases, drought can last for several years and can have devastating effects on agriculture.
Abiotic stress is the most harmful factor concerning the growth and productivity of crops worldwide. The most obvious detriment concerning abiotic stress involves farming and agriculture. It has been claimed by one study that abiotic stress causes the most crop loss of any other factor and that most 55 major crops are reduced in their yield by more than 50% from their potential yield. It is expected that this yield reduction will only worsen with the dramatic climate changes expected in the future.
Abiotic stress is essentially unavoidable and affects animals, but plants are especially dependent on environmental factors, so it is particularly constraining. Generally, under drought stress plant water
SO and osmotic potential become more negative and, as a primary response to minimize water loss, stomata close leading to a reduction of the transpiration rate. Such physiological responses changes can be observed within hours after the onset of drought stress. Problems for plants caused by low water availability or drought include for example mechanical stresses caused by the withdrawal of cellular water. Damaging molecules such as free radicals and reactive oxygen species, which are i5 usually produced under abiotic stresses, destroy the integrity of a cell which is a major damage for the cell. Drought also causes plants to become more susceptible to various diseases.
A plant's first line of defense against abiotic stress is in the roots. If the soil holding the plant is healthy and biologically diverse, the plant will have a higher chance of surviving stressful conditions. Plants are extremely sensitive to changes of conditions, and do not generally adapt quickly. Plants also adapt very differently from one another, even from a plant living in the same area. When a group of different plant species was prompted by a variety of different stress signals, such as drought or cold, each plant responded uniquely. Hardly any of the responses were similar, even though the plants had become accustomed to the exact same home environment.
Breeding of stress-tolerant crops is one approach to these problems, but conventional breeding is a very slow process for generating plant varieties with improved tolerance to stress conditions.
Additional problems encountered in conventional breeding are limited germplasm resources for stress tolerance and incompatibility in crosses between distantly related plant species. Because individual plants react so differently to similar abiotic stress factors, it is also be difficult to breed a species for more than one resilient trait at a time. Recent progress in plant genetic transformation and the availability of potentially useful genes characterized from different sources have made it possible to generate stress-tolerant crops using transgenic approaches.
For resisting or adapting to disadvantageous environmental factors, plants receive extracellular changes of environmental conditions and transfer them through many pathways into cells to induce expressions of some responding genes and generate some functional proteins, osmoregulation substances as well as transcription factors for signal transmission and gene expression regulation. Thus plants are able to make corresponding responses to environmental changes and avoid damages for example caused by drought. The regulating factors regulate the expression of functional genes for responding environmental changes. Regulating factors, like transcription factors can modulate gene expression, either increasing or decreasing (inducing or repressing) the rate of transcription. When plants encounter stresses, transcription factor as a controlling gene is able to regulate the expression of a series of downstream genes to enhance the tolerance of plants to the stresses.
Transcription factors are key controlling elements of biological pathways, therefore altering their expression levels can change entire biological pathways in an organism. For example, manipulation of the levels of selected transcription factors may result in increased expression of economically useful proteins or biomolecules in plants or improvement in other agriculturally relevant characteristics.
Conversely, blocked or reduced expression of a transcription factor may reduce biosynthesis of unwanted compounds or remove an undesirable trait. Therefore, manipulating transcription factor levels in a plant offers tremendous potential in agricultural biotechnology for modifying a plant's traits, including traits that improve a plant's survival and yield during periods of drought and other abiotic stresses.
So far abiotic stress, particularly low water availability or drought, is a major problem for agriculture. Breeding of more resistant plants is to slow and time consuming.
5 Therefore it was an object of the invention to identify polynucleotides, preferred coding transcription factors, whose modification results in an altered stress tolerance in plants.
Description 0 The present invention relates to an isolated polynucleotide capable of giving a plant tolerance to abiotic stress, particularly drought stress, which consists of a polynucleotide sequence selected from the group comprising SEQ ID NO. 1 to SEQ ID NO. 230. The present invention also relates to an expression vector comprising the said polynucleotide and/or a promoter capable of giving a plant tolerance to abiotic stress, particularly drought stress, and to a host cell transformed or transfected by
15 the said expression vector. The present invention further relates to a use of said polynucleotide or promoter sequence in improvement of plant tolerance to abiotic stress, particularly drought stress.
Before the embodiments of the present disclosure are described in detail, it is to be understood that unless otherwise indicated the present disclosure is not limited to particular materials, reagents, 20 reaction materials, manufacturing processes, or the like, as such may vary. It is also to be understood that the terminology used herein is for purposes of describing particular embodiments only, and is not intended to be limiting. It is also possible in the present disclosure that steps may be executed in different sequence where this is logically possible.
25 SEQ ID NO. 1 LOC_Os01g07120 1 ATGCTGTITCGATTTGTGTCTTGCAATGTTCAGCTTTGTGGAATTATTGAGTTACCTCAT TGGGTCAGGAAGA
CTGCGCATGCATACGATGAGGCGGCAAGGGCAATGTATGGTCCCACAGCACGTGTCA ATTTTGCAGATAATTCCACAGATGCCAACTCTGGCTG
CTTGAAACGTGTTTGTCAGGAGCGG AAGAATATGGAGGTATGTGAATCAGAAGGGATCGTTTTACACAAAGAAGTGAACATAAGT TATGATTAT
AACATAAGTT ATG
TCGTGGATTCACAACTAAGAAATAAAGCAAGTGTTGTTTTTGGACAGCCTGAGGCTC CTGGTGAGGTTGTGAGCTTGAAGAGAGACCGTGCAGC
AGGCAACAGCAGACCATCGGCTTCTTTGCCAAGGTACTCACCAACCCGGCTTTCGTG CAGCAGGTTCTACTCAACTATGTGAATAAGAATGGCCT
SEQ ID NO. 8: LOC_Os01g4359
GTGGACGACGGAGCATCATCATCATCATCATCATCAGATGAAGCCCATGACGGTGTT GCCATCCTTGGAGCCGCCCACCGCTAGCTGCGGCGTG GTCAAGCTTTCTTTTAA SEQ ID NO. 9 LOC_Os01g435902 ATGGACGGGCTGCACACGGAGCTCGCGCTGGGGCTGATCGGGTGCTGCGGCGGC
TCGTGCGCCGCAAGAAGCGTGGCGAGGGCGGCGGTGGCGGTGGCGGCGCGTCCTGCT CTTTCGGTGGCGGCGCCGGCGAGCACCAGGTGGCTGC
GCACTAGTATAG SEQ ID NO. 11 LOC_Os01g53220 1 ATGATGGGCGGCGAGTGCAAGGTCCACCAGCTCCAGGCCGCCGGCGACGGGGGCCCAG CCTCGTGCTCGACCCCGCCGCCTTCTCCGACTTCCTCCTCCCCTCCTACTTCAAGCACCG
CAACTTCGCCAGCTTCGTCCGGCAGCTCAACACCTA
TGCCGTTCCCGTTCTCTGTTCTTGGCCAAGTGTTCTACTAG SEQ ID NO. 12 LOC_Os01g53650 1 ATGGCATACGAGACGTCGTCTGACCACCAGC
CCGGGTGCCCGTTCGCGCACGGGACCTTCGAGACGTGGCTGCACCCGTCGCGCTACC GCACGCGGCCGTGCCGCTCCGGCATGCTGTGCGCTCGC CGCTCCAAAAACGGACATGTTACAGCAGGAGCTGGAAGAGGACGCTCCGGAACTGGGATG GGTGTCTGACCTGTTGATGTGA SEQ ID NO. 13 L
GACTTCTTGATCCACCACCACCTAAGGACAGACTTCCGGCCGCCCATCTAG SEQ ID NO. 14 LOC_Os01g55430 1 ATGGTTCCGTGGCGCCGCTC
GAGTCCGGG AAGATCACGTTCCCCTCCTCATTGAAGCAGCCTGGACCAAGGGACGCACCAATGCAGTGT TTCATCAAGAGGAACAAGAAAAACT CATTCGTGATTGGCAACCACCATATGAAGGTGCTAAGGCGTTCAGCAGCAGATCCGGTCG CTGGTTTGGAAACAAACACAGATGCCCACTGGTT
15 LOC_Os01g554302 ATGGTTCCGTGGCGCCGCTCCTCC
CTTTTTCCTATATCTTGGATTAACACAAGAACTAACAGATGATGAGAAATTTCTGTT GGCGGCTCGGAGGTGCAGGCGTGGGTTGCATAAGGAAT
GTTTCCA CGGGTGATGTAGAAGTTGGAGAGGTATCCTATAAATACAGTTTACTCAGACCAAGAGGTC CAAGAAGAATGAGCTGCAGTGTTCAGTGTCCCGT
CATGAGCATCTTCAGTGCTGGTGCTTGAATTTTCACGGCCGGGTT ATGGTTGCATCTGTGAAGAACTTCCAGCTTATTGCTCCAGTCGAACCAGG GGAGCCGTCGGATAAGACAGT AGTACTGCAGTTTGG AAAAATTGACGATGACGTTTTT ACAATGGACTACCGGCAGCCTCTGTCGGCATTCCAG 1 ATGATACTAGGAAGCAACCAAGCGGC
TGGGGAGGTTCCCCGCCGGTGGCTACCACCGGTTCATGGGGCTGA AC AACCCCCTGGGGλTGG I CAACAGCGCCGCCGGCGCCGCCATGCCGTT CCACTACGCγGGTGλCTCATGGAATAATOGCAGCGTGCAAGACAGCGGCGCCGGCTCG CCGCAGGTGGCCGCCGCCGCGGCTCACCACACCTCG CCGTTCCCTTCACTGCTTTCCTTGGCTCCAGGGCCGCATCATCAGCTGGTGTTCTACTCC TCCGAGGCCGAGCAGTTCACAGTAGACAACCTTGGC SEQ ID NO. 17 LOC_Os01g557502 ATGATACTAGGAA
TCACCACACCTCGCCGTTCCCTTCACTGCTTTCCTTGGCTCCAGGGCCGCATCATCA GCTGGTGTTCTACTCCTCCGAGGCCGAGCAGTTCACAGT SEQ ID NO. 18: LOC_Os01g557503
AGCAGTTCACAGTAGACAACCTTGGCTCGCAGGGCTTGTCCCTGAGCTCGGCGAGAG CTTTCCATGATCAGACAGGAAGCTAA SEQ ID NO. 19:
LOC_Os01g58420 1
GGAGCCGGGGGT(
TGGCTCGGTACCTACGACACGGCAGAGGAGGCCGCCCGCGCCTACGACGCCGCCGCT CGAGAGTTCCGGGGTGCCAAGGC AAAAACAAACTTTC
SEQ ID NO. 20: LOC_Os01g60490 1 ATGGTTAAGA
TGCAGAATCAGCTGGTAATAATAGCGCCGCTGCTTTGCCGGTAAACAGGCCGCCGCC GGCGGTGGCCAGAAGCGACCATTACAGCTGCAGCTAT TTTGGCTTGGCTCAAAGAATCCACGCACACTGGTTGA SEQ ID NO. 21: LOC_Os01g60600 1 ATGCAGGCGCAATCCCGCCTCGCTGCTGCCGCGA
GAGGCGACGCCGCCGCCGCCGCCGCGTGCCGGGACGGGG AACTAATGCCACCTGCCGTCATCAACTCCGGCGCGTCGAGCTTCGCCGCCGCTTG
CAGCTTCGACTGGGAATTCGTCATCAACTCCCTCTGA SEQ ID NO. 23 LOC_Os01g63980 1 ATGAGGATGGGGCTGCGGACCTGCAGCGCCATGG AAGGTGAGGTCGTCGCCGCCTCGCCrπCTTCGAGTGGCTCAAGCCACCGCCGCGGCCGG
CGTCATCCTCGTCGTGGTCGTCGTCTTTCTCCTCGT
GCCGGTATTGGATCCCGACGCCGGCGCAGATCCTCGTCGGCCCGGTGCAGTTCATCTGCC
ATGTCTGTAACAAAACCTTC AACAGATACAACAAC
GAATCCGCCGCCGCCGCCGCCACCACCCCCGCCGACAAAGACCGCATCATAAGCTTCCAA
CGGTGA SEQ ID NO. 24 LOC_Os01g64020 1 ATGG CCATGCTrCTCCTTCrGTTGCTGCTGCACCACCT-GCCAGCrTCTTGGACTTCCAGCCTG
CTGCCGCGGCAGCTGCCTACTTCGGCGAGCTGGAGGA
TGCAAAACCTAGAGACCAGCAGGGTCAGGCTTCAGCAGATCGAGCAAGAACTCCAAA GAGCACGGTCACAGGGCCTGTTTCTTGGGGGGTGCA 1 f\
CAACTACATGAGCCTCATGGCCATCGCCCTGGACAAGCTCGCCAGCCTCG.^.λGC TTCTACCAGCAUGCTGACAATCTGAGGCAACAAACGTTG +5 CATCAGrTGCGGCGGATTCTAACAACCCGGCAGGCGGCTCGGTGTTTCCTCTCCATTGGG GAGTATTACCGCCGCCTCCGTGCTCTCAGCAACCT
AATCAGTACTCAGGATTTTGA SEQ ID NO. 25 LOC Os01g640202 ATGGTGCAAGGTGAGGAGAGTTCTTGGAGGATGGCAGCAAGCACCCACC ATGAGAGAGC AATACCrCTCAACCAAGCACTTGCTTATGGAGTCCAAGCCCATGCTTCTCCTTCTGTTGC TGCTGCACCACCTGCCAGCTTCTTGG ACTTCCAGCCTGCTGCCGCGGCAGCTGCCTACTTCGGCGAGCTGGAGGAGGCCCTCATCC ATGGCGCCAACGCCGGCGGCGTCGTCGATCCCGG )0
ACCACTGATGATTACAGCTACAAGCCAGGCCTCGCTGCTGCCTCCCCAAGCTTTCAG CAGCAGCATCAGCTCCAGCACCACCAGCAGCAGCAGC GCAAGAACTCCAAAGAGCACGGTCACAGGGCCTGTTTCTTGGGGGGTGCAGAGCAGCAGG CGACATGAGTTCTGGCGCGGCCATGTTCGACATG
SEQ ID NO. 26: LOC_Os01g64310 1 ATGGCCGACG
TAGAGATTAG SEQ ID NO. 27 LOC_Os01g64360 1 ATGGATTTGTACGGCGCGGCGGCGGGCGGGGGACCGGTGGCGAGGCGACCGTGGAGCAA CACGCCGCAGGAGGCCTTGGAGCACTACCAGGTGCTCGTCGCCGACATCGATCTCATCAT GCGCGGCGCCGTCGACGCCCCCGGGTCCTGGGAC
SEQ ID NO. 29 LOCJDsOl
SEQ ID NO.30
AGCTCAACTTCCCCGAGGACGCGCGCCTCTACCCGACCGCCGCCACCACCACCACCGCGG
CGCCGCCCCCGGCGCCGGTCGCGGCGGCATCGCC
AGCTATCACCACCACCCGCCGCCGCCGCACACGCAGTAG SEQ ID NO. 31 LOC_OS01G65080 1 ATGGACAGTGGCTTGGGAAGAAGTTCAGAGA CCATGTTTTGCAAGACCTGGTCAATCGTTCCCTGCRRTTRCCTCCACTCTTRGGGGTTCA GTCTTCCAGCRTGTATTTACCTGATGACATTGAAG
CAGCTTGTCACTGCTGATCTCACITGTATTATAATTCAGCTTATTTCAACAGCTGGT γCCTTGCTTCCTTCGATGAAGAACCCAATCAGCAGCAAC CCGGCACTCAGACATCTCAGTAACACACTTTGTGCTCCTATGATCCTGGGCACCAATTGT AACCTGCGACCAAGCGCAAACGACGAAGCCACAA
GGGTCTTATGTAGTATTGC AATTAGAGAAGGAGGAGATTTTAGCACCACATACTCACTTCTGCTTGATCTGTGGCAAGG GTTTTAAAAGAGATGC
TAATCTTAGGATGCACATGAGGGGCCATGGAGACGAGTACAAAACTGCTGCAGCTCT TGCGAAACCTTCGAAAGATTCTAGCTTAGAGTCTGCA
^TCCTGTGTGTGAAGA ^CTTGAAGACTCATGA
AAAGCACTGTGGCCGCGACAAGTGGCTATGCTCGTGTGGAACTACCITCTCAAGAAA AGACAAGTTATTTGGGCATGTTGCγCTTTTCCAAGGGC
CTGGGTATAACTTCCCCGGTAGCTCATCGGACGACATCCCAAATCTTGACATG AAGATGGCTGATGATCCACGCTATTTCTCGCCATTGAGCTTT
GGGCAGCAGAACGGAGACAGCTGA SEQ ID NO. 32 LOC_OsO!g650802 ATGGACAGTGGCTTGGGAAGAAGTTCAGAGACATCCTTGAAAGCC ACCTGGTC AATCGTTCCCTGCTTTTCCTCCACTCTTTGGGGTTCAGTCTTCCAGCTTGTATTTACCTG ATGACATTGAAGCTAAAATCGGTAACCA
TGATCTCACTTGTATTATAATTCAGCTTATTTCAACAGCTGGTTCCTTGCTTCCTTC GATGAAGAACCCAATCAGCAGCAACCCGGCACTCAGACA TCTCAGTAACACACTTTGTGCTCCTATGATCCTGGGCACCAATTGTAACCTGCGACCAAG CGCAAACGACGAAGCCACAATTCCTGACATTAGCA
TTGCAATTAGAGAAGGAGGAGATTTTAGCACCACATACTCACTTCTGCTTGATCTGT GGCAAGGGTTTTAAAAGAGATGCTA ATCTTλGGATGCA
CATGAGGGGCCATGGAGACGAGTACAAAACTGCTGCAGCTCTTGCr 1 AA- A CCTTCGAAAGATTCTAGCTTAGAGTCTGCACCAGTTACAAGGTAC
TCGTGCCCATA TGTTGGCTGCAAGCGG AAUAAAGAGCACAAGAAGTTCCAGCCTCTCAAGACAATCCTGTGTGTGAAGAACCACT ACAAGAGAA CGACAAGTGGCTATGCTCGTGTGGAACTACCTTCTCAAGAAAAGACAAGTTATTTGGGCA TGTTGCTCTTTTCCAAGGGCACACGCCTGCACTCC
CCGGT AGCTCATCGGACGACATCCCAAATCTTGACATGAAGATGGCTGATGATCCACGCTATTTC
TCGCCATTGAGCTTTGATCCTTGCTTCGGTG GGCTTGATGACTTCACTCGACCTGGATTTGACATCTCTGAGAATCCCTTCTCCTTCTTGC
CCl CAGGATCATGCAGCTTCGGGCAGCAGAACGGA GACAGCTGA SEQ ID NO. 33 LOC_Os01g65080 3 ATGGACAGTGGCTTGGGAAGAAGTTCAGAGACATCCTTGAAAGCCTTGCCATCAATGGCA
A GTAATGC AACAAGG AATACTGATCCTGACCAACAGGGTGTTCGATTCAGTTCCATGGACCAGCCTCCATGTTTT
GCAAGACCTGGTC AATCGTTC CCTGCTTTTCCTCCACTCTTTGGGGTTCAGTCTTCCAGCTTGTATTTACCTGATGACATT
GAAGCTAAAATCGGTAACCAGTTCGAATCAAATCCT TCCCCGAATAATCCTACAATGGATTGGGACCCTCAGGCAATGCTGAGC AACTTATCCTTCCTTGAGCAGAAGATC AAGCAGGTAAAAGACATCG
AGGAGGAGATTTTAGCACCACATACTCACTTCTGCTTGATCTGTGGCAAGGGTTTTA AAAGAGATGCTAATCTTAGGATGCACATGAGGGGCCAT GGAGACGAGTACAAAACTGCTGCAGCTCTTGCGAAACCTTCGAAAGATTCTAGCTTAGAG TCTGCACCAGTTACAAGGTACTCGTGCCCATATGT
TGCTCGTGTGGAACTACCTTCTCAAGAAAAGACAAGTrATTTGGGCATGTTGCTCTTTTC
CAAGGGCACACGCCTGCACTCCCTATGGATGATAT SEQ I
TTGGGTGCTGTGCCGGATTTACAACAAGAAGGGCGGGCTGGAGAAGCCGCCGGCCGC GGCGGTGGCGGCGGCGGGGATGGTGAGCAGCGGCGG
SEQ ID
EQ ID NO. 36 LOC_Os01g661203 ATGGCGCTGTACGGAGAGAAGGAGTGGTACTTCTTCTCCCCGCGAGACCGCAAGTACCCG AACGGGTCGCG
SEQ ID NO. 38 LOC_Os02g084402 ATGGGCGCG
SEQ ID NO 40
ATAA SEQ ID NO.42 LOC_Os02g09830 1 ATGCAGCATGATGCCATATCCAACATTGCATACCATCCTAGCATGGATTTCACAAGCTTT TTCCTGC
GATGAAAATGGAAGATGCTGAAGTAGCTGCTGCTGCTGCTGCAGCACCACGAACATT AGAAGTAGCTTAA SEQ ID NO 43 LOC_Os02gl3800 1
50 ATCGCCTGGGGCAGGGACAGCAACAGCTTCGTCGTCGCCGACCCCTTCGCCTTCTCCCAG ACCCTCCTCCCCGCCCACTTCAAGCACTCCAACTT
CTCCAGCTTCGTCCGCCAGCTCAACACCTACGGGTrTCGCAAGGTTGATCCGGACAGGTG
GGAGTTCGCGCACGTGTCGTTCCTGCGCGGCCAGA
CGACGACGGAGCACAGGACGACTGACCAAACTACTGGAAGATTGCTCTAG SEQ ID NO. 48 LOC_Os02g31890 1 ATGTCACACACATCAGAGGA
15 AGACGAGGTCACCCAGGAAACCCAGATCCAGATGTTGAGGTCGTAGCTTTGTCACCTAAG ACACTCCTGGCAACAAACAGGTATATATGCGAGG AAGCTAAGAAGAAGGTGTATGTCTGCCCTGAGATTACCTGCCCTCATCATGATGCAACCC GAGCTTTGGGCGATCTCACAGGCATTAAGAAACA
20 ATGTGGCACCAAGGAGTACCGATGTGACTGTGGGACAATCTTCTCAAGAAAGGATAGTTT
CATCACACACCGAGCCTTCTGTGATGCATTAGCTG AAGACACTTCTAGGGTTAACCACAGCCTGGCAACAATGGTTCKJAAGTCγGCACGGTCA
ACAGCAAGATATGTTTTCACATGGAGTGCCTAGCTT
AGGTACTGTGCCTTT AATTGGACT AATGAACCATCCATTTTCCATGAGAGAAGAAAAGGATAACCCTAGCATTTTCCCTG AAAACCAGACACAG
(VCTTTGGATA CCATCAGTC
30 ATCTCTTGACCCCACTGCATTGGAAAAACCCATTTGGGATTCTTAA SEQ ID NO.49 LOC_Os02g32590 1 ATGGACCACAACACCGACCCTCCTC
CGCGCGACGTGCTCCCCCACCACTTCAAGCACAACAACTTCTCCAGCTTCGTCCGGC AGCTCAACACCTATGGTTTTCGCAAGGTTCATGCTGAT 35 AGATGGGAGTTTGCTCATGAGGATTTCCTACGACATAGCAAACATTTGTTGAAGAAGATT GTCCGGCGCAGGTCCTCACCAACACAACAAAGTG
GTCTTC/ GCTGAAi TTTCTTC
40 CCTGGACCrTCCAGCCACGCACAGTGACATCITAGACCTTCAGAATTrTCTTTTGGAAGA TGGGGACCTCAATCTTGCCATGCTGCCAGAGAACA
TAGGACTTGATGGAATCGAAGCACCAGACGACATCGGGGCGTTGGTTCAGGGATTTG ACACACAGGAGG AACTTGAGCTTGGTAGCGGAGTTGA
CTACCTCTTCTGAAGCTGATTGCCTCGGATCATTTTCTGACAATATGGGGATGCTTT CTGACTCCATGTTACAAACAGCC.γ.C.TA.δ.δTTCATGGATG
CAGATGATGACGAGCGAATTTGGGGCGTCGATC.γTTCGTCCCCTTTACAAAGTTC TTOLAGTGGCACTAGTCAGCAAGCAT ATGGTAGTCTTGTT
4-5 AGTGATCCCTA 1 CTG ATGGAGATGGCTAATAAGCCTG AAAAATTCTGGGAGCTCGATTTTCAGGCACTGGATGATGGAG ATCTGCAGCTGGACA
AGTGTGTTATCGATGACCCTGCTCTTCAGCAACAGAGAGGAAATATGAATTCGTAG SEQ ID NO. 50 LOC_Os02g325902 ATGGACCACAACAC
50 CCTCCGCCTTCGCGCGCGACGTGCTCCCCCACCACTTCAAGCACAACAACTTCTCCAGCT TCGTCCGGCAGCTCAACACCTATGGTTTTCGCAAG
ACAACAAAGTGGTCTTCAGCCTGGCTCTTCTGGTGAATCCGGTTTAGACCCTGAACT CAACACACTGAGAAGGGAGAAGAGTGCATTGCTTCAG
GAGGTGACCAGGCTG
CAGATGGTCTCTTTCT
55
GGGCGTTGGTTCAGGGATTTGACACACAGGAGG AACTTGAGCTTGGTAGCGGAGTTGAGCTACTGGAAATACCTCCAGCTTCTGGTCCTCGTG G CTGACAATATGGGGATGCTTTCTGACTCCATGTTACAAACAGCGGGTAAATTGATGGATG CAGATGATGACGAGCGAATTTGGGGCGTCGATGC
50 CTGAAAAATTCTGGGAGCTCGATTTTCAGGCACTGGATGATGGAGATCTGCAGCTGGACA AGTGTGTTATCGATGACCCTGCTCTTCAGCAACAG AGAGGAAATATGAATTCGTAG SEQ ID NO. 51 LOC_Os02g35600 1 ATGGACGAGGGAGGCGGCGCTGGTGCTGCGGCTGCCGCCGCCGGGAAC
ACCACCGATGTGGAGAAGTTCTACCGGCAGTGCGACCCCGAGAAAGAGAACCTGTGC CTTTATGGATTGCCCAATGAGACCTGGGACGTGACCC TTCCAGCTGAGGAAGTACCTCCTGAACTTCCAGAACCAGCACTGGGCATAAACTTTGCTC GTGATGG AATGATCGAAAAAGATTGGTTGTCGCTG
55 GTγGCAGTTCATAGCGATGCATGGCTACTGTCTGTAGCATTTTACTTTGGGGCTCGCTT TGGATTTGATAAGGAAGCCAGGAGACGGCTCTTCAC
CTCATCGGGAGCTATCCGGAAGTGGACGACGTGTTGCACTTCATGGACGAGTGA SEQ ID NO. 53 LOC_Os02g38090 1 ATGCAGGCGCAGCAGG
GGCAGCCTÏ€TCTACCCCGAACACTCCATGGCCCACAGCÏ€TGTCGTCGTCGGAGGT CGCGATCGTACCGGACGCGCTGTCGGCGGGCTCGGCGGC SEQ ID NO. 56 LOC_Os02g405
CTCCGCTACAGGATAAAGGCCTCGCTTTCTACTAG SEQ ID NO. 57 LOC_Os02g41510 1 ATGGGGAGGGCGCCGTGCTGCGAGAAGATGGGGCT
W GGAGGACGCCATCATCCACCTCCACGACCTTCTCGGCAACCGATGGTCCGCGATTGCAGC GAGGCTGCCGGGGAGGACGGACAACGAGATCAA
SEQ ID N
SEQ ID NO. 60 LOC Os
SEQ ID NO. 63 LOC_Os02g45200 3 ATGGAAGAGATGCTG
SEQ ID NO. 64 LOC_Os02g452004 ATGGAAGAGATGCT
SEQ ID NO. 65 LOC_Os02g45420 1 ATGGCTGACCTGAC
TGTGGAGCTACCGTGATCCCTAG SEQ ID NO. 66 LOC_Os02g45780 1 ATGGGGTTCCCTCTGGTGTGCTACTOr ATGGCG VTCCCCλACCCGCTC ATγGCCTTGGCCλλCCTCCTCGCCGCCATCAGGGAGGCCC I LCAGCTGATGCTCTTCGTCGTCGGGATCTGCCACCACCCGGAGCGATCGGGCCG
GCGCCCCGCCGCCGGCCCGCGCGGGCGACTGGGCCGCCTCGCCACCCGCCTCACGGG CGTCGTTTGGTGA SEQ ID NO 67 LOC_Os02g46030 1 ATGGAGATGGCCTGTTTGCCGGGAAACGCCATGGCAACCGACGAAAACGGTGCCGACGAT CGCGCCGGCGGCGAGAGCACCGTGGATCATCTC
AAGTGGACGGACGAGGAGCACAGGCTGTTCTTGG AAGCCCTGCAGCTGCACGGCCGCGCATGGCGCCGTATACAAGAGCACATAGGTACCAAG
ATGCAGGCGCCAAATACTAAGATGTCAATTGCAACCACGGATGCCAAAGAAGCATCC TCAGAAGCATCAGTCTTCAGGCTATTCGGAAAGAGCG
SEQ ID NO. 68 LOC_Os02g51670
70 LOC_Os02g527802 ATGGATTTTCCGGGAGGGAGCG
10 1 ATGGCGAGGCCGCAGCAACGATACCGCGGCGTGCGGC
3 ATGGAGCTGGAGCTTGGGCTGGCGCCACCGAATTCC
GGGGGCGAGTACTGGGCTACTAGCTAA SEQ ID NO. 76 LOC_Os03g05590 1 ATGGAGGACGACAAGAGTAAGGAGGGGAAATCGTCGTCGTCG
GACACCGCGGAGGAGGCCr^r,CGGGCGT ACCλCCGCGCCGCATTCGCCAT<J AACJGGCGCCACGGCCATGCTCAACTTCCCGGGAGATCATCATC +5 ACGGCGCCGCAAGCAGGATGACCAGCACCGGCTCTTCTTCGTCCTCCTTCACCACGCCTC CTCCGGCGAACTCCTCCGCGGCGGCGGGCCGCGGC
AACTACTAG SEQ ID NO. 77 LOC_Os03g06630 1 ATGGAGAAGATGATGCCGGGGATGGTGAAGGAGGAGTGGCCGCCGAGCTCGCCGGAGGAG
50 CAACAATTTCTCCAGCTTCGTCCGCCAGCTCAACACCTACTTCTTGGl CCGGACGAATTACCTG AACAAGCGATCACATTTCTACAGTTTGAG ATT
TCAGGGTTTCAGAAAGATTGATCCTGACAGATGGGAATTCGCGAATGATGGTTTCCT GAGAGGCCAGAGGCATCTTCTAAAGATGATTAAGAGG AGGAGACCATTGTCTTA AAAGCGTGACAAGAAC, GCTGCAACATGCGGAGCAGAAGCAGGTCCAGATGATGGGTrTCTTGGCAAGAGCAATGCA GAACCCTGACTTCTTTCACCAGTTGATTCACCAG
CAGGGCGATCAACTCGAGTCGACATTGCTGTTTGATCCAAGGCCATTTGCTGAACTG AATGATGAGCCTGCAAAGTCTGAACTGGAGAATTTAG
CCGACGACTTCTGGGAGGAGCTTCTGAATGAAGGAGCAAGAGATGATGCTGGGATTC CAGGGATGGAGCG AAGAAGACCTAGATATGTCGATG CATTAGCGCAGAAGCTGGGTTATCTAAGCAATAGTAGCCAAAAGTAG SEQ ID NO. 78 LOC_Os03g066302 ATGGAGAAGATGATGCCGGGGAT
}0
GTCTTCGCCGCCGTCrTCCTCCCACGCITCTrCAAGCACAACAATTTCTCCAGCTTC GTCCGCCAGCTCAACACCTACGGTTTCAGAAAGATTGAT CCTGACAGATGGGAATTCGCG AATGATGGTTTCCTGAGAGGCCAGAGGCATCTTCTAAAGATGATTAAGAGGAGGAGACCA TTGTCTTATCTCC
AGCAGGTCCAGATGATGGGTTTCTTGGCAAGAGCAATGCAGAACCCTGACTTCTTTC ACCAGTTGATTCACCAGCAGGATAAAATGAAGGGGCT CGAGGACACATTCTCGAAGAAGAGGACGAGGTCGATAGACATAGTGCCATTTCTCAACCC CGGGGAGGTCAGCCAGGGCGATCAACTCGAGTC GACATTGCTGTTTGATCCAAGGCCATTTGCTG AACTGAATGATGAGCCTGCAAAGTCTG AACTGGAGAATTTAGCACTGAACATCCAGGGTCTTG
70
ATCTAAGCAATAGTAGCCAAAAGTAG SEQ ID NO. 79 LOC_Os03g07360 1 ATGGGGGAGTGCAAGGTGGGAGGAGGAGGCGGAGGCGGAGACT GCTTGATCAAGCTGTTCGGGAAGACCATCCCCGTGCCAGAGCCCGGCGCCTGCGCCGCCG GCGATGTTGATAAGGACCTTCAACACAGTGGCAG
75
GGACAGCGGGTGGTGCCATGCGCAACGTGCCTGTGGGTGCAGGCCGACGCAAGAGCA AGAGCGTATCGGCCGCTTCCCATTTCCTCCAGAGGGT CACAGAACAAATGAAGCATCTAAAAGATAAGTTTATCCCAACAACCGGTATCAAGAACAC CGACGAGATGCCAGTCGGTTTGTGTGCTG AAGGA $0 GGAGGAGCCATGTGGCCATTTGGCGTGGCACCACCACCTGCTTATTACACTTCAAGCATr GCAATTCCATTCTATCCAGCTGCAGCAGCTGfTGT
CTCCA(J γATCCACAATGACCAACTGCTTCAGATTAGG AAAGCACCCTAGAGATGGTGATGAGGAACTGGATAGCAAGGGTAATGGCAAGGTGTG
GGTGCCGAAGACGGTTCGGATCGACGATGTCGACGAGGTGGCCAGGAGCTCTATCTG GTCGCTTATTGGGATCAAGGGTGACAAGGTGGGAGCA
GATCATGGCAGAGGATGCAAGCITGCAAAGGTTTTTGAGTCAAAGGATGAGGCAAAG GCATCAACTCACACAGCGATCAGCAGCTTGCCATTCA
55 TGCAGGGGAACCCGGCTGCCCTAACACGCTCGGTGACCTTCCAAGAGGGATCTTGA SEQ ID NO. 80 LOC_Os03g08310 1 ATGGCGTCGACGGA
