Plant FIBer expression Database

Lus10037833 [FLAX]


External link
JGI Phytozome v13
Symbol
Arabidopsis homologues
Locus ID BLAST score/e-value TF class Alias TAIR10 short description
AT1G48090 2132 / 0 calcium-dependent lipid-binding family protein (.1)
AT4G17140 848 / 0 pleckstrin homology (PH) domain-containing protein (.1), pleckstrin homology (PH) domain-containing protein (.2), pleckstrin homology (PH) domain-containing protein (.3)
AT5G24740 111 / 4e-25 Protein of unknown function (DUF1162) (.1), Protein of unknown function (DUF1162) (.2)
Paralogs
Gene ID BLAST score/e-value At best hit BLAST score/e-value TAIR10 short description
Lus10017107
[exp]
4074 / 0 AT1G48090 3351 / 0.0 calcium-dependent lipid-binding family protein (.1)
Lus10003007
[exp]
856 / 0 AT4G17140 3544 / 0.0 pleckstrin homology (PH) domain-containing protein (.1), pleckstrin homology (PH) domain-containing protein (.2), pleckstrin homology (PH) domain-containing protein (.3)
Lus10011036
[exp]
846 / 0 AT4G17140 3546 / 0.0 pleckstrin homology (PH) domain-containing protein (.1), pleckstrin homology (PH) domain-containing protein (.2), pleckstrin homology (PH) domain-containing protein (.3)
Lus10017108
[exp]
168 / 2e-47 AT1G48090 206 / 2e-62 calcium-dependent lipid-binding family protein (.1)
Lus10003834
[exp]
53 / 5e-06 AT5G24740 858 / 0.0 Protein of unknown function (DUF1162) (.1), Protein of unknown function (DUF1162) (.2)
Poplar homologues
Locus ID BLAST score/e-value At best hit BLAST score/e-value TAIR10 short description
Potri.008G100600
[exp]
3474 / 0 AT1G48090 3782 / 0.0 calcium-dependent lipid-binding family protein (.1)
Potri.001G148800
[exp]
887 / 0 AT4G17140 3708 / 0.0 pleckstrin homology (PH) domain-containing protein (.1), pleckstrin homology (PH) domain-containing protein (.2), pleckstrin homology (PH) domain-containing protein (.3)
Potri.001G455600
[exp]
100 / 3e-20 AT5G24740 3006 / 0.0 Protein of unknown function (DUF1162) (.1), Protein of unknown function (DUF1162) (.2)
PFAM info
Clan ID Clan name Pfam ID Pfam name Pfam description
PF06101 Vps62 Vacuolar protein sorting-associated protein 62
PF06650 SHR-BD SHR-binding domain of vacuolar-sorting associated protein 13
Representative CDS sequence
>Lus10037833 pacid=23167198 polypeptide=Lus10037833 locus=Lus10037833.g ID=Lus10037833.BGIv1.0 annot-version=v1.0
ATGTTTGAGGTTCACGAAGGGGAACTCAACCTTGACATGGCTGGCTGTGATGTGGTCCTCAAAGACTTGAAACTGAAGGCTGAGGCGTTAAATTCACTCA
ATCTTCCAGTTACTGTAAAAGCTGGTTTTATCGGAACCATAACACTAAAGGTTCCCTGGAAAAGCTTAGGCAAGGAGCCTGTTATTGTTCTTATTGACCG
AGTCTTTGTTCTTGCTCATCCTGCACCGGATGACCGAACTCTCAAGGAGGAGGACAGGATAAAACTATTCGAAGCAAAACTTCAACAGATTGAGCCTCCC
