Basic Info

Gene ID OGI # | Score   Accession | Assembly | Annotation Location Links
OsKeNa_04g0024610 OGI:04086160 | 16/16 KETAN NANGKA | Os128077RS1 | Gramene(+IsoSeq) Chr04:27750934-27755388
Gene Symbol XIAO, OsXIAO
DNA seq

aaaacctcgcaaccaaacccctctcttctttttctctccctccgtctcctctccaaatgcaaagctctcttctcttctctcgctcctcgctctctccatccatggccatgagggcctaaatgccaaagcagtcaagctgataagaccgagagagaaaggtgttcctttccgtcctcgcaccccccggctccgattttctgctcccgccatgccgccgccgccaaggctgctgttcttgctcgtcatgctgctggtggtcgcggcgcccggcgcgccggtgttcggggcgaacgcgccgccggaggtgaaggcggagatcgacgcgctactcatgttccggagcgggctgcgcgacccttacgccgccatgtccgggtggaacgcgtcctcgccgtccgcgccctgctcctggcgcggcgtggcgtgtgcggccggcaccggccgcgtcgtcgagctggcgctcccgaaactccgcctgtccggcgccatctccccggcgctgtcatcgctcgtatacctcgagaagctcagcctccgctccaactcgctctccggcaccatcccggcgtccctctcccgcatctcctccctccgcgccgtctacctccagtacaactccctctccggccccattcctcagtcattcctcgccaacctcaccaacctccagacgttcgacgtgtccggcaacctcttgtccggccctgtccctgtttccttccctcccagcttgaagtaccttgacctctcctccaatgccttctccggcaccatcccggcgaacgtcagcgcgtcggcgacgagcctccagttcttgaacctgtcattcaaccgcctccggggcacagtcccggcgtcgctggggaccttgcaggacctgcattacctctggctggacgggaacctgcttgagggcaccatcccgtcggcgctgtccaactgctcggcgctgctccacctcagcctgcaggggaatgcgctccgcggcatcttgccgcccgcggtggcggcgattccctcgctgcagattctttcggtgtctcggaaccggctcaccggcgccatcccggctgcggcgttcggcggcgtggggaactcgtcgctgcgcatcgtgcaggtcggcggcaacgcgttctcccaggtggacgtgccggtgtcgctcggcaaggatctccaggtggtggacttgagggccaacaaactggccggcccattcccgtcctggctcgccggggctggggggttgacggtgctcgacctttcgggcaatgcgttcaccggcgaagtacctccggcggtcgggcagctcactgcgctgcaggaactgcggcttggcggcaatgccttcacaggcaccgtgccggcggagattggcagatgcggtgcgctccaggtgcttgatctcgaagacaaccgcttctccggcgaggtacctgccgctcttggcggtctccggcggctcagagaggtgtatcttggcggtaactcattctccggccagattccggccagtttgggcaacctctcgtggctggaagcattgtccacaccggggaatcggctcaccggcgatttgcccagtgagctcttcgtgctggggaatctgacattcttggacctctccgacaacaagctcgccggggagatccctccttccatcggcaatctggccgctctgcagagtttaaatttgagcggcaactccttctccggccgcattccgtccaacattggcaacctgctgaacctgagagttcttgacctctctggtcagaagaacctctcgggcaatctcccggcagagctcttcggtttgccacagctgcagtatgtgtcgctcgccggaaactctttctccggtgatgttccggaggggttcagcagcctgtggagtctgcgccacctcaacctctcggtgaactcattcacaggctcaatgccggctacctatggatacttgccatcactccaggtgctctcggcctcccacaaccgcatctgcggtgagctgcctgtggagctcgccaactgttccaacctcaccgtgcttgatctcaggagcaaccagttgactggcccaatccccggtgattttgcgcgcctcggcgaattggaggagcttgacctgagccacaaccagctgtcccgcaagatacctccagagatttcaaactgctcatcgcttgtcactctcaagcttgatgacaatcatcttggtggcgagataccggcctctctctccaacctgtcgaagctgcagacacttgacctgtcgtccaacaatcttaccggcagcatccctgcttcattggctcaaattccaggcatgctatcactcaatgtgtcacaaaatgagctcagcggagagataccggcaatgcttggctcccgctttggcaccccgtcagtgtttgcttccaacccgaacctgtgcggtccgccattggagaacgaatgcagtgcgtaccggcagcatcggaggcggcagaggctgcagcgcctcgctctgctgattggtgtggtggctgctaccgtgctgctgcttgtgctgttctgctgctgctgtgtgtacagcttgctgcggtggaggcgccggttcattgagaagcgagatggtgtcaagaagaggcggcgcagcccgggacggggcagcgggtcgagcggcacaagcacagacagtgtcagccagccgaagctgatcatgttcaattcccggatcacctatgctgacacggtggaggcgacgaggcagttcgatgaggagaatgtgcttagccgaggccgccatggtctcgtgttcaaggcttgctacaatgacggcaccgtgctggcgatcctacggcttccttccacctcatctgatggcgccgtggtgattgaggagggctcgttcaggaaggaggccgagtccctcggcaaggtgaagcacaggaacctcactgtgctccgtggctattacgccgggccgccgccagatgttcggctgctggtctatgactacatgcccaacggcaacctcgccacgttgctgcaggaagcgtcgcaccaagacggacacattctcaattggccaatgaggcacctgatcgccctcggcgtctcccgcggccttgcttttctccaccagtccggtgtcgtgcacggcgacgtcaagccgcagaacatcctcttcgatgccgacttcgagccgcacctgtccgacttcgggctggagccaatggtggtgacggctggtgctgccgctgctgcggcggctgcatcgacgtcagctacaacaacagtcggttcgctcggctacgtcgccccggacgccgcggccgcgggtcaggccacgcgggaaggcgacgtctacagcttcggcatcgtgctgctcgagctgctcaccggccggcgccccggcatgttcgccggggaggacgaagacatcgtgaagtgggtgaagcgtcagctgcagcgcggggcggtggccgagctgctcgagccgggcctgctggagctggacccggagtcgtcggagtgggaggagttcctgctcgggatcaaggtcggcctcctctgcacggcgcccgacccgctggaccgcccggccatgggcgacgtggtgttcatgctcgagggctgccgcgtcggcccggacatcccgtcgtcggccgacccaacctcccagccatccccggcgtgatcgccggctcccctcggccggcggcatcacccgatccagtccactagtgttgttccatccattttccgctaattctttcttctttagttcagattagtcttagcttcatccagccgcggggtcaaaactgacatgtgagcccgggagcaagaacacctgcatttcccgccaagcagaccagaggcttggccccaagtgggaaagtagccgttgagccccttcctaatctcgcggttagtggaggtgtcagtggctgccggggaagcaaatcaccatgtggactgatgcttgcgcggcatgttgctgaggaggaggttggtggtggtggcgtcgtggactcgcgcatgtggggttccccatcgcaacggctactgatgctccatctgttcttggctgctctgtaccctgtactcccttctctctctctctaggaaattgatttcgtgtaggggggcctgcttggcttcttcggatcttgtcttttattaatctccattttttaccatgggcttagatcttttgtaatgttgtgatgtacatcttgtctgtattttgttatcccaattggttcaagaggatggtgggggatgaatgatgcttcatactactagccgttaaatctttttttcccctctgcatggaatgatttgtgtatggcagtatctagcagtagtacatccaaaatactctgtgcacttgttttatccactgtatgattagttggggaccctacctatctatcggatgaatggatatatattactctgtggtca

