Basic Info
Gene ID OGI # | Score   Accession | Assembly | Annotation Location Links
LOC_Os01g58270 OGI:01100820 | 16/16 Nipponbare | IRGSP 1.0 | MSU Chr01:33674405-33679717
Gene Symbol OsSub7, SUB7
DNA seq

ATGACCGAGGCGACGACTGCTGGCCAGAGTTGGCTCGCCGCACGGCGGCGCCGCCGTGCCGGTGTTGGATTCGACGATCCTGTACATGGAGAGAGAGTCGGATATGGGATGCCTTCTTTCTGGCCTCGAAGCACAAAATGGGCCTTGTGCTCCGAAGTGGACCTAATAGGGCCCTTGAATAACTGGACCCTGTCCAGATTAACTGGGCCGAGCCACGAAAGGCCTGAGCCATTCAGCCGTATTCAGCGATGCCGCTTAAGATGATCCCAGTAGATTCCTAGTTAGACACTACGATGTAAACCTGAGAATGAAATCACTAATTACTGATTCAACCCTTTAAATCTTCATGCAATCAGTAAGTTCTGATTCAACACTCTCACATCTAAAACAAAAGATTAAACCCTTTTACCACTTCAAAGGAAAGAGCACGTAAGTTGACAGCTACTTTCCGTTGCAGGACATGGTCGCGATAAGGAGATGGATGATGCATATGCTTGTTTCTTTAATTAAGGATCTTACATATGGTTGAGAAATTGATTGATCATAAGTAACATAGCCAACTGAGCTTCAGCATGGGTGCTCCAACCATATGTAATCAGGGAAAAAAAAAAGAATACTCCAGCAATAAGTCAGCGTAGTTACAGTTACATGAACCGGTCTAAGGAAAACGGATGCGCTCGTCACATGAACGACAAACAAACCCAAATGTAAACTTTGAAATTACCGTATCTATGAAGCTAATCAAATGGAAAGAACAAGAGAACGGGAAAATAACAGGTGCACTCGGGGAAGAACTCAACCTCCAGACACCTACAAATACTAGTCGACGAGATTGCACGAAATGGTGAAGAGCCTGTGAGAGTAGAGTAGAGTCACTCTAGTATATGCGAAATGGGATTATATTCTTCTTCTCGTGCAATTCTACTACTTTACTTTTGCACATTGTTGTTCAGAGCACACGGATCTCGTAAGGTAGTTATAACTAAGCGTGCATGCTCATTGTATGCTTGAATTACACAGTACTGTTTAAATTAAGGAGTACATAACTAGTTCAGACATGTCGCTAATTAACCGCCTGCACCTCTAGCTTTACATAGCATATCTCGGTGATGTAAAACACAGCCACCCCGACGATGTCATCGCTTCACACCATGATATGCTCACCACTGTTCTTGGAAGGTATGCGTACCCATTGTCAGTTTAACCATGCTTAATTTGTATGATCACTTTGATTTATCTACGGTTATTTTATAATGTGCTTCGCCGTCGACGAATTAGTTAAGTATGTGTATTCGTAAACTTTTTAGCAAGGAAGATTCTTTGGCCTCTATCATCCACAACTACAAGCATGGTTTCTCAGGCTTCGCCGTGATGCTTACTGAAGATCAAGCAAAGCAACTTGCAGGTCAGGGTTTTGTCATCTAACCCTGTGTGTTTTTCAATTGCTAACAATGCCTTTGTTAATAACTGATTTGGTCAATTCATGTACTCCCTCTGTTTCACAATGTAAGTCATTCTAACATTTTCTACATTTATATTGATGTTAATGAATCTATACATATATATCTATCTAGATTCATTAACATCAATATGAATGTGGAAATGAATCTATACATATATATCTATCTAGATTCATTAACATCAATATGAATGTGGAAAATGCTAGAATGACTTACATTGTGAAACGGATGGAGTATATTTTAACTTTTGGAGTTCTTTTTCTCATTAGGGCTTTCTCCTAGGGATTAATAGAACAAGACCTAATGGGATATAGCCCCTGGTTATATATATTGTCATATTAATTCGCATTCTTTTACAGAATTTCCGGAAGTCCTTAGTGTGGAACCAAGCAAAACGTATACGACGGCGACCACTCGGAGCTGGGACATGCTTGGACTGAACTACAGAATGCCCACTGAACTGCTCCAGCGAACCAACTACGGCGAGGAGATAATCATTGGCATTGTTGACACTGGTTAGAATTTGATAAAAGTCGATTACTGCATGATCTTACTCAATGAACAAATTAAATGATCTGTGCAGATGCATTAATTTCGCGTCAAAGCTTTCGCGTACTACAGGTATATGGCCGGAGTCGAGAAGCTTCAGCGACGAAGGTTACGGGCCGGTGCCGGCACGGTGGAAAGGCGTGTGCCAGGTCGGCGAAGGATGGGGCAGCAACAACTGCAGCCGCAAGATCATCGGCGCGCGGTTCTACCACGCCGGGGTGGACGAGGACGACCTCAAGATCGACTACCTCTCGCCCCGCGACGCGAACGGCCATGGCACGCACACGGCGTCCACCGCGGCGGGCTCCGTCGTGGAGGCGGTCAGCTTCCACGGCCTGGGCGAGGGCGCCGCCCGCGGCGGCGCGCCCAGGGCTCGCATCGCCGTGTACAAGTCCATGTGGGGCAGCGGCAGCGGCGCGGGGTCCGGGAGCACCGCCACCGTGCTGGCCGCCATCGACGACGCGATCCACGACGGCGTGGACGTGCTGTCGCTCTCCCTGGGGACCCTGGAGAACTCCTTCGGCGCGCAGCACGCCGTCCAGAAGGGGATCACCGTGGTTTACGCCGCCATGAACCTTGGGCCTGCGCCTCAGGTGGTTCAGAACACTGCCCCTTGGGTCATCACCGTCGCGGCGAGCAAGATCGATCGGTCCTTCCCGACGGTGATCACGTTGGGTGACAAGCGACAGATAGTGGTACGCTACGTTCAAACTTCGAAGTTCAAAACGCCGTGCCACGAAGAACAAGAGTGTGCCGTGCATGCGTTGATTATATGTACTCTGCTGATGCATATCAAATCTTCCCATTTTCAGGGACAATCTCTCTACTCTCAAGGGAAGAACTCATCGCTCAGCGGTTTCAGACGCCTTGTCGTTGGAGTTGGAGGCAGGTAAATAATTAAAGTCTTTCCTTTTCTCCCAAAAAAAATGTGGAGTACGGTTTTGCTATATGTTTATCAACATTTTTTCCCTCAGAATCACTTGAATTTTTAACGGTTAGATTTTGCATTGAGATTCACGTTTTCTTTTGCGTCGTCGTTCTCACGTGAAGCGCAGTCGCATCTGGCCTCGCTCGCTCCTTGTTGTTCGCTCTGGTTGTGGTAGAGTTTTTCTTTACTTCTTGTACGTTGACCTGCTCCTCGAGTAGCAAAAACAGTAATGTATTATGTACTACCACACTTCTGGTTGTAGAGTATTCCGTCCGTTCCATTTCAGGTTATAAATCGTGTTGGTCAAAGTCAAACTATTTAAAGACCAAATTTTATAGATAAATATAGTAATATTTACAACACCAAATTAGTTAAATTAAATTTATAATTGAATATATTTTTATGATATATTTGTCTTGAGTTGAAATTATTATTATTATTTTCTATAAACTTAGTCAAACTTAGAGCAGTTTAATTCTGACCAAAATCAAAACGTCTTATAACTTGAAACGGAGGGAGTAGTAAGTTACTATGCAAAGGTCACATATGACATCTTGTGCTTTTTTTAATCAAGAATTATGTCTATAGCTACTGTTGTTTTACCAATTTACCACTTAGTCAAACTTAGAGCAGTTTAATTCTGACCAAAGTCAAAATGTCTTATAACCTGAAACGGAGGGAGTAGTAAGTTACTAGTTTTATCTATTAGTGTCAACATCGGGGAAAAAAAAGATAGTATGCAGTAAGTACGGACATGATTGATATGAAGTAACAAGTGTGGCAGCACAAGTTCATGTCTAGTAATTTAGAATTTAAACACAGATTATGTGTTTAAAGTCACCCTAGATATCTAAGCAGTCACTTGTTAAATTAAACTGCTTAATTCTTTGTGAAAATGTCACGAGCTCGGAAGCTGATACAATTTCACTTGGCTTTTCTATGGTTAATTAGGTGCACAGAGGATGCTCTGAATGGCACGGATGTCAAAGGAAGCATTGTGCTGTGCGCATCTTTTACTCTCAACAAACCATCTATCCTTTTCCAAGAAGCTCTAGGAAACGTCGTGAAAGGCGGAGGGGTGGGCATGATTTTCGTTCAGTATACGTGGGATATTGTAAGTTCGACAGCCAGATGCAACGGTATTGCGTGTGTTATTGTGGACTATTACACAGTGAAACAGATCGGAAAATACATACTCAGTGCAAGGTAACACACTTCCTGATCAATTCATACGTGCTCTCAAATAAAGATATAAAGTTAAGATCTTAAGTTTAAGAAAGATACAGATACAATATTTGGATCAATTGAATAGTTTGCAATGGCATGACACAATTCTGGTTGTCCGAGCAGTTCACCCATTGTGAAGATCGATCCAGCACGCACCGTAACGGGGAATGAGATAATGGCACCAAAAGTGGCAGATTTCTCTTCAAGAGGCCCTTCAACTGATTACCCTGAAATTATCAAGGTACCTAGACCACCACACACACACACACACAAATCCACGTCTCCACTGGTGTCTCACAAGCCATATAATCATTTGAAATCTAACTTCAGTCTTGCTTCTTTAACAGCCAGACATAGCTGCACCAGGATTCAACATCTTAGCAGCAGTGAAAGGCACATACGCATTTGCCTCAGGGACGTCAATGGCTACTCCGCATGTAGCAGGCGTTGTCGCGCTGCTGAAAGCTCTGCATCCAAGCTGGTCACCTGCTGCACTAAAATCAGCCATAGTCACCACAGGTGAGGCCAGCTTCTCTGGAAAAATGTTTCACTTCATCTATGGGCATTTCTGCATCTGTCTAACCTATGCTCCATTTGCATGGTGAAGCATCTGTAACTGATGAGCGTGGCATGCCCATACTGGCCGAAGGGTTGCCTCGGAAGATTGCTGACCCATTTGACTATGGAGGCGGGCACATCAACCCTAACAGAGCAGCTGATCCTGGCCTGATTTACGACATTGATCCAAGCGATTACAACAAATTCTTTGGATGCACTGTAAAGCCATATGTAAGGTGCAATGCGACATCGTTGCCTGGGTATTATCTGAACCTACCGTCCATCTCAGTTCCCGATCTTAGGTATCCGGTCGTCGTATCAAGAACGGTCACAAATGTAGCTGAGGTTGATGCTGTTTACCACGCTGCAATCGAGAGCCCACCTGGCGTAAAGATGGATGTTGAGCCACCTGTTCTGGTGTTCAATGCTGCAAACAAAGTTCATACGTTCCAGGTAAAGCTTTCACCTCTATGGAAGCTGCAGGGGGACTACACGTTTGGGAGCCTTACTTGGCACAACGGCCAGAAGACAGTGAGAATCCCGATAGCAGTCAGGATTACAATTCAGGATTTCTACGCAGACATTGCATAA