CCCGGAAACTCATGGCTAGGTTCCCTGATTGGAACTGTTATAGGAAATCTTAAGATTTCAATCAGCAATGTACATATCAGATATGAGGACTCCTCAAGTA
ATTCTGGGCATCCATTTTCTTGTGGAGTGACCTTGGCCAAGCTCGCTGCCGTCACTACTGATGAAGAGGGAAATGAAACATTTGATACAAGTGGTGCTCT
TGATAGATTGCGTAAGTCTTTGCAGCTTGAGAGGCTTGCTATGTATCATAACACTGATAGTCTTCCCTGGAAGATAAACAACACATGGGAAACTCTATCT
CCCAAAGAGTGGGTAGAGATATTTGAAGATGGTATAAATGAACCAGAAGCCTGTAAAGGATCGGTGTCGAAATGGGCTGCTGGCCGTAGTTACCTCGTGT
CACCTATTAATGGTGTCCTTAAGTATCATCGTCTGGGAAAACAAGAGAGAATTGATGCAGAGGTTCCATTTGAGAAGGCTTCTCTTGTCTTGACAGATGT
CTCATTAACAATGACGGAGCTGCAATATCATGACTGGATAAAACTTCTGGAGGTTGTTTCAAGGTATAAGACATACGTTGAAATTTCCCATTTGAGACCC
GAGGTGCCTGTATCACAAGATCCTTCTCTTTGGTGGCGATATGCTGCTCAAGCGATTTTGCAGCAGAAGAAAATGTGCTATCGACTGTCATGGGATCGAA
TCAGATATCTCTGCCAGCTTCGTCACCGTTATGTGCAGTTGTATGCTGCTTCATTGCAACAGTCATCTGATGAACATATAAAAGAATTTAGAGAAATCGA
GAAAGATCTTGATTCTAAAGTTATTCTTCTTTGGAGGTTACTTGCACATGCCAAGGTTGAGACTGCCAAAACAAAGGAAGCTGCTGAACAGAGAAGGCTT
AAAAAGAAAAGTTGGTTTTCATTGGGATGGAGCACGGACACTGTTGACGAATCTGAGGTTGGTGTGTCTGATGGAACAGAGTTTGAGGAAGAAAATCTAA
CAAAAGAAGAATGGCAAGCAATCAATAATCTTCTTAGCTACCAGCCAGAAGAGGAGTTAAAACCACACTTAGGCAAAGATATGCAGAATATGGTCAAATA
TTTTCTAACTGTGTCAATCGAGCATGCGGCTGCCAGGATCATTGATATGAATGGCATCGAGATTGTTTGTGGCCGATTTGAGCGTCTGCATGTGTCAACA
AAACTCCGAAATCGTAGTATGCACTGCGATGTATTACTAAAATTTTATGGTGTATATGCACCGGAAGGTTCACTTGCCCAGAGTGTTTCCAGTGAGCGGA
AGGCGCATGCATTGTCAGCCAGTTTTGTACACTCACCAGTGGGGGAGAATATCGACTGGAGGTTATCAGCAACCATATCCCCTTGTCATGCTACAGTTTT
GATGGAAAGTCTAGATCGGGCTTTTGAATTTATGAAGAGAAGTAATGCAGTTAGCCCCACCGTTGCTCTAGAAACTGCAAATGCTTTACAGATGAAACTT
GAGAAAGTTACTCGTAGAGCTCAGGAGCAATTCCAAACCGCTTTGGAAGAACAATGCAGGTTTGCCTTTGATATTGATTTGGATGCTCCAAAAGTTAGAG
TACCGATAAAGCCGATTGGCTCTTCCAAGTGTGATACATACTTTCTCTTGGACTTCGGTCATTTTACATTACAAACCAAGGAAAGGCAGTCTGATGAACA
GAAGCAGAGCATATATTCTCGTTTTTGCATTTCTGGAAGAGATATTGCTGCTTTTTTTACTGATTCTGAGGAGGGAAATGGAGATTTCTATTCTATGGTT
GACAGGTGTGGGATGGATGTGATTGTTGATCAGATCAAAGTGCCTCACCCGCGTTACCCTTCCACAAGGATCTCTGTTCAAATTCCGAATCTTAGCATTC
ACTTCTCTCCAGAAAGATATCACAAACTTATGGAGTTGGTGAATATACTAAATAATACAGTGGAGAACTGTGAGCAATCTACTGTTAACAACTTCCAGCA
AGTTTCTGCTTGGAATTCTGCAGATTTTGCTACTGATGCCCGAATTCTGGTTTGGAAGGGGATTGGTAATTCTGTTGCCACCTGGCAGCCATGTTTTTTG
GTGTTGTCCGGATTATATCTGTATGTCATGGAATCTCCAGATTCCCAAAGCCACCAGCGGTACTTGAGCATGGCTGGTAGGCAGGTAGATGATGTTCCTC
CATCAAATGTTGGCGGTTCTCCATTTTGTATTGCCGTGAGCTTGAGGGGAATGGACATCCAACAGGCGTTGGAATCTTCAAGTACTTGGATATTAGCATT
TTTGGATGAGGAGGTTAAAGCAACTTGGTTGAAAGGACTCACACATACTATATATCAAGCTTCTGCTCCTTCAACTCTGAGTTTACTTGGAGAAACAGGT
GACCTTGTTGGTGACATTGGTGGTGAATTCAATGAGCCTCACACTCCAAATACACGTGCAGCTGATCTTGTTGTCAATGGGTCACTGGTGGAGACAAGAA
TCTGTATATATGCCAAGCCAGGAGATGAGGTTGACAAAAAATCTGAAGAAACATTGATTGCTGAGATTCTTGCTAGTGGAGGAAAGGTGTACCTGATTCA
TTCCTTAGGTGACTTAACTGCCAAAATGAAGCTTCATTCATTAAAAATTAAAGATGAGCTGCAAAGTTACCCATCTACAAATCCACAATACTTGGTCTGC