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CDS seq

atgccgccgccgccaaggctgctgttcttgctcgtcatgctgctggtggtcgcggcgcccggcgcgccggtgttcggggcgaacgcgccgccggaggtgaaggcggagatcgacgcgctactcatgttccggagcgggctgcgcgacccttacgccgccatgtccgggtggaacgcgtcctcgccgtccgcgccctgctcctggcgcggcgtggcgtgtgcggccggcaccggccgcgtcgtcgagctggcgctcccgaaactccgcctgtccggcgccatctccccggcgctgtcatcgctcgtatacctcgagaagctcagcctccgctccaactcgctctccggcaccatcccggcgtccctctcccgcatctcctccctccgcgccgtctacctccagtacaactccctctccggccccattcctcagtcattcctcgccaacctcaccaacctccagacgttcgacgtgtccggcaacctcttgtccggccctgtccctgtttccttccctcccagcttgaagtaccttgacctctcctccaatgccttctccggcaccatcccggcgaacgtcagcgcgtcggcgacgagcctccagttcttgaacctgtcattcaaccgcctccggggcacagtcccggcgtcgctggggaccttgcaggacctgcattacctctggctggacgggaacctgcttgagggcaccatcccgtcggcgctgtccaactgctcggcgctgctccacctcagcctgcaggggaatgcgctccgcggcatcttgccgcccgcggtggcggcgattccctcgctgcagattctttcggtgtctcggaaccggctcaccggcgccatcccggctgcggcgttcggcggcgtggggaactcgtcgctgcgcatcgtgcaggtcggcggcaacgcgttctcccaggtggacgtgccggtgtcgctcggcaaggatctccaggtggtggacttgagggccaacaaactggccggcccattcccgtcctggctcgccggggctggggggttgacggtgctcgacctttcgggcaatgcgttcaccggcgaagtacctccggcggtcgggcagctcactgcgctgcaggaactgcggcttggcggcaatgccttcacaggcaccgtgccggcggagattggcagatgcggtgcgctccaggtgcttgatctcgaagacaaccgcttctccggcgaggtacctgccgctcttggcggtctccggcggctcagagaggtgtatcttggcggtaactcattctccggccagattccggccagtttgggcaacctctcgtggctggaagcattgtccacaccggggaatcggctcaccggcgatttgcccagtgagctcttcgtgctggggaatctgacattcttggacctctccgacaacaagctcgccggggagatccctccttccatcggcaatctggccgctctgcagagtttaaatttgagcggcaactccttctccggccgcattccgtccaacattggcaacctgctgaacctgagagttcttgacctctctggtcagaagaacctctcgggcaatctcccggcagagctcttcggtttgccacagctgcagtatgtgtcgctcgccggaaactctttctccggtgatgttccggaggggttcagcagcctgtggagtctgcgccacctcaacctctcggtgaactcattcacaggctcaatgccggctacctatggatacttgccatcactccaggtgctctcggcctcccacaaccgcatctgcggtgagctgcctgtggagctcgccaactgttccaacctcaccgtgcttgatctcaggagcaaccagttgactggcccaatccccggtgattttgcgcgcctcggcgaattggaggagcttgacctgagccacaaccagctgtcccgcaagatacctccagagatttcaaactgctcatcgcttgtcactctcaagcttgatgacaatcatcttggtggcgagataccggcctctctctccaacctgtcgaagctgcagacacttgacctgtcgtccaacaatcttaccggcagcatccctgcttcattggctcaaattccaggcatgctatcactcaatgtgtcacaaaatgagctcagcggagagataccggcaatgcttggctcccgctttggcaccccgtcagtgtttgcttccaacccgaacctgtgcggtccgccattggagaacgaatgcagtgcgtaccggcagcatcggaggcggcagaggctgcagcgcctcgctctgctgattggtgtggtggctgctaccgtgctgctgcttgtgctgttctgctgctgctgtgtgtacagcttgctgcggtggaggcgccggttcattgagaagcgagatggtgtcaagaagaggcggcgcagcccgggacggggcagcgggtcgagcggcacaagcacagacagtgtcagccagccgaagctgatcatgttcaattcccggatcacctatgctgacacggtggaggcgacgaggcagttcgatgaggagaatgtgcttagccgaggccgccatggtctcgtgttcaaggcttgctacaatgacggcaccgtgctggcgatcctacggcttccttccacctcatctgatggcgccgtggtgattgaggagggctcgttcaggaaggaggccgagtccctcggcaaggtgaagcacaggaacctcactgtgctccgtggctattacgccgggccgccgccagatgttcggctgctggtctatgactacatgcccaacggcaacctcgccacgttgctgcaggaagcgtcgcaccaagacggacacattctcaattggccaatgaggcacctgatcgccctcggcgtctcccgcggccttgcttttctccaccagtccggtgtcgtgcacggcgacgtcaagccgcagaacatcctcttcgatgccgacttcgagccgcacctgtccgacttcgggctggagccaatggtggtgacggctggtgctgccgctgctgcggcggctgcatcgacgtcagctacaacaacagtcggttcgctcggctacgtcgccccggacgccgcggccgcgggtcaggccacgcgggaaggcgacgtctacagcttcggcatcgtgctgctcgagctgctcaccggccggcgccccggcatgttcgccggggaggacgaagacatcgtgaagtgggtgaagcgtcagctgcagcgcggggcggtggccgagctgctcgagccgggcctgctggagctggacccggagtcgtcggagtgggaggagttcctgctcgggatcaaggtcggcctcctctgcacggcgcccgacccgctggaccgcccggccatgggcgacgtggtgttcatgctcgagggctgccgcgtcggcccggacatcccgtcgtcggccgacccaacctcccagccatccccggcgtga