GGAGAGGCGCGAGGATTGGCTCGCGCTGGGAAGCCTTGGACACATGCACTCGCGCTG A SEQ ID NO. 81 LOC_Os03g08320 1 ATGGCCGGTAGT
SEQ ID NO. 82 LOC_Os03g08330 1 ATGGCGATG
SEQ ID N
AGAGCTTCCTGCTGCACAAGTACCCGTCGCTGGAGATCGACTGGGACGCGATCCTTT CCTGA SEQ ID NO 87 LOC Os03gl2370 1 ATGGGCTCT 50
ACGTT ATCTCGTGGGCCGAGGGCGGCGGCAGCTTCGTGATCTGGGACTCGCACGCCTTCGAGC GCGACCTCCACAGGCACTTCAAGCACAGCAA TTTCACCAGCTTCAT ACGCCAGCTCAACACCTATGGATTTCGTAAAGTTCACCCTGATAGATGGGAGTGGGCCAA TGAAGGTTTTATT ATGGGCC 55
AGATCTCAGGCACTACCAGCAAACATCTAACCTTGAAGTGCAGAATTTAATTGAACG GCTTCAAGTAATGG AACAGAACCAGCAGCAGATGATG GCACTTCT AGCAATCGTTGTCCAGAATCCTAGTTTTCTCAACCAGCTTGTGCAGCAACAGCAGCAGCA GCGCAGATCCAACTGGTGGAGTCCTGA TGG AAGC AAGAAAAGGAGATTTCATGCTCTTGAGCAGGGCCCTGTAACTGATCAGGAGACCTCTGGC CGTGGGGCACATATTGTTGAATATCTC 70 CACCCATGGACATGCAλACGTCTAACGTTGCTGATACTCTCGGTTCATCTGAGGAGCCT TTCGCTGATAACTCTACTCTACATGAATGGGATGAT AACGACATGCAGCTTCTGTTrGATGATAACCTAGACCCAATACTTCCACCATTTGAGAAT GATGGTCAAATGGGCCCTCCTTTGAGTGTTCAAGA
EQ ID NO. 88 LOC_Os03gl2370 2 ATGGGCTCTAAGAAGCGGTCGCCTCAGCATCCGGCCGCCGCGGCGCCCCCTCCCGCCGTC GGCGGCGGCGG 75 CCTTCGAG
CGCGACCTCCACAGGCACTTCAAGCACAGCAATTTCACCAGCTTCATACGCCAGCTC AACACCTATGGATTTCGTAAAGTTCACCCTGATAGATG GGAGTGGGCCAATGAAGGTTTTATTATGGGCCAAAAACATCTTCTGAAGACCATTAAGAG GAGGAAGAAGTCTTCTCAGGAATCACCTAGCGAG
AGGGATAAAGCTCTTCTCATGCAGCAGCTTGTAGATCTCAGGCACTACCAGCAAACA TCTAACCTTG AAGTGCAGAATTTAATTGAACGGCTTCA 30 CAGCAGCGCAGATCCAACTGGTGGAGTCCTGATGGAAGCAAGAAAAGGAC.ATTTC A.TGCTCTTGAGCAGGGCCCTGTAACTGATCAGGAGACCT
TGATAACTCTACTCTACATGAATGGGATGATAACGACATGCAGCTTCTGTTTGATGA TAACCTAGACCCAATACTTCCACCATTTGAGAATGATG 35 GTCAAATGGGCCCTCCTγTGAGTGTTCAAGATTATGATTTTCCGCAGTTAGAGCAGGAT TGTCTGATGGAAGCACAATATAACTCCAACAATCCT CAATATGGTAATGACTAA SEQ ID NO. 89 LOC_OS03GL23703 ATGGGCTCTAAGAAGCGGTCGCCTCAGCATCCGGCCGCCGCGGCGCCCCCTC
AAGTTCACCCTGATAGATGGGAGTGGGCCAATG AAGGTTTTATTATGGGCCAAAAACATCTTCTGAAGACCATTAAGACKJAGG AAGAAGTCTTC
TCATCTGAGGACKCTTrcGCTGATAACrCTACTCrACATGAATGGGATGATAACGAC ATGCAGCTrCTGTTTGATGATAACCTAGACCCAATACT
10 TCCACCATrTGAGAATGATGGTCAAATGGGCCCTCCÏ€TGAGTGTTCAAGATTATGATTT TCCGCAGTTAGAGCAGGATTGTCTGATGGAAGCAC
AATATAACTCCAACAATCCTCAATATGTTCTTCGGTGA SEQ ID NO. 90 LOC_Os03gl2760 1 ATGGGCCAGACAGGAGGCAGGCCAGGCGGAGG
15 AAGTCGTCTAGTCGCCGCCGCCCCAAGTGCGACGTCGCTACAAACCTCCATTGGTGCCAT CTTCATCCGTTTCAGATGAGCACACTATCTAACAA
AGTGTCACTGTCGTCGAACCTACTGAATCTTCAGACAGGTCTTGCTGAGGAGCCTGA AGAGTTAACCTACATGTATCATC AAGAAGAGCACGCC AGGATGCAAGAGCAATTCGCTGGGACGCCGCTCGTCGAGCAACCAGTTCGATTTGATCAG TTCTACCCAGCATCCATGGCGCCAAACCAGTTCC
92 LOC_Os03gl7570 1 ATGGGTAGCGCCTGCGAAGCTGG
GTCGTAATGCCACGTCTGTCTGGCATTGGTCTGCTTAGTAAGATCACAAGCCACAAAATT
TGCAAGGATATTCCCGTGATTATGATGTCTTCGAA TGACTCAATGGGTACAGTCTTTAAGTGTTTGTCAAAAGGAGCAGTTGACTTTCTAGTGAA
GCCTATACGTAAGAATGAACTTAAGAACCTTTGGC
CAAGAGAGATGTCCGTTAATCCAACAGAAAAACAGCATGAAACTrrC ATGCCCCAAAGTAAAACAACAAG AGAAACAGATAGTAGGAACACAC
CTGGATCTGCAACTGAAATCCATGATGAACGAAATATTCTGAAAAGATCAGATCTCTCAG
CTTTCACCAGGTACCATACAACTGTGGCTTCTAAT
GTATTTGATCCTCCCATTGAAGGTCATGCGGCAAACTATAGTGTGAACGGGAGCTTT TCAGGTGGCCATAATGGAAACAATGGGCAAAGAGGAC
TGGCATrGGTCTGCTTAGTAAGATCACAAGCCACAAAATTTGCAAGGATATTCCCGT GATTATGATGTCTTCGAATGACTCAATGGGTACAGTCT
ATGGAAATGATAAAAATCGTGATTCTCTCATTGATATGACATCTGAAGAGTTGGGTTTG AAGAGATTGAAAACAACTGGATCTGCAACTGAAAT CCATGATGAACGAAATATTCTG AAAAGATCAGATCTCTCAGCTTTCACCAGGTACCATACAACTGTGGCTTCTAATCAAGGT
GGAGCTGGATTTG
50 GTATCAGAATGGGGTCTGTT ACCGAGAAGCTGCATTGAACAAATTCAGACAGAAACGGAAAGTGAGGAACTTTGGAAAAA AGGTGCGCTA TCA
CAGATAA SEQ ID NO. 94 LOC_Os03g 175703 ATGGGTAGCGCCTGCGAAGCTGGTACGGACGAGCCTTCCCGAGACGATGTTAAGGGGACA GGG
S5 TTGCTGGTGGAGAATGATGACTCT ACCCGTCAGGTGGTCAGCGCACTGCTTCGT AAGTGTTGTT ATGAAGTT ATCCCTGCTGAAAATGGGCT ACA
TGCATGGCAATGTCTTGAAGATCTGCAAAACCACATTGACCTTGTATTGACCGAGGT CGTAATGCCACGTCTGTCTGGCATTGGTCTGCTTAGTA AGATCACAAGCCACAAAATTTGCAAGGATATTCCCGTGATTATGATGTCTTCGAATGACT CAATGGGTACAGTCTTT AAGTGTTTGTC AAAAGGA GCAGTTGACTTTCT AGTG AAGCCTATACGTAAGAATGAACTT AAGAACCTTTGGCAGCATGTTTGGAGACGATGCCACAGTTCCAGTGGCAGTG
CAACAACAATGACATGGGCTCCAGTACTAAGAATGCCATCACAAAACCTTCTTCAAA CAGGGGAAAAGTGATATCACCATCAGCTGTCAAAGCT
GAGTTAATGTGGGCCACCCTGTAGATGTACAAAATAGCTTTATGCAGCACCATCATC ATGTTCATTACTACGTCCATGTTATGACACAGCAGCAG
15 TGTGAACGGGAGCTTTTCAGGTGGCCATAATGGAAACAATGGGCAAAGAGGACCTAGTAC TGCTCCCAATGTTGGGAGGCCAAACATGGAGACT
GAGAAGCTGCATTGAACAAATTCAGACAGAAACGG AAAGTGAGGAACTTTGGAAAAAAGGTGCGCT ATCAGAGCAGAAAGAGGTTGGCTGAGC AGCGCCCTCGGATCCGCGGGCAATTCGTGCGACAATCTGGACAGGAAGATCAGGCAGGCC AAGACGAAGACAGATAA SEQ ID NO. 95 LOC_Os
ATGAACAGAAGGAGCACCAAGTGCAGATTGTCCGGTGGGAGAGGTTCCTCCCTGTG AAGACACTGAGGGTCTTGCTGGTGGAGAATGATGACTC
AAGGATATTCCCGTGATTATGATGTCTTCGAATGACTCAATGGGTACAGTCITγAA GTGTγTGTCAAAAGGAGCAGTTGACTTTCTAGTGAAGCC 15 TATACGTAAGAATGAACTRAAGAACCTTTGGCAGCATGTTTGGAGACGATGCCACAGTTC CAGTGGCAGTGGAAGCGAAAGTGGCATCCGAACA
GACAGCCCACAACAAATGTCTCCTGATCAACCATCCGATCTACCAGATAGTACTTGT GCGC AAGTAATTCACCCCACATCAGAGATATGCAGCA AACAACAAGAGAAACAGATAGTAGGAACACACAGAATGAACCAACTACTCAAACTGTTGA TTTAATTAGTTCAATAGCCAGAAGCACAGATGA TTTCACCAGGTACCATACAACTGTGGCTTCTAATCAAGGTGGAGCTGGATTTGGGGGAAG CTGTTCACCTCAAGATAACAGTTCAGAGGCTCTGA
GTAGATGTACAAAATAGCTTTATGCAGCACCATCATCATGTTCATTACTACGTCCAT GTTATGACACAGCAGCAGCAGCAGCCATCCATTGAGCG
ATTCAGACAGAAACGGAAAGTGAGGAACTTTGGAAAAAAGGTAGCCTGTTTTCAGTT ACACGCCTATCAAAGTCATGAGTCCTAA SEQ ID NO 9
ATGGfCATAGTCACAAGCCAGAGGAGGAGGAATr,r,AGG*ATCCCATGGGAGAGGA Cl I ACCCAATGGGCACAGTACACCACCAGAGCCCCAGC T-) AAACAC
ATGACT GAAGAl
AATTTGCAAGGATATTCCCGTGATT ATGATGTCTTCG AATGACTCAATGGGT ACAGTCTTT AAGTGTTTGTCAAAAGGAGCAGTTGACTTTCTAGT GAAGCCT ATACGTAAGAATGAACTT AAGAACCTTTGGCAGCATGTTTGGAGACGATGCCACAGTTCCAGTGGCAGTGGAAGCGAA AGTGGCATC
GAGATTGACAGCCCACAACAAATGTCTCCTGATCAACCATCCGATCT ACCAGATAGTACTTGTGCGCAAGTAATTCACCCCACATCAGAGATATG
GAGCTCCTAGAAATTCTAGTATGGAGTACCAATCTTCTCCAAGAGAGATGTCCGTTA ATCCAACAGAAAAACAGCATGAAACTCTCATGCCCCA )5 AAGTAAAACAACAAGAGAAACAGAT AGTAGGAACACACAGAATGAACCAACTACTCAAACTGTTGATTT AATTAGTTCAATAGCCAGAAGCAC AAATGATAAAAATCGTGATTCTCTCATTGATA
SEQ ID NO 98 LOC_Os03g20780 I ATGATGGGAGGTG
99 LOC_Os03g207802 ATGATGGGAGGTGGTCTGGTG
ATGGAGAGGCCTAATGCAGTCAACCCAAGGATACAGATTGAAGAAGGCTTTTTTGGA CAGGGAAGTGGCATCGGCGGCAGCAACGGAGGTGTG
AGATGGGCGACATCAATGGCGCATCGGAGTTCAGGTTCGGCTCTGGTTTC AACATGTCAGGTGCCGTCGAATACCCCGGCGCAATGCAGGGCCA GCAGAAGAATGACGGCGCATCGGAGTTTGAGGAATTGGAATGA SEQ ID NO. 100 LOC_Os03g21030 1 ATGTCTGAGGTGTCCGTTATGGCCGA
30
TGGGGGAGAAGGAGTGGTACTTCTTCTGCCACAAGGACCGC AAGTACCCGACCGGGACGAGGACGAACCGGGCGACGGAGAGCGGCTACTGGA AGGCCACCGGC AAGGACAAGGAGATCTTCCGCGGGAGGGGCATCCTCGTCGGCATGAAGAAGACGCTCGTC TTCTACCTCGGCCGCGCGCCCCG
CGACGACTTCTGGAACTAA SEQ ID NO. 101 LOC_Os03g28940 1 ATGGCTTCCGCGAAATCCGGGGAGAGGGGGAGCAGCAGCTTCGCCATGGC
^TGCGAGCCACCAAGAGAA C,γC.CCA.*TTAACCλTCTTCTACGGTGGGAAGGTCCTGO 1 ( J γγTGATGACTTCCCAGCTGAGAAGGCCAAGGACCTGATGCAGATGGCCAGCAAG
15
TCAGCCATGGCTTGGGTTAGGACCTCAGGTTGCCGCTCCCGACCTGAGCTTGCGGCA GGAATCGAGCCAATGA SEQ ID NO. 102 LOC_Os03g289 402 ATGTCATATCATTTTTCAGGTGAAGCCGATGCGAACAAGGGGAAGGAGACCATGGAGCTG TTCCCCCAGAATTCCGGGTTCGGCTCTGAAG
50 JTTTGATGACTT
GGTGGGGAGAGGAGGAGGAGGTGCAGAGCCCTTTGCCGTTCAAGAAGCGCCGGCTGT CAAGCCCATCATTGGAGCTTAATTTATAG SEQ ID NO. 104 LOC_Os03g32230 1 ATGACGGCCGCCCTGCAAGCGCTGCTCGACCCGACGGCGCTGTCCTTGGGCCTGCCCACG CCGGCGATCAACAAGGAG
)5 GCGGACACAAGTCCAGCCACCGGAAGCCGCCTTCCCCGGGAGACCACTACGGCGCCGCCG CCGCGGCGCAGCAGCTGGCATCCGCTGGTGACTC
AGAAGCTCAGGATGTCCAACTAA SEQ ID NO. 105 LOC_Os03g53340 1 ATGAATCCATTGCGCGTCATCGTGAAAGAGGAGGAGCTCGACTTCG
70 AGCTTCGTCGTCTGGGACGCCAATGCGTTCGCCGCCGTGCTCCTCCCGCGCTACTTCAAG CACAGCAACTTCTCCAGCTTCGTCCGCCAGCTCAA
SEQ ID NO. 106 LOC_Os03g533402 ATGAATCCATTGCG
SEQ ID NO. 109 LOC_Os
1 ATGGCGGTCGATTGGATCTGGGAGAGGCGCCGGAGAGAG
TC AATGGGAGGCTCCGGATTTTGCACA AC.γTγ,GTAγγTA_ATGGAλCC A.4.A.GTGGA.TATCλGCλCλλTC-CTTCACCAGGCCGTCCATT ACGTGAA GTTCTTGCAGCT ACAGATCAAGGTAGAAGTCCAAATAGTTTGTCATGATCAGATGCTTAGCTCTGATGAGCT GTGGATGTACGCACCGATTGTTT Ill LOC_Os03g60080 1 ATGGGGATGGGGATGAGGAG
ACGGCGT
SEQ ID NO. 113 LOC_Os03g60630 1 A
ATTCAACTCGTCGTCGTCGGGGAACATACTGTGA SEQ ID NO. 114 LOC_Os03g54260 1 ATGCATTGCTGCATGTCGCTTCATCCTCACCGCCGCC CAACAGCAGGCGTTCCGCGGGGTGCGCAAGCGGCCATGGGGCAAGTTTGCGGCGGAGATC CGCGACTCGACGCGCAACGGCGTGCGCGTGTGG
SEQ ID NO. 115 LOC
SEQ ID NO. 120 LOC_Os04g42020 1 ATGGAGGGGG
SEQ ID NO. 121 LOC_OS04G42950 1 ATGGCGGCGGCG
GCTCGTCGAGCATGTCAGGCAGCACGGCGAAGGCCGGTGGAATTγTCTγTγγλ λGCTTδC δ GC.TCTGλλCλCAACCGGCAAGAGCTGCAGGCT
SEQ ID NO. 122 LOC_Os04g45810 1 ATGAATGGTCGAAC
CGGAGTCCTTCTGCGCCACGCCGGAGCTGTGGGAGCCATGGCCGCTCGTCGAGTGGA ATGCGGTGGCTTGA SEQ ID NO. 123 LOC_Os04g48030 CGACTCCGGCACGGCCTTCGTGGTGTGGCGCCCCGCCGAGTTCGCCCGCGACCTCCTCCC CAAGCACTTCAAGCACAGCAACTTCTCCTCCTTCG
SEQ ID NO. 12
GTTCCAGTCCTT AGGCT ATTTGGCAAGAGGGTT ATGG TG AATGATTTACATCAGATGTCAGCCCCTGATGCCGGGAACCTGCAAACTGTGGCAGA
CRGACTAACACACAGCAGTTTCRGTATTATCTTCCTAACGGACAAATTTTCTCCGTG CATTCTGCTCTCCCATGCTTCACCTACCATAATGAGGGT GTTACTTGCACCCAGTTTTCAAACCCACAGGTGGTAGCCTCAGATCAACAGCATCAACAC CAAACTTCTGAACγTGTAGATTACAAGGGTATACA
AAGAGATGTGTTGCTGATAGTGAGGCGCTGCTGAAGTCACAGGCGCCTCAGGAGGAG GCAGACGGAGAGATGACGAGGCTGTGCTTATAA SEQ ID NO. 125 LOC_OS04G49450 2 ATGG ATTGTGTTGCTTGCAAGGTCATCAAAGAATCATCTGGGGACAATTGCAACAGCTTGGGTG CTGC ATCATC
DIlDODDVVOOVIOVIOiαiOOVVOIVDOVDOODIIOOVQDIOOIVODDDVDVOIV ODIVDVVVOVDDDDVVVDDlQlIIDDDVOOVVDDVlOO DVOIOOVVOOXVOIVVOVOiDOIVDVOXVOXiVIVOIIIIOiIVIIVOVOOVVOOVOOVO VDOVIDDOVOOOJUVJLODVVOOIDIODOVOlXlDX
VOIOIVVOIVVIVVXIVVDVVDVVDVIOVOOIOVOOOIVODVOIVXIDOOXOOXDVV XIXIOIVOVVOIIOIVOVDOVOIVOOIOOOVDIOVDDI
VDVVOVXDIOWDOWDOVDVVIXDOOIOOIDDIOOVXXIOOIDIVWOIOIDOVDOVID VDOXIOOVDIIODDJLIOOIOOIDDODOI VDIVOOV
OOOOXXXIV
DIDlDVQV.
DODDVOOVDOVVVOOOOVVO1V i 0e6Z2 3 S0 S O DOT Kl "OV Ol 03S VOIOIIDOOOVOIXIOIIDVOIDIOVOIVOVVDOIIDDDIDDDOXOIV Q£
OIVDDVOOODXlODVDDIODIVDOODVOVDlVOOlVOVVVDVODDOVVVDDlDIXlD ODVOOVVDDVIDDOVOlDOWOOIVOlVVDVOXDOi VOVOIVOXIVIVOXXXIOXIVXIVOVOOVVOOVODVOVDDVIDDOVDOOXXVXDOVVODI OXODOVOXXIOXDOVOOVDODDVDVVDOX VVlOV
IOIODVOOVODIOOVOVOIOVDDIOVXOIDIVOVOIDXXIODVDVVOVDODVVIVDV XIOOVXOIDIDOIDIVDIOI VVOIVVIVVXIVVDVVDV C /
VDVXOVDDIDVODDIVDDVDI VIIODQIQDIDVVIIIIDIVOVVDIIDIVDVOOVOIVDOIOOOVDIOVDOIVDVVOVIDI QVVOOVVDOVDVV XIDODXODXDDIOOVIIIDOIOIVVVOIOXDOVDOVXDVDOXIOOVOXXODDXXOOIOOI OODDOIVDIVOOVDDOOXXXI VVIOVDOOXDOOX VV v z ot6_∑8soso ~ ocπ εεi ON αi όas VOIDXIDOODVOXHOXXOVOIDIDVOIVOVVODXXDOOXOOOOIOIVOXIOIVDODIDOI VDVDDOXIV Q/
XXOOXVDOVODOVOIVOXDXDOVDXOOXIDVVOVDDIOOXVOOOVDOIVOXIOOOOV VODVIOVXOIIXDDVVOIVOOVODOOXIDOVOOXOOIV OODDVOVOXVDDXVDVWDVDOOOWVOOIOIHOOOVODWODVIDDDVOIDOWOOIVOIVVD VOIOOIVOVDIVDXIVIVOXXXIOXIVXI VOVODVVDDVOOVOVDDVIODOVOODXIVXOOVVDDXOXODOVDIIIOIODVDOVDDODV OVVOOIVVIOVIDOOVODDDWOIOOXODODOIO
XODOIOOXOVVIXXIDIVOWDXIOIVOVDOVOIVDOIOOOVOIDVDDIVDVVOVIDI OWOOWODVOVVXIODOIDDIDOXDOVXIIDOIOXV WOXDIOOVDOVXDVDOXXDDVOXIODDXXOOIOOIOOOODIVOIVDDVOODDXIXXWIOV OOOXOOOI VVDOIDDIVIOIVVOOVOVDDOVDO
VDDOXDOIOXIDODVODDVDVOVIOIDVOXIOXXIOIVDIVOIVIDOOIOODVDOVO DIOIVODVODVDDVODVVDDOVVOVVDOOXXJ VOVDO QC
VOOVDODIVODXODDIV Z OJUO 3 SO 5 O DOT lεi OV αi OηS DVXIODIOVIVVOVIOOIOOXIVIWOIDDIVOXIODVOOOVOVODIDOIDDO
Ot
DDODODODODDODDODOiwDOOOOOiv Z oioiθ3soso ~ Dθτ 6Ji ON αi όas WIIDOIDIVIOIWIDOWOOIOIWDWIIODIODIOOII
WDODOIDDVDIVOODIVDOIODWODVDVOVODIVOIIVDJLIDIOVOIVVOVDIVVD OVIVOJLIVOIIVDDOODDIIIOIIODWOIVDIDVVD Oi
IIDVVODODDOOVVOlDJXIJLVODVυOVODODlVDODVDDOJαVDVOOlVIIVV OIDDIVDODIIIVOOIVOIDODOVVOOIIODIIJJOVOIIlJ. IJJJJaVOOJUDJJaDOIIDVDOIVOVVDDIVVOVOIIDOODOOIVVOIVOIVDVVDOID IDDDIOIIIVDOIVDIIVDOIVDOOOVIOOVODIVD ££
DOT 8Zl OV αi 03S VDIIOIDVDDVOOVODIODDIIIVOVODVOJJ-DDOVOOI VJJOWDVDDVDOIIIVDVDOOIDDVOIVOOIIOVOQDDOI lODODDODOVOODODOOIVDDVDDVDDVDDVDDVDDOJJ.OJUDOVOOOIDOIDOVOOOD OVJJOOIOOVDDOOOVOOlVOOVOVODWOVOODO
OIVDWODV >DOVOOUDI VDJJJJ.DVDD DVODIJOVJaOIODOVOIVVIVDDVIDOVOJJOOIVOODIDJOOJLDJaVDOIOOOIOIJ JJ-VVVDVOOOVVIDDJJ^IVJJLVIOIDIIIDVDOVDV
DOlOWOOIVDVOVDOOαOIDWVDOJOOWDOODDOlVOIODDOOVDlOIVOVDlVDV JjαVOlWOIOOlVJαOOOVDWDOOUαVIODOV
61
SL6Z00/600Zdα/lDd T^^Jl/όOOZ OλV
SEQ ID NO. 136
CCTCCAGGACATCCTCATGTACTGGGGCAAGCCGTTCTGA SEQ ID NO. 137 LOC_Os05g34830 3 ATGGCGCTGTACGGCGAGAAGGAGTGGTAC
CGGTGGGCACGCCGAGGCCGGTGGCCATC AAGAAGGCGCTCGTCTTCTACGCCGGCAAGGCGCCCAAGGGCGACAAGACCAACTGGATC
ATGC
CTGGGCCAGCTCGACCCCGCCGCCGCCGTCGCCGGCGGCGGCGACCCGCTCCTCCAG GACATCCTCATGTACTGGGGCAAGCCGTTCTGA SEQ I 30 D NO. 138 LOC_Os05g37050 1 ATGGCGTTCTACGGTGGCGAGATGGGTGGCTCGTCGTCGTCGTGGGTGGCGCCGCTGGTG CCGAGCAGCAGGCC
CACAGGTTGTTCCTAGAAGGGCTAGAGAAGTATAGGCGTGGCGATTAG SEQ ID NO. 139 LOC_Os05g37060 1 ATGGCGTTCTACCTCGGCAGCA
CGTGGCAGTGGTGGGGATGAGCGTCGTCGCGGCGTGCCCTGGACTGAGGAGGAGCAC AGGCTATTTCTTGAAGGGCTAGAGAAATATGGGCGT 40 ACGCCAGCAGCCGTGGCGACTCCAAGCGTAAGAGCATCCACGACATCACTGCCCCATGA SEQ ID NO. 140 LOC_Os05g39720 1 ATGACCGCCG
TCGCCGATCCTCCTCACGCCCAGTTTATTCCCATCGCCGACGACGACGGGCGCATTG TTCAGCTGGATTArc.ACGGCGλCCGCGACGGCGGCGλT
GGCGCGCCGACGACGACGCAGCCCGCGAACGGCGGTGGCTTCGCCGCCCTGTCCGGCCGG TTCGACGACGACGCGACGGGAGCGTCTTACTCTT r TTGAGCAGCCGCTGCTGTTTTGA SEQ ID NO. 141 LOC_Os05g39940 1 ATGCCGTTCTCCCTGTTACTCTTCACCGGCGCCGTCGCTGGAGTCGCG
CACAGATTATAGCGACGAAGACGACGACGACGTTGGCGGCGACAATAAGGACGGTTTAAC GCCAGACCAGCTGCGGCGGCTGCCGTGGTTCGC r CTGCTCCCACGTATCGGTAG SEQ ID NO. 142 LOC_Os05g40060 1 ATGGCGCTGATTGCCACTGGTGCTACCGCTACTGCTACTGCGGCGCCGGT
CTCCCGCCGGCGCACGGCGGTGCCCACGCCCTCGCCGCCGAGATCCTTCGCTGCTGC GACCGCGCGCTCGCCGCGTTGCGCGCCGGCGGCGATG
/5
LOC_Os05g45020 1 ATGGCGAGCCGAGAGCACCTCCTGCT
?5
SEQ ID NO.
CGACTGCAAGGTCCGGGCAAAACCCACCACCGCCGCCGCCGCCGCCGCCTTCCTCAG CGCGGTGGCCGCCGCCGCCGCGCCGCCACCCGCCGTG SEQ ID NO. 146 LOC_Os05g
AAGGTTGAAGCATTTGAAGATCTAG SEQ ID NO. 148 LOC_Os05g51160 1 ATGCACGCCATCATGGCGAGGCGATGCTCTGGTGACTACTCGACT CCGGCGTCCTACTTGCACAAGAGTTACAGCATGGATTGCCTGCGGCTGCAGGTTTCTTCT
CCTTCCTCCTTGCAGTCGTCGTCGTCGTCGCCGTCG
35 TCCATCGGAACCTAG SEQ ID NO. 149 LOC_Os06g03670 1 ATGGAGTACTACGAGCAGGAGGAGTACGCGACGGTGACGTCGGCGCCGCCGAAG
GGTCAGGGAGCCCAACAAGAAGTCCCGCATCTGGCTCGGCACCTTCGCCACCGCCGAGGC
CGCCGCGCGCGCCCACGACGTCGCCGCGCTCGCC
GCGGCGACGTCACACTCTGGAGCTACTGA SEQ ID NO. 150 LOC_Os06g06360 1 ATGGACGGAGGAGACATCCACCTGCTGCTGAGCATCCTCGC CGACGGCGAGGAGCAGGCCCGGCAGCTCGGCGAGCCCGCCGCGGrnncrfiArGACGAGT ACCACGGCGGCGGCCGCGGGGAGGAGTACTACA
ACTGCTGGCTRGGCGGTTCCTGATACTGAAAATGTTCTTACTGAAGATGGACAATCA TCTGAATCTGTGATGACTGCATTAAATTCGGGAAGCTC GCAGGATAATGATGATGGTTCTGATATATCCCTGAAACTAGGGTTGCCTTGA SEQ ID NO. 152 LOC_OS06GL2480 1 ATGGACGACGATCCTACC
55 CAAGAAGACCAAAACCTCTAAGGTATGGGATGAGTTTGAGGAACTTTATGAAACGACCAA TGGTAATAGGGTTCGAGTCTCTGCTAAATGCAAT
GCTTTGCCTCAGTCCATGCTRAGATRTAGTGCAGATGGTTCTGTTATTCCATGGGAA TATAGTCCTGAAGTTGCTAGGTTTGAATTGTGTAGATTG
ATTGCγAGAGAGGATCTTCCAATCAGTγTTGGTCAATCTCCTGCγTTγGTGAA CTATATTAAGGCTGCTCATAACCCTAGATTTGTTCCTGTCTCTA
GACAAACTACTACCAGAGATTTTγATAAGTTGTTγAAGGATCGTCGTγCTATTA TTATTGATCGTCTCAATTCTGCTAGCTCTATTGCTγTGACATC
/0 TGATATATGGTCTGGTCATGCTAAGGAAGATTATTRGAGTGTTGTAGCTCACTTTGTRAG TTCTGATTGGCAATTAGAAAAGAGGGTCTTGGGTCT
3TTTTCTCTAT ATTTTTGCATCAACGCTGT \TTTCATTCTTGAATGC
/5 AACTTATCTAATGCTγAAGCATCTCATACCACATAGGGAACCATTCACAGTATγTATT AGTACACAACATCCTTTTGTTAATGACCATCCATTACT CACAGACTTACATTGGGCATGTGCTGAATCTGTITTGTGTTRCCRTGAACAATTITATGA TTCAACTGTRGTTTRGTCTGGTGTTTATTATCCAACA
TCTCCATT AATCATGCATCACATTTTAGAGATTGCTGGACATCT AAACACATATGGC AATGTTCAAAACCTTGCAAATGTTGTTGGTCCCATGAA
AACTAJVGTTrATGAACTACrGGTCTAAAATTCCAATTCTTrATTCATTTGCATTrA TCrTGGACCCTAGGGCCAAGATTAGGGGGTTTAGTAAAGT
GCTTCAGATTATGGCTCAACTCATrGGTGATGATTACTCTGCrTATTrAACAACTGT TAGAGCTTCATTGTCTGATACTTTTGCTAAGTATGAAAG s0 AAAGTIγGGTTCTGTTAGATTGCATAGTTCCACTATTCCAGGCCCITCCACTGGTAAGA AAAGGACTGCATGGGGGAAGATπTTGGTTCTGTTGT
CCAGGATGACATCTGCTACTGCTTTGCTTCAGGCAGCTTCTTCAACTGCT AATCTCAATCCTTCTGAACTGTCTGCAT ATCTTGACAGTGACACTG
TCAACCAATATGATGATGACTTCAATATCCTTAGTTGGTGGCAACAGCACAAACTAA CTTATCATGTTCTTTCAATCTTAGCTAAAGATGTTATGA CTGTTCCTGTTTCTACTATATCGTCCGAGTCTACTTTTAGCTTAACTGGCAGGATCATCG AGGACCGTCGGCGGCGTCTAAACCCTAGGCTGGTGG
GTATCTTGATGATGAAATTGATGTAAACCCTTGA SEQ ID NO. 153 LOC_OS06GL4670 1 ATGGGGAGGCAGCCGTGCTGCGACAAGGTGGGGCT
10 ATTTACTCGGTCCTTGACCATGGAGAATTAAATGAGCAACCTGTTCCATCT AAAGATGATTTTCAGGTAAGTTTTGTTCAAAATATTGTAGGCTTT 1 ATGGACTACTCGACGGTGAAGCAGGAGGAGG
AGCAG ATCGATTGCTTGGCCTCGCCGAGTTCTTGA SEQ ID NO. 157 LOC_Os06g36950 1 ATGGATCCGAACTTTCCATACCAGTCGCCGTCGTTC ACCTTGGGTGATTTCGACCCCAACTACATGTCGGGGTTTAACGATGCCTCCGGATCGGCT CCAACTCCACCATCTGTGGAGGAGGTACCGGTTCA TACGGCrGTCGTTGAGGAGGTACCGGTTCAGGCGGAGACAGCTTCGGAAGGATTTTCCGG AACCGCGAGCGGAAGTGTTTCGACACACACCGGC
AGAATATGTAGGCAAATTTTATCTGCTCGTTCTTCTGGTGGTACAGGTCACCTCAAG CGCCATGCGGAGTCGTGTGCCAAGAAGC AAGGAATAC
AATCGCCAGGC AAGATTTACCCCTGAACTTTGGGGAGTCCCCTGCTTTTGAACATTACATTCAGCAATCTC ATAACCCTAGGTTTAAAGCTGTGA GT AGGCAAACATC AACTAGAGATTTAGAGAATGTTTATCACAAGG AAGCAACTGCACTT AAGGAACTGTTTAGTACATGTACTTTCTCTGTTAGT +0 GTTACTTCAGATATATGGAGTAGTAGAGCTAGAGAGGATTATCTTAGCGTAGTTGTTCAT TTTGTTGATGATGATTGGCAATTACAAAAGAGAGT
TTTAGGGCTTAGGTTAATAGATGTCTCACATACAGGAGAAAACATAGCTGAAAGAAT TAGGGAAGTAATTAATGAATTTAATCTTGCTGATAAA ATATTTGCT-GTCACCCTAGATAATGCATCTGCTAATTCTAGGGCTATTGAAATATTGCA ACCTTTATTTTGTGTGTATGCTCAATCTTTTCTACTCC ATCAGCGTTGTGCATGTCATATAATTAATTTGATTGTTAAGACTGGCATGAAGAGGGTAG GTGACC A.C A.TCGATGCTGTTCCTCAAGCAATCGCG TGGTTλλCTGCTTCTAACCCGCGGATTGCTGCATGGAAGAGGTTTTGCAATGCGGCCG GTGTGAAAGCTCATCCTAGGTGTAAATTAAGGGGATT t5 GTCTGCTATTTγATCACTTGTTGGAGATACγATAGGTGTAGATTATAGTTCTTTTTAT ACTGAGGTTAGACGTAAATTATATGAGGTTTTTGGAAG
SEQ ID NO. 158 LOC_Os06g40150 1 ATGGGA
CTGGGCAGGAGCGGCCCGGGCTCGCCGTCACATGGGCTGCTGCACGGTGGTGAAGGT AGCCTCGTCATCTGA SEQ ID NO. 159 LOC_Os06g4401 CrAGCTCATGCGCATTTCGGCTCTCGCCTTCTTCGCCTTCTTCTCCTCCTCCTCCTGTTC TTGATTTTCAGTATATTC AATTCATGGATTCGTGGATT AGGAGAACTTCTTGTCCTTCAAGAAGGATCACGAGGTTGAGGCGCTGGAGGCGGAGCTCC GGCGAGCGAGCGAGGAGAACAAGAAGCTGACCG
TTCAAGGCGGCGCTCGTCACGGCGCTCTCCGGCCGGATCCTCGAGCTCTCGCCGACC AAGAACTGA SEQ ID NO. 160 LOC_Os06g51260 1 ATGG CTTCCATGCCGCAGCTGGAGG AAAAGGATTCATCCGATTTGGCAATCAACAAAGGCCCGTCGCTGGATCTTGTCAAATCTC CCTTGATGATGAAT
'5
CAAAGACTGCTGTCCAAATTCGGAGCCATGCCCAGAAGTTTTTCTCAAAGGTGGTGC GTGAGCCCGGTTCCAATAATGCGATTGAGATCCCTCCA
CTCCTGGCTCATCTTCATCTGGCTCTGATCAAGAGAATGGTTCTCCTATATCGGTGC TATCTGCGATGCAGTCAGATGCTTTTGGATCGTCAGTAT
SO
AGTGAGGAGCAGATATCACAGCCTTCCAATG AAGAAATGTTGCAGGCTTCTTCATCGGTTGGGGAGATTCCAGCGGCATATTGTGCACCAA ATG
GTTGGT
GTTTTC
»5
TCAGGTTCAAGTTTTGAGCTAAAACCGAGCGCAAATTCAGCGTTTGTAAGAGTG AAGCCAAGCAACAGCGGAGATGAAGAGGT AAT AAGGGGA TTTGTGCCTTATAAAAGATGCAAATTTCAATAA SEQ ID NO. 161 LOC_Os06g512602 ATGGTCGCTCTTGGCGTCAGATACAAGGTGGTGCGTG
CTGCGATGCAGTCAGATGCTTTTGGATCGTCAGTATCCAATCCATCAACCAGATGTA CCTCCCCAGCGTCATCTGACGATGGAAATAACATTCCC GACGTG AATAATATGTCTG AAGAGGATTCTTCAGAAGAAGAGGTGCAAGAAACAAGCTTG AAGCTATTTGGGAGGACAGTTGTCATCCCAGATC
TGC^KJAGATTCCAGCGGCATATTGTGCACCAAATGGTTGGTTTATGTCATACAATÎ ³CTTTCCCATTCCAATTCGGTGAATCAGCGGCAGATGCTA
GAATTCCCCCRRTACACGTGTGGTGGCCITACTACGGTTTTGCTCCCATTAGCCATC CTAGAGGACTAAGCACAGTGATGCAGCAGACTGAAGGT
ATAGTGGAATCACγγGGAGCGATTTACGTCCGAGACTCAGGTTCAAGTTTTGAGC TAAAACCGAGCC^AAATTCAGCGTTTGTAAGAGTGAAGC 10 CAAGCAACAGCGGAGATGAAGAGGTAATAAGGGGATTTGTGCCTTATAAAAGATGCAAAT TTCAATAA SEQ ID NO. 162 LOC_OS07G05830 1 A
GCGAGGACGATCATATCCATGGCGAGCCAAGG AAATTTCGGCAAGCAGCAGCAGCAGCAAATACAGGGTAGGGACGATCACCACTACCACCA G GGCGAGAGCAGCAGCGGCGGCGGCGTTTCCACGGCGGCGGCGCGGCACTGCGACGTCGCC GGCAGCAGCAGCAGCCACAGCGGCAGCGGCAGC
EQ ID NO. 163 LOC Os07g07690 1 ATGCCACCGGTTGCGTCCGGCTCCGGCCGGAAGAGGCAGCTGGTGCTGGAGTCCAGCGAT TCGGAGGCGG
10 TGGGTAAGAGTGTTTTGCAACCTGATGTGAAGAGGATCAGAACTGAGGCTGCCCATGGTG GCGGCAGCGGAAGCGGTGGGAGTGTATCGAAGG ATGGAACCGGCGGG AAAATGCTGCGCCCGGGGTTCCCCAAGTGGCGATTTGAGAAGCCGGAGGTAAGGGCAGGG CGGGTTCTTGATGAGAAAG
CTGAGAAATCGACGCCATCGAAGACTAACCAAGAGGTTATAAGGGTACAAGGGAAAA GCGGTGTCTTAAAGATCCGTCCGAAGAACAATAAGG 2.5 CAGTGGAGGAAAATGGTGATGGAAAGATTγTGACCAAGAGTGGTGTπTAAAGCTCCTC CCAAAGAACAATAAGGTGGCCAAGGAAACCAGTG
ATGATAAGGCACCGAAGAACTGTACGGTGAAT(^AGAAACTAGCGCTGGCAAGATTT TGTCCAGAAACACTAAGGAAGATTTGAAAACCAGCG
TCTCCCCCATCCTATTGAGGAAAAGTGACCCAAGTGTAGTGGGAATTTCTTTGGGCC AGAAAATGAAGCAGCAAAATTCAAAGGCGCAACTGAA 30 GATATCCTCACTAGGCCAACGTCAGCCTTCACTTAATTTGAAAGATGAGAAGAATAAGAA AAAAAGATrGCTTGATCATAAAATGTCACCAGAA
CCTCGTγACACAATGAAGCAGAAGCTCAGGGGTCAGATAAAGGACATγCTγTTA AACAATGGATGGAAAATTGATCTAAGGCGCAGG AAAAAC AAAGATTATG AAGATTCTGTCT ATGTTTCTCCACAAGGAAATGGCTATTGGTCAATCACTAAGGCTT ATGCTGTGTTCCAAGAGCAGTCT AAAAG
35
TGCTGGTAGAAGTTCTGG AAACAAGCATCAAAGCAGTGGAGTTAGGGGATGTGCGCTTCTTGTCCGTGGTAGTACTCA TAGCATGGAAGGCAAT GTGGACGGCTATTTTCCTT ATCGATGGAAGCGGACAGTTTT ATCATGGATGATAGAT ATGGGGGTTGTTTCTGAAGATGCAAAGGTCAAATATAT
TTTGAACTTCATGCTGGTTCAAAAGAGCAGCAGCCCTATGAAAACATCTTTCTGGAA GATGGTGGGGCTACGTTGTCACAATGCTTAGTTGATGC +0 GTGGAAGAAGCAATCACAATCTGAAAAGAAAGGGTTTTACAAGGTAGATCCTGGTGATGA TCCGGATGATGATACTTGTGGCATTTGTGGTGAT
GGTGGCGATrTGCTCTGCTGCGATAACTGCCCTTCAACTTTTCACTTGGCTTGCTTA GGAATCAAGATGCCTTCTGGTGATTGGCATTGCAGTAGC TGTATATGTAGGTTCTGTGGTrCTACCCAAGAAATAACAACATCGTCTGCTGAGTTACrT TCTTGTTTACAGTGTTCAAGGAAATATCATCAAGTT TGTGCACCTGG AACCATGAAAGACTCTGTTAAAGCTGAATCCAATTCCTCAACTGATTγ.TTTTTGC AGCCC AXXHTGTλCλAACATTTATAAACA
TCTGAUAAAAC I ACTRGGGGTAAAGAACGCTATTGAGGCTGGATTRTCCTGGAGCCTGGTTCGCTGTTTTCC TGATAAACTAGCTGCACCTCCCA
+5 AAGGGAAAGCTCATITGATACATTGCAATγCCAAGACAGCTGTTGCTTTCTCAGTTATG GATGAGTGCTTTCTGCCACGTATTGATGAGAGAAGT
GGGATTAATATAATCCACAATGTCATATATAACTGTGGGTCAGATTTCAATCGTITA AATTTTAGTAAGTTCTATACATTTATγCTGGAGCGGGGT