TCTGTAGTCAACAATGAAAAGCCGCTTCCATCCCCTCACACTCCTGAACCTCAAGGGAAAGATACACCGGTAGTTGCTTCTGATGACACTGATGCATTCG
CAGATGCATTGCCAGAGTTTTTGAATCTGTCTGATTCCATCTATTCACCAAGATTGGATATGTCTCATTCTGGAGATGTTTCTGACCTCTATGGCTCTTC
TGAATTTGACTCTGATGACCTGCTGCAAAGGAGGAGTATCTCAAATGAAATATTTTATGAGGCACAGGGTGGTGACCATGTAGACTTTGTTTCTGTTGTC
TTTTCTACAAGGAGTTCAGCTTCTCCTGATTATGATGGAATCGACACCCAGATGAGCATCCGCATGTCTAAGCTAGAGTTCTTTTGCAACAGACCAACTC
TTGTTGCATTAATTGGTTTTGGCATTGGTCTCAGCAGTGTGGGTTCTGTTAAGAGCAACGATGATGAAACTGAGAACCTAGATGACAAGTCAAAGGGTAA
AGAAAAGAGTGAAGATACTGAACGTGTTAAAGGACTGTTGGGTTATGGTAAAAATCGTGTTGTTTTTTATCTGAACATGAATGTTGACAATGTTACTGTA
ATCCTTAATAAGGAGGATGGCTCTCAGCTTGCCATGCTAATCCAAGAGAGTTTCCTACTGGATCTCAAGGTCCACCCAAGTTCTCTTTCTATTGAAGGCA
CATTGGGAAATTTTAAGCTTTGTGACATGTCGCTTGGAAAGAGTCACTGCTGGAGTTGGCTTTGTGATATCCGTAATCCAGGAATTGAATCTCTTATCAA
GTTCAAATTTAATTCTTACAGCACCGAGGATGATGACTATGAAGGATATGATTACAGCTTGAGTGGTCGACTTTCTGCTGTGCGCATAGTTTTCCTGTAT
AGATTTGTCCGTGAGATAACTGCCTACTTTGTGCAACTTGCCACTCCACAGACAGAAGAAGCAATTAAACTGGTTGATAAAGTTGGAGGTTTTGAGTGGC
TGATTCAGAAATATGAGATTGATGGGGCTACTGCACTAAAGCTAGACCTCTCACTTGACACTCCTATTATTATTATTCCCAGAAATACGACGAACAAAGA
TTTTATTCAACTTGACCTGGGCCAGCTAAAGGTGACAAATGAACTCAGTTGGCATGGTAATCCAGAGAAAGATCCTTCAGCTGTTCACATGGATGTCCTT
CATGCTGAGATTCTGCGCTTCAACATGTCTGTAGGGATTGATGGGTGTTTGGGCAAGCCTATCGTGCGGGATGGCCAAGGACTGGACATTTATGTCCGGC
GCAGCTTGCGGGATGTGTTTAGAAAAGTGCCAACCTTTGCACTTGAAGTTAGGGTGGGATTCCTCCATGGTGTCATGTCAGATAAGGAATACAAAGTGAT
TCTGGACTGCATATCCATGAATTTAAATGAAGAACCATGTCTTCCGCCAATCTTTCGTGGTAGCAAATCTGACTCCACAGATGCAATGCAGCTGTTGGTT
GATAAGGTCAACATGAATAGTCAGATGCTACTTGCACACAGCGTTACCATAATGGCCGTGGAAATAAATTATGCTCTGCTGGAGTTGTGTAATGGGGTCC
ACGAGTCACCTTTAGCTCACCTTGTTCTTGAAGGCCTTTGGGTATCATACAGGATAACATCATTGTCTGAAACAGATCTCTATGTTACTATTCCCAAATT
CTCTATCGTAGACATTCGTCCTGGGACGAAACCTGAAATGCGCTTGATGCTCGGATCTTCAGCTGATGCCTCTAAACAAACTTCTAGTGGAAGTCTTCCA
TATCATCAAAATAAGGGTAGTTTTCGCAGGTTGAATTCTACTTCTGTTGACGAGTTCATTAATGATGGCTGTGGCAAGACTATAGTCTTGAGTGAGCAGA
GCAGTCTGAAAGAAACTGATACTTCACATCCTCAGCCAATCATTATAATTGGACGTGGTAAAAGGTTGCGATTTGTTGACATCAAAATTGAGAATGGTTT
CCTTCTGAGGAAATACACACACTTGAGTAATGATAGTAGCTACTCAGTCTCCATAGACGACGGCGTGGATATTTCATTGCTAGAATACTCTTCCCCTAAA
GAGAGGCTTCAGGATTATATGCGCGAAGCATCTGCCAGCACAAGTACTTTCAACTCCCAAATTGAATCAAATATTTTACCAAGCGTTACTTTTGAAGCAC
AGGTTGTTTCACCGGAGCTTACATTTTATGACAGCACAAAATCTTCACTTGATGATTCTTCTTACGGTGAAAAGCTTCTGCGTGCAAAAATGGATTTGAG
CTTCATGTATGCATCAAAAGAAAATGATACCTGGATCCGTGCTGCAGTGAAGGATCTTTCAGTGGAGACCGGGTCTGGGCTGATGATTCTGGCCCCAGTA
GATATCTCTGGAGGATATACATCTATTAAAGATAAAACAAATATGTCGCTGATATCTACAGATGTATGCTTCCACCTTTCTTTGAGTACCGTTTCCCTTT
TGCTTAACCTGCAGAATCAAGCAACCACTGCCTTGCAATTTGGAAATGCTATTCCACTTGCTCCTTGTACCAACTTCGACCGAGTCTGGGTCTCTCCTAA