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Protein seq

MPPPPRLLFLLVMLLVVAAPGAPVFGANAPPEVKAEIDALLMFRSGLRDPYAAMSGWNASSPSAPCSWRGVACAAGTGRVVELALPKLRLSGAISPALSSLVYLEKLSLRSNSLSGTIPASLSRISSLRAVYLQYNSLSGPIPQSFLANLTNLQTFDVSGNLLSGPVPVSFPPSLKYLDLSSNAFSGTIPANVSASATSLQFLNLSFNRLRGTVPASLGTLQDLHYLWLDGNLLEGTIPSALSNCSALLHLSLQGNALRGILPPAVAAIPSLQILSVSRNRLTGAIPAAAFGGVGNSSLRIVQVGGNAFSQVDVPVSLGKDLQVVDLRANKLAGPFPSWLAGAGGLTVLDLSGNAFTGEVPPAVGQLTALQELRLGGNAFTGTVPAEIGRCGALQVLDLEDNRFSGEVPAALGGLRRLREVYLGGNSFSGQIPASLGNLSWLEALSTPGNRLTGDLPSELFVLGNLTFLDLSDNKLAGEIPPSIGNLAALQSLNLSGNSFSGRIPSNIGNLLNLRVLDLSGQKNLSGNLPAELFGLPQLQYVSLAGNSFSGDVPEGFSSLWSLRHLNLSVNSFTGSMPATYGYLPSLQVLSASHNRICGELPVELANCSNLTVLDLRSNQLTGPIPGDFARLGELEELDLSHNQLSRKIPPEISNCSSLVTLKLDDNHLGGEIPASLSNLSKLQTLDLSSNNLTGSIPASLAQIPGMLSLNVSQNELSGEIPAMLGSRFGTPSVFASNPNLCGPPLENECSAYRQHRRRQRLQRLALLIGVVAATVLLLVLFCCCCVYSLLRWRRRFIEKRDGVKKRRRSPGRGSGSSGTSTDSVSQPKLIMFNSRITYADTVEATRQFDEENVLSRGRHGLVFKACYNDGTVLAILRLPSTSSDGAVVIEEGSFRKEAESLGKVKHRNLTVLRGYYAGPPPDVRLLVYDYMPNGNLATLLQEASHQDGHILNWPMRHLIALGVSRGLAFLHQSGVVHGDVKPQNILFDADFEPHLSDFGLEPMVVTAGAAAAAAAASTSATTTVGSLGYVAPDAAAAGQATREGDVYSFGIVLLELLTGRRPGMFAGEDEDIVKWVKRQLQRGAVAELLEPGLLELDPESSEWEEFLLGIKVGLLCTAPDPLDRPAMGDVVFMLEGCRVGPDIPSSADPTSQPSPA