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CDS seq

ATGACCGAGGCGACGACTGCTGGCCAGAGTTGGCTCGCCGCACGGCGGCGCCGCCGTGCCGGTGTTGGATTCGACGATCCTGTACATGGAGAGAGAGTCGGATATGGGATGCCTTCTTTCTGGCCTCGAAGCACAAAATGGGCCTTGTGCTCCGAAGTGGACCTAATAGGGCCCTTGAATAACTGGACCCTGTCCAGATTAACTGGGCCGAGCCACGAAAGGCCTGAGCCATTCAGCCTAAGTTCTGATTCAACACTCTCACATCTAAAACAAAAGATTAAACCCTTTTACCACTTCAAAGGAAAGAGCACCCACCCCGACGATGTCATCGCTTCACACCATGATATGCTCACCACTGTTCTTGGAAGCAAGGAAGATTCTTTGGCCTCTATCATCCACAACTACAAGCATGGTTTCTCAGGCTTCGCCGTGATGCTTACTGAAGATCAAGCAAAGCAACTTGCAGAATTTCCGGAAGTCCTTAGTGTGGAACCAAGCAAAACGTATACGACGGCGACCACTCGGAGCTGGGACATGCTTGGACTGAACTACAGAATGCCCACTGAACTGCTCCAGCGAACCAACTACGGCGAGGAGATAATCATTGGCATTGTTGACACTGGTATATGGCCGGAGTCGAGAAGCTTCAGCGACGAAGGTTACGGGCCGGTGCCGGCACGGTGGAAAGGCGTGTGCCAGGTCGGCGAAGGATGGGGCAGCAACAACTGCAGCCGCAAGATCATCGGCGCGCGGTTCTACCACGCCGGGGTGGACGAGGACGACCTCAAGATCGACTACCTCTCGCCCCGCGACGCGAACGGCCATGGCACGCACACGGCGTCCACCGCGGCGGGCTCCGTCGTGGAGGCGGTCAGCTTCCACGGCCTGGGCGAGGGCGCCGCCCGCGGCGGCGCGCCCAGGGCTCGCATCGCCGTGTACAAGTCCATGTGGGGCAGCGGCAGCGGCGCGGGGTCCGGGAGCACCGCCACCGTGCTGGCCGCCATCGACGACGCGATCCACGACGGCGTGGACGTGCTGTCGCTCTCCCTGGGGACCCTGGAGAACTCCTTCGGCGCGCAGCACGCCGTCCAGAAGGGGATCACCGTGGTTTACGCCGCCATGAACCTTGGGCCTGCGCCTCAGGTGGTTCAGAACACTGCCCCTTGGGTCATCACCGTCGCGGCGAGCAAGATCGATCGGTCCTTCCCGACGGTGATCACGTTGGGTGACAAGCGACAGATAGTGGGACAATCTCTCTACTCTCAAGGGAAGAACTCATCGCTCAGCGGTTTCAGACGCCTTGTCGTTGGAGTTGGAGGCAGGTGCACAGAGGATGCTCTGAATGGCACGGATGTCAAAGGAAGCATTGTGCTGTGCGCATCTTTTACTCTCAACAAACCATCTATCCTTTTCCAAGAAGCTCTAGGAAACGTCGTGAAAGGCGGAGGGGTGGGCATGATTTTCGTTCAGTATACGTGGGATATTGTAAGTTCGACAGCCAGATGCAACGGTATTGCGTGTGTTATTGTGGACTATTACACAGTGAAACAGATCGGAAAATACATACTCAGTGCAAGTTCACCCATTGTGAAGATCGATCCAGCACGCACCGTAACGGGGAATGAGATAATGGCACCAAAAGTGGCAGATTTCTCTTCAAGAGGCCCTTCAACTGATTACCCTGAAATTATCAAGCCAGACATAGCTGCACCAGGATTCAACATCTTAGCAGCAGTGAAAGGCACATACGCATTTGCCTCAGGGACGTCAATGGCTACTCCGCATGTAGCAGGCGTTGTCGCGCTGCTGAAAGCTCTGCATCCAAGCTGGTCACCTGCTGCACTAAAATCAGCCATAGTCACCACAGCATCTGTAACTGATGAGCGTGGCATGCCCATACTGGCCGAAGGGTTGCCTCGGAAGATTGCTGACCCATTTGACTATGGAGGCGGGCACATCAACCCTAACAGAGCAGCTGATCCTGGCCTGATTTACGACATTGATCCAAGCGATTACAACAAATTCTTTGGATGCACTGTAAAGCCATATGTAAGGTGCAATGCGACATCGTTGCCTGGGTATTATCTGAACCTACCGTCCATCTCAGTTCCCGATCTTAGGTATCCGGTCGTCGTATCAAGAACGGTCACAAATGTAGCTGAGGTTGATGCTGTTTACCACGCTGCAATCGAGAGCCCACCTGGCGTAAAGATGGATGTTGAGCCACCTGTTCTGGTGTTCAATGCTGCAAACAAAGTTCATACGTTCCAGGTAAAGCTTTCACCTCTATGGAAGCTGCAGGGGGACTACACGTTTGGGAGCCTTACTTGGCACAACGGCCAGAAGACAGTGAGAATCCCGATAGCAGTCAGGATTACAATTCAGGATTTCTACGCAGACATTGCATAA