GGATGTGCCATCGGCTACTCAATGCAATTGAATCGGCCCTTTCCTCCCTGAATGTTC GAAGACTAGTAATACCTGCCATACCTGAATTGCAAAAT ACCTGGACTACTGTTITTGGTγTTAAACCTGTTGAACCTTCCAAGAGACAAAAAATCAA GTCTCTGλATATCTTGATTATCCATGGCACTGGTCTT
GATCCCGGACACCTGTγCATπTTCCTGTGAATTACCAGTGGGTGGTGATCCTGAT ATTAAGCATCATGATGACTCTCATCCTTTAGTγGGGAACT
55 TAGTGAACCTTCTGTTGAAGCTATTCTAGTAAGAGACAAACCTGAACCTTCCATCTCTTG CAACGTTACCAACCAAGAAGACAAAAACTCTTCCA GCTAAGGATCAAACTRTTGTTAGTGCTGTAGCTAATAATGTTGCTACTACTGAAGATCCC AGTGATTCTGTAGCTGACTGTGAAGTGCCAATAGT
50
GGACATGGCGATTGAGGTGAAAGTCACAGTTGAGAACTTCAGTGAAGCAGGTAAACC AGCTTCAGCGCTTGTCATGTC AAATGACATT AATGGT CCAGAGAACCTGTTAATGCATGA SEQ ID NO. 164 LOC_Os07g076902 ATGCCACCGGTTGCGTCCGGCTCCGGCCGGAAGAGGCAGCTGGTGCT
55
GACAAGAGCAAGGGAAGTGAGGTGGGTAAGAGTGTTTTGCAACCTGATGTGAAGAGG ATCAGAACTGAGGCTGCCCATGGTGGCGGCAGCGGA AGCGGTGGGAGTGTATCGAAGGATGGAACCGGCGGGAAAATGCTGCGCCCGGGGTTCCCC AAGTGGCGATTTGAGAAGCCGGAGGTAAGGGCA GGGCGGGTTCTTGATGAGAAAGGTGGGGTCGAGACGAAGGTAAGCAGTTCCCAAAAGGTT AAGGACCATGCATCGAGTTCGGTTTATGAGAGA
70
AAAGTTCTGCCAAAGAAGACTACAGTGGAGGAAAATGGTGATGGAAAGATTTTGACC AAGAGTGGTGTTTTAAAGCTCCTCCCAAAGAACAATA
AGGCGAATAGGGAAAGTGGTGATGATAAGGCACCGAAGAACTGTACGGTGAATCTAG AAACTAGCGCTGGCAAGATTTTGTCCAGAAACACTA 75 AGAGAATCACAGAAAAACTAGTCTCCCCCATCCTATTGAGGAAAAGTGACCCAAGTGTAG TGGGAATTTCTTTGGGCCAGAAAATGAAGCAGCA
GATCATAAAATGTCACCAGAAAATTTGTCCAAGAAAGCAAAACCAAATGCCATTGAT CAGGATACATCTCGTCCTTCTCTTGAGAAGCATGGAA TAAAGAAGGAAAGG AAAGGGCCTCGTTACACAATGAAGCAGAAGCTCAGGGGTCAGATAAAGGACATTCTTTTA AACAATGGATGGAAAATTG ATCTAAGGCGCAGGAAAAACAAAGATTATGAAGATTCTGTCTATGTTTCTCCACAAGGAA ATGGCTATTGGTCAATCACTAAGGCTTATGCTGTG
TCATAGCATGG AAGGCAATGTGGACGGCTATTTrCCTTATCGATGGAAGCGGACAGTTTTATCATGGATGA TAGATATGGGGGTTGTrTCTGAAG
15 AGATTCTCACAGTTGCTAAGTTTGAACTTCATGCTGGTTCAAAAGAGCAGCAGCCCTATG AAAACATCTTTCTGGAAGATGGTGGGGCTACGTTG
TCACAATGCTTAGTTGATGCGTGGAAGAAGCAATCACAATCTGAAAAGAAAGGGTTT TACAAGGTAGATCCTGGTGATGATCCGGATGATGATA CTTGTGGCATTrGTGGTGATGGTGGCGATTTGCTCTGCTGCGATAACTGCCCTTCAACTT TTCACTTGGCTTGCTTAGGAATCAAGATGCCTTCTG
3TTTACAGTGTT
CAAGG AAATATCATCAAGTTTGTGCACCTGG AACCATG AAAGACTCTGTTAAAGCTG AATCCAATTCCTCAACTGATTGTTTTTGCAGCCCAGGA
TGTAGAAAGATTTATAAACATCTGAGAAAACTACITCKMGTAAAGAACCKrrATTGA GGCTGGATTITCCTCKjAGCCTGGTTCGCTGTTITCCTGA TAAACTAGCTC^ACCTCCCAAAGGGAAACKrrCATTrGATACATTGCAATTCCAAGACAG CTGTTGCTTTCTCAGTTATGGATGAGTGCTTTCTGC CACGTATTGATGAGAGAAGTGGGATTAATATAATCCACAATGTCATATATAACTGTGCKJ TCAGATTTCAATCGTTTAAATTTTAGTAAGTTCTAT
GGGGCATATAT ACWCGCCAAGGGATGTGCCATCGGCγACTCAATGCAATTGAATCGGCCCTTTCCTCCCT G AATGTTCGAAGACTAGTAATACCT
GCCATACCTG AATTGC AAAATACCTGGACTACTGTITrrGGTrTTAAACCTGTrGAACCTTCCAAGAGACAAAAAA TCAAGTCTCTG AATATCTT
AAACACATGTTGAAGCAACCGGATCCCGGACACCTGTTCATTTTTCCTGTGAATTAC CAGTGGGTGGTGATCCTGATATTAAGCATCATGATGAC TCTCATCCTTTA
CAGAAGTATGAAGATAAATCTAATTCCAGTCTTACAGATTCATCTGCTATTCCCATG ACAGTGGATCCAGGCTCATGTTCATCCAATGAGACTGT
AAGAAGACAAAAACTCTTCCATGGTTCCTGTTGATACGACAGTTCATTTAGCCACTA TAGTTGGG AATCATGATATTCAGAATTCAGTGG AAGTC AAAGGTATGG AACATAATACAGCTAAGGATC AAACTTTTGTTAGTGCTGTAGCTAATAATGTTGCTACTACTGAAGATCCCAGTGATTCTG TAGC
GACGATGTAGCTAATAATTTTGTTGCTACCACTGAAAATGACACTGATTCTACAGCT GAACTTGGAGTGTCAATGGAGAGATGTATCCAGCAAA
GATCTAG SEQ ID NO. 165 LOC_Os07g23450 1 ATGGACGGCGAGGGGGCGCCGGCGAGGCGGGCGCCGGCGGCGTCCTACTACGAGTGCACC
TT SEQ ID NO. 166 LOC_Os07g26720 1 ATGAG
CTCAAGCCCGTCCGACCGGCGGACATCTCCCGCATAACCAGCCGGATGCTGCAGTGA SEQ ID NO. 167 LOC_Os07g27770 1 ATGAGCAGGCTA
CAAGTGTGGGTGAGAGATGCTGAAGTTCTGAGGACAGCACTGCTTGAAGCTGG AATAGTCACAGGACCCACAAGTATÏ€TGC AAGTTGATGCTG
AGAAGGATATAGATGCTG AAGTTCTGAGGGCAGCACTGCTT AAAGCTGG AATAGTGGCAGGACCCACGAGTATTTTGC AAGTTGATGCTGGGGA TTTTCAGACAAAGAGGCACGCGTAAAGGTTTCGAGTTGC AAAAGAAGCAATGTCACCAAAGATTACAACAGATATGAGTTCGCTTGCTATTCTG ATGGTGGTCGTTAAAAGGGCTG AAAAGTGGGTGGTGACAATAGTAGACTTAGATCACAATCATCCTCCTTTGAGCCCCAATT CTCT AAGGTTCCT GAGACATGGCTGAAACCATCAAGTACTTCCAGGAATTGCAAGCAGAAGATCCATCGTTTT TCTATAGCATGGAACTGGACTCGGAT AATACGGT
TGGTAGCTTATTTTGGGTGGATGGTGCCTCAAAAGAAGCATACAAGAAATTTGGTGA TTGTATCGTCTTCGACACAACATACTGCACAAATAAGT ATAACCTCCCATTTGCTCCGATAATCGGGGTAAGCAACCATGGCCAGACTGTCCTATTTG GGTGTGTATTCCTG AAAAATGAAAAGATTGAAACT TTTGA-A TGGGTGTTTG AAAC A.TTCTTGAA.λGCAATGGλTGGλλλλCλGCCλC-V'S.TCCATCATGACTG ATCAGGACAAAACAATGGAGATTGCAA GAAGGGTTTGAAACAGACTTGAAGTCATGCATTGATAATTCTTTGAACGAAGAAGAATTT GATGCAAGTTGGGATGCAATGATTGATAGACATG
AGTTGTGTGGGAACAAGTATATGCAACACCTCT ATGATAACAGGAAAAAGTGGGTCCCCTGTTTTTTCATGGATTACTTCTTCCCATTCATGA GC AATTTCATCTTCCAATATGAGAAACT AAACAATGAAATCTACAGTTGTGCCTGCAAA 1 ATGGGGCGGGCGCCGTGCTGCGAGAAGAGC
I ATGGAGAGCCCGGACTCGTCGTCCGGC
CAGCTCGCCGCGGCGGCGAGGGCGGCGGCGACACCGTGCGACGCCACCAAGCAGCTT CTTGCTCCGTCTCCAACCCCATTCAACTGGTTCGAGG CCTGTCTGAGGCTGGCGCCGTGGCCATTGACACCGGCGACGCCGCCAATGGCGCAAACAC TATGCCTGCATTTATCAATCCTCTCGGCGTGCAGG CCAACTCTCCAGGGTGAATTGGGATTCCTGA SEQ ID NO. 170 LOC_Os07g38030 1 ATGCTCCAGGGAGTCCTGTCGCGAGCTCCCGGCGCCGAC GAAGC AAGGGTT AGTGGTGGTGAGTACGGGGGAGGAGGAGGAGGCGGCGGCGGAGACGCGTGGGCTGCGGCT GCTT AGTTTGTTGCTGAGGTG
TTCCAGGCGCTCGACGGCGAGGACCGCGTCCACGTGATCGACCTCGACATCATGCAG GGGCTGCAGTGGCCGGGCCTCTTCCACATCCTCGCCTC CCGCCCCACCAAGCCGCGCTCGCTCCGGATCACCGGCCTCGGCGCGTCGCTCGACGTCCT CGAGGCCACCGGCCGCCGCCTCGCCGACTTCGCCG CGTCGCTCGGCTTGCCCTTCGAGTTCCGGCCCATCGAGGGGAAGATCGGGCACGTCGCCG ACGCCGCCGCGCTCCTCGGCCCGCGCCACCACGG
CCATGAGAGCCACGATTCTTGA SEQ ID NO. 171 LOC_Os07g38750 1 ATGGAGCTCAACTTCCAAGTGCAACCTCCAGTGTTCCAGCTGCAAGAC TACTGCTA
CCACAGO CACCTTCC ATCTCGCC
SEQ ID NO. 172 LOC_Os07g41580 1 ATGCCGGATTCG
TTAGTGTTCGG AAAAGTACATCACACAAATCTTCCGG AAATATTACCAAAGTAAGGACTTTTGTTTGCTCAAGGG AAGGTTACAACAGGGACAA
VATACAG \CTTCAGT
CTGGGG AAGCAGAATTGTCAGATGATTCTGTCATGACACCTACAACAAAAGCAACCGGTGATCTTG TTGTGAGACAAATTGGTTTCCTTCGAAGT
GCAGACAATGC AAATGGAAAATCCTGCTTTCTTTTACACCATGCAGATTGATG AAGACGACAAGCTAACCAACTTCTTTTGGGCTGACCCAAAAT
GTGAATCATCACAAACAAACAATTGTTTTrGGTGCAGCTATGCTrTATGATGAATCA TTTGAGTCATATAGGTGGCTGTTTGAGAGTTTTAAGATT GCTATGCATGGAAAACAACCAGCGGTAGCTTT AGTAGATCAATCT ATTCCACTTGCTAGTGCAATGGCAGCAGCATGGCCAAAT ACTACTCAAA GAACTTGTGCTTGGCATGTATATCAGAACTCn-CTTAAGCACCTTAATCATGTTTTCCAA GGTTCAAAAACATTTGCAAAGGATTTTAGCAGATGT
TGTTTGATGAAAGGG AAAGATGGGCTTTGGCATATGAGAGACATATATTTTGTGCTGACATAATAAGTGCACTTC AAGCTGAAAGCTTCAGTAGT
ATGATGCAGGTGACTTGAATCTAAACATTATTCCTTC SEQ ID
TGGAAAATCCTGCTTTCTTTT ACACCATGCAGATTGATGAAGACGACAAGCTAACCAACTTCTTTTGGGCTGACCCAAAAT CTAGAGAAGACTTC
ACAAACAATTGTTTTTGGTGCAGCTATGCTTTATGATG AATCATTTGAGTCATATAGGTGGCTGTTTGAGAGTTTTAAGATTGCTATGCATGGAAA ACAACCAGCGGTAGCTTTAGTAGATCAATCTATTCCACTTGCTAGTGCAATGGCAGCAGC ATGGCCAAATACTACTCAAAGAACTTGTGCTTGGC ATGTATATCAGAACTCTCTTAAGCACCTTAATCATGTTITCCAAGGTTCAAAAACATTTG CAAAGGATTTTAGCAGATGTGTATTTGGCTATGAG GAAGAGG AAGAATTCTTGTTTGCCTGGAGAAGCATGCTAGAAAAGTATGATCTTAGGCATAATGAGT GGCTGTCTAAATTGTTTGATGAAAGGG AAAGATGGGCTTTGGCATATGAGAGACATATATTTTGTGCTGACATAATAAGTGCACTTC AAGCTG AAAGCTTCAGTAGTGTTCTGAAAAAGTTC
TAGTC AAAGTTATCCAAGAATACCCCCAGCCAAGATGTT AAAGCAAGCTGCCCATACAT AT ACCCCAGTGGTGTTTGAGATCTTTCGTAAAGAGT TTTGTTAGATTrGACTCGAGTGACTGCTCCTGTATCTGCACTTGTAGGAAGTTTGAGTTT
ATGGGTATTCCATGTTGCCATATGTTGAAGGTGCTC 1 ATGTGTGGCGGCGCGATCATTTCCGACT
GCAGGACGCGGGGCTGGAGCTCTGGAGCTTTGATAACATCCACACGGCCGTGCCGAT GTGA SEQ ID NO 176 LOC_Os07g477902 ATGTGTGG CGGCGCGATCATTTCCGACTTCATCCCGCAGCGGGAAGCCCACCGCGCGGCCACCGGCAG CAAGCGTGCCCTCTGCGCCTCCGACTTCTGGCCGT
SEQ ID NO 177 LOC_Os07g4
ATCAACTCTCTATAAAAGGAGATCAAACAGCAACGGCAGTTAAATTTGCACCTGATT CCCCACTCTGTAATTCCATGGCCTCTGTGCTGAAAATT
GCTTCCCTGGTCCTCCTTTTGTGTACCCATGGAGTCCAGCATGG AATGGCATγCCTGCCATGGCACCACCGGTATGCACAGCACCAGCTGAACCA
GCAAATTCTTCAGACAATGG AAGCACAGCTAGTGTTCAGTGGAGCATGCCACCAGTGATGCCGGTACCAGGATACTTTCC GGTAATTCCATCTTC
TCAACCATGTTTGTGAAGGTGAACCTGGAGGGCTATGCTGTCGG AAGG AAGATCGACCTG AAGGCGCACCGCAGCTATGACTCTCTGTCCCAGG CTCTGCAGAGCATGTTCCATGGCTTCTTGTCAGATGGCATTGCAACTAGAGACAATGAGC TGCAGCAGATGGAGGAGGGCAGCAAGAAGAGGTA
CTCAGGATCCTAGAGTTCATGCGAAGCTACGATAA SEQ ID NO. 179 LOC_Os08g017802 ATGAAGAGCTCTTCAGTTGCACCAAGGCTGAAACA GGAGAGACAAGATGACTGTAAGTTTCAGG AAGGTGATGTGAACAGCCTTGAGCTTCGGCTTGGCATATCTTCCGACAATGACCAGATCA GTGGT GGTGGTGCTGCTAGTCCATGGCTTGGTGTGGGAGTGCACCCTTGGAGCCTGGCTGC AAGGCAAGGG AAGGCAGCCTTGGAGC AAGCTCACCAGA
AGGAGGTCATCATCAACCATGTTTGTGAAGGTG AACCTGGAGGGCTATGCTGTCGGAAGGAAGATCGACCTGAAGGCGCACCGCAGCTATGAC T
AGGCTCTACATTGCTCAGGATCCTAGAGTTCATGCGAAGCTACGATAA SEQ ID NO. 180 LOC_Os08g09900 1 ATGGAGAATCAATCAGGACAA CCGCAGTACGCCATGGCTGACCAAGGATTCCACCCTTTCTCACCATTCATGTTGGCGCCT TCTACTACCATGCAGCAGCATGTGGGCTCCTCATCC
CAGATGGACAGACCATCGAAACAGTTTGC AAGGGCTGTCACAACCACCCACGACAGTCACTAAGGTGGCTCGGAGATGGTTCAGAGCGA TTGG AGCCTATTTCTC AAGAAATTGTGCTACTTGAGGCATCAGATGCCTCAGGAGCTGCTGGTGGACCTTCAGTGC CTGGGACGGGAAATGGGCACGG CCAGTCGTCTGGTTCAAGTGATAGCTGCAGAGACGATGATGGTGATTTAGGAATTGATGG GAATGCTTCTGTTGGTGATGCCAATGCAGTGAAA AGCGGACAGGTCCCAGCTCCAGCCAAAGAGATCACTGTGCACTCTGCATGTGAGGTTGAT ATTTTGAATAACAGTGTTCGTCATGAAAACCCAC AACCAAGG AAAAAGGTGCGATCTAAGTCCACGGTGTGGGAGGAATTTG AA GTTGTGTTAATTGATGGAAAGGTTCAAACCGCTGAATGTAAGCA
AGTCTCAAACCγTTGCCCCTTCTCTGCCATGTACAGTGCAAGCTTTGCACAGTTTC TAGCTGGTAGAAATCCGGTTCTTAACATGGTGCAGCAAGC TACCGTTGAGGAAAAGTRTCTTAGTGTTTTTCATAACGAAAAGATGAAGCTGAAGGAGAA AATAACAGCTACACCTGGGGGAGTTTTCCTGTCA
CTAGGCGAGTGGCAGCGGTTATTTTACATTCAAGTAAGAGTTGCTTGTTT AACTGTGCATTTTATAGATGAGGACTGG AAGATCAATAGAAAAAC
AATAAGATGTTCTCTTTCAGTATTTGGCAAGTCTGATATγTTAAGCTTGTACCCGC ATTGGCAATCTGACATTGTTCTTGCTGAGAAGGTGTTAAA
GGAAGTAGTTCAAGATTGGGGTCTTTTGGATAAGCTTTT AGGAGTGACACTACAGCGATCAGTGGAT AAGAAAGCTCCATTACACTTGGAGGAT
GACATγACAGGAAGGAACTACCTTCTTTCCAAATGCAGGCTATTAAGTATCCCTTG TATGGTAγ.ATGCCCTTCλTGλACTTATGGACTCCACCGT
TTTGGACλTCCAATCGACATGGTCTCATTACA I GACAAGCTCCCCAGAGCGTAAGCAGAAATATCAGGAAATTCTATCACAGCTGCATCTAGA C
CGTCCCTCTCTCGGATCAAAAGGCTGGTACTγCACATTCγATTTTγCTGAGGCT GCITTGCAGTTCATCAAATCATTTCCACTTCCAGATGCTAAA
CCAAATTGCCAATCAGGTCCTTGGGAGCCATCTTTTGATGATCTCGAAGC AACAGAGAACTATTGC AAGATTGCAAGGTCAGCCTATCGTGTAAT AAAAT ATTGGAAGAGTTTTTGATGTGGCATAT ATGCAGAAGAAATTTGACAGAAATTGG AAGAAGTGGTACTTGTGGCTGTCGATAGCTGTGGT
TCTAGATCCCAGATATAAACTCGGATTCATRGAACTRTGCRTCAGGCAAGCTTTTAG CCATGTTGCTGGAATGTATTTCTCCGAGGTGCGTGCAAA
CTCCATTACATAACAAGGGCCAGAATTCTACCACAGCCCAAGCTGCAGTTGAGGAAT TCAAAGAGCTTTATGAATATCTTGGTGGGGGACTCTGT SEQ ID NO. 181 LO
TTGGGGACAGGAGAGTGGCCTGTCACAGATGTGGAACCCCCAATAA SEQ ID NO. 182 LOC_Os08gl5050 1 ATGATGGCAAGCGACGGCAGCGC
AGCCCCAACGACAGCTCGTCGAGCTTCACCAACGACAGCGCCGGCGGCGGCGGCGGCGGC
GGCGCCGAGAGGAGCCTCTTTGACCTGCTCTCCG
GCACCACCGCTGCCACCGCGGCCTACGGCGTCGTGCCAACCTTCTAG SEQ ID NO. 183 LOC_Os08g3l580 1 ATGGCAGCTGCTATAGAAGGAAA TCTGATGCGGGCGCTGGGAGAGGCTCCGTCGCCGCAGATGCAGAAGATCGCGCCGCCGCC GTTTCATCCCGGCTTGCCGCCGGCGCCGGCGAAC
SEQ ID NO. 184 LOC_Os08g33150 1
VOOVODaOOOVVOOiIODOOOOUJ-OOOVOIVVOVOIOiXOOVVVaVIaIOVIVOVO VDVVIVVVOaOOJ-VOVVaIOiIOaOVOOiOOVVOVVD
IVVOVOViiOlVOOiiVOiOlVaVOVViOOWVliOiiVlOWDOVOiiDVOÏ‹iVOOV VOOOVDOlOVVDlOOVlDlOVOiiDlOVOiOOVOOV CS
DDVDIVVIVOODVQIDVOJJ.DDOVDOVVWOIVOIVVIIOIDVOJJJ.OODVVDVDV DDIIOVOOIOJJ.OWDOVDDOVVIOIVQQQJJJJ.VODDV
QC I 0668C880SO DOT 881 ON Ql
SL
DlOWDOilOOlϋ VVVOVOlOiOVOl VOlVOVOVOiOlVOlVVDllDVDVaiaillDOllOlVVVDDVODOODOWOOliOOOODOl llODOVDl sς
VVllOllVlOVVOOVDllDVOlliVOOVVODDVOOlOVVOlOOVlDlOVOllOlOVO lOOVOOVaDVaiVVlVOODVOlOVOllOOOVOOVVVVD XVOXWJJ-QXOVOJJaDDDWOVOVOOJJ-OVOOXOJJ-OWOOVDDOVVXDXVOODJJJJ- VDDDVVOJJJDJJOXlVXDXDOX VOXVDDOOVDVWD IVOVVOIDVVVVVVVIODDIVOOIVOOVVVIIOIVVIOVIVOOIVOIIIIIVODOIOVVV OOOIOVOOVIOOIOIIOOVVOVOOIIVODOOVVOO
VXVDXXVVVVOXOOXQXDOJJJJ-DDVOVOOVVDOXODQXVDOVQVDVOXOIDXOXO DDXWVOXaQVVOXVVVOVDDVVDOOXODXXXXXOOW OS
VOlVVOlllOVVVVWOOVlDOVOlDOlOVVVOVVOOOOOOVVOilVODlVOlllDOV VVDOVOVVOOOllDVOOlVOOVOlVOVVVOWlOV
DOOlVVl VOlOlOiillVaVOVOlJLUODDlOOODlODVDllVVOVVODVÏ…OlipillDVOOlOlV OlOVOVVOVVODlOVDODVOlODDllOOlV
OOIIVODVOOIVOIOVOOVDOIVDOVVOVVODVOOODVOOIV I 0668ε880SO DOT LSI OH Ol O3S VOlOlOOVODlOOVODilOVDlllOlV
Sζ
05
30000000OVOOOOVOJJLOOVOIOOOPOOOOOODDOODOOOOXJI 1 JOOOODIOOVIDIDVODVOOOVOOVODODOOOODDOVOVODOOOVVDO
VDODVODOVVDOOOIV I 09£W 3 80SO DOT 981 ON OI O3S OVIWOVVWOVDOOIOOOOVWVVOIVDIIDIVDIIVVVOVOVVOVWWD
0OVVOVIIVVOIOOOOOIDIIVVIVDOWOVOOVDVDIVIVIVOWDVVDOJJJ-VOVVWOW
WOVVVOIiIOIVOWVOVWVVOVDOVOV
OVDOlIiOVVVOl VlOO WWOOIVOOI WVDIVOOVl VWOVDOlOWWOOWDlDilli VDVVDIl VOVOlDDl WDlDOVOVOVDDVlll
DDVl Vl VVVOOlVVDOOVVVVOOOVOllDlOOWVDVlDVOWWVWOVOOlVOVVVOli VJJ. Vl Vl WVWOVDDVlVOWOlVVOOi VVO
10OVOOIDOIWIOWVOIIVIOIVDDOIDOIVIDJJ-DVOOXVOVWOVOIIIOVVVDI DOIJJ-VDOIOWOIiIVOOVDOVWVOOIlDVOOlD Si
JJ.VJJ.OXlDDVXOVVOOVVOVVDVDXVVlOVVDliVlVVVVOlVVOiiVOODiil ilJJ-OVVOlVJJ.DWWDJJ.DWOVDVlOVVOlVWlVV
VOIiIVOVIOVVDVVOVVVVOIIOVOIIOWDIJJ-OVVDIVDIIDIVVWDODIVVDV IOIWDVOIVVOOVVODVIOVOJJ-VDVIDVIlVOOO
IOOIIIDVWDO WDDWVDVWOVDD WDϋXVDVOlVOlVDiϋOVOWOOliD VVWDJJ. WDVlVODl W1OVOVVVO1V1OVOV1VO1V
DliDWVDVllVDDVOVlOVDVDDlOOliOlWlWOWlilOOWDlOWlOVDOOWOlDVO iOiDOVDVDOVWWlViliVDOlOlOlilV
0IDDOVVDJJJ-VIOIOVDDJJ-VJLUVOVVVVVOVIIVVDIOOIOIVDVDOVVVID JJJJ-VVDXVIVOOVOIiOVVOIIIDOVDVOIIVOlVVVOV oe
VDOOl VJJJ. VIOVOJJJLVVDWOWOVOVJJ.OVaiaWlVVVlVÏ‹VaVOWOlVlOVDIVOlVlOJJ.OO OWOVWVDD WVDlDOiJLL VWO
OJLDlVlOlWOliiOO VWOWVIOIIVIVaIJJ-DXIOOIIVWOVDVDOVWDOXVVWDIIiVIOWDiOOJLLVVDOV DIVOVOlWDOVDDl
VDOVDlVOXDVJJ.VOXVVDVVVVVODVVOVVVVVOVDXOlVJJDV'VVDiiilJLL OVVOVDllOlDOOlVVVliiVOVVVDVDJJ.DVOVOlVOlV
DOlXXJJ.VDOlOlXDOiiliiOJJ.WDVDVWOOlVDVDDlVlllVVODJJ.OlilD DOlDDliiODODlDOVVDVl VWDWDOVDXXX VXVOVVO
VDVDiiiiOVOlOilOlVOlOOlVlVWOVOlVlOOlOVOOOVODlVOVOOOlVOVDV OOJJJJ.DlDlVWWOiOVWOWDOVDVOlVOOJJ. Ï‚z
IVOiilOVOlVJJJλDJJLLVOVODlVOVVVVVDVVVVVVOOVVDVDJJJJJ.VVO VlilOVVVVOlVVlVlVOlVVDOVDOVVOVOVOOVVOVVl
IVVOVOOVVOVOlOlVVDOVVlVlVOVVVOVVDOVlVilOOOlilOiiDVOliVODV ODVOVVJLDllOlDlVllllVOlOilVOlVDVDOOVVDV
VODVl V1VV101\^ODVVDJJODVOOVÏ…1VDJ001VVVVVVOVVOVDVJOV01VDVOVVVOVOV 01 VVVDiOJJJLVOVOXOVVDlVOVOVVOO
0IVDVOIiODWIOVOVIDVOIOWOVOOIWDDWWOWDOWDWDVDVDDVIDWOVOiODD OVDIOIIVIDJJJJ-VOOlDOOUOiOlD OZ 0VW0V1D0W0W00VDW01 WDVOVlODiXiXVlWVl VDV0W0W0V1VD1DDVOW0W01VWDWV01D1D WlVOl VWDOl W JJlVVODllVVlVODlVVDOlVOOVOVVOlVVlOVOVOlVOVVOOVDJJJ.VDOlOVVDD XDVOODJJ.OiiiiiViaiOVDVDOVDJJ.VVVVOVV Sl DIVIXWOIVOIVIVDJJ-VIWVOWOOVOVIiVOUDUiVDDWOVOVDIVIDWDOVDIXWXV OOXVXOVWOOWWOVXOVDWOOXV WDWWX VXOVOVDVDXXiIVIOVVVOVVVOIVIWOVOXXVWOVVWDXOVDJJ-VXOVVOVWOVDOW OVDXDJJ. WOXXWOVDXVXO
Ol
VOOJOLVVDVOVDVVVOOVVVaVXVaaXVOVOJJ.OVVVOVOVVOXJJJOVVDVOVVVDX
VVVOVVOVVVOOVOViDJLLOVlOVOyyVDlVVOV DlOlWDVlDVDVDVODWDOlVOVDDOlVWOSiVDOVOVWWDVDVOWDVWOVDWOVDDVlD
OVOOlV I OLZi&SOSO OOT S8I O N αi OηS VVJLOϋLLDiaOVOXlDOVVDVVDOXODOVDiiDOVaOVDOOVDOVDOVOiiiOOODOV
DOVOVOOVODVDOVlOOlOVDiJLLDOOaVO
LZ
S/.6Z00/600Zd3/X3d ϊW/.Zϊ/600Z OλV
AATGTTCCrTTCTCACACrrcAATGATCTGAGAGATGATCACTCrGAGAAATTTGGT rCCAAGTCTGGTCAGGCCACAGCAACTTCATGGGAGAA TGGACAAACAAGAAGCTGTGGATATCTCATCGACGCTCTCCAATGAAGAGGATGATAGGG TAACGCATCGTGCCCCGCTTTCTCTGGGCTTTGAT
AATGCTG SEQ ID NO. 189 LO€_Os08g38990 3 ATGG ACGGG A AAGAGCAAAGCTTTCATCGATTCAAGCCGGGAAG AAGCTCAAATGGCTGTCTGTCAGAGAGGATGGCTGC AACCCATTTTGGGATCTAAGCCACCAACTTGT
AAATGGACACCTCCAAGATGTCGG AACACAAGAG
1 ATGGTGCCGCCGGCGGCGCACGCGCCGAAGAACCTGG
SEQ ID NO. 191 LOC_OS09GL 1480 1 ATGTGTG
AATGGTTAATT AG SE
SEQ ID NO. 193 LOC_Os09g
SEQ ID NO. 194
GGAACTGA SEQ ID NO. 195 LOC_Os09g35870 1 ATGGCGAGCTACGGCGACGACGGCGTGGAGCTCACCGAGCTGACGCTGGGGCCTCCCGGA G
15
TGGGAGATGTTCGTGTCTTCGTGTAAGAGGATGAGAGTGATGCGAGCTTGTGAGGCG AGAGGCTTGAGCTCAAACGCGTGA SEQ ID NO. 196 L OC_Os09g36730 1
10
ACTACCTCCGGCCTGACCTCAAGCGCGGCAACTTCACCGAGGAGGAGOAIGAGCTGATCA
TCAAGCTTCACAGCCTTTTAGGCAACAAATGGTC
GGCGTCTGCTTCAGCTGCAGCCTGGGGCTCCCCAAGAGCACAGACTGCAAGTGCAGC AGCTTCCTGGGACTCAGGACAGCCATGCTCGACTTCA GAAGCTTGGAAATGAAATGA SEQ ID NO. 197 LOC_OslOgl l580 1 ATGCCGATCCCGGAAAAGGACGGGGTGGAGGACAATCAAGAGGATGAT ACATTTTCAAGGTTGCAATTGCTTGCACAACAACGACATGCCATGGAGAAGTTCTGGAGG ATGAGCCAGGAACAGATCGAAGAATCCGCAGGCA
ACGAAGAGCπTATACTC^CGATTTCCCGTGTCAAGAATATCATCCATGCAAAGGAG GGTGGTATGATGTTATCTGCTGATACCCCAGCTπTGTA ACAAAACTγγGTGAACTTTTCGTCCAGGAGCTCATCCTTCGTGCITGGGTGTGCGCCA ACTCACACAATCGTGAAATCATACTTGGCACAGATAT
5 CAATATγCCTGTTTGTCCTCCTATAGGTCAATCGGGTACTCAGCACACAACATCTACAC ATGTπTGATGATGCAAGGAGAATCTATTCACAAGG
CGAGCTACGACACGGCGGGGTTCACCrCCTTCÏ€CGCGCCATCCACCACGCTCACCT CGTCCCTCTCCTTCCCTTCCATGTTCCACGCGTCATCGC 200 LOC_OslOg25230 1 ATGGCGGCGGAGGCGGCGGCGAC
l IC
GGGCATGCACGAGTTCACCAAGATCATTGATGACTCCAAAAACCAAAAACCAGGTAG TCCTTGTTAA SEQ ID NO. 203 LOC_Osl0g28340 1 ATG
CCGCGCGGGCAACAGCTTCGTCGTCTGGGACCCGCACGTCTTCGCCGACCTCCTCCT CCCGCGCCTCTTCAAGCACAACAACTTCTCCAGCTTCGT ) 0 CCGGCAGCl CAACACCTACGGCTTCAGAAAGGTCGATCCTGATAGGTGGGAGTTTGCAAATGAGGGTTT TCTCAGGGGCCAAAGGCATCTCCTG
AGG AAGAAATTGACAGGCTGAAGCGTGATAAGAACATCTTGATCACAGAGGTAGTAAAGCT AAGGCAGGAGCAGCAGGCCACTAAAGATCATG
55 ATGACCCTGGGGAAACAAGTCAGACTGAGCAACTTGATTCGCCGTATTTGTTTGATTCAG GTGTGCTTAATGAGTTAAGTGAACCTGGAATCCCT
CTGGCTCAACAGTTGGGGTATCTGAGCTCTACTAGTCCAAAATAG SEQ ID NO. 204 LOC_Osl0g283402 ATGGACCCGGCGGCGGCGGGCATTG
50
TCAGAAAGGTCGATCCTGATAGGTGGGAGTTTGCAAATGAGGGTTTTCTCAGGGGCC AAAGGCATCTCCTGAAAACGATAAAGAGAAGGAAGC
CCCCGTCCAATGCACCTCCGTCACAACAACAGTCCCTCACATCTTGTCTGGAAGTTG GTGAGTTTGGATTCGAGGAAGAAATTGACAGGCTGAAG
CGTGATAAGAACATCTTC
)5
ACTGAGCAACTTGATTCGCCGTATTTGTTTGATTCAGGTGTGCTTAATGAGTTAAGT GAACCTGGAATCCCTGAGCTGGAGAATCTCGCAGTGAA 70 AGCTCTACTAGTCCAAAATAG SEQ ID NO. 205 LOC_Osl0g283403 ATGGACCCGGCGGCGGCGGGCATTGTGAAGGAGGAGATGCTGGAGTCG
TACGACCTGGTGGAGGACCCGGCCACCGACGGCGTCGTGTCGTGGAGCCGCGCGGGC AACAGCTTCGTCGTCTGGGACCCGCACGTCTTCGCCG ACCTCCTCCTCCCGCGCCTCTTCAAGCACAACAACTTCTCCAGCTTCGTCCGGCAGCTCA ACACCTACGGCTTCAGAAAGGTCGATCCTGATAGG
NO. 207 LOC_OslOg30310 ] ATGGTGGTGGTGGTGAGCC
CCATCGACGGCGGCCGGCGCGTCGTCGTCGTCGTCGGGGCAGTCGTCGTTTCCGTTGTTC
TACAGCTTCGCTGGACATGAGCTTGGCGGCAACGA 1 ATGGCGGTGCGGAGACGGGGGGCGTCGGCGGTGGCC
TTTGCTCCAAGAGGTACCACTTCATAATTCGCAATGAGAATGAAACTGGCACCTCCA AAACCTGCAGGCGTTGCGGGTTCATGGTGGCACTGCA
55
TTAACTTCTGGGATCGGCTCTGCAGATACCTCAGGGTCAGAAAAGTCTCAGTGATAGATG
TTTCGAAGAAGTATGGAGCTGACTACCGAAGCCT CCATGCTGTTGCCACTGGCTGTTCTTGGTATGGCCTGTGGGGATTCAAACTTAGCAGCGG
AAGCTTTGG AATCACACCTCAAGACTACTCCAAAG
GTGTGCACCCTAACCCAAGACCACCTATTCCGTGACATCAAGTTCTTGTATGATGCG CTTγTγTλCCCλTλCλCAATGCATCCTTATATGCCAGAA
γ,A_AAATTATCλCCATGCCAAGAGGTCTGCAATOA I CCTTTTGGACTGC AAGCAATTCATCAAGCATT ATGATCTGGAAGAAGACTTCTTACCTCA
15 AGGCAGCAACTATCGCTGATCTC AAAGGGGAGGCTGCGAGAGCATTTCGAGACATCTACCT AATGTT ACAGAGTTTTGTAGCTGACCAGCTTCTT
TATCCTGTGACACTTGCCATATGTGGATGCACACTAGGTGTGCTGG AATCAGTGATTTTGATAGGGTTCCAAAGAGATATGTATGTAAATCATGT
50
ATGCGGCTGAAGGATTACTGTGGCCTCAAATCAGCTAA SEQ ID NO. 211 LOC_Osl lg3138O 1 ATGCACCTCCCCGCTGTGGGCATGTCACACCC CACCGAGGGTGAGCTTGTCTTCCACTACCTCTATCGTCGTGCCGTTAACATGCCGCTGCC CTCTGAATTCATTTGTGATGTCAACGTTCTTCCTCA
CCTAACATTTTACTTTGGG AATTCACGGACCGCAGAGCGCACAAAATGGGGTATGCAAGAATTTCGCCTTGCTGGCAAT GGTCTTTCGCCTTACC
>5
TTTATTGACTTCCTGCAGCAGGGATCGCACATTGAGTCATCCTCCCCCTGTAGTTGT ATAGTTGGCCCCTCTTTGGCAGAGGGAAGTGATGAATCT GCTGGTAGTGTTGACCAAAAGGATTGA SEQ ID NO. 212 LOC_Osl lg47460 1 ATGGTGACAGTGAGAGAGGAGATGCGCAAGGGACCATGGACA
SO GAGCAGGAGGACCTGCAACTGGTATGCACTGTCCGCCTGTTCGGTGACCGCCGTTGGGAT TTCGTTGCCAAAGTATCAGGGCTCAATAGGACAG
ID NO. 216 LOC_Os12g04180 1 ATGCCAAGGAGGAC
ACTATGTGAACCAGTTGGAGAAGTTGTGGAAGTGAGAATGATGAGAGGAAAGGACGA TAGCAGGGGATATGCTTTTGTTAATTTTAGAACAAA AGGTTTGGCATTAAAGGCTGTCAAAGAATTG AACAATGC AAAACTGAAGGGAAAGCGGATAAGGGTTTCTTCCTCGCAGGCTAAGAACAAGCTT TTTATTGGAAATGTACCCCATAGTTGGACAGATGATGATTTCAGAAAGGTTGTGGAGG AAGTTGGTCCAGGAGTATTAAAAGCTGATCTCATGA AGGTCTCAAGTGCAAATCGCAATCGGGGTTATGGTTTTGTTGAATACTACAACCATGCAT GTGCAGAGTATGCAAGGCAGGAGATGTCTTCCCCA
GAAAAATCTGCCCAAGAATGTTACTCAAGCACAGCTGAAAAGGCT ' GTTrGAGCACCATGGTGAAATTGAAAAGGTTGTTCrrTCCTCCrTCAAGA GGAGGTCATGAT AATAGGTATGGTTTTGTTCACTTTAAGGACAGATCCATGGCCATGAGGGCTCTGCAGAAC ACAGAGAGATATGAGCTTGATG
SEQ ID NO
GCKSATATGCTTTTGTTAATTTTAGAACAAAAGGTTTGGCATTAAAGGCTGTCAAAG AATTGAACAATGC AAAACTGAAGGGAAAGCGGATAAGG
20 GTTTCTTCCTCGCAGGCTAAGAACAAGCTTTTTATTGG AAATGTACCCCATAGTTGGACAGATGATGATTTCAGAAAGGTTGTGGAGG AAGTTGG TCCAGGAGTATTAAAAGCTGATCTCATGAAGGTCTCAAGTGC AAATCGCAATCGGGGTTATGGTTTTGTTGAATACTACAACCATGCATGTGCAG
TTG AAAAGGTTGTTCTTCCTCCTTC AAGAGGAGGTCATGAT AATAGGTATGGTTTTGTTCACTTTAAGGACAGATCCATGGCCATGAGGGCTCTG
25
CAACAGCCTGGTGGACAGTTGCCGCTGGCTTCGCCGCCGCCGCAGC AAGCTGGACATCGTAGCGGCAGTGGAGGACGTCATGGCGGCAGTGGCG
30 GGCCGGCGCCGCCCGTACTGA SEQ ID NO 218 LOC_Osl2g041803 ATGCCAAGGAGGACAGATAATGCTGCTTCTGCCAATTCAGTTGAACCAG
AAAAATCAGAAGAATGTTTGGAGTTTGATGATGATGAGGAGGAGGAGGTAGAAGAGG AGGAAATTGAAT ATGAAGAAATTGAGGAGGAGATA
TGGTTCTG AAGTATATGTTGGAGGCATCTCCAGTGATGTATCTTCTGAAGATCTGAAGAGACT ATGTGAACCAGTTGGAGAAGTTGTGGAAGTGA J 5 GAATGATGAGAGGAAAGGACGATAGCAGGGGATATGCTTTTGTTAATTTTAGAACAAAAG GTTTGGCATTAAAGGCTGTCAAAGAATTGAACAA
TGCAAAACTG AAGGG AAAGCGGATAAGGGTTγCTTCCTCGCAGGCTAAGAACAAGCTTTTTATTGG AAATGTACCCCATAGTTGGACAGATGAT
TTGTTGAATACTACAACCATGCATGTGCAGAGTATGC AAGGCAGGAGATGTCTTCCCCAACATTC AAACTAGATTCAAATGCTCCTACAGTCAGC tO GAAAAGGCTGTTTGAGCACCATGGTGAAATTGAAAAGGTTGTTCTTCCTCCTTCAAGAGG AGGTCATGATAATAGGTATGGTTTTGTTCACTTTA
TACCAGGTGCCTATGGTGCTGCTCCTGCTAGTACTGCArAr.rrT A TGCTCTλTCCTCCAAGAGCTCCTCCAGGTGLAOC AATGGTTCCAATGATG
15
AGACGACAACAGCAGTAGCCGCCACAAAGGCCGGCGCCGCCCGTACTGA SEQ ID NO 219 LOC_Osl2g041804 ATGCCAAGGAGGACAGATA ATGCTGCTTCTGCCAATTCAGTTGAACCAGAAAAATCAGAAGAATGTTTGGAGTTTGATG ATGATGAGGAGGAGGAGGT AGAAGAGGAGG AAA
50