Function Probable inactive leucine-rich repeat receptor kinase XIAO [UniProtKB/Swiss-Prot:G9LZD7]

Transcripts

Gene Transcript Chromosome Start End Strand Source
OsKeNa_04g0024610 OsKeNa_04g0024610.01 Chr04 27750934 27755388 + NAM
CDS seq

atgccgccgccgccaaggctgctgttcttgctcgtcatgctgctggtggtcgcggcgcccggcgcgccggtgttcggggcgaacgcgccgccggaggtgaaggcggagatcgacgcgctactcatgttccggagcgggctgcgcgacccttacgccgccatgtccgggtggaacgcgtcctcgccgtccgcgccctgctcctggcgcggcgtggcgtgtgcggccggcaccggccgcgtcgtcgagctggcgctcccgaaactccgcctgtccggcgccatctccccggcgctgtcatcgctcgtatacctcgagaagctcagcctccgctccaactcgctctccggcaccatcccggcgtccctctcccgcatctcctccctccgcgccgtctacctccagtacaactccctctccggccccattcctcagtcattcctcgccaacctcaccaacctccagacgttcgacgtgtccggcaacctcttgtccggccctgtccctgtttccttccctcccagcttgaagtaccttgacctctcctccaatgccttctccggcaccatcccggcgaacgtcagcgcgtcggcgacgagcctccagttcttgaacctgtcattcaaccgcctccggggcacagtcccggcgtcgctggggaccttgcaggacctgcattacctctggctggacgggaacctgcttgagggcaccatcccgtcggcgctgtccaactgctcggcgctgctccacctcagcctgcaggggaatgcgctccgcggcatcttgccgcccgcggtggcggcgattccctcgctgcagattctttcggtgtctcggaaccggctcaccggcgccatcccggctgcggcgttcggcggcgtggggaactcgtcgctgcgcatcgtgcaggtcggcggcaacgcgttctcccaggtggacgtgccggtgtcgctcggcaaggatctccaggtggtggacttgagggccaacaaactggccggcccattcccgtcctggctcgccggggctggggggttgacggtgctcgacctttcgggcaatgcgttcaccggcgaagtacctccggcggtcgggcagctcactgcgctgcaggaactgcggcttggcggcaatgccttcacaggcaccgtgccggcggagattggcagatgcggtgcgctccaggtgcttgatctcgaagacaaccgcttctccggcgaggtacctgccgctcttggcggtctccggcggctcagagaggtgtatcttggcggtaactcattctccggccagattccggccagtttgggcaacctctcgtggctggaagcattgtccacaccggggaatcggctcaccggcgatttgcccagtgagctcttcgtgctggggaatctgacattcttggacctctccgacaacaagctcgccggggagatccctccttccatcggcaatctggccgctctgcagagtttaaatttgagcggcaactccttctccggccgcattccgtccaacattggcaacctgctgaacctgagagttcttgacctctctggtcagaagaacctctcgggcaatctcccggcagagctcttcggtttgccacagctgcagtatgtgtcgctcgccggaaactctttctccggtgatgttccggaggggttcagcagcctgtggagtctgcgccacctcaacctctcggtgaactcattcacaggctcaatgccggctacctatggatacttgccatcactccaggtgctctcggcctcccacaaccgcatctgcggtgagctgcctgtggagctcgccaactgttccaacctcaccgtgcttgatctcaggagcaaccagttgactggcccaatccccggtgattttgcgcgcctcggcgaattggaggagcttgacctgagccacaaccagctgtcccgcaagatacctccagagatttcaaactgctcatcgcttgtcactctcaagcttgatgacaatcatcttggtggcgagataccggcctctctctccaacctgtcgaagctgcagacacttgacctgtcgtccaacaatcttaccggcagcatccctgcttcattggctcaaattccaggcatgctatcactcaatgtgtcacaaaatgagctcagcggagagataccggcaatgcttggctcccgctttggcaccccgtcagtgtttgcttccaacccgaacctgtgcggtccgccattggagaacgaatgcagtgcgtaccggcagcatcggaggcggcagaggctgcagcgcctcgctctgctgattggtgtggtggctgctaccgtgctgctgcttgtgctgttctgctgctgctgtgtgtacagcttgctgcggtggaggcgccggttcattgagaagcgagatggtgtcaagaagaggcggcgcagcccgggacggggcagcgggtcgagcggcacaagcacagacagtgtcagccagccgaagctgatcatgttcaattcccggatcacctatgctgacacggtggaggcgacgaggcagttcgatgaggagaatgtgcttagccgaggccgccatggtctcgtgttcaaggcttgctacaatgacggcaccgtgctggcgatcctacggcttccttccacctcatctgatggcgccgtggtgattgaggagggctcgttcaggaaggaggccgagtccctcggcaaggtgaagcacaggaacctcactgtgctccgtggctattacgccgggccgccgccagatgttcggctgctggtctatgactacatgcccaacggcaacctcgccacgttgctgcaggaagcgtcgcaccaagacggacacattctcaattggccaatgaggcacctgatcgccctcggcgtctcccgcggccttgcttttctccaccagtccggtgtcgtgcacggcgacgtcaagccgcagaacatcctcttcgatgccgacttcgagccgcacctgtccgacttcgggctggagccaatggtggtgacggctggtgctgccgctgctgcggcggctgcatcgacgtcagctacaacaacagtcggttcgctcggctacgtcgccccggacgccgcggccgcgggtcaggccacgcgggaaggcgacgtctacagcttcggcatcgtgctgctcgagctgctcaccggccggcgccccggcatgttcgccggggaggacgaagacatcgtgaagtgggtgaagcgtcagctgcagcgcggggcggtggccgagctgctcgagccgggcctgctggagctggacccggagtcgtcggagtgggaggagttcctgctcgggatcaaggtcggcctcctctgcacggcgcccgacccgctggaccgcccggccatgggcgacgtggtgttcatgctcgagggctgccgcgtcggcccggacatcccgtcgtcggccgacccaacctcccagccatccccggcgtga