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Protein seq

MTEATTAGQSWLAARRRRRAGVGFDDPVHGERVGYGMPSFWPRSTKWALCSEVDLIGPLNNWTLSRLTGPSHERPEPFSLSSDSTLSHLKQKIKPFYHFKGKSTHPDDVIASHHDMLTTVLGSKEDSLASIIHNYKHGFSGFAVMLTEDQAKQLAEFPEVLSVEPSKTYTTATTRSWDMLGLNYRMPTELLQRTNYGEEIIIGIVDTGIWPESRSFSDEGYGPVPARWKGVCQVGEGWGSNNCSRKIIGARFYHAGVDEDDLKIDYLSPRDANGHGTHTASTAAGSVVEAVSFHGLGEGAARGGAPRARIAVYKSMWGSGSGAGSGSTATVLAAIDDAIHDGVDVLSLSLGTLENSFGAQHAVQKGITVVYAAMNLGPAPQVVQNTAPWVITVAASKIDRSFPTVITLGDKRQIVGQSLYSQGKNSSLSGFRRLVVGVGGRCTEDALNGTDVKGSIVLCASFTLNKPSILFQEALGNVVKGGGVGMIFVQYTWDIVSSTARCNGIACVIVDYYTVKQIGKYILSASSPIVKIDPARTVTGNEIMAPKVADFSSRGPSTDYPEIIKPDIAAPGFNILAAVKGTYAFASGTSMATPHVAGVVALLKALHPSWSPAALKSAIVTTASVTDERGMPILAEGLPRKIADPFDYGGGHINPNRAADPGLIYDIDPSDYNKFFGCTVKPYVRCNATSLPGYYLNLPSISVPDLRYPVVVSRTVTNVAEVDAVYHAAIESPPGVKMDVEPPVLVFNAANKVHTFQVKLSPLWKLQGDYTFGSLTWHNGQKTVRIPIAVRITIQDFYADIA
Function Subtilisin-like protease SBT3.8 [UniProtKB/Swiss-Prot:Q9SZY3]

Transcripts

Gene Transcript Chromosome Start End Strand Source
LOC_Os01g58270 LOC_Os01g58270.1 Chr01 33674405 33679717 + MSU_osa1r7
CDS seq