TGAACCAGTTGGAGAAGTTGTGG AAGTGAGAATGATGAGAGGAAAGGACGATAGCAGGGGAT ATGCTTTTGTT AATTTT AGAACAAAAGGTTTG GCATTAAAGGCTGTCAAAGAATTGAACAATGCAAAACTGAAGGG AAAGCGGATAAGGGTTTCTTCCTCGCAGGCTAAGAACAAGCTTTTT ATTG
AAGTGC AAATCGCAATCGGGGTTATGGTTTTGTTGAATACTACAACCATGCATGTGCAGAGTATGC AAGGCAGGAGATGTCTTCCCCAACATTCA
>5
CTGCCCAAGAATGTTACTCAAGCACAGCTGAAAAGGCTGTTTGAGCACCATGGTGAAATT
GAAAAGGTTGTTCTTCCTCCTTC AAGAGGAGGTC ATGATAATAGGTATGGTTTTGTTCACTTTAAGGACAGATCCATGGCCATGAGGGCTCTGC
AGAACACAGAGAGATATGAGCTTGATGGTCAGGT
AGCAGGCCAGGTGCAAAGCGGCAGAGAGGAGACGACAACAGCAGTAGCCGCCACAAA GGCCGGCGCCGCCCGTACTGA SEQ ID NO 220 LOC _Osl2g06010 1 ATGCTAAGAGATATGAACGATCAACCCACAAGGGTGGATGCTTTTGATGGTTTTGATATT AGAGAAGGAAAAGGTGAAGACTCA ATAGAT AGTCAACTTGCTGACCAGACAAATATGCTGCACGTCTCGGAGGTGGCAAGCCTTGGACAG AAGAAGGGCAAGGATTTGGTT AGTAAGG
35 AAACCAGCTCAATACCTTC AATGGAGATGATCCCAGC AATTAGAGACCTGAATGTACAGCAAGTTTCCTTTGGAGATGGCTCTACTGAAGAATTT GGAAGCCCAACAAAGAGG AAAGCTTTGCCGACAACAAAGAGCTCAGGCATTGTCCAGCAGGCTGTTTTGGAGTATGGC CAGAGAGGAGCAGAG
GGCTGCTGGTAAACTGGCGGGACCTATGAGAGGACAAAGTGTGGAGAAGATGAGTCG CTT AAGAGGGAGACTGGGTCTT AGGGGTTTTACTGGT
70 GTATGTGCAATTGTCCCCAGAGG AACCACAGTGGCATGTTACTTTTGTGTATGGTGAACCCCGTGTTGAGAATAGACATCGAA TGTGGTCGTTGC TGAGAACAATCCACCAATCTTCGTCCTTGCCCTGGGCCGTCATTGGTGATTTTAATG AAACTATGTGGCAGTTTGAACACTTCTCAAGAACCCCA
CATCTTGTCTCCCCATGTTCTGATCACTGCCCAATTTTGCTG AACCTGGTAGTG AAAGATCCCCACCAACTTCGTCAGAAATGCCTCCATTATGAG
75
CTGCAGCGGTCCAGAGTTAATTGGCT AAAGGATGAGGATCGAAATACGAAATTTTTTCATAGCCGGGCAGT ATGGAGAGCAAAGAAGAATAAA ATCTCCAAACTACGGGATGCAAATGAAACTGTTCACAGTTCGACAATGAAGTTGGAGAGC ATGGCAACTGAATATTTTCAGGATGTGTACACTG
50 CTGATCCAAATCTTAATCCTG AAACCGTTACTCGTCTTATCCAGG AAAAGGTTACGπATATCATGAATGλGAAGCTTTGTGAGGATTTTACGGAG
GATG AAATTTCTCAGGCAATTTTCCAAATTGGGCCCCTG AAATCACCTGGTCCAGATGGCTTTCCAGCCAGGTTCTATCAGCGCAACTGGGGCAC AATTAAAGCTGATATAATCGGTGCAGTTCGCCGTTTCTTCCAAACTGGACTGATGCCTGA AGGGGTCAATGATACGGCCATTGTTCTTATCCCTA AGAAGGAACAACCAGTAGATTTGCGAGACTTTCGGCCGATAAGCTTATGTAATGTTGTCT ACAAAGTGGTATCCAAATGCCTGGTTAACAGATT GAGACCGATCCTAGATGATCTTGTTTCTGTGGAACAAAGTGCCTTTGTGCAGGGAAGAAT GATAACTGACAACGCTCTCTTAGCCTTTGAATGTT
55
CTTGGAGATGGCAATGAATAAGTTGGGTTTTGCTCGCCGATGGGTTAACTGGATTAT GAAGTGTGTTACCTCGGTGAGATACATGGTAAAATTCA ATGGAACCCTACTTCAATCATTCGCTCCAACTAGAGGTTTAAGGCAAGGAGATCCTCTCT TGCCCTTCCTATTTTTGTTCGTGGCAGATGGACTGT CATTGCTGCTGAAGGAAAAGGTGGCCCAGAATTCTRTGACCCCTTTTAAAGTCTGCAGAG CTGCCCCTGGAATTTCCCACTTACTCTTTGCTGATG
CCCAGCCAAATGTγCTATCCTCATGGGAGGAGCCTCGACCCCGGCTGTCAGTGAGG CTATATCAGAAATπTACAAGTGGAAAGAGACAGGTTγ GAAGATAGATATCTGGGATTTCCTACCCCGGACKKIACGGATGCACAAAGGACGTTTTCA GAGTCTGCAAGCTAAGATTRGGAAAAGAGTGATCC
ATTACCTGAATCTGTTATTGATGATCTAACGAAACTAACAAAGAACTTTTGGTGGGA TTCCATGAACGGCCAGAGAAAAACGCATTGGAAAGCC TGGGATTCGTTAACGAAACCAAAAAGCTTGGGTGGCCITGGTTTCAGAGACRATCGGCTT TTCAACCAGGCACTTCTGGCCCGGC AAGCATGGA
CGTCCCCAGCATGGAGAAGCATTGAGTATGGCCTAGATTTGTTAAAAAAGGGCATTA TTTGGAGAGTGGGTAATGGAAATTCAATTCGGATCTG
AGATGGATCCTGGGATGTGCCGAAAATCCATCAGTATTrcCATAATTTGGATGCAGA GGTTATACTGAACATCTGCATTTCTTCAAGATCGGAGG TTCTAGCTCTGGGACAAATAATATrAACAAAGCATGGGAGATGATrTGGAAATGCAAGGr TCCT-CAAAAGGTCAAAATCTTTGCTrGGAGGGTG
GATGCTCATGCTCTCTGCAGGTGCATTC AAGCTAGCCAGCTTTGGTCATGTATGCATAAATCGGG AAGTGTTTCAGTAGATATAAAGGCCTCTGT TrTAGGAAGGTTTTGCM^GTTrGATTGCCTTGAAAAAATTCCAGAATATGAACAGGCCAT GTTCTTGATGACTCTGTGGCGCAACTGGTACGTGA
CCATGCTGGGAGAGACCAAAAGATGGCTGGATGAAATTAAATGTGGATGGATCCTTT GACGCTAGCTCCGGTAAGGGGGGTCTTGG AATGATCC
GGGCTTAAGCTGGCGATCCATTGGACTTTGCTTCCGATTCAGGTGG AAACAGATTGTGCCTCAGTGGTCCAGCTTCTGCAGGGTATCGGTAGAGA TTTTTCTC
CCTTCCAGACGCTT
CCCGACGTGAAGCGCGGCAACTTCACCGCCGACGAGCAGCTGCTCATCCTCGACCTC CACTCCCGATGGGGCAACCGGTGGTCAAAGATAGCGC
CCTTTATGCAA
ATGTGCAGGACAATGAGATGGTG AATGGTGGGGACTACTGGATGCAGGGAGCAAATAAAGGGTTTTGTAGTAATTATGAGTCA GAGCAACTTCA TCCTCATGAGCATAGCCAGTITCAGGATCCAGATCTTGTrGGTTGGGTTCAGGGCTTrTC TGAGGGCATrTCCGAGAATTTTTGGAGCTTGGAGG ACATTTGGAAGATGTAG SEQ ID NO. 222 LOC_Osl2g39400 1 ATGGCGGTGGAGGCGGTTCTTGAGGCGTCGAGAAGTAGTAGTGAGGAGGAGG
CGGCGACCGCAGCTGCCGCCCTCCGAGGAGGAGT ACCTCGCGCTCTGγγTCCTC ATGCTGCCCCGCGGGCGACGCGACGGCGACOACGTGGCGG
CTCGCCTTCAAGAAGCCCAGGCTCATGATCCCGGCATAG SEQ ID NO. 223 LOC_Osl2g41650 1 ATGAACCAGTTCG rCCCTGATTGGAACACCA CCAGCA TGGGCGACGGCTTTGCGCCATTAGGCGAAGACGACGGGCTCGTCGAGCTGCTATGGTGCA ATGGCCACGTCGTCATGCAGAGCCAGGC
CTGA SEQ ID NO. 224 LOC_Osl2g41650 2 ATGAACCAGTTCGTCCCTGATTGGAACACCACCAGCATGGGCGACGGCTTTGCGCCATTA GGCGAA GCGGCGGCGGCGGCGGCGATGGCGGAGGATGAGTCGGCGTCGTGGTTTCAGTACCCGGTC GACGACGTGCTTGAGAAGGACCTGTTCACCGAGC
SEQ ID NO. 225 LOC_Osl2g416503 ATGAACCAGTT
RGAACCAGTTCGTCCCTGATTGGAACACCACCAGCATGGGCGACGGCTTTGCGCCAT TAGGCGAAGACGACGGGCTCGTCGAGCTGCTARGG RG
GCGGGCGAATTCTTATTCCACCλAA1 AL GCCAGCTGATGCACCAATTT ATGTGAATGCAAAACAGTGTTCAGCCATCATRCGACGTCGCCATGCT
GTGCCCCGCCGCATCTCCCAGCTCGGAGCAGTGCAACCCAAGCAGCγ.TTTγCλ GCCTCTCCGGGTCAGAGGTGTCGAGCATλTA IOAACACGAA CTTCAAG RGGACAGCAGCCTCTGATGGCTGCTGTGACCTCCTCAAAGCATGA SEQ ID NO 230. LOC_OSL2G42400 1 ATGATGAGCTTCλACAAG
Suφrisingly the invention solves the above technical problem by providing an isolated polynucleotide selected from the group comprising'
(a) polynucleotide consisting of a sequence selected from the group comprising SEQ ID NO. 1 to SEQ ID NO. 4, SEQ ID NO. 35, SEQ ID NO. 36, SEQ ID NO. 38 to SEQ ID NO. 40, SEQ ID NO. 43, SEQ ID NO 49, SEQ ID NO. 50, SEQ ID NO. 52, SEQ ID NO. 53, SEQ ID NO. 57, SEQ ID NO. 59, SEQ ID NO. 61 to SEQ ID NO. 65, SEQ ID NO. 67, SEQ ID NO. 80 to SEQ ID NO 82, SEQ ID NO 90 to SEQ ID NO. 97, SEQ ID NO. 100, SEQ ID NO. 102, SEQ ID NO. 108, SEQ ID NO 1 1 1 , SEQ ID NO 1 14, SEQ ID NO. 1 16, SEQ ID NO. 1 17, SEQ ID NO. 120, SEQ ID NO. 124, SEQ ID NO. 125. SEQ ID NO. 128, SEQ ID NO. 129, SEQ ID NO. 133, SEQ ID NO 134, SEQ lD NO. 136 to SEQ ID NO. 138, SEQ ID NO. 140, SEQ ID NO. 142, SEQ ID NO. 150, SEQ ID NO. 152, SEQ ID NO. 154 to SEQ ID NO. 156, SEQ ID NO. 161 , SEQ ID NO. 166, SEQ ID NO. 167, SEQ ID NO. 172, SEQ ID NO. 174, SEQ ID
NO. 184, SEQ ID NO. 194 to SEQ ID NO. 196, SEQ ID NO. 200 to SEQ ID NO. 206, SEQ ID NO. 210, SEQ ID NO. 212, SEQ ID NO. 214 to SEQ ID NO. 220, SEQ ID NO. 223 to SEQ ID NO. 227,
(b) a polynucleotide consisting of a sequence having at least 70%, preferred 80%, more preferred 90%, especially preferred 98% sequence identity to a sequence selected from the group comprising SEQ ID NO. 1 to SEQ ID NO. 4, SEQ ID NO. 35, SEQ ID NO. 36, SEQ ID NO. 38 to SEQ ID NO. 40, SEQ ID NO. 43, SEQ ID NO. 49, SEQ ID NO. 50, SEQ ID NO. 52, SEQ ID NO. 53, SEQ ID NO. 57, SEQ ID NO. 59, SEQ ID NO. 61 to SEQ ID NO. 65, SEQ ID NO. 67, SEQ ID NO. 80 to SEQ ID NO. 82, SEQ ID NO. 90 to SEQ ID NO. 97, SEQ ID NO. 100, SEQ ID NO. 102, SEQ ID NO. 108, SEQ ID NO. I l l, SEQ ID NO. 114, SEQ ID
NO. 116, SEQ ID NO. 117, SEQ ID NO. 120, SEQ ID NO. 124, SEQ ID NO. 125, SEQ ID NO. 128, SEQ ID NO. 129, SEQ ID NO. 133, SEQ ID NO. 134, SEQ ID NO. 136 to SEQ ID NO. 138, SEQ ID NO. 140, SEQ ID NO. 142, SEQ ID NO. 150, SEQ ID NO. 152, SEQ ID NO. 154 to SEQ ID NO. 156, SEQ ID NO. 161, SEQ ID NO. 166, SEQ ID NO. 167, SEQ ID NO. 172, SEQ ID NO. 174, SEQ ID NO. 184, SEQ ID NO. 194 to SEQ ID NO. 196, SEQ ID
NO. 200 to SEQ ID NO. 206, SEQ ID NO. 210, SEQ ID NO. 212, SEQ ID NO. 214 to SEQ ID NO. 220, SEQ ID NO. 223 to SEQ ID NO. 227,
(c) a polynucleotide of (a) and/or (b), wherein said sequence is modified, to alter an abiotic stress tolerance of a plant, preferred drought tolerance.
Polynucleotides of the present invention that are variants of the polynucleotides provided herein will generally demonstrate significant identity with the polynucleotides provided herein. Of particular interest are polynucleotide homologs having at least about 60% sequence identity, at least about 70% sequence identity, at least about 80% sequence identity, at least about 85% sequence identity, and more preferably at least about 90%, 95% or even greater, such as 98% or 99% sequence identity with polynucleotide sequences described herein.
The term "homology" when used in relation to nucleic acids refers to a degree of complementarity. There may be partial homology or complete homology (in other words, identity). "Sequence identity" refers to a measure of relatedness between two or more nucleic acids, and is given as a percentage with reference to the total comparison length. The identity calculation takes into account those nucleotide residues that are identical and in the same relative positions in their respective larger sequences. A partially complementary sequence is one that at least partially inhibits (or competes with) a completely complementary sequence from hybridizing to a target nucleic acid. The inhibition of hybridization of the completely complementary sequence to the target sequence may be examined using a hybridization assay (Southern or Northern blot, solution hybridization and the like) under conditions of low stringency. A substantially homologous sequence or probe will compete for and
inhibit the binding (in other words, the hybridization) of a sequence which is completely homologous to a target under conditions of low stringency. This is not to say that conditions of low stringency are such that non-specific binding is permitted; low stringency conditions require that the binding of two sequences to one another be a specific (in other words, selective) interaction. The absence of non- specific binding may be tested by the use of a second target which lacks even a partial degree of complementarity (for example, less than about 30% identity); in the absence of non-specific binding the probe will not hybridize to the second non-complementary target.
Depending on the intended use, the polynucleotides of the present invention may be present in the form of DNA, such as cDNA or genomic DNA, or as RNA, for example mRNA. The polynucleotides of the present invention may be single or double stranded and may represent the coding, or sense strand of a gene, or the non-coding, antisense, strand.
The term "isolated" is used herein in reference to purified polynucleotide or polypeptide molecules. As used herein, "purified" refers to a polynucleotide or polypeptide molecule separated from substantially all other molecules normally associated with it in its native state. More preferably, a substantially purified molecule is the predominant species present in a preparation. A substantially purified molecule may be greater than 60% free, preferably 75% free, more preferably 90% free, and most preferably 95% free from the other molecules (exclusive of solvent) present in the natural mixture. The term "isolated" is also used herein in reference to polynucleotide molecules that are separated from nucleic acids which normally flank the polynucleotide in nature. Thus, polynucleotides fused to regulatory or coding sequences with which they are not normally associated, for example as the result of recombinant techniques, are considered isolated herein. Such molecules are considered isolated even when present, for example in the chromosome of a host cell, or in a nucleic acid solution. The terms "isolated" and "purified" as used herein are not intended to encompass molecules present in their native state.
In terms of the invention abiotic stress is the negative impact of non-living factors on the living organisms. The non-living variable influences the environment beyond its normal range of variation to adversely affect the population performance or individual physiology of the organism. Abiotic stress factors, or stressors, are naturally occurring, often intangible, factors such as intense sunlight or wind that may cause harm to the plants and animals in the area affected. Abiotic stress comes in many forms. The stressors include: high winds, extreme temperatures, heat, cold, strong light, water deficit, drought, flood, and other natural disasters, such as tornados and wildfires, poor edaphic conditions like rock content and pH, high radiation, compaction, contamination, non-optimal nutrient or salt levels, non-optimal light levels and other, highly specific conditions like rapid rehydration during seed germination.
As used herein, the terms "tolerant" or "tolerance" refers to the ability of a plant to overcome, completely or to some degree, the detrimental effect of an environmental stress or other limiting factor. In embodiments of the present disclosure, the transgenic plants are preferred tolerant to conditions including, but not limited to osmotic stress, particularly water-deficit and/or drought conditions (e.g., prolonged and/or extreme water-deficit).
As used herein, the term "drought" and "water-deficit" refers to environmental conditions where the amount of water (e.g., rainfall or other available water source for plant life) is less than the average water conditions for the particular environment, or the amount of water available is less than the amount of water typically needed by a certain species of plant or by a plant growing in a particular environment. Typically a "drought" indicates a more intense or more prolonged period of reduced water availability than a "water-deficit".
As used herein, the terms "drought-resistance" or "drought-tolerance" refer to the ability of a plant to recover from periods of drought stress (i.e., little or no water for a period of days).
In a preferred embodiment the invention relates to an isolated polynucleotide, wherein the polynucleotide is selected from the group comprising SEQ ID NO 48, SEQ !D NO 43, SEQ ID NO 57, SEQ ID NO 228 to SEQ ID NO 230. It was very surprising that these sequences can be used to alter a plant's tolerance to drought stress. These sequences showed particularly good results in rice.
"Expression" means the production of a protein or nucleotide sequence in the cell itself or in a cell-free system. It includes transcription into an RNA product, post-transcriptional modification and/or translation to a protein product or polypeptide from a DNA encoding that product, as well as possible post-translational modifications.
Further preferred is an isolated polynucleotide selected from the group comprising:
(a) a nucleotide sequence encoding a polypeptide, wherein said nucleotide sequence is selected from the group consisting of SEQ ID NO. 1 to SEQ ID NO. 4, SEQ ID NO. 35, SEQ ID NO.
36, SEQ ID NO. 38 to SEQ ID NO. 40, SEQ ID NO. 43, SEQ ID NO. 49, SEQ ID NO. 50, SEQ ID NO. 52, SEQ ID NO. 53, SEQ ID NO. 57, SEQ ID NO. 59, SEQ ID NO. 61 to SEQ ID NO. 65, SEQ ID NO. 67, SEQ ID NO. 80 to SEQ ID NO. 82, SEQ ID NO. 90 to SEQ ID NO. 97, SEQ ID NO. 100, SEQ ID NO. 102, SEQ ID NO. 108, SEQ ID NO. I l l , SEQ ID NO. I 14, SEQ ID NO. 1 16, SEQ ID NO. 1 17, SEQ ID NO. 120, SEQ ID NO. 124, SEQ ID
NO. 125, SEQ ID NO. 128, SEQ ID NO. 129, SEQ ID NO. 133, SEQ ID NO. 134, SEQ ID NO. 136 to SEQ ID NO. 138, SEQ ID NO. 140, SEQ ID NO. 142, SEQ ID NO. 150, SEQ ID
NO. 152, SEQ ID NO. 154 to SEQ ID NO. 156, SEQ ID NO. 161, SEQ ID NO. 166, SEQ ID NO. 167, SEQ ID NO. 172, SEQ ID NO. 174, SEQ ID NO. 184, SEQ ID NO. 194 to SEQ ID NO. 196, SEQ ID NO. 200 to SEQ ID NO. 206, SEQ ID NO. 210, SEQ ID NO. 212, SEQ ID NO. 214 to SEQ DD NO. 220, SEQ ID NO. 223 to SEQ ID NO. 227, (b) a nucleotide sequence encoding a polypeptide, wherein said polypeptide is selected from the group consisting of SEQ ID NO. 231 to 234, SEQ ID NO. 265, SEQ ID NO. 266, SEQ ID NO. 268 to SEQ ID NO. 270, SEQ DD NO. 273, SEQ ID NO. 279, SEQ ID NO. 280, SEQ DD NO. 282, SEQ DD NO. 283, SEQ DD NO. 287, SEQ ID NO. 289, SEQ DD NO. 291 to SEQ DD NO. 295, SEQ DD NO. 297, SEQ DD NO. 310 to SEQ DD NO. 312, SEQ DD NO. 320 to SEQ DD NO. 327, SEQ DD NO. 330, SEQ DD NO. 332, SEQ DD NO. 338, SEQ DD NO. 341, SEQ DD
NO. 344, SEQ DD NO. 346, SEQ DD NO. 347, SEQ DD NO. 350, SEQ DD NO. 354, SEQ DD NO. 355, SEQ DD NO. 358, SEQ DD NO. 359, SEQ DD NO. 363, SEQ DD NO. 364, SEQ DD NO. 366 to SEQ DD NO. 368, SEQ DD NO. 370, SEQ DD NO. 372, SEQ DD NO. 380, SEQ DD NO. 382, SEQ DD NO. 384 to SEQ DD NO. 386, SEQ DD NO. 391, SEQ DD NO. 396, SEQ DD NO. 397, SEQ DD NO. 402, SEQ DD NO. 404, SEQ ID NO. 414, SEQ DD NO. 424 to SEQ DD
NO. 426, SEQ DD NO. 430 to SEQ DD NO. 436, SEQ DD NO. 440, SEQ DD NO. 442, SEQ DD NO. 444 to SEQ DD NO. 450, SEQ DD NO. 453 to SEQ DD NO. 457,
(c) a variant of any of the nucleotide sequences of (a) or (b) that has at least 70%, preferred 80%, more preferred 90%, especially 98% sequence identity to a sequence of (a) or (b) (d) a nucleotide sequence that hybridizes to any of the nucleotide sequence of (a) or (b) under stringent conditions
(e) a polynucleotide of (a) and/or (b), wherein said sequence is modified, to alter an abiotic stress tolerance of a plant, preferred drought tolerance.
Especially preferred is an isolated polynucleotide selected from the group comprising SEQ DD NO. 67, SEQ DD NO. 80 to SEQ DD NO. 82, SEQ DD NO. 90 to SEQ DD NO. 97, SEQ DD NO. 100, SEQ DD NO. 102, SEQ DD NO. 108, SEQ DD NO. 111, SEQ ID NO. 114, SEQ DD NO. 116, SEQ DD NO. 117, SEQ DD NO. 120, SEQ DD NO. 124, SEQ DD NO. 125, SEQ DD NO. 128, SEQ DD NO. 129, SEQ DD NO. 133, SEQ DD NO. 134, SEQ DD NO. 136 to SEQ DD NO. 138 and/or SEQ DD NO. 140. Surprisingly these sequences can be used to stabilize the photosynthetic activity during drought stress, which results in a stabilized photosynthetic yield. These sequences were highly responsive and therefore very suitable for transfection.
In an also preferred embodiment the invention relates to an isolated polynucleotide selected from the group comprising SEQ DD NO. 1 to SEQ DD NO. 4, SEQ DD NO. 35, SEQ DD NO. 36, SEQ DD NO. 38 to SEQ DD NO. 40, SEQ DD NO. 43, SEQ DD NO. 49, SEQ DD NO. 50, SEQ DD NO. 52, SEQ DD NO.
53, SEQ DD NO. 57, SEQ DD NO. 59, SEQ DD NO. 61 to SEQ DD NO. 65. These sequences can be
used to alter a plants tolerance to drought particularly well. Plants comprising these sequences or modifications thereof showed a better growth during drought stress compared to control plants.
Also preferred is an isolated polynucleotide selected from the group comprising NO. 142, SEQ ID NO. 150, SEQ ID NO. 152, SEQ ID NO. 154 to SEQ ID NO. 156, SEQ ID NO. 161, SEQ ID NO. 166, SEQ ID NO. 167, SEQ ID NO. 172, SEQ ID NO. 174, SEQ ID NO. 184, SEQ ID NO. 194 to SEQ ID NO. 196, SEQ ID NO. 200 to SEQ ID NO. 206, SEQ ID NO. 210, SEQ ID NO. 212, SEQ ID NO. 214 to SEQ ID NO. 220, SEQ ID NO. 223 to SEQ ID NO. 227. Said sequences are especially preferred for the modification of stress tolerance in monocotyledons.
The polynucleotides of the present invention find particular use in generation of transgenic plants to provide for increased or decreased expression of the polypeptides encoded by the polynucleotides provided herein. As a result of such biotechnological applications, plants, particularly crop plants, having improved properties are obtained. Crop plants of interest in the present invention include, but are not limited to soy, cotton, canola, maize, wheat, sunflower, sorghum, alfalfa, barley, millet, rice, tobacco, fruit and vegetable crops, and turf grass.
In another preferred embodiment the invention relates to a nucleotide construct comprising a one of the mentioned polynucleotide, wherein said polynucleotide is operabiy linked to a promoter that drives expression in a plant cell.
By "operabiy linked" is intended a functional linkage between a promoter and a second sequence, wherein the promoter sequence initiates and mediates transcription of the DNA sequence corresponding to the second sequence. Generally, operabiy linked means that the nucleic acid sequences being linked are contiguous and, where necessary to join two protein coding regions, contiguous and in the same reading frame. The cassette may additionally contain at least one additional gene to be cotransformed into the organism. Alternatively, the additional gene(s) can be provided on multiple expression cassettes.
A construct will generally include a plant promoter to direct transcription of the protein-encoding region or the antisense sequence of choice or gene-specific antisense region of sequence or gene- specific region of sequence appropriate for the design of gene-specific artificial micro RNA. Numerous promoters, which are active in plant cells, have been described in the literature.
Also preferred is the nucleotide construct, wherein said promoter is a constitutive promoter, especially preferred a tissue-preferred promoter.
Further preferred is the nucleotide construct, wherein said promoter is an inducible promoter, preferred an stress-inducible promoter.
5 In another preferred embodiment the invention relates to an isolated polypeptide encoded by one of the mentioned polynucleotides and/or nucleotide constructs.
Preferred are polypeptides consisting of a sequences selected from the group comprising SEQ ID NO. 231 to SEQ ID NO. 460.