AGAAAATGGACCTCGGAACAAACTAACCTTTTGGAGGCCTCGGGCTCCAGCTAATTATGTAATACTAGGAGATTGTGTGACTTCAAGATATTCTAAGGAC
ACCATACTGCACACCCGTCTCTGTTTTGCTATAGCCTACATGCGGTCTACTCTCTCTGCTCCTGGCATACCATGTTGCCGATTCCTCCTTCTGTTGCTGT
CATGGCTGGTTCTTGTCTTGGCTGTGAATAACACATATGGACGTGTGCGAAAGCCAATTGGATTCAATCTCATTGCATTGTTATCTGAAATTCAAGGATT
TGGATGTGAAGGCAGTTCTGATATAGATTCTGATTGTTCGATATGGATGCCTGTTGCACCACCAGGGTACACAGCTTTAGGTTGCGTAGCACATGTAGGA
CGGCAGCCACCTGCAAATCACATTGTTTATTGCCTGCGCTCTGATCTAGTAGCATCTACTACATACCAAGAGTGCTTACTTTGTGCCCCACCACAGCAAT
CTTCTGCGTCTGGGTTCAGCATTTGGCGTATGGACAATGTGATTGCTTCCTTTTATGCTCATTCTTCGAGTGAATATCCTCCTAAAGACAGCAGTTGTGA
CCTCAGTCAACTTCTTCTGTGGAACTATGTAACTCATCCTTCACCAAAAGAAGCCATATTCGATTCAACTGGTGATGGATCTAAAGAATTAAAGAAACCT
GGAAATGATGGAGAAAATTCATCGGGGTGGGATGTTCTCAGATCAGTATCGAAAGCCACAAATTGTTACATATCCACACCTAACTTTGAGAGGATTTGGT
GGGATAGAGGTAGTGACGTTCGGAGACCAGTCTCTATATGGAGGCCTATTGCGCGTCTTGGTCATGCTGTCTTGGGAGATTGCATTGCTGAAGGCCTGGA
ACCACCTGCTTTGGGCATCATTTTTAAGGCTGATAGTCCTGAATTTTCTTCAAGACCTGTGCAATTCACTAAAGTTGCACACATTACCGGGAAAGGGATA
GATGAAGTCTTTTTTTGGTACCCAATTGCTCCCCCTGGTTATGCTGCACTTGGATGCATTGTCACTCGCACTGACCAACCACCAAGCACGAATTCGTTTT
GCTGTCCAAGGATGGATCTTGTTAACCAGGCAAATATCATCGAAGTGCCTGTTTCAAGATCATCAACCTCAAAGGCATCTCAGTGCTGGAGCATCTGGAG
GGTAGAAAACCAGGTCAAGATGATTTCAATGATTCTTGGTTGCTGCATGGCTAGCCCTGCAATTACCAATGAAATTCGTGAAATGTTTAAAATCAATTTT
TTGGATTGCACATTTGAGGGAGATCCTTATAACATTGTTTATGCGTTCATACAGGCCTGCACTTTTCTTGCTCGCTCTGATCTGAAAAAGCCCTCAAGCA
GATTAGCTTTCTCAATTGGTGATTCGATGAAGCCAAAGTCACGGGAGAATGTGACAGCTGAAATAAAACTCAAATGTTTCTCTTTCACTGTGCTAGACAG
CTTATGTGGAATGATGACGCCTCTATTTGATTTTACGATCACCAATATAAAGCTTGCAACACACGGTCGTATGGAGTCAATGAATGCTGTACTGATTTCA
TCCATTGCAGCATCAACCTTTAACACCCAATTTGAAGCATGGGAGCCACTTGTCGAGCCATTTGATGGGATATTCAAGTTTGAAACTTATGATACAAATG
TCCACCCACCATCAAGAGTTGCCAAGAGAATACGAATTGCTGCAACTAGTATCCTGAATATAAATATCAGTGCAGCAAATCTTGAAACTTCTGTTGGGAC
CATTTGTTCTTGGAGGAAGCAGCTAGAACTTGATGAGAAAGCAACCAAACTGAATGAGGATTCTGCTAGTCAAAATGCACCTGAAGAGGAAGCGGGTTAT
TCTGCTCTGGATGAAGATGATTTCCAGACAGTGATAGTTGAAAATAAGCTTGGTTGTGACTTGTATCTGAAAAGGGTTGAACAAAATATAGATGTTGTTG
ACCAATTACAACATAATGATAGTACTTCTGTCTGGGTTCCACCACCCAGATTTTCAGATAGATTAAAGGTTGCAGATGGATCTAGGGATGCACGTTGTTA
TGTTGCTGTACATATACTTGAAGCAAAGGAATTGCCCGTCCTTGATGACGGTAACAGCCACAACATGTTTTGTGCTCTACGGCTTCTTGTTGATAGTCAG
GCAACAGAACAACAGAAGTTTTTTCCTCAGAGCGCAAGGACAAAATGTGTGAAGCCCATGCTCTCAACCACAGATGAACTTGATGGAGGCACTGCTAAAT
GGAACGAATTATTTATATTTGAAATCCCACGAAAGGGGCATGCAAGATTAGAAGTGGAGGTGACAAATCTTGCCGCCAAAGCTGGAAAGGGTGAAGTTGT
TGGTGCAATTTCATTACCCATTGGACATGGATCAGCTATGTTAAAGAAGGTTGCATCAGTAAGGATGATGCATCAACCTAACAATATTCAGAATATTGTT
TCTCGTCCTCTTAGAAGGAAGAGGAGTAAAGGAACTGGAGACTCTTGCAATAGAGATACTGGTTTTTGGGTTGGGCTCAACTCTAGTGGTTCATGGGAGA
GCATTCGCTCATTATTGCCATTGTCGGTTGTTCCTAAGTCATTGGAGAAAGACTTTATTGCTATGGAAGTTATCATGAAAAATGGAAAGAAGCATGCAAT
TTTTAGGGGGCTGGTAACAGTGGTTAATGATTCGGACATTAAGTTGGATATTTCTGTTCGCCCCTTGTCTATGGTTGATGTTAATAATCCTTCGTTTGGA
TCACATAACTCGGCTGTTTTCATAGAAGAGATTTTTGAAAATCAACGTTATCATTCAACTTCTGGTTGGGGAAGCAAGTTGCATGGTTCTCAAAGCTCTG
ATCCAGGTCGCTGGAGCAGAAGGGACTTCTCTTATTCTTCAAAGGACTTTTTTGAGCCTTCTTTACCCTCTGGATGGCAATGGGCATCCAGTTGGATTAT
TGATAAATCTGAAGCGGTGGATGGTGATGGCTGGGCGTATGCACCTGAATTTCATAGTTTGAAGTGGCCTCCAACTTCACGCTCAAAATCGTCTCTTGAT
GTGGTGCGCAGAAGGCGCTGGGTGCGAAGGCGCCAAGAAATATGTACCGGATTTGGCAATGAGAATAACGACTTTTTTGTTGTAGATCCTGGATCCTCTG
CTGTGTTACCGTGGAGAACGTTACCGTGGAGAACTACTTCCAAGGATTCTGACTACTGTCTGCAAGTTCGACCTTCTGCTGGACATTCTTCATATTCATG
GGGCCAAGAAGTTAGTGTTGGTTCTTCCTATGCTTTTGCAAAAGATCAGACTTTGAATGATCAAGGCTTGCTTTCTAGACAAAGTACTTTGAAGCAGGGA
AGTAAGATGCCCATTGCTTTTAAGTTAAACCAGCTTGAAAAAAAGGATGTCCTATGTTGCTGTCCTAGCAGTGGAAGCAAACAATTTTGGTTCAGTGTTG
GTGCTGATGCTTCAGTTCTTACCACAGAGCTGAATGCGCCTGTTTATGATTGGACGATATCCATCAATCCTCCATTGAAGTTGGAAAATCAGCTATCTTG
TTCTGCTGAATTCACAATTTGGGAAAAGGCTAAAGAAGGTGGTTACACTGAGCAGCAGCATGGTATAATTTCTTCCAGGGAAGGTGTGAATATATATTTG
GCAGATATTCATAAACCCATCTATATGACATTGCTTGTTCACGGTGGTTGGGTGTTGGAAAAGTATGGAAGGGTAATCATCAAGGTTCTGCCTGTTGTTC
ATTTGATACCGTTACTCTCTGTTAGTTCCCTGAGGCTGCGTGTGAACATTGAGCGAGACATGGGGGGAACCTTTGCTGCTCCAAAAGCAATAAGGTTTTT
CGTTCCATATTGGATCATAAATGATTCCTCTCTGCCACTAGCATATCGAGTGGTAGAAATCGAGGGTATAGACAACACAGATGGAGATTCGCACTCATTA
TCTAGAGTTAAATCCGTGAAACACACCTCGAAAACCCCGATGATGGAGAGGCGGCGCTCTAGCATGAAAAGAAATTTTGACATCATGGAGGTTATTGACG
ACACCACCCCAATACCAAGTATGCTCTCACTGCAGGACTCTGCTGGTCGTAGTGGGGTAACATTATTTCCCTCGCAAAAGGATGCTTTTCTATCACGAGT
GGGTCTTGCCGTTGCTGTTCGCCATTCTGAGACTTACAGTCCTGGGATTTCTCTTCATGAGCTGGAAAAAAAGGAAAGGATTGACGTGAAAGCTTTTAGT
TCAGATGGATCCTACTACAAGCTGTCAGCCCTATTGAAGACCTCAGAAAGAACAAAGGTTGTTCACTTTCAGCCGCACACCTTATTCATCAACAGGGTTG
GTCGCAGTGTGTGTCTTCAGCAGTGTGATTCTCACTTGGTGGAATGGGTTCATCCTACAGATCCTCCAAAGCCTTTTGGATGGCAGTCCTTTGCCAGGGT
TGAGATGTTGAAGCTGCGTGTTGATGGATACCAGTGGAGCATACCGTTTAGTGTTTATAATGAAGGCACTATACGAATTTCCTTGAAAAATGATGTGCGG
GATGATCAACTGCAGTTAAAGATACAAGTACGAAGTGGTACAAAGACCTCGCGATATGAAGTTATATTCCGTCCAGACTCTTCATCTAGTCCTTACAGGA
TCGAAAATCGTTCCATGTTCTTACCTGTTCGGTTTCGGCAAGTGGACGGAGTTGGTGATTTGTGGAAACTTCTACTTCCTAATGCATCTAGTTCTTTCTT
TTGGGAGGATCTTGGTAGAAAGAGGTTACTGGAACTCTTTGTAGATGGGTCTAACTCATTGAAATCATTGCAGTATGATATTGATGAGATTTGCGATCAC
CAACCCACACAGGTAGAAGATGGACCTTCTAGGGCCCTGCGTGTCACTATACTCAAGGAAGACAAGGTGAATGTTGTTAAGATCAGCGATTGGATGCCAG
AAAGTGAACCAGTAGGCACTGTAGGGATAAGAGGACCTTCATCAATGTCACAGTTATCAGGGAATGACTATCAACAGCAGCAATTCCCAGCTAACTCCGA
TTCTGAATTCCATGTTATTGTTGAGCTAGCGGAACTTGGAATCTCTATTATCGACCATACCCCTGAAGAAATTTTATACATGTCAGTGCAGAATCTGCTG
TTGGCATATTCTACTGGTCTGGGATCTGGTTTCAGTAGGTTCAAGTTAAGAATGCACGGAATACAAGTCGACAACCAGCTGCCATTAACTCCAATGCCAG