ATGACCGAGGCGACGACTGCTGGCCAGAGTTGGCTCGCCGCACGGCGGCGCCGCCGTGCCGGTGTTGGATTCGACGATCCTGTACATGGAGAGAGAGTCGGATATGGGATGCCTTCTTTCTGGCCTCGAAGCACAAAATGGGCCTTGTGCTCCGAAGTGGACCTAATAGGGCCCTTGAATAACTGGACCCTGTCCAGATTAACTGGGCCGAGCCACGAAAGGCCTGAGCCATTCAGCCTAAGTTCTGATTCAACACTCTCACATCTAAAACAAAAGATTAAACCCTTTTACCACTTCAAAGGAAAGAGCACCCACCCCGACGATGTCATCGCTTCACACCATGATATGCTCACCACTGTTCTTGGAAGCAAGGAAGATTCTTTGGCCTCTATCATCCACAACTACAAGCATGGTTTCTCAGGCTTCGCCGTGATGCTTACTGAAGATCAAGCAAAGCAACTTGCAGAATTTCCGGAAGTCCTTAGTGTGGAACCAAGCAAAACGTATACGACGGCGACCACTCGGAGCTGGGACATGCTTGGACTGAACTACAGAATGCCCACTGAACTGCTCCAGCGAACCAACTACGGCGAGGAGATAATCATTGGCATTGTTGACACTGGTATATGGCCGGAGTCGAGAAGCTTCAGCGACGAAGGTTACGGGCCGGTGCCGGCACGGTGGAAAGGCGTGTGCCAGGTCGGCGAAGGATGGGGCAGCAACAACTGCAGCCGCAAGATCATCGGCGCGCGGTTCTACCACGCCGGGGTGGACGAGGACGACCTCAAGATCGACTACCTCTCGCCCCGCGACGCGAACGGCCATGGCACGCACACGGCGTCCACCGCGGCGGGCTCCGTCGTGGAGGCGGTCAGCTTCCACGGCCTGGGCGAGGGCGCCGCCCGCGGCGGCGCGCCCAGGGCTCGCATCGCCGTGTACAAGTCCATGTGGGGCAGCGGCAGCGGCGCGGGGTCCGGGAGCACCGCCACCGTGCTGGCCGCCATCGACGACGCGATCCACGACGGCGTGGACGTGCTGTCGCTCTCCCTGGGGACCCTGGAGAACTCCTTCGGCGCGCAGCACGCCGTCCAGAAGGGGATCACCGTGGTTTACGCCGCCATGAACCTTGGGCCTGCGCCTCAGGTGGTTCAGAACACTGCCCCTTGGGTCATCACCGTCGCGGCGAGCAAGATCGATCGGTCCTTCCCGACGGTGATCACGTTGGGTGACAAGCGACAGATAGTGGGACAATCTCTCTACTCTCAAGGGAAGAACTCATCGCTCAGCGGTTTCAGACGCCTTGTCGTTGGAGTTGGAGGCAGGTGCACAGAGGATGCTCTGAATGGCACGGATGTCAAAGGAAGCATTGTGCTGTGCGCATCTTTTACTCTCAACAAACCATCTATCCTTTTCCAAGAAGCTCTAGGAAACGTCGTGAAAGGCGGAGGGGTGGGCATGATTTTCGTTCAGTATACGTGGGATATTGTAAGTTCGACAGCCAGATGCAACGGTATTGCGTGTGTTATTGTGGACTATTACACAGTGAAACAGATCGGAAAATACATACTCAGTGCAAGTTCACCCATTGTGAAGATCGATCCAGCACGCACCGTAACGGGGAATGAGATAATGGCACCAAAAGTGGCAGATTTCTCTTCAAGAGGCCCTTCAACTGATTACCCTGAAATTATCAAGCCAGACATAGCTGCACCAGGATTCAACATCTTAGCAGCAGTGAAAGGCACATACGCATTTGCCTCAGGGACGTCAATGGCTACTCCGCATGTAGCAGGCGTTGTCGCGCTGCTGAAAGCTCTGCATCCAAGCTGGTCACCTGCTGCACTAAAATCAGCCATAGTCACCACAGCATCTGTAACTGATGAGCGTGGCATGCCCATACTGGCCGAAGGGTTGCCTCGGAAGATTGCTGACCCATTTGACTATGGAGGCGGGCACATCAACCCTAACAGAGCAGCTGATCCTGGCCTGATTTACGACATTGATCCAAGCGATTACAACAAATTCTTTGGATGCACTGTAAAGCCATATGTAAGGTGCAATGCGACATCGTTGCCTGGGTATTATCTGAACCTACCGTCCATCTCAGTTCCCGATCTTAGGTATCCGGTCGTCGTATCAAGAACGGTCACAAATGTAGCTGAGGTTGATGCTGTTTACCACGCTGCAATCGAGAGCCCACCTGGCGTAAAGATGGATGTTGAGCCACCTGTTCTGGTGTTCAATGCTGCAAACAAAGTTCATACGTTCCAGGTAAAGCTTTCACCTCTATGGAAGCTGCAGGGGGACTACACGTTTGGGAGCCTTACTTGGCACAACGGCCAGAAGACAGTGAGAATCCCGATAGCAGTCAGGATTACAATTCAGGATTTCTACGCAGACATTGCATAA