10 SEQ ID NO. 231: LOC_Os01g07120 1 MLFRFVSCNVQLCGIIELPHWVRKKRTRRKSDGPDSIAETIKWWKEQNQKLQEENSSRKA PAKGSKKGCMAG
KDELESPPFIVANGPAVLYQPDKKDVLERVVPEVQDVKTEGSNGLKRVCQERKNM EVCESEGIVLHKEVNISYDYFNVHEVVEMIIVELSADQKTEVH EEYQEGDDGFSLFSY* SEQ ID NO. 232: LOC_Os01g071202 MERGEGRRGDCSVQVRKKRTRRKSDGPDSIAETIKWWKEQNQKLQEENSSRKAPA
ELSADQKTEVHEEYQEGDDGFSLFSY* SEQ ID NO. 233 LOC_Os01g07430 I MLIARQVIWFLDLTRLALHSFHCAGLRRSGKSCRLRWMNYLRPDL
RAR* SEQ ID NO. 234 LOC_Os01gl l350 1 MAQLPPKIPTMATAWPEFGGGHHHHAAHGHHHQRSPSMGAFLAAPLPPFPLPPPAPANGG AQQQQQQ ZO QQHQPSWVDEFLDFSATKRGAHRRSVSDSV AFLDPVSDDNAGVGAHDFDRLDDDQLMSMFSDDLQPPPPQQQPAAP AASASSPSDHNSMNDEKQDK
FKDGGTEEGDREAAANLPPAKPQERGIPTGGRGPGPRPRQCRPDRQRGGRRGRAMPA LVIGRDPDAL* SEQ ID NO. 235 LOC_Os01gl 1910 1 MGSA
25 SEVTTLGGRVRLAFLVSCGSRGGAAAAAMASVRHALQSVLDKASSGFDFAPRAASLLGSK RRKVSTFESSSSSS* SEQ ID NO. 236 LOC_Os01gl9330
WGNRWSRIAQHM PGRTDNEIKNYWRTRVQKHAKQLGCDVNSRQFKDVMRHLWMPRLVERIHAAAASSERAAP PPC AAAPASHSGMCHSPDPSTTTS DIWSQQPY* SEQ ID NO. 237 LOC_Os01g39020 1 MLKPQTPRARRAAHPNSHMASSSSSSSLCRLLIPRPTTRRFSGGGGEGGMAAAAPVKREV KPEA
TPDRWEFANEAFLAGQKHLLKNIKRRRVSKPLVDSQLRNKASVVFGQPEAPGEV V SLKRDRAALRAEVIiViLKQQYNAOICS)QLIAMEEMVRNIERRQQ QTIGFFAKVLTNPAFVQQVLLNYVNKNGLRGAAKRQRLM ENEEQHADSPLNKGMEAASVM EADVSPGSTGCGTVGKVETTPMCNFQNIENMCDDV WEELDALPETGMEQEEKAGIGSFDVEEFVGRPCGWVDDCPYLVEPMQFVEH* SEQ ID NO. 238 LOC_Os01g43590 1 MDGLHTELALGLIGCCGGD
35
GVHQVPELGGGGVMGLTTDGEAKVEPPFPFCLLGQAFF* SEQ ID NO. 239 LOC_Os01g435902 MDGLHTELALGLIGCCGGDGQQQTAPFVAKTYQ CSFGGGAGEHQV AAAAASVGMSGEEEDAAEDVLAKEAALFEEVQRLRHEQTAIGEELARMSQRLQATERRPD QLMSFLAKLADDPNA VTGHLLEQA
AKVEPPFPFCLLGQAFF* SEQ ID NO. 240 LOC_Os01g49830 1 MDSSSCLVDDTNSGGSSTDKLRALAAAAAETAPLERMGSGASAVVDAAEPGAEA DSGSGGRVCGGGGGGAGGAGGKLPSSKFKGVVPQPNGRWGAQIYERHQRVWLGTFAGEDD AARAYDV AAQRFRGRDA VTNFRPLAEADPDAAAE LRFLATRSKAEVVDMLRK HTYFDELAQSKRTF AASTPSAATTTASLSNGHLSSPRSPFAPAAA RDHLFDKTVTPSDVGKLNRLVIPKQHAEKHFPLQ LP
1-5 KAVRLFGVDLLTAPAPVEQMAGCKRARDLAATTPPQAAAFKKQCIELALV* SEQ ID NO. 241 LOC_Os01g53220 1 MMGGECKVHQLQAAGDGGP
KGGAAPGCRELCEEGEEVRGTIEA VQRLREEQRGMEEELQAM DQRLRAAES RPGQMMAFLAKLADEPGVVLRAM LAKKEELAAAGNNGSDPCKRR RIGADTGRGGVATGGDAAEMAQSRGTVPFPFSVLGQVFY* SEQ ID NO. 242: LOC_Os01g53650 1 MAYETSSDHQLAAAAEFLAALQVHLAGAEAS
• SEQ ID NO. 243 LOCJDsO Ig54210 1 MEVTAEFGGAYYGGAAGREKKALQQGCGDHFAVDDLLVLPYGEEDETTREGEATGGKEEA AGFGNASAD
55 GVSPVVSGDDFLIHHHLRTDFRPPI* SEQ ID NO. 244 LOC_OS01G55430 1 MVPWRRSSSSSSAPSSRPARRPARTNARVSPDVSSELSPLAGEEGAGEE
R N MDYRQPLSAFQAFAICLSNFGTKLA* SEQ ID NO. 245 LOC_OS01G55430 2 MVPWRRSSSSSSAPSSRPARRPARTNARVSPDVSSELSPLAGEEGAGE JO
TMDYRQPLSAFQAFAICLSNFGTKLA* SEQ ID NO. 246 LOC_OS01G55750 1 MILGSNQAAAAAAAAAAAEEEAAELARKHTAAVATSRQWSAQTES RIVRVSRVFGGKDRHSKVKTVKGLRDRRVRLSVPTAIQLYDLQDRLGLNQPSKVVDWLLN AARHEIDKLPPLQFPPQDHLCMGHHHHLPSAMPLMHH
NGSVQDSGAGSPQVAAAAAHHTSPFPSLLSLAPGPHHQLVFYSSEAEQFTVDNLGSQ GLSLSSARAFHDQTGS* SEQ ID NO. 247 LOC_OS01G557502
GAAHIVGRFPAGGYHRFMGLNNPLGMVNSAAGAAMPFHY AGESWNNGSVQDSGAGSPQV AAAAAHHTSPFPSLLSLAPGPHHQLVFYSSEAEQFTV
70 DNLGSQGLSLSSARAFHDQTGS* SEQ ID NO. 248 LOC_Os01g55750 3 MILGSNQAAAAAAAAAAAEEEAAELARKHTAAVATSRQWSAQTESRIVR
VSRVFGGKDRHSKVKTVKGLRDRRVRLSVPTAIQLYDLQDRLGLNQPSKVVDWLLNA ARHEIDKLPPLQFPPQDHLCMGHHHHLPSAMPLMHHHGH
VQDSGAGSPQVAAAAAHHTSPFPSLLSLAPGPHHQLVFYSSEAEQFTVDNLGSQGLS LSSARAFHDQTGS* SEQ ID NO. 249 LOC_Os01g58420 1 MA PRAATVEKVAVAPPTGLGLGVGGGVGAGGPHYRGVRKRPWGRY AAEIRDPAKKSRVWLGTYDTAEEAA RAYDAAAREFRGAKAKTNFPFASQSMV
AVAQSDSDSSSVVDLAPSPPAVTANKAAAFDLDLNRPPPVEN* SEQ ID NO. 250 LOC_Os01g60490 1 MVKRSDNMDSSSECSRGAHKRLLQDSRSY
DQEN AM KKVCIGTRTEYTYAPYHDGYQWRKYGQKMIRGNSFPRCYYRCWHQDHGCPASKHVEQHNS EDPPLFRVIYTNEHTCGTSNSASDYM ASS MQIQQIADASLRKAQAAERLRKAEVETPRLMHSPPPRCSGG YNMAMKEEKDVIVSSLLTVIRGCHIAESAGNNSAAALPVNRPPPA V ARSDHYSCSYAI SPELLPASDDLTLDFMLDSVLDPHWVEPLDLAWLKESTHTG* SEQ ID NO. 251 LOC_Os01g60600 1 MQAQSRLAAAASGGSGSGISGSGGISRLGGG ASPYDDGYQWRKYGQKKINNTNFPRSYYRCSYHRERRCPAQKHVQQRDGDDVPALHWVYT HEHTCLQGAPAELPDAATNGGAAAAASPDYFPAG
VMDYDMTDALFWGPFGTDSNSYDGNLTSTRCFDLIN* SEQ ID NO. 252 LOC_Os01g60640 1 MAMLGSSSAVVLELMTMGYQSAAYLGELLRAASP AQAGDEQQELAAEILRCCDRVIAKLNRGGATGATTGKKRKAAES AAAAA VTSPSLP VTPTKRRARGAEAVREVRSGTTTDGFIWRKYGQKEINGCKH APSETSQGWSPSFSSEVELDVVGFDLAGADSSASPVWEFLNGSFDWEFVINSL* SEQ ID NO. 253 LOC_Os01g63980 1 MRMGLRTCSAMEGEVVAA
PVTGSSAQEVTMEEDDEEEDDDDVGEEEMDEWKPMHGGCKVEGDEEQYGEA V ASVEGSSSITAVGDMFGGVGAESGVAMSSRYWIPTPAQILVGPV QFICHVCNKTFNRYNNMQMHMWGHGREYRKGPES LKGTQTLAM LKLPCYCCAAGCKNNVAHPRARP LKDFRTLQTHYKRKHGAKPFRCRRCAKPF AVKGDWRTHEKNCGKRWFCACGSDFKHKRSLNDHVRSFGAHHLPVAESAAAAATTPADKD RIISFQR* SEQ ID NO. 254 LOC_Os01g64020 1 MVQ
LQHHQQQQLHGGGDHDKRKHGSTRKDGKSVDAKTERRLAQNREAARKSRLRKKAYVQ NLETSRVRLQQIEQELQRARSQGLFLGGCRAAGDMSSG AAMFDMEYARWLDDDSKRLTDLRGGLQAHLLDTNLGLIVEECMQHYDELFQLKAALARSD VFHLLTGTWATPAERCFLWMGGFRPSDLLKILIQQL DPLTEQQMLG IYSLQQSSEQAEEALAQGLQQLHQSLADTV AAGTLN DG PGVPNYMSLMAIALDKLASLESFYQQ ADNLRQQTLHQLRRILTTRQAAR CFLSIGEYYRRLRALSNLWSSRPRENFIGTESVSPTGTELQPMHNQPQQNQYSGF* SEQ ID NO. 255 LOC-OsOl g640202 MVQGEESSWRMAASTHH
ERAIPLNQALA YGVQAHASPSV AAAPPASFLDFQPAAAAAAYFGELEEALIHGANAGGVVDPGMIRADVHSKS AAAAATAGYLAARPPTLEIFPS WPM RQQQQLHSGNSQSVGSTTDSSSAQNTM PQMELVSPASIRASSEHQHQQQQPGQEVMMVTTDDYSYKPGLAAASPSFQQQHQLQHHQQ QQLHGGGDH SEQAEEALAQGLQQLHQSLADTVAAGTLNDGPGVPNYMSLMAIALDKLASLESFYQQVRQ QLSIVIPFR* SEQ ID NO. 256 LOC_Os01g643I0 1 MA
ENPGPSMAAAAASPEENDGSGSSMQQLELMDQGGAVDPDWDQWDDLATLTALLYWPR D* SEQ ID NO. 257 LOC_Os01g64360 1 MDLYGAAAGG PWSEDEHRLFLEGLDRYGRGDWRNISRFSVRTRTPTQVASHAQKYFIRQANAGARDSKRK SIHDITTP* SEQ ID NO. 258 LOC_Os01g64730 1 MMAS
RESAARSRERKQAYIAELESLVTQLEEENAKMFKEQEEQHQKRLKELKEMVVPVIIR KTSARDLRRTNSMEW* SEQ ID NO. 259 LOC_Os01g647302 ID NO. 260 LOC_Os01g64790 1 MTVAGASELM SGYYQAQ
LOC_Os01g65080 1 MDSGLGRSSETSLKALPSMASNATR RMHMRCHCDEYKTAAALAK-PiKDSSL
SEQ ID NO. 263 LOC_Os01g650803 MDSGLGRSSETSLKA
AYYDRPSDSMPRLHADSSCSEQVLSPEFACEVQSQPKISEKMVQLHRVACQCVCIVA CT* SEQ ID NO. 266 LOC_Os01g66120 3 MALYGEKEWYFF
TVGPINPAASILDPAGSGGLGGLGGGGSDPLLQDILMYWGKPF* SEQ ID NO. 267 LOC_Os02g08440 1 MDPWISTQPSLSLDLRVGLPATAAVAMVK
PPPPPPPHPHAAPHHMHVMPGAAAAGYADQTECTSGEPCKRIREECKPKISKLYVHA DPSDLSLVVKDGYQWRKYGQKVTKDNPCPRA YFRCSFAPA
CPVKKKVQRSAEDNTILV ATYEGEHNHGQPPPPLQSAAQNSDGSGKSAGKPPHAPAAAPPAPVVPHRQHEPVVVNGEQ QAAAASEMIRRNLAEQMA MTLTRDPSFKAALVTALSGRILELSPTKD* SEQ ID NO. 268 LOC_Os02g08440 2 MGAENRQLSEMLAAVAAKYEALQSQFSDMVTASANNGGGGG
KYGQKVTKDNPCPRAYFRCSFAPACPVKKKVQRSAEDNTILV ATYEGEHNHGQPPPPLQSAAQNSDGSGKSAGKPPHAPAAAPPAPVVPHRQHEP VV VNGEQQAAAASEM1RRNLAEQM AMTLTRDPSFKAALVTALSGRILELSPTKD* SEQ ID NO. 269 LOC_Os02g084403 MDPWISTQPSLSLDLRVGLP ATAA VAMVKPKVLVEEDFFHQQPLKKDPEV AALEAELKRMGAENRQLSEMLAAVAAKYEALQSQFSDMVTASANNGGGGGNNPSSTSEGG SVSPSR
AYFRCSFAPACPVKKKVT* SEQ ID NO. 270 LOC_Os02g084404 MDPWISTQPSLSLDLRVGLP ATAA VAMVKPKPCKRIREECKPKISKLYVHADPS DLSLVVKDGYQWRKYGQKVTKDNPCPRAYFRCSFAPACPVKKKVQRSAEDNTILV ATYEGEHNHGQPPPPLQSAAQNSDGSGKSAGKPPHAP AAAPP APVVPHRQHEPVVVNGEQQAAAASEMIRRNLAEQMAMTLTRDPSFKAALVTALSGRILEL SPTKD* SEQ ID NO. 271 LOC_Os02g09480 1 MGMEAE
LPGFHHDSARSHFQELPSPSRSPSPPPSPP AASPSAYPFNADLVSAMQEMIRTEVRNYMAGVGLRAGCGPGAVAESFMPQLVDG VM RAAAERVGVVTR Q* SEQ ID NO. 272 LÏ‹C_Os02g09830 1 MQHDAISNIAYHPSMDFTSFFLPQTDAYSHDLSALLDMAVVDPYISCNGSSITMIPVTED EANAQPMNHGN DERKKRRLVSNRESARRSRVRKQRRLDELSSQVSELRDTNQRLLVELNHMISKHARIVRE NSQLREEASDLQRKLSEM KMEDAEVAAAAAAAPRTLE VA* SEQ ID NO. 273 LOC_Os02gl3800 I MTTTTAEGGGGVAPFVAKTYRMVDDPATDGVIAWGRDSNSFVVADPFAFSQTLLPAHFKH SNFSSFVRQ LNTYGFRKVDPDRWEFAHVSFLRGQTHLLRRIVRRSSGGGGAKRKEEAGGCGGGGEAAAG DVDEESAVVALEVARLRREQREIEGRV AAMWRRVQ
ETERRPKQMLAFLVKVVGDPQVLRRLVDRDNTN AAASNADDSAVHHQVKRPRLLLDSSSTTTTHGDRHLVTAAA DG FY AGGCGPEAAAAAAFVPD DAVDFTGLYTGGDGFGNAVVDAGVDYPPAYAFPVVDSGY* SEQ ID NO. 274 LOC_Os02gl5100 1 MSLSSSSNSLPYSTDQGGYSTHDTLVLLGIGF FATAVSVLMIVLC ECLCCRRRRRGGGTVVYV AARPFFLGGGGLSASAVATLPSFVYRREEWAEAAPRGDGSGSGRGGGGGWAQCAVCLSIV QEGETV
RQLPACKHLFHVGCIDMWLHSHSTCPLCRASVEPLGKETPLKDQAPPV* SEQ ID NO. 275 LOC_Os02gl6680 1 MKKCPSELNFEAFFHGERGEDDA DAAADQKPGGGPHPPPFAM FSAADLSSFGFADSVTSTITGVIPNHIWPQSQSLN ARHPAVYTI ESQSSICAAASPTSATTLNMKESQTLGGTSGSDSDSES LLDIEGGPCEQSTNPLDVKRM RRMVSNRESARRSRKRKQAHLADLETQVDQLRGEN AS LFKQLTDANQQFTTA VTDNRl LKSDVEALRVKVKMAED MVARGALSCGLGHLGGLSPALNPRQGACRVPDVLTGLDYAGDDPFTGLSPPEQVQMPGGG EVGDA WGWDNHSNGAMSK* SEQ ID NO. 276 LOC_ 5 Os02gI6680 2 MKKCPSELNFEAFFHGERGEDDADAAADQKPGGGPHPPPFAMFSAADLSSFGFADSVTST ITGVIPNHIWPQSQSLNARHP AVYTIESQS
SICAASPTSATTLNMKESQTLGGTSGSDSDSESLLDIEGGPCEQSTNPLDVKRM RRMVSNRES ARRSRKRKQAHLADLETQVDQLRGENASLFKQLTD ANQQFTTA VTDNRI LKSDVEALRVKVKMAEDMVARGALSCGLGHLGGLSPALNPRQGACRVPDVLTGLDYAGDD PFTGLSPPEQVQMPGGGEVGDA WGWDNHSNGAMSK* SEQ ID NO. 277 LOC_Os02g26430 1 MADPFPAAARGGEQGGGTAGQLVSTPSRLRTAVASMLNRTGHARFRRAAPWVQEE
10 RIRVPAISSRNADIPADDYSWRKYGQKPIKGSPYPRGYYKCSTVRGCPARKHVERDPGEP AMLIVTYDGDHRHGEPGHRRPDEAATTTEHRTTDQTTG
RLL* SEQ ID NO. 278 LOC_Os02g31890 1 MSHTSEEESLNNLQQQPKLEACAAGSSKGDTVMPVVKKRRGHPGNPDPDVEVVALSPKTL LATNRYIC EVCHKGFQRDQNLQ LH RRGHN LPWKLKQRSSTEAKKK VYVCPEITCPHHDATRA LGDLTGIKK HYSRKHGEKK WKCDRCSKKY AVQSDWKA HTKI
YSDEQEKPQEHIYSYHQSSLDPTALEKPIWDS* SEQ ID NO. 279 LOC_Os02g32590 1 MDHNTDPPPTTMVDAAAALLLEPKLEGYDDDGGGEPLQPA PFVSPLDQ LMQPPRP LEALLQGPQLPPFLSKTYDLVCEPELDGVISWGHAGNSFVVWDPSAFARDVLPHHFKHNN FSSFVRQLNTYGFRKVHADRWEF
10 VQGFDTQEELELGSGVELLEIPPASGPRGQDPTIGRSKGKNVLSPGLDATSSEADCLGSF SDNMGMLSDSMLQTAGKLMDADDDERIWGVDASSALQS SCSGTSQQA YGSLVSDPYLMEMANKPEKFWELDFQALDDGDLQLDKCVIDDPALQQQRGNMNS* SEQ ID NO. 280 LOC_Os02g325902 MDHNTD
QTIEQMSTLNQRLESAEDRQKQMVSFLAKLLQNPTFLRQLKMHRQQKEIDSTRVKRK FLKHVPHGNIDSENIGLDGIEAPDDIGALVQGFDTQEELELG
.5 SGVELLEIPP ASGPRGQDPTIGRSKGKNVLSPGLDATSSEADCLGSFSDNMGMLSDSMLQTAGKLMDADD DERIWGVDASSALQSSCSGTSQQA YGSL
VSDPYLMEMANKPEKFWELDFQALDDGDLQLDKCVIDDPALQQQRGNMNS* SEQ ID NO. 281 LOC_Os02g35600 1 MDEGGGAGAAAAAAGNAA
DAWLLSVAFYFGARFGFDKEARRRLFTM INGLPTVYEVVTGIAKKQTKVSNGSSKSNKSNPKPSKQSNSNSKPAKPPQPKDEEDSGPE GTEDEDQAYM CGACGETY ANGEFWICCDVCEKWFHGKCVRITP AKAEHIKQYKCPGCSSKRSRE* SEQ ID NO. 282 LOC_Os02g36510 1 MASRSPTNKQISSEDRVR
AGAGTSSEGQLEEETPEARCRRKAMLRAQDGVLRHMLKMMEACNARGFVYGVIDEAG QPMSGSSDSLRGWWKDNVSFDRAGPMALIGPAAAGDSP QAGGGGLHRLQDIQDSTLGSVLSALIQHCEP PQ RS FPLERGLAPPWWPTGEEP WWGTQG ETQAHQGAPPYRKPHDLKKA WKVSLLSAVIKHMSPRFD
GGSGGADHHQLA VMLPELAAAADQEGRSPINELMKLYYSCLQQEEGAADGGEAGGEGCDV AAAALAVPPEVLAGVDEV AQDVLFDLIGSYPEVDD 55 VLHFMDE* SEQ ID NO. 283 LOC_Os02g38090 1 MQAQQAMDEPANAQLYGHAHAHSHHHRSKRPSPGGGGGGAATLGADGGGGGGSLSGTRYR G
LHGFYPTRRPHDDAGPAPKLERPYEATSSYRVSSPWGAVEDCDDGDGDGDDDYRGFP MMPQGLLEDVIQCPPYMEVLAAPSAAVGRVSRRG' SEQ I D NO. 284 LOC_Os02g39360 1 MKIQCDACESAAAAVVCCADEAALCAACDVEVHAANKLAGKHQRLPLEALSARLPRCDVC QEKAAFIFCVEDRAL
" SEQ ID NO. 285~ LOC_Os02g39710 1 MEAVEDKAMVGVGGAVAAGYSSSSWGLGTRACDSCGGEAARLYCRADGAFLCARCDARAH GAGSRHAR VWLCEVCEHAPAA VTC RADAAALC AACDADIHSANPLARRHERLPV APFFGPLADAPQPFPFSQAAADAAAARFED* DDDRSNCA CAASW LLPEPUD NSHEDSAAAADAFFADTGAYLGVDLDFARSMDGIK-MGVPVAFFELDLTAGSLhYPEHSM AHSLSSSEVAIVPDALSAGSAAPPMVVVVASKGKEREA \5 RLMRrREK-RKNRRFDKTIRYASRKAYAETRPRIKGRFAKRTADADDDDEAPCSPAFSAL AASDGVVPSF* SEQ ID NO.286 LOC_Os02g40530 1 ME
LPGRTDNEIKNYWRTHFKKGKPSKNIERARARFLKQRREMQQQSQLMQTGQQQQLGQ DDDATSAVVDDNLAEV APPAATSLTHDGELQIMQEM APD
Y* SEQ ID NO. 287 LOC_Os02g41510 1 MGRAPCCEKMGLKRGPWTAEEDRILVAHIERHGHSNWRALPRQAGLLRCGKSCRLRWINY LRPDIKRGNF
)0 TREEEDAIIHLHDLLGNRWSAIAARLPGRTDNEIKNVWHTHLKKRLEPKPSSGREAAAPK RKATKKAAA VA VAIDVPTTVPVSPEQSLSTTTTSAATTE
EYSYSMASSADHNTTDSFTSEEEFQIDDSFWSETLAMTVDSTDSGMEMSGGDPLGAG GASPSSSNDDDMDDFWLKLFIQAGGMQNLPQI* SEQ ID NO
. 288 LOC_Os02g42380 1 MSSRDAAATFHVYQPVQIPTATVAPAAAVSAAPAEAVAQLVPAPSKKAAGAAGGKDRHSK VNGRGRRVRMPIVCAARVF
AQPTYVPMAQAHHHHLNLLAALSGAARRAEEESR* SEQ ID NO. 289 LOC Os02g43170 1 MKVQCDVCAAEAASVFCCADEAALCDACDHRVHRA )5
ASPASRERWVPQMYADQLAAGSKRSRTSTASSYSYW* SEQ ID NO. 290 LOC_Os02g43790 1 MLLNPASREVAALDSIRHHLLEEEEETPATAPAPTR RP VYCRSSSFGSLVADQWSESLPFRPNDAEDM VVYGALRDAFSSGWLPDGSFAAVKPESQDSYDGSSIGSFLASSSSEAGTPGEVTSTEATV TPGIREGE
50 ASSGSSSPSSSSSSSSSSSSGSPKRRKRGEAAAASMAMALVPPPPPPAQAPVQLALPAQP WFAAGPIQQLVS* SEQ ID NO. 291 LOC_Os02g45200 1 M
DAAHWHQGLGLVKPMEEM LMGANPNPNGSSNQPPPPPSSAASAQRPIAPPAAGAAAGAGAAGAGAGTERRARPQKEKA LNCPRCNSTNTKFCYYNN YSLQQPRYFCKTCRRYWTEGGSLRNVPVGGGSRKNKRSSSSVVPSAAASASTS AAVSGSVPVGLAAKNPKLMHEGAQDLNLAFPHHHGRALQPPEFT AFPSLESSSVCNPGGNLAAANGAGGRGSVGAFSAMELLRSTGCYVPLPQMAPLGMPAEY AAAGFHLGEFRMPPPPQQQQQQQAQTVLGFSLDTHGA GAGGGSGVFGACSAGLQESAAGRLLFPFEDLKPVVSAAAGDANSGGDHQYDHGKNQGGGG GVIGGHEAPGFWNSSMIGNGSSNGGGGGGSW' SEQ
)5 ID NO. 292 LOC_Os02g45200 2 MWGLGLVKPMEEMLMGANPNPNGSSNQPPPPPSSAASAQRPIAPPAAGAAAGAGAAGAGA GTERRARPQKEKAL
NCPRCNSTNTKFCYYNNYSLQQPRYFCKTCRRYWTEGGSLRNVPVGGGSRKNKRSSS SVVPSAAASASTSAAVSGSVPVGLAAKNPKLMHEGAQDL NLAFPHHHGRALQPPEFTAFPSLESSSVCNPGGNLAAANGAGGRGSVGAFSAMELLRSTG CYVPLPQMAPLGMPAEY AAAGFHLGEFRMPPPPQQQQ
NGSSNGGGGGGSW* SEQ ID NO. 293 LOC_Os02g45200 3 MEEMLMGANPNPNGSSNQPPPPPSSAASAQRPIAPPAAGAAAGAGAAGAGAGTERRA
/U RPQKEKALNCPRCNSTNTKFCYYNNYSLQQPRYFCKTCRRYWTEGGSLRNVPVGGGSRKN KRSSSSVVPSAAASASTSAAVSGSVPVGLAAKNPKLM
HEGAQDLNLAFPHHHGRALQPPEFTAFPSLESSSVCNPGGNLAAANGAGGRGSVGAF SAMELLRSTGCYVPLPQMAPLGMPAEY AAAGFHLGEFRMP
WNSSMIGNGSSNGGGGGGSW* SEQ ID NO. 294 LOC_Os02g452004 MEEMLMGANPNPNGSSNQPPPPPSSAASAQRPIAPPAAGAAAGAGAAGAG AGTERRARPQKEKALNCPRCNSTNTKFCYYNNYSLQQPRYFCKTCRRYWTEGGSLRNVPV GGGSRKNKRSSSSVVPSAAASASTSAA VSGSVPVGLA / 5 AKNPKLMHEGAQDLNLAFPHHHGRALQPPEFTAFPSLESSSVCNPGGNLAAANGAGGRGS VGAFSAMELLRSTGCYVPLPQMAPLGMPAEY AAAGF
HLGEFRMPPPPQQQQQQQAQTVLGFSLDTHGAGAGGGSGVFGACSAGLQES AAGRLLFPFEDLKPVVSAAAGDANSGGDHQYDHGKNQGGGGGVIG GHEAPGFWNSSMIGNGSSNGGGGGGSW* SEQ ID NO. 295 LOC_Os02g45420 1 MADLTEHPSPTAPPQVQTAGLPAAASPGPASPHSPSEQGDKTAP
IRAAAAAAAAAAAHLERPHGPTGTAYPAT AAAEHHQQQQQQQYGSGSPAADDVSGYPPMEGGIGNDDFMDEEAIFELPQLLRNMAAGMM MSPPRLS >0 PTTSDVSPEPSEAGESLWSYRDP* SEQ ID NO. 296 LOC_Os02g45780 1 MGFPLVCYCMAIPKPLIALAKLLAAIREALQLMLFWGICHHPERSGRPA
RGRLGRLATRLTGVVW' SEQ ID NO. 297 LOC_Os02g46030 1 MEMACLPGNAMATDENGADDRAGGESTVDHLRSHMNYGDMDLSGEEHVPKAR KPYTITKQREKWTDEEHRLFLEALQLHGRA WRRIQEHIGTKTA VQIRSHAQKFFSKVVRESSGSNTGSGGASAAAAAAAIQIPPPRPKRKPAHPYPRKV DGAAKKHVPALRQLEKPPLWMQSLSEQEEGSPTSVLTAAQIGTEALGGGFSNNSSGSGSL APSAAGTDEHVDGGGSPASSVDREDGCLSPSIPTAELAM >5 QAPNTKMSIATTDAKEASSEASVFRLFGKSVVVKDSDQLHLLNGSNIATSGSVERATRNI LVPSFAAAPEGSSSNPWPSSMQQFLYFLPRSDGFAAQPV
MPWLS YNGSLPCALFYPAAAAAANQQCHRDSEGVEFRVSQREGSLTGSNTASSVVLGSSAAVPAA AAAAQNSDVAESRGQGNSREAAASPRLTKCES SASVTLLQRGFMPYKRCAAESELLRSEAAGGEEA VADGELTRLCL* SEQ ID NO. 298 LOC_Os02g51670 1 MAAAIDMYKYNTSTHQIASSDQELMK ALEPFIRSASSSSASSPCHHYYSSSPSMSQDSYMPTPSYPTSSITTAAATTTSSFSQLPP LYSSQYHAASPAASATNGPMGLTHLGPAQIQQIQAQFLAQQQ
QQRALAGAFLRPRGQPMKQSGSPPRAGPFAA V AGAAQSKLYRGVRQRHWGKWVAEIRLPKNRTRLWLGTFDTAEDAALA YDKAAFRLRG DLARLN FPTLRRGGAHLAGPLHASVDAKLTAICQSLATSSSKNTPAESAAS AAEPESPKCSASTEGEDSVSAGSPPPPTPLSPPVPEMEKLDFTEAPWDESETFHLR KYPSWEIDWDSILS* SEQ ID NO. 299 LOC_Os02g52780 1 MDFPGGSGRQQQLPPMTPLPLARQGSVYSLTFDEFQSTLGGVGKDFGSMNMDELLRSI WTAEESHAVGAATTTTATTASVAAAEHAA VGAPPVQRQGSLTLPRTLSQKTVDEVWRDMMCFGGGG ASTAPAAAEPPPPAHRQQTLG EITLEEFLVR
VPYVFKGGLRGRKAPGIEKVVERRQRRMIKNRES AARSRQRKQAYMMELEAEV AKLKELNDELQKKQDEM LEQQKNEVLERMSRQVGPTAKRICLR RTLTGPW* SEQ ID NO. 300 LOC_Os02g527802 MDFPGGSGRQQQLPPMTPLPLARQGSVYSLTFDEFQSTLGGVGKDFGSMNMDELLRSIWT AEES HA VGAATTTTATTASVAAAEHAA VGAPPVQRQGSLTLPRTLSQKTVDEVWRDMMCFGGGGASTAP AAAEPPPPAHRQQTLGEITLEEFLVRAGVVRE DMSVPPVPPAPTPTAAA VPPPPPPQQQTPMLFGQSNVFPPMVPPLSLGNGLVSGA VGHGGGG AASLVSPVRPVSSNGFGKM EGGDLSSLSPSPVPYVFK 10 GGLRGRKAPGIEKVVERRQRRMIKNRESAARSRQRKQAYMMELEAEV AKLKELNDELQKKQVLSMFCLHF* SEQ ID NO. 301 LOC_Os02g55380 1
MARPQQRYRGVRQRHWGSWVSEIRHPLLKTRIWLGTFETAEDAARA YDEAARIMCGPRARTNFPLADATAAAAAAAASSSFLS AALVAKLHRFNLAS VQATQRQREAAATAAAASSASATγPPLGNAAAADDDARTπTYGAEWSGRFLEEQHVEQ MIDELLDSNFSMEICY* SEQ ID NO. 302 LOC_Os02g56
VKVKKEGDAIGRKVDLALHSSYDELAATLARMFPTNDHQGEKKMANDDHGDAAGPVV TYEDGDGDWMLVGDVPWDDFARSVKRLKILG' SEQ ID 1 5 NO. 303 LOC_Os02g561202 MELELGLAPPNSGHLVVDELSSSSSSGGGSGSAPVSASSAGKRGFREAFQETLLLFDDGS CCNTSDDDCRRRKKTVVG
ARSVKRLKILG* SEQ ID NO. 304 LOC_Os02g56120 3 MELELGLAPPNSGHLVVDELSSSSSSGGGSGSAPVSASSAGKRGFREAFQETLLLFDDGS CC DGDWMLVGDVPWE* SEQ ID NO. 305 LOC_Os03g04900 1 MDEIRSLMLQQGWRKGPWTALEDRLLTEYVQQHGEGSWNSVAKLTGLRRSGKSCR
QQQLQQQQQQQQQQMMLLQEQEQQSPQEEAADDSMVMMMMNDLQSKERCCTAVSVVP DDCVLP ADDDAIWDSLWRLVDGDGSCGEGSSGGEYW ATS* SEQ ID NO. 30« LOC_Os03g05590 1 MEDDKSKEGKSSSSYRGVRKRPWGKFAAEIRDPERGGARVWLGTFDTAEEAARAYDRAAF AMKGATA MLNFPGDHHHGAASRMTSTGSSSSSFTγPPPANSSAAAGRGGSDRTTDKVELECLDDKV LEDLLAETNYRDKNY* SEQ ID NO. 307 LOC_Os03g0663 0 1 MEKMMPGMVKEEWPPSSPEEGEAPRPMEGLHEVGPPPFLTKTFDLVADPATDGVVSWGRA GSSFVVWDPHVFAA VFLPRFFKHNNFSSFVRQLN 25 TYFLVRTNYLNKRSHFYSLRFQGFRKIDPDRWEFANDGFLRGQRHLLKMIKRRRPLSYLP GSQQALGTCLEVGQFGLDEEIDRLKRDKNILLAEVVKLR
HKQQSTKANMRAMEERLQHAEQKQVQMMGFLARAMQNPDFFHQLIHQQDKMKGLEDT FSKKRTRSIDIVPFLNPGEVSQG DQLESTLLFDPRPFAEL NDEPAKSELENLALNIQGLGKGKQDVNRTRNQPRNQASNETELTDDFWEELLNEGARDDA GIPGMERRRPRYVDALAQKLGYLSNSSQK* SEQ ID N
RFFKHNN FSSFVRQLNTYGFRKIDPDRWEF AN DGFLRGQRHLLKMIKRRRPLSYLPGSQQALGTCLEVGQFGLDEEIDRLKRDKNILLAEVV KLRHKQ 30 QSTKANMRAMEERLQHAEQKQVQMMGFLARAMQNPDFFHQLIHQQDKMKGLEDTFSKKRT RSIDIVPFLNPGEVSQGDQLESTLLFDPRPFAELNDE
PAKSELENLALNIQGLGKGKQDVNRTRNQPRNQASNETELTDDFWEELLNEGARDDA GIPGMERRRPRYVDALAQKLGYLSNSSQK* SEQ ID NO. 30 9 LOC_Os03g07360 1 MGECKVGGGGGGGDCLIKLFGKTIPVPEPGACAAGDVDKDLQHSGSSTTEPKTQENTVQD STSPPPQPEVVDTEDSSADKNSS ENQQQQGDTANQKEKLKKPDKILPCPRCSSMDTKFCYYNNYNINQPRHFCKNCQRYWTAG G AMRNVPVGAGRRKSKSVSAASHFLQRVRAALPGDP PLYAPVKTNGTV LSFGSDLSTLDLTEQMKHLKDKFIPTTGIKNTDEMPVGLCAEGLSKTEESNQTNLKEKVS ADRSPNV AQHPCMNGGAM WPFGV AP
ARSSIWSLIGIKGDKVGADHGRGCKLAKVFESKDEAKASTHTAISSLPFMQGNPAAL TRSVTFQEGS* SEQ ID NO.310 LOC_Os03g08310 1 MASTDP MTRRFA V ACGVLSQYVKANSSQPSTAAPV AQGVSGLM AAAAAAAAAPVVQEPGCEVDGGGQQFTIFY AGKVVVIDRCTP AM AAELMRFASAAQGG GGAPEAPPALVDMPIARKASLKRFLAKRKATPASARSSYVVRAAAAEEEQPPAKKAKAAV ERREDWLALGSLGHMHSR* SEQ ID NO. 311 LOC_OsO 3gO832O 1 MAGSSEQQLV ANAAATTVAGNGSRFA VTCGLLRQYMKEHSGSNGGGGFLPA VTAMSLMTGGADAEEEAPEVRKTMELFPQQAGTLKDT +0 QERKEITEKAQLTIFYGGSVVVFDDFPAEKAGELMKLAGSRDSTAAAAVSDAGAAAGQPC LPDMPIARKVSLQRFLEKRKNRIWAEPLPESEKKEAES
SKRAKKDDGGASWLQVNPTLSL* SEQ ID NO. 312 LOC_Os03g08330 1 MAMEGKSRRFAVACGVLSQYVRAEQKMAAAAGAAPARA VTTLSLMPG
PYARPSPAETKASEPEEKKTPTSWLDLAASASAAARRDSLTIAL* SEQ ID NO. 313 LOC_Os03g08470 1 MrGCULAEFIP AγSRAAλATXRV I ASHL
WPAGSKN AARGKSKSKRQORSFADVnnFEλ A.FEQFDDDSDFDDλEEEDtOHFVFASKSRVV AGHDGRAAARAASKKKRGRHFRGIRQRPWGKW AA
45
WSFDDFPIDGALF* SEQ ID NO.314 LOC_OS03G08470 2 MCGGAILAEFIPAPSRAAAATKRVTASHLWPAGSKNAARGKSKSKRQQRSFADVDDFEA AFEQFDDDSDFDDAEEEDEGHFVFASKSRVVAGHDGRAAARAASKKKRGRHFRGIRQRPW GKWAAEIRDPHKGTRVWLGTFNTPEEAA RA YDVEAR
50 ARSDDVDSSEGSVGGGSDTLGFTDELEFDPFMLFQLPYSDGYESIDSLFAAGDANSANTD MNAGVNLWSFDDFPIDGALF* SEQ ID NO. 315 LOC_OS O3GO847O 3 MCGGAILAEFIPAPSRAAAATKRVTASHLWPAGSKNAARGKSKSKRQQRSFADVDDFEAA FEQFDDDSDFDDAEEEDEGHFVFASKSRV
FMLFQLPYSDGYESIDSLFAAGDANSANTDMNAGVNLWSFDDFPIDGALF* SEQ ID NO.316 LOC_OS03G09170 1 MATTVDWCGRGSNLPAAMYD 55 MVVDSKELMGALAPSMVSFSYPCSEQSASSLLAGANYLTPAQVLHVQAQLQRLRRPGAAS GCLAAAPPLPMKRHGAV A V AAAAAARAPVKLYRGV RQRHWGKWVAEIRLP RNRTRLWLGTFDTAEEAALAYDSAAFRLRGESARLNFPELRRGGAHLGPPLHAAVDAKLH AICHGMDLPQPQPQTQSNATTT TMSTTATNTPSPFFSSESPVVKSEPVCSASESSSSADGDVSSTGSSDVVPEMQLLDFSEA PWDESESFLLHKYPSLEIDWDAILS* SEQ ID NO. 317 LOC_ OS03GL2370 1 MGSKKRSPQHPAAAAPPPAVGGGGGGEVSGDGGASTANGPVVPKPSEVAPFLTKVYDMVS DPATDNVISWAEGGGSFVIWDSHAFER DLHRHFKHSNFTSFIRQLNTYGFRKVHPDRWEW ANEGFIMGQKHLLKTIKRRKKSSQESPSEIQKAPVKTAPGTENIEIGKYGGLEKEVETLK RDKALL 50 MQQLVDLRHYQQTSNLEVQNLIERLQVMEQNQQQMMALLAIVVQNPSFLNQLVQQQQQQR RSNWWSPDGSKKRRFHALEQGPVTDQETSGRGAHI