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Protein seq

MPPPPRLLFLLVMLLVVAAPGAPVFGANAPPEVKAEIDALLMFRSGLRDPYAAMSGWNASSPSAPCSWRGVACAAGTGRVVELALPKLRLSGAISPALSSLVYLEKLSLRSNSLSGTIPASLSRISSLRAVYLQYNSLSGPIPQSFLANLTNLQTFDVSGNLLSGPVPVSFPPSLKYLDLSSNAFSGTIPANVSASATSLQFLNLSFNRLRGTVPASLGTLQDLHYLWLDGNLLEGTIPSALSNCSALLHLSLQGNALRGILPPAVAAIPSLQILSVSRNRLTGAIPAAAFGGVGNSSLRIVQVGGNAFSQVDVPVSLGKDLQVVDLRANKLAGPFPSWLAGAGGLTVLDLSGNAFTGEVPPAVGQLTALQELRLGGNAFTGTVPAEIGRCGALQVLDLEDNRFSGEVPAALGGLRRLREVYLGGNSFSGQIPASLGNLSWLEALSTPGNRLTGDLPSELFVLGNLTFLDLSDNKLAGEIPPSIGNLAALQSLNLSGNSFSGRIPSNIGNLLNLRVLDLSGQKNLSGNLPAELFGLPQLQYVSLAGNSFSGDVPEGFSSLWSLRHLNLSVNSFTGSMPATYGYLPSLQVLSASHNRICGELPVELANCSNLTVLDLRSNQLTGPIPGDFARLGELEELDLSHNQLSRKIPPEISNCSSLVTLKLDDNHLGGEIPASLSNLSKLQTLDLSSNNLTGSIPASLAQIPGMLSLNVSQNELSGEIPAMLGSRFGTPSVFASNPNLCGPPLENECSAYRQHRRRQRLQRLALLIGVVAATVLLLVLFCCCCVYSLLRWRRRFIEKRDGVKKRRRSPGRGSGSSGTSTDSVSQPKLIMFNSRITYADTVEATRQFDEENVLSRGRHGLVFKACYNDGTVLAILRLPSTSSDGAVVIEEGSFRKEAESLGKVKHRNLTVLRGYYAGPPPDVRLLVYDYMPNGNLATLLQEASHQDGHILNWPMRHLIALGVSRGLAFLHQSGVVHGDVKPQNILFDADFEPHLSDFGLEPMVVTAGAAAAAAAASTSATTTVGSLGYVAPDAAAAGQATREGDVYSFGIVLLELLTGRRPGMFAGEDEDIVKWVKRQLQRGAVAELLEPGLLELDPESSEWEEFLLGIKVGLLCTAPDPLDRPAMGDVVFMLEGCRVGPDIPSSADPTSQPSPA