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Protein seq

MTEATTAGQSWLAARRRRRAGVGFDDPVHGERVGYGMPSFWPRSTKWALCSEVDLIGPLNNWTLSRLTGPSHERPEPFSLSSDSTLSHLKQKIKPFYHFKGKSTHPDDVIASHHDMLTTVLGSKEDSLASIIHNYKHGFSGFAVMLTEDQAKQLAEFPEVLSVEPSKTYTTATTRSWDMLGLNYRMPTELLQRTNYGEEIIIGIVDTGIWPESRSFSDEGYGPVPARWKGVCQVGEGWGSNNCSRKIIGARFYHAGVDEDDLKIDYLSPRDANGHGTHTASTAAGSVVEAVSFHGLGEGAARGGAPRARIAVYKSMWGSGSGAGSGSTATVLAAIDDAIHDGVDVLSLSLGTLENSFGAQHAVQKGITVVYAAMNLGPAPQVVQNTAPWVITVAASKIDRSFPTVITLGDKRQIVGQSLYSQGKNSSLSGFRRLVVGVGGRCTEDALNGTDVKGSIVLCASFTLNKPSILFQEALGNVVKGGGVGMIFVQYTWDIVSSTARCNGIACVIVDYYTVKQIGKYILSASSPIVKIDPARTVTGNEIMAPKVADFSSRGPSTDYPEIIKPDIAAPGFNILAAVKGTYAFASGTSMATPHVAGVVALLKALHPSWSPAALKSAIVTTASVTDERGMPILAEGLPRKIADPFDYGGGHINPNRAADPGLIYDIDPSDYNKFFGCTVKPYVRCNATSLPGYYLNLPSISVPDLRYPVVVSRTVTNVAEVDAVYHAAIESPPGVKMDVEPPVLVFNAANKVHTFQVKLSPLWKLQGDYTFGSLTWHNGQKTVRIPIAVRITIQDFYADIA

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Event Type Chromosome Start End Strand Alternative mRNAs Total mRNAs Source

Expression

Leaf Root Panicle
FPKM 0.0 0.0 0.0

Homologues

Genome & Annotation Homologs Type Expression(FPKM)
Leaf Root Panicle
Nipponbare | IRGSP 1.0 | Gramene(+IsoSeq) OsNip_01g0795100 RBH 0.0 0.0 0.0
Nipponbare | IRGSP 1.0 | MSU NA NA NA NA NA
Nipponbare | IRGSP 1.0 | RAP-db Os01g0795100 RBH None None None
Azucena | AzucenaRS1 | Gramene(+IsoSeq) OsAzu_01g0036660 RBH 0.109374 45.962090 1.169888
KETAN NANGKA | Os128077RS1 | Gramene(+IsoSeq) OsKeNa_01g0036150 SBH 0.318028 7.883012 1.466575
CHAO MEO | Os132278RS1 | Gramene(+IsoSeq) OsCMeo_01g0036520 SBH 0.155017 2.228694 1.142209
ARC 10497 | Os117425RS1 | Gramene(+IsoSeq) OsARC_01g0035940 SBH 0.034081 0.051771 None
PR 106 | Os127742RS1 | Gramene(+IsoSeq) OsPr106_01g0035540 RBH 0.253903 0.0 0.0
Minghui 63 | MH63RS3 | HZAU OsMH63_01G0555700 SBH 0.3195385 2.5669265 0.7247985
IR 64 | OsIR64RS1 | Gramene(+IsoSeq) OsIR64_01g0035280 RBH 0.0 0.0 0.0
Zhenshan 97 | ZS97RS3 | HZAU OsZS97_01G0552900 RBH 2.314852 11.575025 1.835868
LIMA | Os127564RS1 | Gramene(+IsoSeq) OsLima_01g0035410 RBH 0.082967 0.064399 None
KHAO YAI GUANG | Os127518RS1 | Gramene(+IsoSeq) OsKYG_01g0035460 SBH 0.0 0.461859 None
GOBOL SAIL | Os132424RS1 | Gramene(+IsoSeq) OsGoSa_01g0035720 SBH 0.0 0.650577 None
LIU XU | Os125827RS1 | Gramene(+IsoSeq) OsLiXu_01g0035790 RBH 0.0 0.302974 0.000000
LARHA MUGAD | Os125619RS1 | Gramene(+IsoSeq) OsLaMu_01g0035560 RBH 0.009298 1.984010 None
N22 | OsN22RS2 | Gramene(+IsoSeq) OsN22_01G036050 SBH 0.000000 0.214938 0.201126
NATEL BORO | Os127652RS1 | Gramene(+IsoSeq) OsNaBo_01g0035770 SBH 0.000000 4.307582 0.842252
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National Key Laboratory of Crop Genetic Improvement

Huazhong Agricultural University

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