TTCTTTTCAGGCCACAGAAAATTGGAGACGAGGCAGATTACATATTGAAGTTTTCCATGACAATGCAATCAAATGGTTCACTTGATTTATGTGTCTATCC
TTACATTGGATTTAGTGGACCTGATAGTGCTGCCTTCTTGATTAACATTCATGAACCTATCATTTGGCGCCTTCATGAGATGATGCAACAAGTCAACTTC
AGTAGGTTATCTGACACGCAAACAACTGTTGTTTCTGTTGATCCGATCATTGAAATTGGTGTGCTAAACATATCCGAAGTTCGATTCAAAGTGTCAATGG
CCATGTCACCAAGTCAGCGACCAAGAGGAGTGCTTGGGTTCTGGTCATCCTTGATGACTTCTTTGGGGAACACTGAAAATATGCCTATAAGAGTGAATGA
AAGATTCCATGAGAAAGTGTGCATGAGGCAGAGTGCAATGGTTAGTAATGCTATTGCAAACGTCAAGAAGGATATTCTTGGACAGCCTCTTCAACTACTC
TCTGGTGTTGATATACTGGGTAATGCAAGTAGCGCCCTTGGACACATGAGTAAAGGTGTAGCTGCTCTTTCAATGGATAAGAAGTTCATCCAGAGTAGGC
AAAGACAGATATGTAATTTGATATTTAAGGAAAACAAAGGAGTGGATGACCTTGGCGATGTTATCAGAGAGGGAGGAGGAGCTTTTGCGAAGGGGTTATT
CAGAGGGGTCACTGGTATTTTAACAAAGCCCCTTGAAGGCGCAAAATCTTCTGGGGTAGAGGGTTTTGTCCAAGGAGTTGGAAAAGGATTAATTGGTGCA
GCTGCTCAACCTATAGCATCTGCCATAACGTCAGAAGAGCAGCTTCTACGAAGGAGACTGCCCCGAGTAATCGGTGGTGATAATTTGGTTCGACCATATA
ATGAGTACAAAGCGCAAGGCCAGGTTATTCTTCAACTGGCGGAGTCCGGCTCCTTTTTTGGCCAGGTTGATCTTTTCAAAGTACGTGGGAAGTTTGCCTT
ATCAGATGCTTATGAAGATCATTTCATTCTTCCTAAAGGGAAGATTGTTATGGTCACGCATAGAAGAGTTATGCTATTGCAACAACCTTCAAACATAATT
GGTCAGAGAAAGTTCAGTCCAGCTAGGGATCCATGTTCAGTACTGTGGGATGTGCTGTGGTGTGACTTGGTGACCATGGAGTTGACTCATGGGAAGAAAG
ACCAACAAAAGTCTCCACCTTCGAAGCTGCTAATCTATCTACAAAGTAGACCAACCGAGTCGAAGGAGCAATTCCGAGTCGTGAAATGCAGCCGTGAAAC
TGATCAAGCTCTTGAAGTCTACTGCTCAATCGAACGAGCGATGAATACCTATGGACGCAACACTCTACAGGAACTGCTGAAGAACAAAGTGATGAAACCG
TATGCACCAAGTTCAGAAGGAACCCATAATATGGAAGCAATGACGAAAGAAGGGAATTCTTCCTGGCATCCTCCAATCCCCAGACACCCTTCTAATTCGA
CTTTCGGCAGCAGCACCAACTGA
AA sequence
>Lus10037833 pacid=23167198 polypeptide=Lus10037833 locus=Lus10037833.g ID=Lus10037833.BGIv1.0 annot-version=v1.0
MFEVHEGELNLDMAGCDVVLKDLKLKAEALNSLNLPVTVKAGFIGTITLKVPWKSLGKEPVIVLIDRVFVLAHPAPDDRTLKEEDRIKLFEAKLQQIEPP
PGNSWLGSLIGTVIGNLKISISNVHIRYEDSSSNSGHPFSCGVTLAKLAAVTTDEEGNETFDTSGALDRLRKSLQLERLAMYHNTDSLPWKINNTWETLS
PKEWVEIFEDGINEPEACKGSVSKWAAGRSYLVSPINGVLKYHRLGKQERIDAEVPFEKASLVLTDVSLTMTELQYHDWIKLLEVVSRYKTYVEISHLRP
EVPVSQDPSLWWRYAAQAILQQKKMCYRLSWDRIRYLCQLRHRYVQLYAASLQQSSDEHIKEFREIEKDLDSKVILLWRLLAHAKVETAKTKEAAEQRRL
KKKSWFSLGWSTDTVDESEVGVSDGTEFEEENLTKEEWQAINNLLSYQPEEELKPHLGKDMQNMVKYFLTVSIEHAAARIIDMNGIEIVCGRFERLHVST
KLRNRSMHCDVLLKFYGVYAPEGSLAQSVSSERKAHALSASFVHSPVGENIDWRLSATISPCHATVLMESLDRAFEFMKRSNAVSPTVALETANALQMKL
EKVTRRAQEQFQTALEEQCRFAFDIDLDAPKVRVPIKPIGSSKCDTYFLLDFGHFTLQTKERQSDEQKQSIYSRFCISGRDIAAFFTDSEEGNGDFYSMV
DRCGMDVIVDQIKVPHPRYPSTRISVQIPNLSIHFSPERYHKLMELVNILNNTVENCEQSTVNNFQQVSAWNSADFATDARILVWKGIGNSVATWQPCFL
VLSGLYLYVMESPDSQSHQRYLSMAGRQVDDVPPSNVGGSPFCIAVSLRGMDIQQALESSSTWILAFLDEEVKATWLKGLTHTIYQASAPSTLSLLGETG
DLVGDIGGEFNEPHTPNTRAADLVVNGSLVETRICIYAKPGDEVDKKSEETLIAEILASGGKVYLIHSLGDLTAKMKLHSLKIKDELQSYPSTNPQYLVC