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Event Type Chromosome Start End Strand Alternative mRNAs Total mRNAs Source

Expression

Leaf Root Panicle
FPKM 0.0 5.404966 0.429685

Homologues

Genome & Annotation Homologs Type Expression(FPKM)
Leaf Root Panicle
Nipponbare | IRGSP 1.0 | Gramene(+IsoSeq) OsNip_04g0576900 RBH 0.0 0.0 0.627554
Nipponbare | IRGSP 1.0 | MSU LOC_Os04g48760 RBH 0.0 0.0 0.125145
Nipponbare | IRGSP 1.0 | RAP-db Os04g0576900 RBH None None None
Azucena | AzucenaRS1 | Gramene(+IsoSeq) OsAzu_04g0023880 RBH 0.0 9.168246 2.150215
KETAN NANGKA | Os128077RS1 | Gramene(+IsoSeq) OsKeNa_02g0028530 SBH 0.0 0.646504 0.0
CHAO MEO | Os132278RS1 | Gramene(+IsoSeq) OsCMeo_04g0024340 RBH 0.0 10.487705 1.731756
ARC 10497 | Os117425RS1 | Gramene(+IsoSeq) OsARC_04g0024100 RBH 0.0 0.464207 None
PR 106 | Os127742RS1 | Gramene(+IsoSeq) OsPr106_04g0024230 RBH 0.0 12.319561 4.053517
Minghui 63 | MH63RS3 | HZAU OsMH63_04G0456800 RBH 1.108605 3.270993 0.9435275
IR 64 | OsIR64RS1 | Gramene(+IsoSeq) OsIR64_04g0023040 RBH 0.0 0.697488 0.265430
Zhenshan 97 | ZS97RS3 | HZAU OsZS97_04G0460900 RBH 1.0550405 0.1643495 9.382622
LIMA | Os127564RS1 | Gramene(+IsoSeq) OsLima_04g0023510 RBH 0.0 0.280288 None
KHAO YAI GUANG | Os127518RS1 | Gramene(+IsoSeq) OsKYG_04g0023350 RBH 0.0 9.859448 None
GOBOL SAIL | Os132424RS1 | Gramene(+IsoSeq) OsGoSa_04g0023480 RBH 0.0 12.714071 None
LIU XU | Os125827RS1 | Gramene(+IsoSeq) OsLiXu_04g0023870 RBH 0.0 1.092127 0.249885
LARHA MUGAD | Os125619RS1 | Gramene(+IsoSeq) OsLaMu_04g0024080 RBH 0.0 8.104649 None
N22 | OsN22RS2 | Gramene(+IsoSeq) OsN22_04G023300 RBH 0.0 2.293958 2.431715
NATEL BORO | Os127652RS1 | Gramene(+IsoSeq) OsNaBo_04g0023220 RBH 0.0 9.760620 0.969032
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National Key Laboratory of Crop Genetic Improvement

Huazhong Agricultural University

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