DYDFPQLEQDCLMEAQYNSNNPQYADVITEA* SEQ ID NO. 318 LOC_OS03GL2370 2 MGSKKRSPQHPAAAAPPPAVGGGGGGEVSGDGGASTANG
RRKKSSQESPSEIQKAPVKTAPGTENIEIGKYGGLEKEVETLKRDKALLMQQLVDLR HYQQTSNLEVQNLIERLQVMEQNQQQMMALLAIVVQNPSFL
J5 NQLVQQQQQQRRSNWWSPDGSKKRRFHALEQGPVTDQETSGRGAHIVEYLPPVPETSGQV NPVEGAICSANSQPVPSPA VATPMDMQTSNVADTLGS
SEEPFADNSTLHEWDDNDMQLLFDDNLDPILPPFENDGQMGPPLSVQDYDFPQLEQD CLMEAQYNSNNPQYGND* SEQ ID NO. 319 LOC_OS03GL23
KHSNFTSFIRQLNTYGFRKVHPDRWEWANEGFIMGQKHLLKTIKRRKKSSQESPSEI QKAPVKTAPGTENIEIGKYGGLEKEVETLKRDKALLMQQLVD LRHYQQTSNLEVQNLIERLQVMEQNQQQMMALLAIVVQNPSFLNQLVQQQQQQRRSNWWS PDGSKKRRFHALEQGPVTDQETSGRGAHIVEYLPPV
EQDCLMEAQYNSNNPQYVLR* SEQ ID NO. 320 LOC_OS03GL2760 1 MGQTGGRPGGGGGPALQRLRRHAAGKVASRSLARCREGARRRGRQAAGQ RHSGRQGSNESTTQSQPTVTVIEDLKLEIDCQHVKKNIAHSPGQQCSPSERFDEWKSSSR RRPKCDV ATNLHWCHLHPFQMSTLSNKVSLSSNLLNLQT GLAEEPEELTYMYHQEEHARMQEQFAGTPLVEQPVRFDQFYP ASMAPNQFHPSHCSSFPAFGGSSALPSLAFGAVATTKKEQVQQPSPSSSNVLSFAGQ VQGSTTTLDFSGRGWQQDDGVGVFQQPPERRSRPPANAQEHVIAERKRREKLQQQFVALA TIVPGLKKTDKISLLGSTIDYVKQLEEKVKALEEGSRRT
YS* SEQ ID NO.321 LOC_OS03GI7150 1 MAYGKRPRQQAEEAAFSLFDSSDMARIMLLFSGAHGGGGGAAAASPPERMFECKTCNRQF PSFQALGGH
PAIEEEPDRARPAGLAVEFPVVVDFPC* SEQ ID NO. 322 LOC_OS03GL7570 1 MGSACEAGTDEPSRDDVKGTGNGILENGHSHKPEEEEWRNGMGE DLPNGHSTPPEPQQTDEQKEHQVQIVRWERFLPVKTLRVLLVENDDSTRQVVSALLRKCC YEVIPAENGLHA WQCLEDLQNHIDLVLTEVVMPRLSGI
EIGAPRNSSMEYQSSPREMSVNPTEKQHETLMPQSKTTRETDSRNTQNEPTTQTVDL ISSIARSTDDKQVVRINN APDCSSKVPDGNDKNRDSLIDMTSE
TKPSSNRGKVISPSAVKATQHTSAFHPVQRQTSPANVVGKDKVDEGIANGVNVGHPV DVQNSFMQHHHHVHYYVHVMTQQQQQPSIERGSSDAQCG 55 SSNVFDPPIEGHAANYSVNGSFSGGHNGNNGQRGPSTAPNVGRPNMETVNGIVDENGAGG GNGSGSGSGNDLYQNGVCYREAALNKFRQKRKVRNF GKKVRYQSRKRLAEQRPRIRGQFVRQSGQEDQAGQDEDR* SEQ ID NO. 323 LOC_OS03GL7570 2 MGSACEAGTDEPSRDDVKGTGNGILENGHSH KPEEEEWRNGMGEDLPNGHSTPPEPQQTDEQKEHQVQIVRWERFLPVKTLRVLLVENDDS TRQVVSALLRKCCYEVIPAENGLHA WQCLEDLQNHID LVLTEVVMPRLSGIGLLSKITSHKICKDIPVIMMSSNDSMGTVFKCLSKGAVDFLVKPIR KNELKNLWQHVWRRCHSSSGSGSESGIRTQKCTKPKVDD
EYENNSGSNNDNEDDDDNDEDDDDLSVGHNARDGSDNGSGTQSSWTKRAVEIDSPQQ MSPDQPSDLPDSTCAQVIHPTSEICSNRWLPTANKRSGKK HKENNDDSMGKYLEIGAPRNSSMEYQSSPREMSVNPTEKQHETLM PQSKTTRETDSRNTQNEPTTQTVDLISSIARSTDDKQVVRINNAPDCSSKVPDG NDKNRDSLIDMTSEELGLKRLKTTGSATEIHDERNILKRSDLS AFTRYHTTVASNQGGAGFGGSCSPQDNSSEALKTDSNCKVKSNSDAAEIKQGSNGS SNNNDMGSSTKNAITKPSSNRGKVISPSA VKATQHTSAFHPVQRQTSPANVVGKDKVDEGIANGVNVGHPVDVQNSFMQHHHHVHYYVH VMTQQQ QQPSIERGSSDAQCGSSNVFDPPIEGHAANYSVNGSFSGGHNGNNGQRGPSTAPNVGRPN METVNGIVDENGAGGGNGSGSGSGNDLYQNGVCYREA
ALNKFRQKRKVRNFGKKVRYQSRKRLAEQRPRIRGQFVRQSGQEDQAGQDEDR* SEQ ID NO. 324 LOC_Os03gl7570 3 MGSACEAGTDEPSRDDV KGTGNGILENGHSHKPEEEEWRNGMGEDLPNGHSTPPEPQQTDEQKEHQVQIVRWERFLP VKTLRVLLVENDDSTRQVVSALLRKCCYEVIPAENGLH AWQCLEDLQNHIDLVLTEVVMPRLSGIGLLSKITSHKICKDIPVIMMSSNDSMGTVFKCL SKGA VDFLVKPIRKNELKNLWQHVWRRCHSSSGSGSESG IRTQKCTKPKVDDEYENNSGSNNDNEDDDDNDEDDDDLSVGHNARDGSDNGSGTQSSWTK RAVEIDSPQQMSPDQPSDLPDSTCAQVIHPTSEICSNR WLPTANKRSGKKHKENNDDSMGKYLEIGAPRNSSMEYQSSPREMSVNPTEKQHETLMPQS KTTRETDSRNTQNEPTTQTVDLISSIARSTDDKQVVRI
SDAAEIKQGSNGSSNNNDMGSSTKNAITKPSSNRGKVISPSAVKATQHTS AFHPVQRQTSPANVVGKDKVDEGIANGVNVGHPVDVQNSFMQHHHHV HYYVHVMTQQQQQPSIERGSSDAQCGSSNVFDPPIEGHAANYSVNGSFSGGHNGNNGQRG PSTAPNVGRPNMETVNGIVDENGAGGGNGSGSGSGN DLYQNGVCYREAALNKFRQKRKVRNFGKKVRYQSRKRLAEQRPRIRGQFVRQSGQEDQAG QDEDR* SEQ ID NO. 325 LOC_Os03gl75704 MGSA CEAGTDEPSRDDVKGTGNGILENGHSHKPEEEEWRNGMGEDLPNGHSTPPEPQQTDEQKE HQVQIVRWERFLPVKTLRVLLVENDDSTRQVVSALLR
KCCYEVIPAENGLHA WQCLEDLQNHIDLVLTEVVMPRLSGIGLLSKITSHKICKDIPVIMMSSNDSMGTVFKCLS KGAVDFLVKPIRKNELKNLWQHV WRRCHSSSGSGSESGIRTQKCTKPKVDDEYENNSGSNNDNEDDDDNDEDDDDLSVGHNAR DGSDNGSGTQSSWTKRAVEIDSPQQMSPDQPSDLPDS TCAQVIHPTSEICSNRWLPTANKRSGKKHKENNDDSMGKYLEIGAPRNSSMEYQSSPREM SVNPTEKQHETLMPQSKTTRETDSRNTQNEPTTQTVDLI SSIARSTDDKQWRINNAPDCSSKVPDGNDKNRDSLIDMTSEELGLKRLKTTGSATEIHDE RNILKRSDLSAFTRYHTTV ASNQGGAGFGGSCSPQDNSS
AGGGNGSGSGSGNDLYQNGVCYREAALNKFRQKRKVRNFGKKV ACFQLHA YQSHES* SEQ ID NO. 326 LOC_Os03gl7570 5 MGSACEAGTDEPS RDDVKGTGNGILENGHSHKPEEEEWRNGMGEDLPNGHSTPPEPQQTDEQKEHQVQIVRWE RFLPVKTLRVLLVENDDSTRQVVSALLRKCCYEVIPA ENGLHA WQCLEDLQNHIDLVLTEVVMPRLSGIGLLSKITSHKICKDIPVIMMSSNDSMGTVFKCLS KGAVDFLVKPIRKNELKNLWQHVWRRCHSSSG SGSESGIRTQKCTKPKVDDEYENNSGSNNDNEDDDDNDEDDDDLSVGHNARDGSDNGSGT QSSWTKRAVEIDSPQQMSPDQPSDLPDSTCAQVIHPTS
QVVRINNAPDCSSKVPDGNDKNRDSLIDMTSEELGLKRLKTTGSATEIHDERNILKR SDLS AFTRYHTTVASNQGGAGFGGSCSPQDNSSEALKTDSNC KGKSDITISCQSYPTYISIPSCAASNVTC* SEQ ID NO.327 LOC_Os03gl7570 6 MGSACEAGTDEPSRDDVKGTGNGILENGHSHKPEEEEWRNGMGE GLLSKITSHKICKDIPVIMMSSNDSMGTVFKCLSKGA VDFLVKPIRKNELKNLWQHVWRRCHSSSGSGSESGIRTQKCTKPKVDDEYENNSGSNNDN E
ELGLKRLKTTGSATEIHDERNILKRSDLSAFTRCKK* SEQ ID NO. 328 LOC_Os03g20780 1 MMGGGLVMDQGMMFPGVHNFVDLLQQNGGDKNLG
FGALVPQTSSGEQCVMGEGDLVDPPPESFPDAGEDDSDDDVEDIEELERRMWRDRMK LKRLKELQLSRGKDPAGGVVGDPSKPRQSQEQARRKKMS RAQDGILKYMLKMMEVCRAQGFVYGIIPEKGKPVSGASDNLRGWWKEKVRFDRNGPAAIA KYQADNA VPGFESELASGTGSPHSLQELQDTTLGSLL
RSASGAEPELMLNNRVYTCHNVQCPHSDYGYGFLDRNARNSHQYTCKYNDPLQQSTE NKPSPPAIFPATYNTPNQALNNLDFGLPMDGQRSITELMN NMSGAVEYPGAMQGQQKNDGASEFEELE* SEQ ID NO. 329 LOC_Os03g207802 MMGGGLVMDQGMMFPGVHNFVDLLQQNGGDKNLGFGALV
PQTSSGEQCVMGEGDLVDPPPESFPDAGEDDSDDDVEDIEELERRM WRDRMKLKRLKELQLSRGKDPAGGVVGDPSKPRQSQEQARRKKMSRAQDG ILKYM LKMMEVCRAQG FVYGIIPEKGKPVSG ASDNLRGWWKEKVRFDRNGP AAIAKYQADNA VPGFESELASGTGSPHSLQELQDTTLGSLLSALMQ HCDPPQRRYPLEKGVPPPWWPTGDEEWWPELGIPKDQGPPPYKKPHDLKKA WKVSVLTAVIKHMSPDIEKIRRLVUQSKCLQDMVI 1 AKEISTWLAVV KQEEELYLKLNPGARPPAPTGGITSAISF M ASSSEYDVDVVDDCK.GUbAGNQKAVVVADPTAFNLGAAMLNDKFLMPASMKEEATDVEF IQKRSASG
VEYPGAMQGQQKNDGASEFEELE* SEQ ID NO. 330 LOC_Os03g21030 1 MSEVSVMAEVEETAAAAPLDLPPGFRFHPTDEEIVSHYLTPKALNHRFS
FRLEGKLPSQLPRSAKDQWA VCKVFNKELALAAKNGPMAVTEATADDAGIERVGSFSFLSDFIDP AELPPLMDPSFV ADIDGVDDAKVSASTSGQAAI AAGFHVASQVMSYQQVKMEEPLPLPYLHQQPPRMLHSGQYFSLPAVHPGDLTPSAIRRYC KAEQVSGQTSALSASRDTGLSTDPNAAGCAEISSAPTS
QPFPEFDDGILGLDDFWN* SEQ ID NO. 331 LOC_Os03g28940 1 MASAKSGERGSSSFAMACSLLSRYVRQNGAAAGELGLGIRGEADANKGKETME LFPQNSGFGSEAAA VKETPDAREQEKRQLTIFYGGKVLVFDDFPAEKAKD LMQMASKSSSTAQNCVLLPSSATATVADNTKVSA VPAPASALPV AQA NAPKPVRPNAADLPQARKASLHRFLEKRKDRLQAKAPYQGSPSDASPVKKELQESQPWLG LGPQV AAPDLSLRQESSQ* SEQ ID NO. 332 LOC_Os03 g289402 MSYHFSGEADANKGKETMELFPQNSGFGSEAAAVKETPDAREQEKRQLTIFYGGKVLVFD DFPAEKAKDLMQMASKSSSTAQNCVLLPSSA TATV ADNTKVSAVPAPASALPV AQANAPKPVRPNAADLPQARKASLHRFLEKRKDRLQAKAPYQGSPSDASPVKKELQESQP WLGLGPQVAAPDLSL
RQESSQ* SEQ ID NO. 333 LOC_Os03g32220 1 MVTNMTHDDYVSLCLMALAQAGVGGQWPAQKQQIDMAPPAPERELLRFRCSVCGKAFPSH QALG GHKASHRKPPTAALPMHVIDAPPPPSAEDTASSSTTTTTSGGGRHRCSVCHRTFATGQAL GGHKRCHYWDGLS VVSVTASASGSGSSSVRNFDLNLKP VPETVAAGVRRWGEEEEVQSPLPFKKRRLSSPSLELNL* SEQ ID NO. 334 LOC_Os03g32230 1 MTAALQALLDPTALSLGLPTPAINKEEYLAICLAA STGPHRCTICRRSFATGQALGGHKRCHYWDGTSVSVSVSASASAASSAVRNFDLNLMPLP ESTAAAGIKRWAEEEEVQSPLPVKKLRMSN* SEQ ID N
O. 335 LOC_Os03g53340 1 MNPLRVIVKEEELDFAAAAAAAAAGEGSPSSWAVGVMDLPRPMEGLGEAGPPPFLCKTYE VVDDPGTDTVISWGFAGN SFVVWDANAFAAVLLPRYFKHSNFSSFVRQLNTYGFRKVDPDRWEFANEGFLRGKKELLK TIKRRRPPPSSPPSSSSSSSSSQHQQQPAAACLEVGQFG RDGVVNRLQRDKSVLIAEVVKLRQEQQTTRAQMQAMEERISAAEQKQQQMTVFLARAMKN PGFLQMLVDRQAGQHGARNRVLEDALSKKRRRPIE VQSIYHLSPK* SEQ ID NO. 336 LOC_Os03g533402 MNPLRVIVKEEELDFAAAAAAAAAGEGSPSSWAVGVMDLPRPMEGLGEAGPPPFLCKTYE V
HQQQPAAACLEVGQFGRDGVVNRLQRDKSVLIAEVVKLRQEQQTTRAQMQAM EERISAAEQKQQQMTVFLARAMKNPGFLQMLVDRQAGQHGAR NRVLEDALSKKRRRPIEYLLTRNGETCAAGES AAMLAA DGVAEP DGDTTPRGDGGGGGGGDTESFWMQLLSLGLEEKQREDGV AGGVQESNSGGAD VDNDEEDDDDDVDVLVQSIYHLSPK* SEQ ID NO.337 LOC_Os03g533403 MNPLRVIVKEEELDFAAAAAAAAAGEGSPSSWAVGVMDLPRPMEG LGEAGPPPFLCKTYEVVDDPGTDTVISWGFAGNSFVVWDANAFAAVLLPRYFKHSNFSSF VRQLNTYGFRKVDPDRWEFANEGFLRGKKELLKTIKRR
RPPPSSPPSSSSSSSSSQHQQQPAAACLEVGQFGRDG VVNRLQRDKSVLIAEVVKLRQEQQTTRAQMQAM EERISAAEQKQQQMTVFLARAMKNPGFL QMLVDRQAGQHGARNRVLEDALSKKRRRPIEYLLTRNGETCAAGESAAM LAADGVAEPDGDTTPRGDGGGGGGGDTESFWMQLLSLGLEEKQRED GVAGGVQESNSGGADVDNDEEDDDDDVDVLVQSIYHLSPK* SEQ ID NO. 338 LOC_Os03g533404 MRSPPCSSRATSSTATSPASSASSTPTKVDPD
GGDTESFWMQLLSLGLEEKQREDGVAGGVQESNSGGADVDNDEEDDDDDVDVLVQSI YHLSPK* SEQ ID NO. 339 LOC_Os03g53340 5 MGVRER
HRELLDAAAQPRPGGEAARGRRRRRRPGE* SEQ ID NO. 340 LOC_Os03g55550 1 MAVDWIWERRRREEEYNHQMSQDELQQPGQVQWTPAPEEK
GVVLRDAAPQAKRRTQAGHGGDLGRQKKKARVSDKRNQESMQSGSCSDNESNCSQ VNRRKVDRV AGGGNGKVPARRRSATIAQSLYARRRRERIN GRLRILQKLVPNGTKVD]STMLEEAVHYVKFLQLQIKVEVQIVCHDQMLSSDELWMYAPI VYNGMDLGIDLNISPPR* SEQ ID NO. 341 LOC_Os03g60 080 1 MGMGMRRERDAEAELNLPPGFRFHPTDDELVEHYLCRKAAGQRLPVPIIAEVDLYKFDPW DLPERALFGAREWYFFTPRDRKYPNGSRPNRAA GNGYWKATGADKPVAPRGRTLGIKKALVFY AGKAPRGVKTDWIMHEYRLADAGRAAAGAKKGSLRLDDWVLCRLYNKKNEWEKMQQGKEV KEE ASDMVTSQSHSHTHSWGETRTPESEIVDNDPFPELDSFPAFQPAPPPATAMMVPKKESMD DATAAAAAAATIPRNNSSLFVDLSYDDIQGMYSGLDML
PPGDDFYSSLFASPRVKGTTPRAGAGMGMVPF* SEQ ID NO. 342 LOC_Os03g60560 1 MKHPRQEEEVSLALALSTDCSSTASDSSAAAAGGAARRK RARRRS VV ATSGEGEFVCKTCSRAFPTFQALGGHRTSHLRGRSNGLDLGAIGDKAIRLHRAADKEHRD KHECHICGLGFEMGQALGGHMRRHREEMA AAGGGSSADDWVWRCDARPEGIAAEPPVLLELFA* SEQ ID NO. 343 LOC_Os03g60630 1 MPPHHGGLMAPRPDMVAAAVAASGGGGGGGGPTGG
TAVIy 1 GSMTERARLAIaPQPEPGLKCPRCESTNTKFCYFNNYSLSQPRHFCKTCRRYWTRGGALR NVPVGGGCRRNKRTKSSKSSSSTS AAGSASATG GTSSSTSSTATGGSSSAAAAAAMMPPQAQLPFLASLHHPLGGGDHYSSG ASRLGFPGLSSLDPVDYQLGGG AAAAAAIGLEQWRLPQIQQFPFLSRND
AMPPPMSGγYPFDAEAAADAAGFAGQLLAGTKVPGSSGLITQLASVKM EDSNAQSAAMNSSPREFLGLPGNLQFWGGGNGAGPGGNGDGATGGSGA GVAPGGGGSGGGWADLSGFNSSSSGNIL* SEQ ID NO. 344 LOC_OS03G64260 I MHCCMSLHPHRRHGDGDVDGSASGSGSARLTAGLINFLESRRA
EQVRRSMDMSLLQEGASPW ALKRRHSMRAAAAGRRRKSAAPAPADQEGGGGVMELEDLGPDYLEELLAASQPIDITCCT SPSHHSI* SEQ ID NO.34 5 LOC_OS04G23550 I MDAEMAMGESFAYYWETQRYLESEELDSMYLPTQDDSNYESSSPDGSHSSSAPAPAA VGGDAAAA V AGSGGGMTTMMMG
10 FVEVDHMDSVQMKQMVEAALSQLVATGSPLSSMSY* SEQ ID NO. 346 LOC_OS04G23550 2 MDKASIIKDAIEYIQRLQAEEQQMLREVAALESAAA RLRVITANITSVAGCLMHTLFVEVDHMDSVQMKQMVEAALSQLVATGSPLSSMSY* SEQ ID NO. 347 LOC_OS04G32790 1 MMNFSSYFYSSSAAA
AGGGGGGGEKKSSSSSASKKKQQQAAAAEGGNNQTRYLGVRRRPWGRY AAEIRDPATKERHWLGTFDTAEEAA VAYDRAARSLRGARARTNFA YP
DLPPGSSVTPYLSPDLSADASDQLLQPFY ANPSAAAALPTPAA VMAGGGGVEFGGEYMYGGGVDMSSLMDDIAAMPDDLPPSVTGGGGGFASSDEYS
1 5 SGGGGMVDDVSMYCGGNGGGSSWCDASDFASYSSSSPAAAAAAGSHGMYFEEGYVHSPLF SPMPAVDDAGADGFQLGGSSSSYYY* SEQ ID NO.3
48 LOC_Os04g34970 1 MALSEPDLAAETEAIVSALTHVVAYGGGGPPPSEETAASAVTRTAPWRADGARQGA VP AARKYRGVRRRPWGKW AAEIRD
VPDGFFGGGGNGRFLHSWSIGTSPSPSGSGSGGAGGGGGGGGGGAPVRPLFHGGNGW EQRGDSAYNGF* SEQ ID NO. 349 LOC_Os04g38770 1 MG
RGKiviRRiDNSTSRQVTFSKRRNGiFKKAKELAiLCDAEVGLviFssTGRLYEY ASTSMKSVIDRYGRAKEEQQHVANPNSELKEFCSVFγYπΈN* SEQ
20 ID NO.350 LOC_Os04g42020 1 MEGDDKSAVVGGAYWGLAARACDACGGEAARLFCRADAAFLCAGCDARAHGPGSRHARVW LCEVCEHAPAAV
PYLDLDFARSMDDIKAIGVQNGPPELDγTGGKLFYSDHSMNHSVSSSEAAVVPDAA AGGG APMPVVSRGREREARLMRYREKRKSRRFEKTIRYASRK AYAETRPRIKGRFAKRTKGGAGADADADADADGEDEEMYSSAAAAVAALMAPGGSDADYG VDGVVPTF* SEQ ID NO. 351 LOC_Os04g42950 1 M AAAEVQSAAGWGRQLQQDGGG WRKGPWTSQEDALLVEHVRQHGEGRWNSVSKLTG LK RSG KSCRLR WVNYLRPDLKRGKITPQEESIIVQLHALW
SSSLSMGGGEAEDLIMHQDAMDDLMMCPAMSTTSSSTAPPSPGIS* SEQ ID NO.352 LOC_Os04g45810 1 MNGRTQLASWARIAMDRGDHHHLQQ QHQFLMPPPAPVVPPQLCMPAMMADEQYMDLGGGG AAAAPGRGGAGERKRRFTEEQIRSLESMFHAHHAKLEPREKAELARELG LQPRQVAIWFQN KRAR WRSKQLEHDY AALRSKYDALHSRVES LKQEKLALTVQLHELRERLREREERSGNGG AATTAASSSSCNGSGSEEVDDDDDKRN AAAGCLDLEP PESCVLGGATCATPADVSVESDQCDDQLDYDEGLFPESFCATPELWEPWPLVEWNAVA* SEQ ID NO.353 LOC_Os04g48030 1 MASPAAGTPPFLT 30 KTYAMVEDPSTDETISWNDSGTAFVVWRPAEFARDLLPKHFKHSNFSSFVRQLNTYGFKK VVADRWEFANDCFRRGEKHLLGGIQRRKGSGTGGAG
SEQ ID NO. 354 LOC_Os04g49450 1 MARFQETKARNDQGPVADHVGHQNLMENLTDPLDSSGMDMMDEARIPKARKPYTITKQRE KWTEDEHKLF LEALQLHGRA WRRIQEHIGTKTA VQIRSHAQKFFSKVIKESSGDNCNSLG AASSIQIPPPRPKRKPVHPYPRNLGSTASKNVPALKQLEKPQLQVQSLYD 35 QDNGSPTSVLTVPQIRADTLGSESGGSPTSTIDIEERCPTPSIATAELAMELPPTNDEEV KGNGDHEEVTCDRSGVPVLRLFGKRVMVNDLHQMSAPDA
GNLQTV ADMEVDASAETPTSGTGKFSSHGAAEANTWNPWLTNTQQFLYYLPNGQIFSVHSALPCFT Y HNEGVTCTQFSNPQVV ASDQQHQHQTSEAV
SEQ ID NO.355 LOCJ>s04g494502 MDCVACKVIKESSGDNCNSLGAASSIQIPPPRPKRKPVHPYPRNLGSTASKNVPALKQLE KPQLQVQSLYDQD
W
GIQREGSWTESNTSSSSVPETATHNSETTESYRNGNRNEDEMVPSPDSRKCVSPGSNCRR GFVPYKRCVADSEALLKSQAPQEEADG EMTRLCL* SEQ ID NO.356 LOC_Os04g56150 1 MTKYKGVRQRHWGSWVAEIRHPLLKTRIWLGTYGTAEDAARAYDEAARLMSGPAARTNFP LSSSGGNARSCLSPT LRARLEKCCGAGSSAQAQQGA V AGQDNDDAAAAAAAMGVDDGDEYVEEM IQELTFYGSIEIVQP* SEQ in NO 35' LOC_Os05g04210 i MEMMK λ C MAMSPAMSSATAAAASEDFCnLRJJGPwn^/EEDMLLVDYlANHGEGRWNSLARCAGLRR TGKSCRLRWLNYLRPDVRRGNITADEQLLILDLHSRW
QIPLAAGAM VV APAVSSEAYHHHGCGGGGDTSCSEPSQAA VTMSPDDASSTLRSSSAAAENDTIHGDVLSGSWSELLATTTTTIAATAGLPDFDELGDF EDNLWSLEDIWLHQQC* SEQ ID NO 358 LOC_Os05g07010 1 MAAMAAAAAGTKKKARKPYTITRPRERWSAEEHERFLDALILFGRDWKRIEAFV
50 GERRPVEAHLRRLQGMDPAISETILLVLKNLEANLSA* SEQ ID NO. 359 LOC_Os05g070102 MAAMAAAAAGTKKKARKPYTITRPRERWSAEEHE
RFLDALILFGRDWKRIEAFV ATKTAIQIRSHAQKHFLKARKFGLAGGLPPPLHPRRATLLRANAAAADMMPPPWLPSAGG GSIGCSAPPSGVQQSMAG
LVLKNLEANLSA* SEQ ID NO. 360 LOC_Os05g07120 1 MAACQQQIWQEGKQQQHLHHGGYDDLSSVYRGTVVLPRRQGGLAPEPPPPRPSSSSGRS AAAQATAMTIHSEAERRRRERINAHLATLRRILPDAKQMDKATLLASVVNQVKHLKTRAT EATTPSTAATIPPEANEVTVQCYAGGEHTAAARTYVR
TAVVHTHVDPQYCWYNSR* SEQ ID NO. 361 LOC_Os05g071202 MAACQQQIWQEGKQQQHLHHGGYDDLSSVYRGTVVLPRRQGGLAPEPPPPR
MESRYSTAVVHTHVDPQYCWYNSR* SEQ ID NO 362 LOC_Os05g27930 1 MTVDQRTTAKAIMPPVEMPPVQPGRKKRPRRSRDGPTSVAETIKRW
RTNFGQHHAPAASVQVALAAVKCALPGGGLTASKSRTSTQGASADVQDVLTGGLSAC ESTTTTINNQSDVVSTLHKPEEVSEISSPLRAPPA VLEDGSN EDKAES VTYDENIVSQQRAPPEAEASNGRGEEVFEPLEPIASLPEDQGDYCFDIDEM LRMMEADPTNEGLWKGDKDGSDAILELGQDEPFYYEGVDPG MLDNLLRSDEPAWLLADPAMFISGGFEDDSQFFEGL* SEQ ID NO. 363 LOC_Os05g27930 2 MKGKGGPENTRCDFRGVRQRTWGKWVAEIREPNQ
QSRLWLGTFPTAEAAACAYDEAARAMYGPMARTNFGQHHAP AASVQVALAAVKCALPGGGLTASKSRTSTQGASADVQDVLTGGLSACESTTTÏ€N
NEGLWKGDKDGSDAILELGQDEPFYYEGVDPGMLDNLLRSDEPAWLLADPAMFISGG FEDDSQFFEGL* SEQ ID NO. 364 LOC_Os05g27930 3 MKG
SKSRTSTQGASADVQDVLTGG LSACESTTTTINNQSDVVSTLHKPEEVSEISSPLRAPPAVLEDGSNEDKA ES VTYDENIVSQQ RAPPEA EASNGRGEEV
70 EGL* SEQ ID NO.355 LOC_Os05g34830 1 MSGGGEGAAAAERQELQLPPGFRFHPTDEELVMHYLCRRCAGLPIAVPIIAEVDLYKFDP WHLPRMALY
VQSQPKIAEWERTFAGAAAPAGAVSTAGPILGQLDPAAAVAGGGDPLLQDILMYWGK PF* SEQ ID NO. 366 LOC_Os05g348302 MALYGEKEWYF
75
AEWERTFAGAAAPAGAVSTAGPILGQLDPAAAVAGGGDPLLQDILMYWGKPF* SEQ ID NO. 367 LOC_Os05g34830 3 MALYGEKEWYFFSPRDRK
AGAAAPAGAVSTAGPILGQLDPAAAVAGGGDPLLQDILMYWGKPF* SEQ ID NO.368 LOC_Os05g37050 1 MAFYGGEMGGSSSSWV APLVPSSRP
LFLEGLEKYRRGD* SEQ ID NO. 369 LOC_Os05g37060 1 MAFYLGSMGGSPSSWGVAEVPVPbSRPWSKAEDKVFESALVAFPEHTHNRWALVASRL PGRSAHEVWEHYQVLVDDVDLIERGMVASPGCWDDDNNSAGHGRGSGGDERRRGVPWTEE EHRLFLEGLEKYGRGDWRNISRWSVKTRTPTQVAS HAQKFFIRQANASSRGDSKRKSIHDITAP* SEQ ID NO.370 LOC_Os05g39720 1 MTAAPGSLPLVNSRPVSLSLAASRSSFSSLLSGGAGSSLNLMTPP SSLPPSSPSSYFGGVSSSGFLDSPILLTPSLFPSPTTTGALFSWITTATATAA]APESQV QGGVKDEQQQYSDFTFLPTASTAPATTMAGATATTSNSFMQD 55 SMLMAPLGGDPYNGEQQQPWSYQEPTMDADTRPAEFTSSAAAGDV AGNGSYSQV AAP AAAGGFRQQSRRSSDDGYNWRKYGQKQMKGSENPRSY
YKCTFPGCPTKKKVEQSPDGQVTEIVYKGAHSHPKPPQNGRGRGGSGYALHGGAASD A YSSADALSGTPV ATP ENSSASFGDDEA VNGVSSSLRV ASS VGGGEDLDDDEPDSKRWRRDGG DGEGVSLV AGNRTVREPRVVVQTMSDIDILDDGYRWRKYGQKVVKGNPNPRS YYKCTTAGCPVRKHVERASND LRAVITTYEGKHNHDVPAARGSAAAALYRATPPPQASNAGMMPTTAQPSSYLQGGGGVLP AGGYGASYGGAPTTTQPANGGGFAALSGRFDDDATG
ASYSYTSQQQQQPNDAVYYASRAKDEPRDDGIMSFFEQPLLF* SEQ ID NO. 371 LOC_Os05g39940 1 MPFSLLLFTGA VAGV AMLVLPWWCA VGE
RTCPCCRELVLVPPAARLAAPTYR* SEQ ID NO. 372 LOC_Os05g40060 1 MALIATGATATATAAPVASPAASSMASELMAQGRESAA VLEALLHGA SIJ 1 PAHGGAHALAAEILRCCDRAI-AALRAGGDAESSSADTKRKPATAQPSTRRRRRATASGG GAAAAAEPARVEKARTSEDGFLWRKYGQICEIKNSK
5 HPRLYYRCSYKDDHGCTATKQVQQSEEDPSLYVπΎFGDHTCSCQTAAAAAMDDDDDDE NSQHFVINFGPATASRSGSPPLLYDDGDDGDVWRETA ATPPSSRQSRCSPEGDGEESGVKMSKEEPVDSCPGPSAVSSPADVVSCSSPAMEPDLLGC LNWDDDFGDSSFVDADEFMNFDEIDLFQγYS* SEQ ID NO . 373 LOC_OS05G41760 1 MELDMGAGGGGGVVGGGRAEAHYRGVRKRPWGRYAAEIRDPWKKTRVWLGTYDTPVEAAL AYDRAAVALRGVKART
NFGSGSSGGGGVGGHGHGHSHAQLPQLHHRM HPPRPPQGPGHFGGLDISHPSPWHYVYFP ARVQAMAPAAAGHV AAHV AASLPSTTLELRTGPSAG ELPFDLNEPPPALLFGS* SEQ ID NO. 374 LOC_Os05g45020 1 MASREHLLLDPAALAVSWADPAAVEIPPELLAALGEYLSARRSDGEAEADAEAEA
VSELVM* SEQ ID NO.375 LOC_Os05g47650 1 MDSTSCLLDDASSGASTGKKAAAAAASKALQRVGSGASAVMDAAEPGAEADSGGERRGGG GGK LPSSKYKGVVPQPNGRWGAQIYERHQRVWLGTFTGEAEAARA YDVAAQRFRGRDA VTNFRPLAESDPEAAVELRFLASRSKAEVVDMLRKHTYLEE LTQNKRAFAAISPPPPKHPASSPTSSSAAREHLFDKTVTPSDVGKLNRLVIPKQHAEKHF PLQLPPPTTTSSVAAAADAAAGGGDCKGVLLNFEDAAGK
APELQDAGGAAMTKSKRAMDAMAESQAHVVFKKQCIELALT* SEQ ID NO. 376 LOC_Os05g49310 1 MQYTVEGSGGGGVQTVEAA VRKGPWTM EEDLSLVNYIAANGEGA WNTLARAAGLNRTGKSCRLRWLNYLRPDVRRGNITPEEHTLIVELQ ARWGNRWSKIARYLPGRTDNEVKNFWRTKIQKKH RKSTDGIYATTTSESIMPAATVHQNTVAEDQGSSSVSGRTTTATV AVTQEYATEAPPPSGMSSGSYLDQLQPGYASSIHGGQDGGAAAAAAGDVVVSD EFLAASSDNFWALEDLWPTVQSLHGNC* SEQ ID NO. 377 LOC_Os05g50340 1 MAQQARAQWPQKQNKLFEQALAVYDKETPDRWHNIARAVGGG 20 KSAEDVKRYYEMLEEDIKHIESGKVPFPAYRCPAAAGYQAERLKHLKI' SEQ ID NO.378 LOC_Os05g5U60 1 MHAIMARRCSGDYSTAGQRAGEE
EQEHRLFLAGLEKLGKGDWRGISRSFVTTRTPTQVASHAQKFFLRHNSAAKKTNNKR RSSLFDMVQDCDSGGRS LASSDPATRCNNNISASLS LQVSH HKSGDSAWPSSETPSVSEAQQGHGYGTSHHCSPLDLELGMSLSTTPSIGT* SEQ ID NO.379 LOC_Os06g03670 1 MEYYEQEEYATVTSAPPKRPAG
25
LWSY* SEQ ID NO. 380 LOC_Os06g06360 1 MDGGDIHLLLSILADGEEQARQLGEPAAAADDEYHGGGRGEEYYRGVARQLQGTLARAMG IARAIE AAAFAGGGGGGGASGSRGTTGDRSDSPRS ADESSGRTARDAA VAQQERHHDTIKRRKGLPRWTEKFRVPDASLEATPDDGFSWRKYGQKDILGAKFP RGYYRCTYRNAQGCPATKQVQRSDADLAVFDVTYQGAHTCHQKQRJIAAAAGDQPPPPPP QADPSVELLVNFRHGLKVETNGIJU 3 PPPPPPTTTTNFH
30 GFDYPLYHGEVDPHLPFPPLFGHASMYGQYRDA* SEQ ID NO. 381 LOC_Os06gl 1330 1 MARERREIRRIESAAARQVTFSKRRRGLFKKAEELAVLC
DADVALVVFSSTGKLSQFASSNMNEIIDKYTTHSKNLGKTDKQPSIDLNLEHSKCSS LNEQLAEASLQLRQMRGEELEGLSVEELQQMEKNLEAGLQR VLCTKDQQFMQEISELQRKGIQLAEENMRLRDQMPQVPTAGLA VPDTENVLTEDGQSSESVMTALNSGSSQDNDDGSDISLKLGLP* SEQ ID NO. 382
ELYETrNGNRVRVSAKCNYCHKTLSARSSAGTGHLLRH ] KSCKPRKLGSNALPQSMLRFSADGSVIPWEYSPEVARFELCRLIAREDLPISFGQSPAFV N 35 YIKAAHNPRFVPVSRQTTTRDFYKLFKDRRSIIIDRLNSASSIALTSDIWSGHAKEDYLS VVAHFVSSDWQLEKRVLGLRLINESHTGANIAERVIAVAEE
PMKTKFMNYWSKIPILYSFAFILDPRAKIRGFSKVLQIMAQLIGDDYSAYLTTVRAS LSDTFAKYERKFGSVRLHSSTIPGPSTGKKRTA WGKIFGSVVA
40 PVSTISSESTFSLTGRIIEDRRRRLNPRLVEILAVIKDWELADAKSQHTTENVELQNAYE NMYLDDEIDVNP* SEQ ID NO.383 LOC_Os06gl4670 1 MG
RQPCCDKVGLKKGPWTAEEDQKLVAFLLTHGHCCWRVVPKLAGLLRCGKSCRLR WTNYLRPDLKRGLLSDDEERLVIDLHAQLGNRWSKIAARLPG
SASAASAVDVAEWPEPMYMFGMDGIMDVGWNGLISGAGVDVDVDVDPFnHYVHnδS FDDQDVV/Ii- SEQ ID NO 384 LUL_Os06g24850 1 MFRE
K 'RλλSSAQLVGWFFVRTFkl^NLM FKPADADDLMNKMKPCSDEGHGSRDAAQERRPSSTMFVKVNLEGYA VGRKIDLKAHRSYDSLSQALQSMFHG
+5 FLSDGIATRDNELQRMEEGSKKRYVLVYEDNEGDRMLVGDVPWEYVCLL* SEQ ID NO. 385 LOC_Os06g32720 1 MMQILCECCNSDHRSSSTPMA
HEKWDGSLQTNQISSGVNIYSVLDHGELNEQPVPSKDDFQVSFVQNIVGFNFYiWCD PELAP* SEQ ID NO 386: LOC_Os06g36930 1 MDYSTVKQEE
50
EQCTEFLARALRSPDVLDNIARRHAAAVERKKRRM LAAAADDDGLTFEA LA LAAAADTSHSTGGAVTTDMIWYELLGEEQAEIDIEVDQLVASASAA ADTASEAEPWEEMGEEEVQELVQQIDCLASPSS* SEQ ID NO. 387 LOC_Os06g36950 1 MDPNFPYQSPSFTLGDFDPNYMSGFNDASGSAPTPPSVEE
RQQQLMVNPDGTVRSWEYDPMVARESLVRLIARQDLPLNFGESPAFEHYIQQSHNPR FKAVSRQTSTRDLENVYHKEATALKELFSTCTFSVSVTSDI 55
RPPPIPTTGKKKIQWGRIWGGSSSSSIQGGGSSSATSGDASSHVVAEELSGYLDSDA IHHEAQDFNVLGWWNDHKITYPVLSKLARDVLTVPVSTVPVS TVSSESAFSLCGRIIEDRRTTLRSDHVEMLLSVKDWELARQHAQYTADNQELAAQFEQLY LDPDQPQ* SEQ ID NO 388 LOC_Os06g40150 1 MGQS