SVVNNEKPLPSPHTPEPQGKDTPVVASDDTDAFADALPEFLNLSDSIYSPRLDMSHSGDVSDLYGSSEFDSDDLLQRRSISNEIFYEAQGGDHVDFVSVV
FSTRSSASPDYDGIDTQMSIRMSKLEFFCNRPTLVALIGFGIGLSSVGSVKSNDDETENLDDKSKGKEKSEDTERVKGLLGYGKNRVVFYLNMNVDNVTV
ILNKEDGSQLAMLIQESFLLDLKVHPSSLSIEGTLGNFKLCDMSLGKSHCWSWLCDIRNPGIESLIKFKFNSYSTEDDDYEGYDYSLSGRLSAVRIVFLY
RFVREITAYFVQLATPQTEEAIKLVDKVGGFEWLIQKYEIDGATALKLDLSLDTPIIIIPRNTTNKDFIQLDLGQLKVTNELSWHGNPEKDPSAVHMDVL
HAEILRFNMSVGIDGCLGKPIVRDGQGLDIYVRRSLRDVFRKVPTFALEVRVGFLHGVMSDKEYKVILDCISMNLNEEPCLPPIFRGSKSDSTDAMQLLV
DKVNMNSQMLLAHSVTIMAVEINYALLELCNGVHESPLAHLVLEGLWVSYRITSLSETDLYVTIPKFSIVDIRPGTKPEMRLMLGSSADASKQTSSGSLP
YHQNKGSFRRLNSTSVDEFINDGCGKTIVLSEQSSLKETDTSHPQPIIIIGRGKRLRFVDIKIENGFLLRKYTHLSNDSSYSVSIDDGVDISLLEYSSPK
ERLQDYMREASASTSTFNSQIESNILPSVTFEAQVVSPELTFYDSTKSSLDDSSYGEKLLRAKMDLSFMYASKENDTWIRAAVKDLSVETGSGLMILAPV
DISGGYTSIKDKTNMSLISTDVCFHLSLSTVSLLLNLQNQATTALQFGNAIPLAPCTNFDRVWVSPKENGPRNKLTFWRPRAPANYVILGDCVTSRYSKD
TILHTRLCFAIAYMRSTLSAPGIPCCRFLLLLLSWLVLVLAVNNTYGRVRKPIGFNLIALLSEIQGFGCEGSSDIDSDCSIWMPVAPPGYTALGCVAHVG
RQPPANHIVYCLRSDLVASTTYQECLLCAPPQQSSASGFSIWRMDNVIASFYAHSSSEYPPKDSSCDLSQLLLWNYVTHPSPKEAIFDSTGDGSKELKKP
GNDGENSSGWDVLRSVSKATNCYISTPNFERIWWDRGSDVRRPVSIWRPIARLGHAVLGDCIAEGLEPPALGIIFKADSPEFSSRPVQFTKVAHITGKGI
DEVFFWYPIAPPGYAALGCIVTRTDQPPSTNSFCCPRMDLVNQANIIEVPVSRSSTSKASQCWSIWRVENQVKMISMILGCCMASPAITNEIREMFKINF
LDCTFEGDPYNIVYAFIQACTFLARSDLKKPSSRLAFSIGDSMKPKSRENVTAEIKLKCFSFTVLDSLCGMMTPLFDFTITNIKLATHGRMESMNAVLIS
SIAASTFNTQFEAWEPLVEPFDGIFKFETYDTNVHPPSRVAKRIRIAATSILNINISAANLETSVGTICSWRKQLELDEKATKLNEDSASQNAPEEEAGY
SALDEDDFQTVIVENKLGCDLYLKRVEQNIDVVDQLQHNDSTSVWVPPPRFSDRLKVADGSRDARCYVAVHILEAKELPVLDDGNSHNMFCALRLLVDSQ
ATEQQKFFPQSARTKCVKPMLSTTDELDGGTAKWNELFIFEIPRKGHARLEVEVTNLAAKAGKGEVVGAISLPIGHGSAMLKKVASVRMMHQPNNIQNIV
SRPLRRKRSKGTGDSCNRDTGFWVGLNSSGSWESIRSLLPLSVVPKSLEKDFIAMEVIMKNGKKHAIFRGLVTVVNDSDIKLDISVRPLSMVDVNNPSFG
SHNSAVFIEEIFENQRYHSTSGWGSKLHGSQSSDPGRWSRRDFSYSSKDFFEPSLPSGWQWASSWIIDKSEAVDGDGWAYAPEFHSLKWPPTSRSKSSLD
VVRRRRWVRRRQEICTGFGNENNDFFVVDPGSSAVLPWRTLPWRTTSKDSDYCLQVRPSAGHSSYSWGQEVSVGSSYAFAKDQTLNDQGLLSRQSTLKQG
SKMPIAFKLNQLEKKDVLCCCPSSGSKQFWFSVGADASVLTTELNAPVYDWTISINPPLKLENQLSCSAEFTIWEKAKEGGYTEQQHGIISSREGVNIYL
ADIHKPIYMTLLVHGGWVLEKYGRVIIKVLPVVHLIPLLSVSSLRLRVNIERDMGGTFAAPKAIRFFVPYWIINDSSLPLAYRVVEIEGIDNTDGDSHSL
SRVKSVKHTSKTPMMERRRSSMKRNFDIMEVIDDTTPIPSMLSLQDSAGRSGVTLFPSQKDAFLSRVGLAVAVRHSETYSPGISLHELEKKERIDVKAFS
SDGSYYKLSALLKTSERTKVVHFQPHTLFINRVGRSVCLQQCDSHLVEWVHPTDPPKPFGWQSFARVEMLKLRVDGYQWSIPFSVYNEGTIRISLKNDVR
DDQLQLKIQVRSGTKTSRYEVIFRPDSSSSPYRIENRSMFLPVRFRQVDGVGDLWKLLLPNASSSFFWEDLGRKRLLELFVDGSNSLKSLQYDIDEICDH
QPTQVEDGPSRALRVTILKEDKVNVVKISDWMPESEPVGTVGIRGPSSMSQLSGNDYQQQQFPANSDSEFHVIVELAELGISIIDHTPEEILYMSVQNLL