50 GGNSLSQILSAKLRKCCKTPSPSLTCLRLDPEKSHIGVWQKRAGARADSSWVMTVELNKD TA VSSAATV AAATAVSSSDQPTPSDSTVTTTSTSTTGSP
SPPPPAMDDEERIALQMIEELLGRSGPGSPSHGLLHGGEGSLVI* SEQ ID NO 389 LOC_Os06g44010 1 MAKMLPPPSQSVPSRPPSWLYIPPRRRHGT
REDCKPKVSKRFVHADPSDLSLVVKDGYQWRKYGQKVTKDNPCPRAYFRCSFAPACP VKKKVQRSADDNTVL VATYEGEHNHAQPPHHDAGSKTA
)5 AAAKHSQHQPPPSAAAAVVRQQQEQAAAAGPSTEV AARKNLAEQMAATLTRDPGFKAAL VTALSGRILELSPTKN* SEQ ID NO. 390 LOC_Os06g51
260 1 MASMPQLEEKDSSDLAINKGPSLDLVKSPLMMNDASATVTAMQPNEGMEEFPVKVRKPYT ITKQREKWTEEEHDKFLEALKLYGRSWRQIQE
EMLQASSSVGEIPAAYCAPNGWFMSYNSFPFQFGESAADARIPPLHVWWPYYGFAPI SHPRGLSTVMQQTEGSDESDGVKSHSSESSSDSGENVQMTA 70 PQSSRIVESLGAIYVRDSGSSFELKPSANSAFVRVKPSNSGDEEVIRGFVPYKRCKFQ* SEQ ID NO.391 LOC_Os06g5I2602 MVALGVRYKVVREPG
SNNAIEIPPPRPKRKPLHPYPRKCANSGSDANP ATAQLKLAPGSSSSGSDQ ENGSPISVLS AMQSDAFGSSVSNPSTRCTSPASSDDGNNIPTFTSGEDNN VPCEPTVIDPSQSHKEIDQDRKD VNNMSEEDSSEEEVQETS LKLFGRTVVIPDPRKRSSSDPKHESEEQISQPSNEEM LQASSSVGEIPAA YCAPNGWFMS YNSFPFQFGES AADARIPPLHVWWPYYGFAPISHPRGLSTVMQQTEGSDESDG VKSHSSESSSDSGENVQMTAPQSSRIVESLGAIYVRDSGSSFELKPS ANSAFVRVKPSNSGDEEVIRGFVPYKRCKFQ* SEQ ID NO 392 LOC_Os07g05830 1 MAEERRRDDGGDVEVELSLRLRTGDDSTSADPAPATVAAE
75 ARRNLTiFYNGRMCA VNVTELQARTIISMASQGNFGKQQQQQIQGRDDHHYHQGESSSGGGVSTAAARHCDV AGSSSSHSGSGSGSATPPRPALVSPR
AGLQAAAAAAPTMNQPPAASGLSMKRSLQRFLEKRKTRAAAPLYARR* SEQ ID NO 393 LOC_Os07g07690 1 MPPVASGSGRKRQLVLESSDSEA GGKM LRPGFPKWRFEKPEVRAGRVLDEKGGVETKVSSSQKVKDHASSSVYERRRPEPLKPEKST PSKTNQEVIRVQGKSGVLKIRPKNNKV ASETGDG
10 LETSAGKILSRNTKEDLKTSDVCRQDKEKSDAIDVSQKQGADGEKRITEKLVSPILLRKS DPSVVGISLGQKMKQQNSKAQLKISSLGQRQPSLNLKDEK
NKKKRLLDHKMSPENLSKKAKPNAIDQDTSRPSLEKHGIKKbRKGPRYTMKQKLRGQ IKDILLNNGWKIDLRRRKNKDYEDSVYVSPQGNGYWSITK AYAVFQEQSKSGKHTGKSSKHKAGVADAACNAISENDLAM LQRNVVKRRTKKELGASKKKYEDSSSRNSKDNNAGRSSGNKHQSSGVRGCALLVR GSTHSMEGNVDGYFPYRWKRTVLS WMIDMGVVSEDAKVKYMNKKGTRARLEGRITRDGIHCGCCSKILTV AKFELHAGSKEQQPYENIFLEDGGATL SQCLVDA WKKQSQSEKKGFYKVDPGDDPDDDTCGICGDGGDLLCCDNCPSTFHLACLGIKMPSGDWH CSSCICRFCGSTQEITTSSAELLSCLQCSRKY
>5 HQVCAPGTMKDSVKAESNSSTDCFCSPGCRKIYKHLRKLLGVKNAIEAGFSWSLVRCFPD KLAAPPKGKAHLIHCNSKTA VAFSVMDECFLPRIDERS
GINllHNVIYNCGSDFNRLNFSKFYTFILERGDEVISAAAVRIHGTDLA EMPFIGTRGIYRRQGMCHRLLNAIESALSSLNVRRLVIPAIPELQNTWTTVFGF KPVEPSKRQKIKSLNILIIHGTGLLEKRLLATGTINQENTTVNDMMDAQTHVEATGSRTP VHFSCELPVGGDPDIKHHDDSHPLVGNSKGLTLNLPCVPE EKTAELTSPVLDVVQCMPESENTQEMKNGETDATLTSEDIIAEQKYEDKSNSSLTDSSA[ PMTVDPGSCSSNETVKGEHHTSSEPSVEAILVRDKPEPSIS
CNVTNQEDKNSSMWVDTTVHIJVTIVGNHDIQNSVEVKGMEHOT-AKDQTFVSAVAN KVATrEDPSDSVADCEVPIVRSIQQKDEVIADKNACATIDQ TA VDDV ANNFVATTENDTDSTAELGVSMERCIQQKVEVIKDKSDSPLRTSISKVM LEKSDQMKSTESDSVKM KDMAIEVKVTVENFSEAGKPASALV MSNDINGEVMAKPNLTCGDDQLHGGDGTYKNSMEDDLASREPVNA' SEQ ID NO.394 LOC_Os07g07690 2 MPPVASGSGRKRQLVLESSDSEADE FFVSTRRKEDDDDDAGNAGGGSGGGGDQGGEK VVTVSPEKVSGAKSTDEGGGSDKSKGSEVGKSVLQPDVKRIRTEAAHGGGSGSGGSVSKD GTGG
KKKRLLDHKMSPENI^ICKAKPNAIDQDTSRPSLEKHGIKKERKGPRYTMKQKLRGQ IKDILLNNGWiαDLRRRKNKDYEDSVYVSPQGNGYWSITKA YAVFQEQSKSGKHTGKSSKHKAGVADAACNAISENDLAM LQRNVVKRRTKKELG ASKKKYEDSSSRNSKDNNAGRSSGNKHQSSGVRGCALLVRGS 10 THSMEGNVDGYFPYRWKRTVLSWMIDMGVVSEDAKVKYMNKKGTRARLEGRITRDGIHCG CCSKILTV AKFELHAGSKEQQPYENIFLEDGGATLSQ
CLVDAWKKQSQSEKKGFYKVDPGDDPDDDTCGICGDGGDLLCCDNCPSTFHLACLGI KMPSGDWHCSSCICRFCGSTQEITTSSAELLSCLQCSRKYH QVCAPGTMKDSVKAESNSSTDCFCSPGCRKIYKHLRKLLGVKNAIEAGFSWSLVRCFPDK LAAPPKGKAHLIHCNSKTA V AFSVMDECFLPRIDERSGI
PVEPSKRQKIKSLNILIIHGTGLLEKRLLATGTINQENTγVNDMMDAQTHVEATGS RTPVHFSCELPVGGDPDIKHHDDSHPLVGNSKGLTLNLPCVPEE
NVTNQEDKNSSMVPVDTTVHLATIVGNHDIQNSVEVKGMEHNTAKDQTFVSAVANNV ATTEDPSDSVADCEVPIVRSIQQKDEVIADKNACATIDQT AVDDVANNFVATTENDTDSTAELGVSMERCIQQKVEVIKDKSDSPLRTSISKVM LEKSDQMKSTESDSVKMKDMAIEVKVTVENFSEAVSRAMGGTI* SEQ ID NO.395 LOC_OS07G23450 1 MDGEGAP ARRAP AASYYECTFCKRGFTNAQALGGHMNIHRKDRSAGGKSQGGGQHHEGGGSGSGGGGGQQ HGRDVHLGLTLGRNEEERDGVDLELRLGHAHYP* SEQ ID NO. 396 LOC_OS07G26720 1 MRVPAAVTGGCGCGVDGGGGCCRGGGKLADWEEGK
NVSMIITDYWMPEMTGYDLLKKIKESSELKQIPVVIMSSENVPTRISRCLEEGAEDF LLKPVRP ADISRITSRMLQ* SEQ ID NO. 397 LOC_OS07G27770 i MSRLQVWVRDAEVLRTALLEAGIVTGPTSILQVDAGDGFEIEPVNRTGGSEMEAETSVNE QATSVGEKDIDAEVLRAALLKAGγV AGPTSILQVDAG
DGLEIEPATTTEGSEMEGVQSQPVVPFVGMEFFSDKEARVKVSSCKRSNVTKDYNRY EFACYSERTSKEQNAKSSIGSRSRKCNSIRKTDCKARMVVV
25 FQELQAEDPSFFYSMELDSDNTVGSLFWVDGASKEAYKKFGDCIVFDTTYCTNKYNLPFA PIIGVSNHGQTVLFGCVFLKNEKIETFEWVFETFLKAMD
GKEPQCIMTDQDKTMEIAIAKVLPRTIHRRCMWHVHRNASTN LGVLLNGKEGFETDLKSCIDNSLNEEEFDASWD AMIDRHELCGNKYMQHLYDNRK
RATKYKTINGPEPGSYFVQLILDDDNKKFLVHYDINNEIYSCACKKFQRDKILKIYV * SEQ ID NO. 398 LOC_Os07g37210 1 MGRAPCCEKSGLKKGP WTPEEDEKLIA YIKEHGQGNWRTLPKNAGLSRCGKSCRLR WTNYLRPDIKRGRFSFEEEEAIIQLHSILGNKWSAIAARLPGRTDNEIKNYWNTHIRKRL
TPPPPPPPQAAATEQFLQATSTACHQMPGLVHASPTQQLAQQPQDHM AAATCHRRGAVQHPSYDNQLDYVPALMQMASDASNLQQWSSTVSSSNNH NVNSGVSTPSSSPAAAGQINSSSTTTTπΎGLNASGDVDDAGLLINMHLSELLDVSDYM * SEQ ID NO. 399 LOC_Os07g37920 1 MESPDSSSGSAPPR VLRRQQQQPGSAPELPPGFRFHPTDEELVVHYLKKKAASVPLP VTIIAEVDLYKFDPWDLPEKANFGEQEWYFFSPRDRKYPNGARPNRAATSG YWKA
35 MECEDSVEDA V AAY APSSQQHATAAAGMAGSDGAGGVAAAHGGDYSSLLHHDSHEDTFLVNGLLTAEDAAGLST GASSLSQLAAAARAAATPCDA
TKQLLAPSPTPFNWFEAFLPRAKEFPSGLSRSSRDIGDMSLSSTVDRSLSEAGA VAIDTGDAANGANTMPAFINPLGVQGATYQQHQAIMGASLPSESA AAAAACNFQHPFQLSRVNWDS* SEQ ID NO. 400 LOC_Os07g38030 1 MLQGVLSRAPGADAAAMKAKRAADDEEEGGERERARGKRLAAEGKQG
FQAYNALSPLVKFSHFTANQAIFQALDGEDRVHVIDLDIMQGLQWPGLFHILASRPT KPRSLRITGLGASLDVLEATGRRLADFAASLGLPFEFRPIEGKI
DADVAVAGDTHHESHDS* SEQ ID NO. 401 LOC_Os07g38750 1 MELNFQVQPPVFQLQDYCYYYSQEVAAAASPAAKPTKPRGRKKGSTSHSKFVG VRQRPSGRWVAEIKDTTQKIRM WLGTF ETADAAARA YDEAARLLRGAEARTNFAPRISPDCPI AVRϊRGILHHKKLKKARSAλAATAO&PG AASKKRS TTAAAAAATPTnTTSNSNSDGAGSACCCSSSSSSSTDSCDGAVKQGGGGGGAPTDASEVY RPDFVHAGAEEFDSWMFDTAFGPFPELDSFAAVDAVT +_} PPPATASPEESSAGTPPVEMAEFERIKVERRISASLY AMNGLQEYFDKVFDASACDPFWDFSPLCH* SEQ ID NO.402 LOC_Os07g41S80 1 MPDSDNE
SGGPSNAGEY ASAREQDRFLPIANVSRIMKRA LP ANAKISKDAKETVQECVSEFISFITGEASDKCQREKRKTINGDDLL WAMTTLGFEDYIDPLKLYLH
YGHGGGGGGGPSPSSGYGRQDRL* SEQ ID NO. 403 LOC_Os07g42400 1 MRVWLGRVGGGDAMMHMLVAPDGGGGGEMPPPYGGAAAAPPPPME
50
AELSDDSVMTPTTKATGDLVVRQIGFLRSISLLPADYKNYLRSKRM KAMQLG DGGAILKYLQTMQMENPAFFYTMQIDEDDKLTNFFWADPKSREDF YQNSLKHLNHVFQGSKTFAKDFSRCVFGYEEEEEFLFA WRSMLEKYDLRHNEWLS KLFDERERWALAYERHIFCADIISALQAESFSSVLKKF LG PQLD
55 CICTCRKFEFMGIPCCHMLKVLDYRNIKELPQRYLLKRWRRTAKSANEENQGTLLFLICM RIHFAEAHDAGDLNLNIIPSARCLLHDTGVEA VRTGHAE
LPRIKVSNL* SEQ ID NO. 404 LOC_Os07g424002 MRVWLGRVGGGDAMMHMLVAPDGGGGGEMPPPYGGAAAAPPPPMEQELELHRDNADDGL
ATGDLVVRQIGFLRSISLLPADYKNYLRSKRMKAMQLGDGGAILKYLQTMQMENPAF FYTMQIDEDDKLTNFFW ADPKSREDFNYFGDVLCLDTTYK
J0 INGYGRPLSLFLGVNHHKQTIVFGAAMLYDESFESYRWLFESFKIAMHGKQP A VALVDQSIPLASAMAAA WPNTTQRTCAWHVYQNSLKHLNHVFQ
EHRYAELQADFQASQSYPRIPPAKMLKQAAHTYTPVVFEIFRKEFELFM DSVLFSCGEAGATS EYKVAPSEKPKEHFVRFDSSDCSCICTCRKFEFMGIP CCHMLKVLDYRNIKELPQRYLLKRWRRTAKSANEENQGYV ANGNGSSLNSIVPPANHHGLQGFSAMIQDTPVSNMHENSFRRSS* SEQ ID NO. 405 L OC_OS07G47790 1 MCGGAIISDFIPQREAHRAATGSKRALCASDFWPSASQEAADFDHLTAPCTFTPDQAAEE PTKKRERKTLYRGIRRRPWGKWAAEI
APTVAYVHHHLPPQPQQDAGLELWSFDNIHTAVPM* SEQ ID NO. 406 LOC_OS07G47790 2 MCGGAIISDFIPQREAHRAATGSKRALCASDFWPSAS
AADGHSHGGAAIPCREFMDYDA VMAGFFHQPYVVADGVPAVPAEEAPTV AYVHHHLPPQPQQDAGLELWSFDNIHTA VPM* SEQ ID NO. 407 LOC _Os07g48570 1 MDDLAAASPPHPPPPPPESHVPPPPQTPEKDSCEDTGDMRISEEKPCTDQELDADQMNSS SFNSSSECENQTPSNDEMTGSESKSEAAQ
QLSIKGDQTATAVKFAPDSPLCNSMASVLKIGEQSKNAKPTSTAQPRNGETQTCPAS GTTSDSPRNEPVNGAVSGHQNGIVGHSGVPPMHPIPCFPGPPF
LGKHSRDSKPQGDDKAEKNLWIPKTLRIDDPDEAAKSSIWTTLGIEPGDRSMFRSFQ SKPESREQISGAARVLQANPAALSRSQSFQETT* SEQ ID NO. 4 08 LOC_Os08g01780 1 MKSSSVAPRLKQERQDDCKFQEGDVNSLELRLGISSDNDQISGGGAASPWLGVGVHPWSL AARQGKAALEQAHQRPNECAV
75 QRENRAASSAQLVGWPPVRAFRKNLSTPKPADADDLMNKVKLCSDEGHGSRCAAQERRSS STMFVKVNLEGYA VGRKIDLKAHRSYDSLSQALQSM
FHGFLSDGIATRDNELQQMEEGSKKRYVLVYEDNEGDRMLVGDVPWELFIASVKRLY IAQDPRVHAKLR* SEQ ID NO.409 LOC_Os08g017802 M KSSSVAPRLKQERQDDCKFQEGDVNSLELRLGISSDNDQISGGG AASPWLGVGVHPWSLAARQGKAALEQAHQRPNECA VQRENRAASSAQLVGWP PVRAFRKN LSTPKP ADADDLMNKVKLCSDEGHGSRCAAQERRSSSTMFVKVNLEGY A VGRKIDLKAHRSYDSLSQALQSMFHGFLS DGIATRDNELQ QMEEGSKKRYVLVYEDNEGDRMLVGDVPWELFIASVKRLYIAQDPRVHAKLR* SEQ ID NO.410 LOC_Os08g09900 1 MENQSGQPQYAMADQGF
50 HPFSPFMLAPSTTMQQHVGSSSSTPVIQVAALPSHAYYGNIDV ADDGFHWRMCGQSTIQGGLCPTVFSYQCALPNCGVRKSITRSADCQTIETVCKGCH
VDILNNSVRHENPQPRKKVRSKSTVWEEFEVVLI DGKVQTAECKHCKKGLSAKTSGGTSHLIRHLKICPAQHGTSRVQKKCSSLADLPIVKSWK DDQE SSLDEIIRSIVSNLCPFSAMYSASFAQFLAGRNPVLNMVQQATVEEKFLSVFHNEKMKLK EKITATPGGVFLSLGEWQRLFYIQVRV ACLTVHFIDEDW
35 TVLDMESTWSHYMTSSPERKQKYQEILSQLHLDRPSLGSKGWYFTFYFSEAALQFIKSFP LPDAKPNCQSGPWEPSFDDLEATENYCKIARSAYRVIKV
SAFDQCDQRAELFDGKLRPETTEALICAQSWIKSSGTADADDGNKNTSF* SEQ ID NO. 411 LOC_Os08g 10080 1 MSFIGMVEARMPPGFRFHPRDDE
;VGG
PSSSAAAAAVGMRKTLVFYRGRAPKGRKTEWVM HEFRLEPQPLHUCEDWVLCRVFYKTRQTIPSPSSEEA VTLPNELDLPATPSLPPLIDAYIAFDSAPT TTPSMVGSYEQVSCFSGLPALPMKGSISFGDLLAMDTSAEKKAIRVLHNSNTAKLELSPD WGQESGLSQMWNPQ* SEQ ID NO. 412 LOC_Os08gl 505 GAAVQGQGOGSPNDSSSSFTNDSAGGGGGGGAERSLFDLLSDVDIMSCGGGGLASSFDGA AAPPLWLHPGQLAALTPWSPADSVVVPTSAAGAVAA
GFYMDSTTAATAAYGVVPTF* SEQ ID NO. 413 LOC_Os08g31580 1 MAAAIEGNLMRALGEAPSPQMQKIAPPPFHPGLPPAPANFSSAGVHGFHYM GPAQLSPAQIQRVQAQLHMQRQAQSGLGPRAQPMKPASAAAPAAAAARAQKLYRGVRQRH WGKWV AEIRLPRNRTRLWLGTFDTAEEAALTYDQA AYRLRGDAARLNFPDNAASRGPLDAA VDAKLQAICDTIAASKNASSRSRGGAGRAMPINAPLVAAASSSSGSDHSGGGDDGGSETS SSSAAASPLAEM EQLDFSEVPWDEAEGFALTKYPSYEIDWDSLLNNNN* SEQ ID NO. 414 LOC_Os08g33150 1 MGRQPCCDKVGLKKGPWTAEEDQKLITFLLTNGQC
CWRAVPKIJVGLLRCGKSCRLRWTNTYLRPDLKRGLLSDAEEiavrVDLHAQI^NRW SKJASHLPGRTDNEIK^IHWNTHIKKKLKKMGIDPLTHRPLQPP PSPSPEKKHAERKNTAAAAA V AEQHQHDELWEEESPGFCTDEVPMIHPDEIMVPLRDHPPPVCTAAGASTPTTSSSSSSSS VASSTTSCDEVDAAALLPV LEWPDDAMCLMELDELIAAAAPPSLL WDDDYRLPLPPPPLSPPAMYEELDAFQCYDQQRSAFEQEAAASA WNKLELF* SEQ ID NO. 415 LOC_Os08g 33270 1 MELGEEKEERKRGSKSQMEGESTMSESKSSSRGKKKSKTTFEQKVEIHTKETQNLENTKK KQEEGKIKRNKKAPVQGVIQKDKECKSSKEIEG KNIGGIQKEKQSKSSMEIEEKESDIKKHFKALTEMDTEIISQSNLTEINTAMLSSGITIE LSEGERSIQSKQIQNMKQSILTEYKTTFVNSGIIGNEVGRSNAL
EDAMDNWNLDIFNLLDGEKEPSSMDNHRCTSVQGTRDDDNNPNDNSETNQQELIEED INIFVENEQEEATKGNNAAIDSRYIPRVGTQFKNITEAHEFF NFYALLAGFSIVRAHNYHTTSKKRNGEVTRVTFRCNRQGKPTSQSKSRNEIWNISRVQLD HNHQLSPRDEVRFLKSHKHMTTEEKMLIRTLKECNIPTR HMIVILSVLRGGLTS LPYTKKDISNVRTTINKETSSNDIMKTLEFFRRKKEKDPHFFYEFDLDES KKVKN LFWTDGRSREWYEKYGDVVSFDTTYFTNK YNLPFAPFVGIYGHGNTIVFGCAFLHDETSETFKWLFRTFLKAMSQKEPKTIITDQDGAM RSAIAQVFQNAKHRNCFFHIVKKAFNLSGNLLKAKEGLY
DEYEDIINNSVTEEEFEYLWQEMIDSFEVQHINFLKHMWSIRKRFIPVYFKGDFCPF IKSTALSEGTNSRFKNNVGPQYSITNFMIEYERVMDTIQNLEQF
HV LKVM LH LN AMKIPEKYIIERWTKKEYKGLEGKGNGNIP LAQSSILRFNILSRKS AEIASNGSKSYETFQFVVEEMDKIAKQLELLCSNKDAEQEINDS DPNAEDNLNSHEKGNQQSEENIDEILLDLDIAKSKGRPTQRYKTIREEIQQKELYHCSHC QRTDHTFPTCPLKHVEFDLPRKKRRKVKNTREQDGVEQK KKDVSNKRKDLQQDISQEKHNSGAELEGKKKRNSSSSKRGGTKE 4 SEQ ID NO^Ia LOC_Os08g34360 1 MAKRRSNGETAAASSDDSSSGVCGGG
GGGEVEPRRRQKRPRRS APRDCPSQRSSAFRGVTRHRWTGRFEAHLWDKNTWNESQSKKGRQVYLGA YDGEEAAARAYDLAALKYWGHDTVLNFP
IRWYHGSCRSSSAAAATTIEDDDFAEAIAAALQGVDEQPSSSPATTRQLQTADDDDD DLVAQLPPQLRPLARAASTSPIGLLLRSPKFKEIIEQAAAAAA SSSGSSSSSSTDSPSSSSSSSLSPSPLPSPPPQQQPTVPKDDQYNVDMSSVAAARCSFPD DVQTYFGLDDDGFGYPEVDTFLFGDLGAYAAPMFQFELDV* SEQ ID NO. 417 LOC_Os08g38990 1 MDGTNNHGALMDDWMLPSPSPRTLMSSFLNEEFSSGPFSDIFCDNGSNKHQDGLGKSKAF IDSSREETAQLAK
KFESNLFGANQKSSSNGCLSERM AARTGFGVLKIDTSRVGYSTPIRSPVTIPPGVSPRELLESPVFLPNAIAQPSPTTGKLPF LMHSNVKPSIPKKTEDETR HDRVFFFQPILGSKPPTCPV AEKGFSVNHQNQPSVTDNHQELSLQSSSTAAKDFTSATIVKPKTSDSMLDNDDHPSPAND QEENATNKNEEYSSDLIITP
AANGHLQDVGSEVLTKLSASLTTTEHAEKSVMDKQEA VDISSTLSNEEDDRVTHRAPLS LGFDANDDYVEHKRRKMDVYAATSTSTNAIDIGA VASR AIREPRVVVQTTSEVDILDDGYRWRKYGQKVVKGNPNPRSYYKCTHPGCSVRKHVERSSH DLKSVITTYEGKHNHEVPAARNSGHPSSGSAAAPQAT
NGLLHRRPEPAQGGGGGSLAQFGYGSAGHRPAEQFGAAAAGFSFGMLPRSIATPAPS PAIAVPAMQGYPGLVLPRGEMKVNLLPQSGNAGAAASQQL
MGRLPKQHPQM* SEQ ID NO.418 LOC_Os08g389902 MDGTNNHGALMDDWMLPSPSPRTLMSSFLNEEFSSGPFSDIFCDNGSNKHQDGLGKSKA
VKPSIPKKTEDETRHDRVFFFQPILGSKPPTCPV AEKGFSVNHQNQPSVTDNHQELSLQSSSTAAKDFTSATIVKPKTSDSMLDNDDHPSPAND QEENAT NKNEEYSSDLIITPAEDGYNWRKYGQKQVKNSEHPRSYYKCTFTNCAVKKVERSQDGQIT EIVYKGSHNHPLPPSNRRPNVPFSHFNDLRDDHSEKFGS
KSGQATATS WEN AANGHLQDVGSEVLTKLSASLTTTEHAEKSVMDKQEAVDISSTLSNEEDDRVTHRAPLS LGFDANDDYVEHKRRKMDVY AATST
STNAIDIGA VASRAIREPRVVVQTTSEVDILDDGYRWRKYGQKVVKGNPNPRSYYKCTHPGCSVRKHVE RSSHDLKSVITTYEGKHNHEVPAARNSGH
PSSGSAAAPQATNGLLHRRPEPAQGGGGGSLAQFGYGSAGHRPAEQFGAAAAGFSFG MLPRSIATP APSPAIA VPAMQGYPCLVLrRGEMkVNLLPQS
GNAGAAASQQLMGRLPKQHPQM* SEQ ID NO. 419 LOC_OsOSg38990 3 iviDGTNNHGALMDDWMLPSPSPRTLMSSFLNEEFSSGPFSDIFCDNGSN K.HQDGLGKSKAFiDSSKbbrAQLAKKFESNLFGANQKSSSNGCLSERMAARTGFGVLKI DTSRVGYSTPIRSPVηPPGVSPRELLESPVFLPNAIAQPSPT
LRDDHSEKFGSKSGQATATSWEN AANGHLQDVGSEVLTKLSASLTTTEHAEKSVMDKQEAVDISSTLSNEEDDRVTHRAP LS LGFDANDDYVEHKRR
KMDVY AATSTSTNAIDIGAVASRAIREPRVVVQTTSEVDILDDGYRWRKYGQKVVKGNPNPRSYY KCTHPGCSVRKHVERSSHDLKSVIγγYEGKHN
GEMKVNLLPQSGNAGAAASQQLMGRLPKQHPQM* SEQ ID NO. 420 LOC_Os08g41030 1 MVPPAAHAPKNLGLRGVRRRLWGRWAAEIRVPRGH
PAPPMAPAPANHAADPYYCNEPDTTTDEDVMAAADRLLSMDIEEVAALIAIVQQGE* SEQ ID NO.421 LOC_Os09gl 1480 1 MCGGALIPNDYGDKP PPPPSESSEWDATTKMKKKKKRGGGGDDDWEAAFREFIAGDDDDDDGGVSMFPSGAGTME TTTEV APAAA VVERPRRRRRVRRSYPYRGVRQRPW GRWASEIRDPVKGARVWLGTFDTAVEAARAYDAEARRIHGHKARTNFPPDEPPLPAPSQA PFCFLLDDDDDDDGVARGNSPASSSAPDRASACTTSST
VASGERGDELILLECCSDDVMDSLLAGFDVSSEPRSVLGMVN* SEQ ID NO.422 LOC_Os09g28210 1 MDFDLFNSYPESQLDLMSTMLQLEQLTALS DQSLFM AAPTSPPVSPMGTPSPQFSPPPQMSVTTTTAGGGYQDQ YNSMPATYGAGAGVHQLDFAMSSPGSDSG APQGSSSSSSSEAMREMIFHIAALQP VEIDPEAVRPPKRRNVRISKDPQSV AARLRRERISERIRILQRLVPGGTKM DTASMLDEAIHYVKFLKSQVQSLERAAAATGAAAHRAAAFGAA YP AAL PMQHHAPW* SEQ ID NO. 423 LOC_Os09g28440 1 MTKKVIP AMAAARQDSCKTKLDERGGSHQAPSSARW[SSEQEHSIIVAALRYVVSGCTTPPPEI
TFDTAEEAARAYDRAALEFRGARAKLNFPCSEPLPMPSQRNGNGGDA VTAATTTAEQMTPTLSPCSADAEETTTPVDWQMGADEAGSNQLWDG LQD LMKLDEADTWFPPFSGAASSF* SEQ ID NO. 424 LOC_Os09g29460 1 MKRPGGAGGGGGSPSLVTMANSSDDGYGGVGMEAEGDVEEEMMACGGG GEKKRRLSVEQVRALERSFEVENKLEPERKARLARDLGLQPRQV A VWFQNRRARWKTKQLERDY AALRHSYDSLRLDHDALRRDKDALLAEIKELK DETGFLDDDEPCGGFFADDQPPPLSSWWAEPTEHWN* SEQ ID NO. 425 LOC_Os09g35870 1 MASYGDDGVELTELTLGPPGASARRARRGRKNGH
RACEARGLSSNA* SEQ ID NO. 426 LOC_Os09g36730 1 MGRSPCCEKAHTNKGAWTKEEDDRLIAYIKAHGEGCWRSLPKAAGLLRCGKSCRLRWI
HPHQPKAVTVAQEQQAAADWGHGKPLKCPDLNLDLCISLPSQEEPMMMKPVKRETGVCFS CSLGLPKSTDCKCSSFLGLRTAMLDFRSLEMK 4 SEQ I D NO. 427 LOC_OslOgl l580 1 MPIPEKDGVEDNQEDDTFSRLQLLAQQRHAMEKFWRMSQEQIEESAGNEELILPISRVKN ]IHAKEGGMMLSADTPAF
VTKLCELFVQELILRA WVCANSHNREIILGTDIAEAITTTESYHFLANVVHGHQALGSNIPEIGVSAWKRHKLDEM TS LCHPPQA VQVTDLANHPPNIPV CPPIGQSGTQHTTSTHVLMMQG ESIHKASKEKSPLKEVMVPTNKVGMTNSSYGVPNGGGATSSKVVIDSPKGETAQVFSSQH ACPSLEDNYVIPIPAGH GDSFRTLDEANIPQLHQEQKNFISQDAIVGENIPLNESLEKSKHKDEDLLFPDKDLPE* SEQ ID NO. 428 LOC_Osl0g23090 1 MKRPSCRGSSMAIIHD TSDQQEDNMRSYMDGGGAAAYEEEEEEVEDDDGGGGGGGGGGGGGLGEKKRRLAAEQVRA LERSFEADNKLDPERKARIARDLRLHPRQVAVWF QNRRARWKTKQIERDFAALRSRHDALRLECDALRRDKDALAAEIADLRDRVDGQMSVKLE A V AADEHQPPPPPPPPPLA YNSKVVDGSTDSDSSAVF
NEEASPYSG AAIDHHHHQTP ASYDTAGFTSFFAPSTTLTSSLSFPSMFHASSHFDGHQELL VGGGGAGA VADADLGGAGFFAGDEHAGGLS WYGAEG W* SEQ ID NO. 429 LOC_Osl0g230902 MRSYMDGGGAAAYEEEEEEVEDDDGGGGGGGGGGGGGLGEKKRRLAAEQVRALERSFEAD NKLDPER KARJARDLRLHPRQV AVWFQNRRARWKTKQIERDFAALRSRHDALRLECDALRRDKDALAAEIADLRDRVDGQMS VKLEA V AADEHQPPPPPPPPPL AYNSKVVDGSTDSDSSAVFNEEASPYSGAAIDHHHHQTPASYDTAGFTSFFAPSTTLTSS LSFPSMFHASSHFDGHQELLVGGGGAGAVADADLGGAG FFAGDEHAGGLSWYGAEGW* SEQ ID NO. 430 LOC OslOg25230 1 MAAEAAATSRFAAACGALSQYVRAADNVHRARTAAAAAAVRPLPLMPGA
DV AGDEREEEGGG AAASSAAAQMTI FYGGRVLVLDECPADRAAALLRLAASSRGVPRDDLAST AAAAGESADLPVARKASLQ RFMEKRKGRLAARG QPYRRHDAAAAARGDHLALAL* SEQ ID NO. 431 LOC_OslOg25290 1 MAAAGSSSRFAVTCGLLSQYMRERQQPQPPVTVLEAVAEEEEEEDARTM QLFPPRAAAADGVATPSAGTAPLTIFY DG RMVVVDDVPVEKAAELMRLAGSACSPPQPAHAAALPEMPIARKASLQRFLQKRKHRITTT S EPYKKAAV ASPAPEKSFAVAPVKDEPATWLGL* SEQ ID NO. 432 LOC_Osl0g26240 1 MGSGRGRRRWCPSTARTGTACLSAATSSPRTLELFAILRCKLVCGQLP GALNNVFEHIRILEFHPALLHETYIGKEEDGYIYFFNRWQFATKAGNKRRPTQV AKGGTWKASSGSKTVRSKKVGGIDIGQKLTMMFYERRFEGDRNPI
KTNWGMHEFTKIIDDSKNQKPGSPC* SEQ ID NO.433 LOC_OslOg28340 1 MDPAAAGIVKEEMLESQQQQRQEDGGAAPRPMEGLHEVGPPPFLTK TYDLVEDPATDGVVSWSRAGNSFVVWDPHVFADLLLPRLFKHNNFSSFVRQLNTYGFRKV DPDRWEFANEGFLRGQRHLLKTIKRRKPPSNAPPSQQ QSLTSCLEVGEFGFEEEIDRLKRDKN[LITEVVKLRQEQQATKDHVKAMEDRLRAAEQKQ VQMMGFLARAMRNPEFFQQLAQQKEKRKELEDAISKK
RNPEFFQQLAQQICEICRKELEDAISKKRRRPIDN
SEQ ID SEQ ID NO. 438 LOC_Osl0g42130 1 MGTMTLPPGFRF AAAAPLL ASPPGPRLPRLAGAGGEEEEEEAAAGMLSRHGQAREMS SEQ ID NO. 440 LOC_ VPASEAGEL YIMELATGKSVHKEKMAYDANYQEEFPEEELQRATNIALKI LSCDTCHM WM HTRCAGISDFDRVPKRYVCKSCKL LG31380 1 MHLPA VGMSHPTEGELVFHYLYRRA VNMPL
SEQ ID NO.443 LOC OS
WEEVGPGVLKλDLMKVSSANRNRGϊGFVTYYNHACA APRAPPGAAMVPMMLPDGRLVYVVQQ SEQ ID NO. 447 LOC_OSL2G04180 2 MPRRT
SEQ ID NO. 449 LOC_Osl2g041804 MPRRTDNAASANSVEP
WRSIEY
LACPHGEQ MAASQRSRSTAAQLDVDDQAAADQLMTMMRRP AAVLQD LDLHSRWGNR SEQ ID NO.452 LOC_Osl2g39 AASASAAAAAVEHR SEQ ID NO. 453 LOC_Osl2g41650 1 MNQFVPDWNTT
VGMGPPHMASLPRMPPFM APPP AA VQSSPVVSMADPYA SEQ ID NO. 454: LOC_Osl2g41650.2: MNQFVPDWNTTSM AHDT ATV ID NO. 455: LOC_Osl2g41650.3: MNQFVPDWNTTSMGDG
456: LOC Osl2g41650.4: MNQFVPDWNTTSMGDGFAPL 5
SEQ ID NO. 458: LOC_Osl2g42400.1 : M AMDRGVPEILNFSMVPGKGEKCSEHSTTIALQSPFA
5 ADQHYGLLSPYGVRPTPSGRILIPPNMPADAPIYVNA VMDIIIPPLCPAASPSSEQCNPSSVSSLSGSEVS ID NO. 460: LOC_Osl2g42400.3: MMSFNKSQEGFGQVAA AEYNGCFELGLGQSVV
U
Especially preferred is an isolated polypeptide selected from the group comprising:
(a) a polypeptide consisting of a sequence selected from the group comprising SEQ ID NO. 231 5 to 234, SEQ ID NO. 265, SEQ ID NO. 266, SEQ ID NO. 268 to SEQ ID NO. 270, SEQ ID NO. 273,
SEQ ID NO. 279, SEQ ID NO. 280, SEQ ID NO. 282, SEQ ID NO. 283, SEQ ID NO. 287, SEQ ID NO. 289, SEQ ID NO. 291 to SEQ ID NO. 295, SEQ ID NO. 297, SEQ ID NO. 310 to SEQ ID NO. 312, SEQ ID NO. 320 to SEQ ID NO. 327, SEQ ID NO. 330, SEQ ID NO. 332, SEQ ID NO. 338, SEQ ID NO. 341 , SEQ ID NO. 344, SEQ ID NO. 346, SEQ ID NO. 347, SEQ ID NO. 350, SEQ ID
0 NO. 354, SEQ ID NO. 355, SEQ ID NO. 358, SEQ ID NO. 359, SEQ ID NO. 363, SEQ ID NO. 364, SEQ ID NO. 366 to SEQ ID NO. 368, SEQ ID NO. 370, SEQ ID NO. 372, SEQ ID NO. 380, SEQ ID NO. 382, SEQ ID NO. 384 to SEQ ID NO. 386, SEQ ID NO. 391, SEQ ID NO. 396, SEQ ID NO. 397, SEQ ID NO. 402, SEQ ID NO. 404, SEQ ID NO. 414, SEQ ID NO. 424 to SEQ ID NO. 426, SEQ ID NO. 430 to SEQ ID NO. 436, SEQ ID NO. 440, SEQ ID NO. 442, SEQ ID NO. 444 to SEQ
5 ID NO. 450, SEQ ID NO. 453 to SEQ ID NO. 457,
(b) a polypeptide consisting of a sequence having at least 70%, preferred 80%, more preferred 90%, especially preferred 98% sequence identity to a sequence selected from the group comprising SEQ ID NO. 231 to 234, SEQ ID NO. 265, SEQ ID NO. 266, SEQ ID NO. 268 to SEQ ID NO. 270, SEQ ID NO. 273, SEQ ID NO. 279, SEQ ID NO. 280, SEQ ID NO. 282, SEQ ID NO. 283, SEQ ID
0 NO. 287, SEQ ID NO. 289, SEQ ID NO. 291 to SEQ ID NO. 295, SEQ ID NO. 297, SEQ ID NO. 310 to SEQ ID NO. 312, SEQ ID NO. 320 to SEQ ID NO. 327, SEQ ID NO. 330, SEQ ID NO. 332, SEQ ID NO. 338, SEQ ID NO. 341 , SEQ ID NO. 344, SEQ ID NO. 346, SEQ ID NO. 347, SEQ ID NO. 350, SEQ ID NO. 354, SEQ ID NO. 355, SEQ ID NO. 358, SEQ ID NO. 359, SEQ ID NO. 363, SEQ ID NO. 364, SEQ ID NO. 366 to SEQ ID NO. 368, SEQ ID NO. 370, SEQ ID NO. 372, SEQ ID NO.