LAYSTGLGSGFSRFKLRMHGIQVDNQLPLTPMPVLFRPQKIGDEADYILKFSMTMQSNGSLDLCVYPYIGFSGPDSAAFLINIHEPIIWRLHEMMQQVNF
SRLSDTQTTVVSVDPIIEIGVLNISEVRFKVSMAMSPSQRPRGVLGFWSSLMTSLGNTENMPIRVNERFHEKVCMRQSAMVSNAIANVKKDILGQPLQLL
SGVDILGNASSALGHMSKGVAALSMDKKFIQSRQRQICNLIFKENKGVDDLGDVIREGGGAFAKGLFRGVTGILTKPLEGAKSSGVEGFVQGVGKGLIGA
AAQPIASAITSEEQLLRRRLPRVIGGDNLVRPYNEYKAQGQVILQLAESGSFFGQVDLFKVRGKFALSDAYEDHFILPKGKIVMVTHRRVMLLQQPSNII
GQRKFSPARDPCSVLWDVLWCDLVTMELTHGKKDQQKSPPSKLLIYLQSRPTESKEQFRVVKCSRETDQALEVYCSIERAMNTYGRNTLQELLKNKVMKP
YAPSSEGTHNMEAMTKEGNSSWHPPIPRHPSNSTFGSSTN

DESeq2's median of ratios [FLAX]

Order by: Show schematic diagram

Coexpressed genes

Only top 10 genes are shown Show allDownload tab-delimited text
Schematic diagram [FLAX] Schematic diagram [POPLAR]

*If you select 4 or less genes and then press "compare expression", expression will be shown as a graph. If you select more than 4 genes, expresion will be shown as a heat map.
*Color represents relative expression level among samples for each gene.
At best At TF class At alias At description Locus MR r Symbol HYPR_s2_CTRR_s2_FoxR_s4_CTRR_s4_FoxR_r1_CTRR_r1_FoxR_r3_CTRR_r3_FoxR_r1s2_CTRR_r1s2_FoxR_r3s2_CTRR_r3s2_FoxR_s6_CTRR_s6_Al4R_s6_Al12R_s6_Al24R_s8_CTRR_s8_Al4R_s8_Al12R_s8_Al24R_r5_CTRR_r5_Al4R_r5_Al12R_r5_Al24R_r7_CTRR_r7_Al4R_r7_Al12R_r7_Al24LEAF_NLEAF_PLEAF_NPKSAMAR_BetAR_rdfcPARTOP_BetTOP_rdfiFIBaiFIBbMID_BetMID_rdftFIBatFIB_GrtFIB_LitFIB_BitFIBbtFIBb_PUL8tFIBb_PUL24tFIBb_PUL96tFIBb_OPP8tFIBb_OPP24tFIBb_OPP96sXYLasXYLbsXYLb_PUL8sXYLb_PUL24sXYLb_PUL96sXYLb_OPP8sXYLb_OPP24sXYLb_OPP96
AT1G48090 calcium-dependent lipid-bindin... Lus10037833
[exp]
0 1
AT1G48090 calcium-dependent lipid-bindin... Lus10017107
[exp]
1.0 0.9876
AT1G58230 binding (.1) Lus10028167
[exp]
2.0 0.9817
AT1G48090 calcium-dependent lipid-bindin... Lus10017108
[exp]
2.4 0.9778
AT2G46560 transducin family protein / WD... Lus10005975
[exp]
3.2 0.9749
AT1G55860 UPL1 ubiquitin-protein ligase 1 (.1... Lus10032589
[exp]
3.5 0.9755
AT1G58250 SAB SABRE, Golgi-body localisation... Lus10002603
[exp]
5.0 0.9336
AT2G26890 KAM2, GRV2 KATAMARI2, GRAVITROPISM DEFECT... Lus10033077
[exp]
5.9 0.9640
AT4G17140 pleckstrin homology (PH) domai... Lus10011036
[exp]
6.7 0.9521
AT4G31570 unknown protein Lus10026934
[exp]
8.1 0.9421
AT1G24300 GYF domain-containing protein ... Lus10035191
[exp]
8.9 0.9607

Lus10037833 coexpression network

*The number of genes in the network is adjusted within 50 genes.
*Gene name represents symbol(s) of closest Arabidopsis gene if symbol(s) for the gene itself doesn't exist.
*Circle diameter represents the number of connection with other genes within this network.
*Color for gene name represents subnetwork based on the result of network clustering.