â– 5 380, SEQ ID NO. 382 ; SEQ ID NO. 384 to SEQ ID NO. 386, SEQ ID NO. 391 , SEQ ID NO. 396,
SEQ ID NO. 397, SEQ ED NO. 402, SEQ ED NO. 404, SEQ ED NO. 414, SEQ ED NO. 424 to SEQ ED NO. 426, SEQ ED NO. 430 to SEQ ED NO. 436, SEQ ID NO. 440, SEQ ED NO. 442, SEQ ED NO. 444 to SEQ ED NO. 450, SEQ ED NO. 453 to SEQ ED NO. 457, (c) a polypeptide of (a) and/or (b), wherein said sequence is modified, to alter an abiotic stress tolerance of a plant, preferred drought tolerance.
As used herein, the term "polypeptide" means an unbranched chain of amino acid residues that are covalently linked by an amide linkage between the carboxyl group of one amino acid and the amino group of another. The term polypeptide can encompass whole proteins (i.e. a functional protein encoded by a particular gene), as well as fragments of proteins. Of particular interest are polypeptides of the present invention which represent whole proteins or a sufficient portion of the entire protein to impart the relevant biological activity of the protein. The term "protein" also includes molecules consisting of one or more polypeptide chains. Thus, a polypeptide of the present invention may also constitute an entire gene product, but only a portion of a functional oligomeric protein having multiple polypeptide chains.
Of particular interest in the present invention are polypeptides involved in one or more important biological properties in plants. Such polypeptides may be produced in transgenic plants to provide plants having improved phεnotypic properties and/or improved response to stressful environmental conditions. Ln some cases, decreased expression of such polypeptides may be desired, such decreased expression being obtained by use of the polynucleotide sequences provided herein, for example in antisense or cosuppression methods
Polypeptides of the present invention that are variants of the polypeptides provided herein will generally demonstrate significant identity with the polypeptides provided herein. Of particular interest are polypeptides having at least about 35% sequence identity, at least about 50% sequence identity, at least about 60% sequence identity, at least about 70% sequence identity, at least about 80% sequence identity, and more preferably at least about 85%, 90%, 95% or even greater, sequence identity with polypeptide sequences described herein. Of particular interest in the present invention are polypeptides having amino acid sequences provided herein (reference polypeptides) and functional homologs of such reference polypeptides, wherein such functional homologs comprises at least 50 consecutive amino acids having at least 90% identity to a 50 amino acid polypeptide fragment of said reference polypeptide.
The terms "protein(s)", "peptide(s)" or "oligopeptide(s)", when used herein refer to amino acids in a polymeric form of any length. Said terms also include known amino acid modifications such as disulphide bond formation, cysteinylation, oxidation, glutathionylation, methylation, acetylation,
farnesylation, biotinylation, stearoylation, formylation, lipoic acid addition, phosphorylation, sulphation, ubiquitination, myristoylation, palmitoylation, geranylgeranylation, cyclization (e.g. pyroglutamic acid formation), oxidation, deamidation, dehydration, glycosylation (e.g. pentoses, hexosamines, N-acetylhexosamines, deoxyhexoses, hexoses, sialic acid etc.), acylation and radiolabels (e.g. S 35 , C 14 , P 32 , P 33 , 3H 3 ) as well as non-naturally occurring amino acid residues, L-amino acid residues and D-amino acid residues.
Helping plants to tolerate stressful growth conditions results in a yield improvement resulting from improved plant growth and development. Polypeptides useful for improved stress tolerance under a variety of stress conditions include polypeptides involved in involved in gene regulation, such as ion antiporters, ion transporters, H + pyrophosphatases, H + ATPases, aquaporines, CNGCs, glutamate receptors, Ca 2+ -ATPases, transcription factors, serine/threonine-protein kinases, MAP kinases, MAP kinase kinases, and MAP kinase kinase kinases; polypeptides that act as receptors for signal transduction and regulation, such as receptor protein kinases; intracellular signaling proteins, such as protein phosphatases, GTP binding proteins, and phospholipid signaling proteins; polypeptides involved in arginine biosynthesis; polypeptides involved in ATP metabolism, including for example ATPase, adenylate transporters, and polypeptides involved in ATP synthesis and transport; polypeptides involved in glycine betaine, proline, jasmonic acid, flavonoid or steroid biosynthesis; and hemoglobin. Enhanced or reduced activity of such polypeptides in transgenic plants will provide changes in the ability of a plant to respond to a variety of environmental stresses, such as chemical stress, drought stress and pest stress.
Also preferred is the polypeptide, wherein said polypeptide is a transcription factor.
Transcription factors play a key role in plant growth and development by controlling the expression of one or more genes in spatial, temporal and physiological specific patterns. Enhanced or reduced activity of such polypeptides in transgenic plants will provide significant changes in gene transcription patterns and provide a variety of beneficial effects in plant growth, development and response to environmental conditions. Transcription factors of interest include, but are not limited to ABI3VP1, C3H, HRT, SBP, Alfin-like, CAMTA, HSF, Sigma70-like, AP2-EREBP, CCAAT, LFY, SRS, ARF, CPP, LIM, TAZ, ARR-B, CSD, MADS, TCP, BBR/BPC, DBP, MYB, Trihelix, BESl, E2F-DP, MYB-related, TUB, bHLH, EIL, NAC, ULT, bZIP, FHA, Orphans, VOZ, C2C2-CO-like, G2-like, PBF-2-like, WRKY, C2C2-Dof, GeBP, PLATZ, zf-HD, C2C2-GATA, GRAS, Pseudo ARR-B, ZM, C2C2-YABBY, GRF, RWP-RK, C2H2, HB, SlFa-like, ARID, HMG, MBFl, SET, AUX/IAA, Jumonji, PHD, SNF2, DDT, LUG, RB.
It will readily be appreciated by those of skill in the art, that any of a variety of polynucleotide sequences are capable of encoding the transcription factors and transcription factor homologue polypeptides of the invention. Due to the degeneracy of the genetic code, many diffident polynucleotides can encode identical and/or substantially similar polypeptides in addition to those sequences illustrated in the Sequence Listing. Nucleic acids having a sequence that differs from the sequences shown in the Sequence Listing, or complementary sequences, that encode functionally equivalent peptides (i.e., peptides having some degree of equivalent or similar biological activity) but differ in sequence from the sequence shown in the sequence listing due to degeneracy in the genetic code, are also within the scope of the invention.
Further preferred is a polypeptide consisting of a sequence selected from the group comprising SEQ ID NO. 231 to 234, SEQ ID NO. 265, SEQ ID NO. 266, SEQ ID NO. 268 to SEQ ID NO. 270, SEQ ID NO. 273, SEQ ID NO. 279, SEQ ID NO. 280, SEQ ID NO. 282, SEQ ID NO. 283, SEQ ID NO. 287, SEQ ID NO. 289, SEQ ID NO. 291 to SEQ ID NO. 295, SEQ ID NO. 297, SEQ ID NO. 310 to SEQ ID NO. 312, SEQ ID NO. 320 to SEQ ID NO. 327, SEQ ID NO. 330, SEQ ID NO. 332, SEQ ID NO. 338, SEQ ID NO. 341, SEQ ID NO. 344, SEQ ID NO. 346, SEQ ID NO. 347, SEQ ID NO. 350, SEQ ID NO. 354, SEQ ID NO. 355, SEQ ID NO. 358, SEQ ID NO. 359, SEQ ID NO. 363, SEQ ID NO. 364, SEQ ID NO. 366 to SEQ ID NO. 368, SEQ ID NO. 370, SEQ ID NO. 372, SEQ ID NO. 380, SEQ ID NO. 382, SEQ ID NO. 384 to SEQ ID NO. 386, SEQ ID NO. 391, SEQ ID NO. 396, SEQ ID NO. 397, SEQ ID NO. 402, SEQ ID NO. 404, SEQ ID NO. 414, SEQ ID NO. 424 to SEQ ID NO. 426, SEQ ID NO. 430 to SEQ ID NO. 436, SEQ ID NO. 440, SEQ ID NO. 442, SEQ ID NO. 444 to SEQ ID NO. 450, SEQ ID NO. 453 to SEQ ID NO. 457.
As well-known to those skilled in the art, some amino acids have analogous physicochemical properties so that these amino acids advantageously can be replaced by each other. For example, these include the group of nonpolar (hydrophobic) amino acids (a) glycine, alanine, valine, leucine and/or isoleucine; or the hydroxy amino acids (b) serine, threonine and/or tyrosine, the amides of amino dicarboxylic acids (c) asparagine and glutamine, the amino dicarboxylic acids (d) aspartic acid and glutamic acid; the basic amino acids (e) lysine, arginine and/or ornithine as well as the group of aromatic amino acids (f) phenylalanine, tyrosine and/or tryptophan. The replacement of amino acids by structural similar amino acids is also possible. For example this is the case in the group with a β- functional group (g) cysteine, methionine, serine, α- aminobutyric acid and selenocysteine as well as the turn-inducing group (h) proline, 1 -amino-2-carboxy cyclohexane, pipecolic acid and an ortho- aminobenzoic acid. The skilled artisan knows that amino acids within one and the same group (a-h) can be replaced with one another. In all cases, peptide sequences will have a sufficient homology to be an analogous to an amino acid sequence of the peptides of the invention. Furthermore, the amino acids can be replaced by modified amino acids or specific enantiomers.
In an also preferred embodiment the invention relates to a vector comprising one of the polynucleotides and/or the nucleotide construct.
With "vector" is meant a DNA sequence, which can be introduced in an organism by transformation and can be stably maintained in said organism. Vector maintenance is possible in e.g. cultures of
Escherichia coli, Agrobacterium tumefaciens, Saccharomyces cerevisiae or Schizosaccharomyces pombe. Other vectors such as phagemids and cosmid vectors can be maintained and multiplied in bacteria and/or viruses. Vector sequences generally comprise a set of unique sites recognised by restriction enzymes, the multiple cloning site (MCS), wherein one or more non-vector sequence(s) can be inserted.
"Expression vectors" form a subset of vectors which, by virtue of comprising the appropriate regulatory sequences enabling the creation of an expressible format for the inserted non-vector sequence(s), thus allowing expression of the protein encoded by said non-vector sequence(s). Expression vectors are known in the art enabling protein- (gene-) expression in organisms including bacteria (e.g. Escherichia coli), fungi (e.g. Saccharomyces cerevisiae, Schizosaccharomyces pombe, Pichia pastoris), insect cells (e.g. baculoviral expression vectors), animal cells (e.g. COS or CHO cells) and plant cells. The current invention clearly includes any vector or expression vector comprising a non- vector DNA sequence encoding a polypeptide of the invention, homologue and/or derivative.
Vectors may also include a screenable marker. Screenable markers may be used to monitor transformation. Exemplary screenable markers include antibiotic resistant genes, genes expressing a colored or fluorescent protein such as a luciferase or green fluorescent protein (GFP), a beta- glucuronidase or uidA gene (GUS), which encodes an enzyme for which various chromogenic substrates are known or an R-locus gene, which encodes a product that regulates the production of anthocyanin pigments (red color) in plant tissues. Other possible selectable and/or screenable marker genes will be apparent to those of skill in the art.
Also preferred is the vector, wherein the vector is a viral expression vector, a phage display vector, a bacterial expression vector, a yeast expression vector, a vector for expression in insects cells, a vector for in-vitro expression, a mammalian expression vector, a fungus expression vector, an algae expression vector or a plant expression vector.
In another preferred embodiment the invention relates to a host cell comprising at least one of the mentioned polynucleotides, nucleotide constructs, polypeptides and/or vectors.
Also preferred is the host cell, wherein the host cell is selected from the group comprising a bacterial cell, a yeast cell, a fungus cell, a mammalian cell, an insect cell, an algae cell and/or a plant cell.
In an also preferred embodiment the invention relates to a transgenic plant cell having stably 5 incorporated into its genome at least one nucleotide construct comprising at least one of the mentioned polynucleotides, operably linked to a promoter that drives expression in said cell.
As used herein a "transgenic" organism is one whose genome has been altered by the incorporation of foreign genetic material or additional copies of native genetic material, e.g. by transformation or 10 recombination.
A "transgenic plant" refers to a plant that contains genetic material not found in a wild type plant of the same species, variety or cultivar. The genetic material may include a transgene, an insertional mutagenesis event (such as by transposon or T-DNA insertional mutagenesis), an activation tagging 15 sequence, a mutated sequence, a homologous recombination event or a sequence modified by chimeraplasty. Typically, the foreign genetic material has been introduced into the plant by human manipulation, but any method can be used as one of skill in the art recognizes.
A transgenic plant may contain an expression vector or cassette. The expression cassette typically
-0 comprises a polypeptide-encoding sequence operably linked (i.e., under regulatory control of) to appropriate inducible or constitutive regulatory sequences that allow for the expression of polypeptide.
The expression cassette can be introduced into a plant by transformation or by breeding after transformation of a parent plant. A plant refers to a whole plant as well as to a plant part, such as seed, fruit, leaf, or root, plant tissue, plant cells or any other plant material, e.g., a plant explant, as well as to
.5 progeny thereof, and to in vitro systems that mimic biochemical or cellular components or processes in a cell.
"Transgenic plant" in terms of the invention does also relate to cisgenic plants.
50 In terms of the invention "Plant" or "Plants" comprise all plant species which belong to the superfamily Viridiplantae. The present invention is applicable to any plant, in particular monocotyledonous plants and dicotyledonous plants including a fodder or forage legume, ornamental plant, food crop, tree, or shrub selected from the list comprising Acacia spp., Acer spp., Actinidia spp., Aesculus spp., Agathis australis, Albizia amara, Alsophila tricolor, Andropogon spp., Arachis spp,
55 Areca catechu, Astelia fragrans, Astragalus cicer, Baikiaea plurijuga, Betula spp., Brassica spp., Bruguiera gymnorrhiza, Burkea africana, Butea frondosa, Cadaba farinosa, Calliandra spp., Camellia sinensis, Canna indica, Capsicum spp., Cassia spp., Centroema pubescens, Chaenomeles spp.,
Cinnamomum cassia, Coffea arabica, Colophospermum mopane, Coronillia varia, Cotoneaster serotina, Crataegus spp., Cucumis spp., Cupressus spp., Cyathea dealbata, Cydonia oblonga, Cryptomeria japonica, Cymbopogon spp., Cynthea dealbata, Cydonia oblonga, Dalbergia monetaria, Davallia divaricata, Desmodium spp., Dicksonia squarosa, Diheteropogon amplectens, Dioclea spp, 5 Dolichos spp., Dorycnium rectum, Echinochloa pyramidalis, Ehrartia spp., Eleusine coracana, Eragrestis spp., Erythrina spp., Eucalyptus spp., Euclea schimperi, Eulalia villosa, Fagopyrum spp., Feijoa sellowiana, Fragaria spp., Flemingia spp, Freycinetia banksii, Geranium thunbergii, Ginkgo biloba, Glycine javanica, Gliricidia spp., Gossypium hirsutum, Grevillea spp., Guibourtia coleosperma, Hedysarum spp., Hemarthia altissima, Heteropogon contortus, Hordeum vulgare,
10 Hyparrhenia rufa, Hypericum erectum, Hyperthelia dissoluta, Indigo incamata, Iris spp., Leptarrhena pyrolifolia, Lespediza spp., Lettuca spp., Leucaena leucocephala, Loudetia simplex, Lotonus bainesii, Lotus spp., Macrotyloma axillare, Malus spp., Manihot esculenta, Medicago sativa, Metasequoia glyptostroboides, Musa sapientum, Nicotianum spp., Onobrychis spp., Ornithopus spp., Oryza spp., Peltophorum africanum, Pennisetum spp., Persea gratissima, Petunia spp., Phaseolus spp., Phoenix
15 canariensis, Phormium cookianum, Photinia spp., Picea glauca, Pinus spp., Pisum sativum, Podocarpus totara, Pogonarthria fleckii, Pogonarthria squarrosa, Populus spp., Prosopis cineraria, Pseudotsuga menziesii, Pterolobium stellatum, Pyrus communis, Quercus spp., Rhaphiolepsis umbellata, Rhopalostylis sapida, Rhus natalensis, Ribes grossularia, Ribes spp., Robinia pseudoacacia, Rosa spp., Rubus spp., Salix snn ; Schyzaehyriuni sanguineum, Sciadopitys verticillata, Sequoia
ZO sempervirens, Sequoiadendron giganteum, Sorghum bicolor, Spinacia spp., Sporobolus fimbriatus, Stiburusi alopecuroides, Stylosanthos humilis, Tadehagi spp, Taxodium distichum, Themeda triandra, Trifolium spp., Triticum spp., Tsuga heterophylla, Vaccinium spp., Vicia spp., Vitis vinifera, Watsonia pyramidatai, Zantedeschia aethiopica, Zea mays, amaranth, artichoke, asparagus, broccoli, brussel sprout, cabbage, canola, carrot, cauliflower, celery, collard greens, flax, kale, lentil, oilseed
.5 rape, okra, onion, potato, rice, soybean, straw, sugarbeet, sugar cane, sunflower, tomato, squash, and tea, amongst others, or the seeds of any plant specifically named above or a tissue, cell or organ culture of any of the above species.
Polynucleotides or DNA constructs of the invention may be introduced into the genome of the desired
50 plant host by a variety of conventional techniques. For example, the DNA construct may be introduced directly into the genomic DNA of the plant cell using techniques such as electroporation and microinjection of plant cell protoplasts, or the DNA constructs can be introduced directly to plant tissue using ballistic methods, such as DNA particle bombardment. Alternatively, the DNA constructs may be combined with suitable T-DNA flanking regions and introduced into a conventional
S 5 Agrobacterium tumefaciens host vector. The virulence functions of the Agrobacterium tumefaciens host will direct the insertion of the construct and adjacent marker into the plant cell DNA when the cell is infected by the bacteria.
Microinjection techniques are known in the art and well described in the scientific and patent literature. The introduction of DNA constructs using polyethylene glycol precipitation is described in Paszkowski et al. Embo J. 3:2717-2722 (1984). Electroporation techniques are described in Frornm et al Proc. Natl. Acad. Sci. USA 82:5824 (1985). Ballistic transformation techniques are described in Klein et al. Nature 327:70-73 (1987).
Agrobacterium tumefaciens-mediated transformation techniques, including disarming and use of binary vectors, are well described in the scientific literature. See, for example Horsch et al. Science 233:496-498 (1984), and Fraley et al. Proc. Natl. Acad. Sci. USA 80:4803 (1983).
Transformed plant cells which are derived by any of the above transformation techniques can be cultured to regenerate a whole plant which possesses the transformed genotype and thus the desired phenotype.
A person skilled in the art will recognize that after the expression cassette is stably incorporated in transgenic plants and confirmed to be operable, it can be introduced into other plants by sexual crossing. Any of a number of standard breeding techniques can be used, depending upon the species to be crossed.
Preferred is a transgenic plant having an altered tolerance to abiotic stress, preferred drought stress, compared to a wild-type plant, wherein the transgenic plant comprises at least one modified polynucleotide of claim 1 , wherein the modified polynucleotide is selected from the group comprising an overexpressed polynucleotide, a suppressed polynucleotide and/or a knocked out polynucleotide.
Also preferred is a transgenic plant having an altered tolerance to abiotic stress compared to a control plant, wherein the transgenic plant comprises at least one of said polynucleotides, and the control plant does not overexpress a polypeptide encoded by the polynucleotide.
Also preferred is a transgenic plant having an altered tolerance to abiotic stress compared to a control plant, wherein the transgenic plant comprises at least one of said polynucleotides foreign DNA and the gene including the polynucleotide is not knocked out in the control plant.
Also preferred is a transgenic plant having an altered tolerance to abiotic stress compared to a control plant, wherein the expression of at least one of said polynucleotides is suppressed in transgenic plants and the gene including the polynucleotide is not suppressed in the control plant.
Further preferred is a transgenic plant comprising at least one said polypeptides.
Drought resistance can assayed according to any of a number of well-know techniques. For example, plants can be grown under conditions in which less than optimum water is provided to the plant. Drought resistance can be determined by any of a number of standard measures including turgor pressure, growth, yield, yield of photosynthesis, stomatal conductivity, transpiration rate, etc.
Further preferred is the transgenic plant, wherein the transgene comprises a polynucleotide sequence that hybridizes under stringent conditions to one of the complement polynucleotides.
The term "hybridize" refers to the pairing of complementary nucleic acids. Hybridization and the strength of hybridization (in other words, the strength of the association between the nucleic acids) is impacted by such factors as the degree of complementary between the nucleic acids, stringency of the conditions involved, the T n , of the formed hybrid, and the G:C ratio within the nucleic acids.
The term "T m " refers to the "melting temperature" of a nucleic acid. The melting temperature is the temperature at which a population of double-stranded nucleic acid molecules becomes half dissociated into single strands. The equation for calculating the T n , of nucleic acids is well known in the art.
As used herein the term "stringent conditions" refers to the conditions of temperature, ionic strength, and the presence of other compounds such as organic solvents, under which nucleic acid hybridizations are conducted.
Also preferred is the transgenic plant, wherein the plant is selected from the group consisting of poales, preferred poaceae, more preferred ehrhartoideae and/or panicideae, especially preferred rice and/or maize.
Further preferred is the transgenic plant, wherein said plant is a crop plant or a monocot or a cereal, such as maize, wheat, barley, millet, rye, sorghum, oats preferred rice; or a plant cell derived from said transgenic plant.
Rice is one of the most important alimentary corps. The tolerance to abiotic stress, preferred drought stress is particularly important for rice. Thus, it was meaningful and important to find out transcription factor associated with tolerance to drought for culturing a rice plant with tolerance to drought and thereby increasing rich production.
Also preferred is the transgenic plant, wherein the abiotic stress is drought stress.
Jo
Also preferred is the transgenic plant, wherein the transgenic plant is a cultured host cell.
The invention also relates to a seed produced from the transgenic plant, preferred a transformed seed.
The invention also relates to a method for producing one of said plants, said method comprising the steps of transforming a target plant with an expression vector comprising a polynucleotide, encoding a transcription factor polypeptide.
Also preferred is a method for producing one of said plants, said method comprising the step of suppressing the expression level of at least one of said polynucleotides or at least one of said polypeptides.
Also preferred is the method of the preceding claim, wherein the transformed plant has a morphology that is substantially similar to a control plant.
Also preferred is a method for altering a plant stress response, said method comprising stably introducing into the genome of a plant at least one nucleotide construct comprising a polynucleotide operably linked to a promoter that drives expression in a piant ceil, wherein said polynucleotide is selected from the group comprising:
(a) polynucleotide consisting of a sequence selected from the group comprising SEQ ID NO. 1 to SEQ ID NO. 4, SEQ ID NO. 35, SEQ ID NO. 36, SEQ ID NO. 38 to SEQ ID NO. 40, SEQ ID NO. 43, SEQ ID NO. 49, SEQ ID NO. 50, SEQ ID NO. 52, SEQ ID NO. 53, SEQ ID NO. 57, SEQ ID NO. 59, SEQ ID NO. 61 to SEQ ID NO. 65, SEQ ID NO. 67, SEQ ID NO. 80 to SEQ ID NO. 82, SEQ ID NO. 90 to SEQ ID NO. 97, SEQ ID NO. 100, SEQ ID NO. 102, SEQ ID
NO. 108, SEQ ID NO. 1 1 1 , SEQ ID NO. 1 14, SEQ ID NO. 1 16, SEQ ID NO. 1 17, SEQ ID NO. 120, SEQ ID NO. 124, SEQ ID NO. 125, SEQ ID NO. 128, SEQ ID NO. 129, SEQ ID NO. 133, SEQ lD NO. 134, SEQ ID NO. 136 to SEQ ID NO. 138, SEQ ID NO. 140, SEQ ID NO. 142, SEQ ID NO. 150, SEQ ID NO. 152, SEQ ID NO. 154 to SEQ ID NO. 156, SEQ ID NO. 161, SEQ ID NO. 166, SEQ ID NO. 167, SEQ ID NO. 172, SEQ ID NO. 174, SEQ ID
NO. 184, SEQ ID NO. 194 to SEQ ID NO. 196, SEQ ID NO. 200 to SEQ ID NO. 206, SEQ ID NO. 210, SEQ ID NO. 212, SEQ ID NO. 214 to SEQ ID NO. 220, SEQ ID NO. 223 to SEQ ID NO. 227.
(b) a polynucleotide consisting of a sequence having at least 70%, preferred 80%, more preferred 90%, especially preferred 98% sequence identity to a nucleotide sequence of (a),
(c) a polynucleotide of (a) and/or (b), wherein said sequence is modified.
Also preferred is a the method, wherein the method improves the plant stress tolerance.
Also preferred is the method for improving the yield of a plant, comprising stably incorporating into the genome of said plant at least one nucleotide construct comprising a polynucleotide operably linked to a promoter that drives expression in a plant cell, wherein said polynucleotide is selected from the group comprising:
(a) polynucleotide consisting of a sequence selected from the group comprising SEQ ID NO. 1 to SEQ ID NO. 4, SEQ ID NO. 35, SEQ ID NO. 36, SEQ ID NO. 38 to SEQ ID NO. 40, SEQ ID NO. 43, SEQ ID NO. 49, SEQ ID NO. 50, SEQ ID NO. 52, SEQ ID NO. 53, SEQ ID NO. 57,
SEQ ID NO. 59, SEQ ID NO. 61 to SEQ ID NO. 65, SEQ ID NO. 67, SEQ ID NO. 80 to SEQ ID NO. 82, SEQ ID NO. 90 to SEQ ID NO. 97, SEQ ID NO. 100, SEQ ID NO. 102, SEQ ID NO. 108, SEQ ID NO. 1 1 1, SEQ ID NO. 1 14, SEQ ID NO. 1 16, SEQ ID NO. 1 17, SEQ ID NO. 120, SEQ ID NO. 124, SEQ ID NO. 125, SEQ ID NO. 128, SEQ ID NO. 129, SEQ ID NO. 133, SEQ ID NO. 134, SEQ ID NO. 136 to SEQ ID NO. 138, SEQ lD NO. 140, SEQ ID
NO. 142, SEQ ID NO. 150, SEQ lD NO. 152, SEQ ID NO. 154 to SEQ ID NO. 156, SEQ ID NO. 161 , SEQ ID NO. 166, SEQ ID NO. 167, SEQ ID NO. 172, SEQ ID NO. 174, SEQ ID NO. 184, SEQ ID NO. 194 to SEQ ID NO. 196, SEQ ID NO. 200 to SEQ ID NO. 206, SEQ ID NO. 210, SEQ ID NO. 212, SEQ ID NO. 214 to SEQ iD NO. 220, SEQ ID NO. 223 to SEQ ID NO. 227,
(b) a polynucleotide consisting of a sequence having at least 70%, preferred 80%, more preferred 90%, especially preferred 98% sequence identity to a sequence of (a),
(c) a polynucleotide of (a) and/or (b), wherein said sequence is modified.
"Yield" refers to increased plant growth, increased crop growth, increased biomass, and/or increased plant product production, and is dependent to some extent on temperature, plant size, organ size, planting density, light, water and nutrient availability, and how the plant copes with various stresses, such as through temperature acclimation and water or nutrient use efficiency.
The teachings of the present invention are characterised by the following features:
departure from the beaten track a new perception of the problem satisfaction of a long-felt need or want - hitherto all efforts of experts were in vain the simplicity of the solution, which proves inventive action, especially since it replaces a more complex doctrine
the development of scientific technology followed another direction the achievement forwards the development misconceptions among experts about the solution of the according problem (prejudice) technical progress, such as: improvement, increased performance, price-reduction, saving of time, material, work steps, costs or resources that are difficult to obtain, improved reliability, remedy of defects, improved quality, no maintenance, increased efficiency, better yield, augmentation of technical possibilities, provision of another product, opening of a second way, opening of a new field, first solution for a task, spare product, alternatives, possibility of rationalisation, automation or miniaturisation or enrichment of the pharmaceutical fund - special choice; since a certain possibility, the result of which was unforeseeable, was chosen among a great number of possibilities, it is a patentable lucky choice error in citations young field of technology combined invention; a combination of a number of known elements, with a surprising effect - licensing praise of experts and commercial success
Said advantages are shown especially in the preferential embodiments ot the invention.
Examples
Example 1: Physiological analysis of plants with reduced expression level of the gene Os02g41510
To determine the effect of drought stress on photosynthetic performance of plants with reduced expression level of gene Os0241510 (ps02g41510-l), chlorophyll fluorescence was measured in plants grown under normal and drought stress conditions (Figure 1). During the initial ten days of the experiment, both transgenic and wild-type plants maintained a constant photosynthetic yield under control and drought stress conditions. However, when the stress was prolonged to 15 days, the transgenic plants displayed only a slight reduction in the photosynthetic yield (/. e., approximately 95% of the initial yield), whereas photosynthetic activity in the wild-type was reduced to 65% of that observed in non-treated plants. Further exposure to stress increased this difference. At day 22 after start of drought stress no chlorophyll fluorescence could be measured in wild-type plants, whereas the reduction in plants with reduced expression level of gene Os0241510 was only about 15%. These results indicated that the photosynthetic machinery remained largely unaffected by drought stress in the plants with reduced expression level of gene Os0241510 mutant.
Plants in Figure 1 were grown for 22 days at stress (S) and non-stress (C) conditions. Data are means±SE obtained from eight biological replicates.
Example 2: Cell membrane stability in plants with increased expression level of gene Os05g37050
The cell membrane is one of the main cellular targets affected by different stresses (Levitt, 1980). Drought stress induces membrane deterioration leading to severe metabolic dysfunction (Buttrose and Swift, 1975). Removal of water from the membrane disrupts the normal bilayer structure and results in the membrane becoming exceptionally porous when desiccated (Mahajan and Tuteja, 2005).
Thus, keeping cell integrity in the presence of damaging molecules such as free radicals and reactive oxygen species, which are usually produced under abiotic stresses (Reddy et al, 2004), could help the cell to tolerate adverse effects of the stress. In the experiments performed here, one of the observed phenotypic effects of drought stress was a change in the stability of the leaf blade when wild-type plants were compared with the plants with increased expression level of gene Os05g37050
(35S::Os05g37050). Therefore, cell membrane stability was determined to explore the possible reason for this effect. Around 13 days after depriving from water supply a reduction in cell membrane integrity was observed in wild-type plants (Figure 2). In contrast cell membrane integrity remained high during stress in the plants with increased expression level of gene Os05g37050.
Figure 2 shows the cell membrane integrity in wild-type (blue bars) and transgenic plants 35SxOsOSgSTOSO (gray bars) seedlings upon application of drought stress for up to 13 days. Data are means±SE of four biological replicates.
Example 3: Gas exchange parameters in plants with reduced expression level of gene Osl0g28340
Stomata impose a diffusion resistance to CO 2 entry into the leaf (Farquhar and Sharkey, 1982). Generally, under drought stress, plant water and osmotic potential become more negative and, as a primary response to minimize water loss, stomata close result in a reduction of the transpiration rate. Such physiological responses can be observed within hours after the onset of drought stress (Chaves et al., 2002). Thus there is a trade-off between opening the stomata to take up the CO 2 and its closing to prevent more water loss. (Griffith and Parry, 2002).
To identify possible differences between the plants with reduced expression level of gene Osl0g28340 and wild-type plants, and getting an insight into stomatal management under drought stress, gas exchange parameters were determined at days zero, 6, 11, 13 and 18 after imposing drought stress
The measurements were normalized based on the wild-type values immediately before stress onset. As shown in Figure 3, drought stress led to a serious decline of stomatal conductance and transpiration rates in both the plants with reduced expression level of gene Osl0g28340 and wild-type plants. However, eleven days after stress application, mutant plants exhibited a transpiration rate that was 25% higher than that of the wild-type. Short term (six days) drought stress did not affect CO 2 assimilation rates in both the mutant and the wild-type. However, under long term stress, a significant reduction in CO 2 assimilation was observed with a more sever effect on the wild-type. At the 13 th day of stress treatment, no net CO 2 exchange was detectable in the wild-type, whereas the mutant still reached -50% of the original photosynthetic activity (Figure 4). Increased stomatal aperture under extended drought stress resulted in higher water loss. However, the mutant plants showed a better maintenance of photosynthesis than the wild-type (Figure 4).
Figure 3 shows the response of transpiration and stomatal conductance in wild-type (blue bars) and transgenic (gray bars) seedlings upon drought stress for up to 18 days. The data were normalized based on the measurements performed for wild-type plants immediately before stress onset. S and C indicate stress and control condition, respectively. Data are means±SE of four biological replicates.
Figure 4 shows the photosynthetic rate analysed in wild-type and osl0g28340-l mutant plants grown at control (C) and drought stress (S) conditions. The data were normalized based on measurements performed on the wild-type immediately before stress onset. Data are means±SE of four biological replicates.
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