Sgr015227 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr015227
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionLEA_2 domain-containing protein
Locationtig00003063: 900252 .. 911826 (+)
RNA-Seq ExpressionSgr015227
SyntenySgr015227
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonCDSpolypeptide
Hold the cursor over a type above to highlight its positions in the sequence below.
ATAATGAAATGGGGGTGGGGGGGGGGGGATTGTATAAATTGAAGTATTTTTGGGGGGTGAGAGATGAAATTTGTGGAGAAATTCGGGGTGAGACTTTTCAGACATTGGGAGTAGGGACGATTATCACTCGCAATCAATTGTCTGAAACTCTGTAGTCTGTACCACTACTAGTCTTTTTCCATACACTCTCTTTTGTATTTTCCCGTTATAGATAAGTAGGCCTTTTTGGAAATTTTGTTATCTTTTTCCATTTAAAATCATAGAATAAAAAAACATCTTTTTTTGGTTTTATTTTTACCTTTTTTTTTAAGCAACGATACAAAACCTCCTGACATATTAAATCATTTGAGACTAGCTACTATGGATTCAACTCATTCTTCTAATATATGTCTTGGTTTTAAATTTTAGGTTATTTTTTAATTTGGGTGTTTTAAATTTCAAAGATTTTATTTTAATTTCTAAAATTTTAATAAGTTTTTGTTCACTTCTTTCCCTTTAATTTTTTTTATTAAAAAAAAAACAATATGACTTGTTTTCTCTTGGAGATTGACAATGACATATAAGATTGTAAATGCTCAAAATTTTCCAGCTAGGTTTTCTTTAATCTTCTTAACTATTATACACATTTTGACCAAGTTCTTTCGAATTTGATGCAGTTGATGTTTTTTTTTTCTTTTTTTAGAGAATAATGTGAGTGATGTTGTTATTATGTCCATGTCATGAATTTATTAATAATGTATGGTTGTAATCAACAATAAATATATTGTCTCTTTTTTTTTTTTTTAAATTTCTTGCTTGCATTGAGGAATGAATTTAAATTTTATTTAAAACTTGAGCAATTAAAATAGAATTTTATAAGTTTTAGATCCAAATTATAAAATGAGCCTTAATTTTCAAGACTAAAAATTATATGGTCTAAATTCCATTATGGTACCTAAACTTTCAGCTCTAGTCTCTTTTGGTCCACAAACTTGGTATGTCTATTTCATTTGGTAAATTTTTTAAAAATAATTATTTTGGTCATTGTTATAATTTTGCTATTTAATACCTACATGGCCAATTTATATAGCTTCAAAATGTCTATATTATTACACATATTCTTTAAGCCACTTTATCTATTTGTTAAAAGAAAAATAAGTGCAGCAATTAAAATGATTGTTTTTTCAAGAGTCAAAATAGAATAAACTTAAAAGGTTTAAGAACTAAAACAAACATTTTAACGGGTTTTGATCAGATGGAAGAGTTCTATGAAGAAAGGAAGAGCTCGCGGAAGGTGGCAACGGCGGTGGCGGGGCATCAAGTTCCTCTGTACGGCGGGATCTCGGTGATCGGAAACTGGAGAGAGCAGCGGCTGGAGGGGGTGGAGGTGCCGCTGAACCTGACGGTGGGGGTGAGGTCTAGGGCTTACATTCTGGGGAAACTGGTGAAGTCCACATTCCACACCACCATCACCTGCGCAGTCACTCTCAACAACAAGAATCTGGGCAAATCCCACTCTCTCAACAATTCTTGCACTTACACTTGAAACAATGTATTGCCTTTAGACTTCTCCACAAATTTTGGTTCCTAAGATTAATTATTTCATCATCTCTTTCTAATGTAAGTATTGTATTTTAAACACAAACTCTGTAATTTTTTCTTGTCTTTCTTTTTTTTTTTTATCTACAAATGCTTTGGAAGCAGCTTCCAAAATAGCTTTTCTTTTTTTGCTGTTTTTAAGGATTGTGATCTTGGTCAATGTTACTGTATGTGTTTCAAATCATTGTTCTTGCAAACATATGATTTTGAAAAGAAGAATAGTATAGGTCACTTGGTAAGAACAAACGCACATAATAAAGCAAAAACACTCAACGTATTGTGCTTAATTCCAATTTGGTCTCTATGTTTTAGTTAAATCTTTAAAAACATCTCTTAAATTTACCAAATATTGACATTTTCTTTTACATACGTGACTCGTTTTCTTTGGATCCTAACTCAATTGCCTCTATTTGCCATTTCAATATACATTATTTCATCATTTAATAACCCACCCAATGAGTTCAAAAAAAAAATGTCATTAATATAGGGTCAGTGATTCAAATTTTTTAGATACAAGAGAGAGTTACTAATACCTTTAATCAATTGAGCGCTTCATTGATAATATGTTATCAGAAACATATTAATATGTTCGTATATTATATCGAGCAGTCTCCAAGCCTCCTCAACTCTAAGTTCATTTCTTAGAAGCATCCCTCACAAATTCAATCAAGCTCACCAAAAGAACAATGAGAAAAAAGAAAACTCTCAATAAATAATAGTCTCACCCCTATGATTGAAGAGTGGTATAATCTCCAAATTATTGATTAATTTTGAAATAATCTTTCCTCCCTACACAAACAAACAAACACATTTATGATTATACACTTCACATTGCCAAGTATTAGATTTGGAAAACATTCAACACTCAAAACTATATATAAAATACAAACCCTAAGTATATCCATATCCTCTCCTTTAGAAGACTGCCTTCTCTCCTCCTTCCATTAGTGAGGCTTAAAGAAACTGGCCTCAACACCAGTATTAATCACCACATAAACACCAGCTGCAATCATGGCCAAGCTCAACCCCATGCCTAAAACCCCCAACACCCAATTTACCCACCAGATCATTCCATATTTCTTAGGCTTTCTGATCTTCAGCCACATGAAGCATGGATAAGCAAACGTCACCGGCAGCGCAATCCCGCCGACGAGCCCCGCCATGCTCCCCAGAAATGGGATCGCCACCGCCACGAAGAAACACAGGTAGCTGAATACGGTTCGTAAGATGATCCTTAGCCACCATGGGCATGCCTGCTTCTTCCTCCTCGTGTAGCACGCTTCAATGGCGTCGAACATTGGCATGCCGTAGATCTGGAACGAGCTCATGGCATTGATTATCACTAATAAGCTCGTTAAGCCGATGAGAAACTGTGAGGTGTCGCGGGCATGGAAGGCGTACAGAGCTGTTAGCATCCCTCCATTTTTGGGTATCTGCAAAATTTAACCACAGCGTGTAAGTTCATCAGAATGGCTTTCGAGAAAGAGAGAGAGAGAGAGAAATATCGAGTATCTCTGAGATGGTTTACTTTTCCGCCGTAAGCCCAGTAGCCTCCAATGGCGAGAGGAAAGAGACACATCGCTATGAGCAAATATGCAAACTTGACCCCTCTCCACATCGGAACTCGCGATGGGTGCTTCTCGCTCGACGGCATTGTCGCCTGCAACAACAACCAACAAAAGAGATTAAAAGAGCCCATTAATGGAGGTTTCAAAACGCCATTGCAGAGGATTTGATCGTCAGTTACCTGTATCTCAAGGACGAGATTGTGCCCTCTGAAAGCAAAAGCGACGATTCCCAGAGCGTTCAATGCGTCAAAGGCCCTAGCCATGTTGGTGTTGGCTTTCACCGGATCGTAGGAAACGCCGGGCATTCTGCCCTTCACGACGGAGATCATCCATATCAACGTGCAGTAGCCGATGGCAGTGATGGCTCCGATCAATGACACGCCGGCGATGGAGTTCAAGTTCGGGAGCTGAGCTAACAGGACGGCGGCGCAGGTGAAAACCAAGTACCATTCGGTCGGCGTTAAGGAATCCGCTCTGCAGTTGGTTCCGCAAACGATTTTGAAGAATGTGTTCGACGTTGAGCCTCCGATGATTATCAGAGCCACGCAGGTGCCGGCGGAGAGGTAGAGGATCGGGAAGAAGGCCAGCAGCCTTGAAAGCTTGTCGCCTGAGAAAGAAAGAGAAAAATTAAAGACTAATTATAACAATTTTGTTTTGAATTTTCTGGCATGTTTAATAGACATTAAGAAATATTCTGAAATTTTTAGTTAAATGTTAAAAATTAGTTTTTCTTTTTTTTTTTTTTTTTTTTTGAAATTTTCTCAATTTGAGAAAGATTAGGATAAAGGAAATTTTAGTGATTTTTAAAAATAAAAAAAATAAAAAAATTGTTTTTAGGCTTAATAAAACATATTTTTGTATAATTGTTTTTTTTTCTTTTTCTTGAGGCTGTTATTATAAGTACCGTTTTTTATTATTTATTTTTTCCAATTGGACTTTTAAACAACCATTTGTAATGCAAAGCAAGCAATCTTTATTTAGAAAATATTTCTTAAAAATTATATTATAAAGCAAACGGCCAAAGAACTTAATTTTTAAACACCACACGTAATTTTGTTAATAAACTAATCACCAATTTGGTAATTATTTTGTGTCTAATTATTTTCTAAAGAAACTGTTTAAAAACAATTTGTTTTTTCTTTTTATTTTAAATAATGTTTTAAAATTTAAAAAAAAAATTCAAAAAATTTAAAACTAACTGTTTCCAAAACTTTATCTTTCAATTTTGAAACTTGATTGGAATTTCAAAACATCAATAAGAAATAGAAACCATAAAAGAAATTATTACCACACCAACTCGTTTTTAAAAAATAAAGCATGATATTTTAAAACTCATAAGGGTGGGTTTATTTTAGTCCATTGGATAAGATTTTTGTTTTATTTATGTCTTTAAAAATTATGTTTATTTTATTAATATTTTTATATTTTCTAATTTAGTTTTAAGTTTAAATTTTACTTTGGTCACTTTCAAGACCATTCTATTTTAATCCTTATACTTTTTTTTCGGTATGTTTTTGAATTTTCAAAATGTCTATTTTAGTCTATAAATTTTTAAAAAATATCATTCATATCCTTACGGTTATTTTTATTTTAACGAACGGATATCATGGCTTCGAGTGTATATATTAACGTATTGACATGTGTATGTATTTAAGACATGTAAGTTTGTTAAGGTGAATATTAGGTGACAAAATAACAATAAGAACTAGAATGGTTAATTTTTTTAAAATTTAGAGACTAAAATAGACCTTTACAAGTTTAGGAACCAAAATAAATTAAATCTAAAAATTCAAGGATGAAAACTAAATTTAAACCTCAATTTTAAAGCCATTTTGAAAAACATAGTTAAATTTAAAAACTAATAACCTACTTTTCATTTTTGAAATTCTAACTAACATTTCCAAGCTCCAAAGTATTTTTAAAAAACGATAAACTAAACGAACATAATTATATATAAATTTTATAAGTTTAATTTTAAAAAACATGATATAAAAAACCAAATAATTTTCAAACCCCCTTAAGCAATTTCATTCTAACCAAACTATATATATAAAATATAAAATGCACATGCAAAATATGAAATATATATATTATCATGAAAATACGCACCAAAAGTTACGCTAAATAGTTGAAGATATCTACTATATCGCAGCCCAGTCTCTGTGGATTCATGGAGTTGAACCATCAAATATAAAGTATAAAGTTGCCATATGAACGCCACCGTCAAGCTTATGATCCCTCCGGCCCTGCAACCAGAAGCTTTCAAAAACCCATTGAATTCAAACTTATTGTAAACGATCAGTGGTTTTATTTACCATCCGAGAATGGTGAAGGCGACGGGGAGCACCAGAGCCTGGATTCCGATGCCGGAGCAGAGGGTGTGGAAGGCGGCGTAGAAGGCGTTGCCGTTTCTCGACTCGGTGATCGGAAGCCAGGCGTCGTGGGGGTCCAGCCTCGTCAAGTTGAGGGCCCGTCGGATCGGACTTCCGATCGGAGTGATATTGAACCGCGGTCTAGGGCTCGACAGTCTCGGAGTTTTGCTCGCAATTTCTATCTGGTCGTCGCCGGAGAGCAGCGGCGAGCGGGTTAGAGACGGTGAGTGGAACTGTGCGGGAGGAGCTACGACGGCCGGTGTGGCGGCGGTGGCCGGAACTGCTTCTGTTACTTCACCCATTGGCTTTAGAGTGGAAGTTGAGACACCCCCTCAAGCCCTTCCACCAGCTTTCTTCTATAAGGCTATATTTTTGCACATTAAACTTGAAAAAGGATTCTTATATAAACCCATTTTGGGGATTAAAAAAAGGGATTAAATTGAAATTTAAAAGTATATTAAAAAAATAAATAGCTTGAAATTCAAAATGGCAGCTTGTGAAGTTGGGTTGTGTCAAAGGAATGATCATTTTTGTAGTAATTTTTAAGCACTAGCGGTCAAGGAAGATAGTTGGAAATTTAATTTATAAATGATATGGTCAGCATAGTTTTGGCCTTATCTTTTTGCATAGCTTGACTTGGTGGGTTTTTTGTGGTTATTTTGAAAAGATATATATAAAAAAATAGAAATGTGAGATAGGTGGTAAAATTCTTTACAAAATTTTGATAGTTGAGTCTAGGTCAAGATGAATGATGTTAAAATCCATTGTGTTGTTGAACAAACAAGTTAAGTTACACTTTTTAATGGAATCGTTTGAGCTCAACATTCGATTTTAGACCAAATTTTTGTTGGAAATAACAAATAAAATTATTTAACAAATATTATAAATGATTTTCGAGTAGAGGGATACATGAATGAGCCCAACATCACATTGGAATGAGAGGAATCTTGAGACTACGCAATTAAGATTAAAATAGGCTTAAAAGAAATGAAACTGATAACTACTATATATACAAACGAGGTATACGTTCCTTTTCGGTAGCCCATCCATGAGAATTTCAAAGTTAAATGTGTTTAGCCTGAAGCAATCTGCGTGTCCTTTACCAAGAGACACATAGGATGTGTTGTTTCACTTTATGTAGTAAATTATTATACTCACGATTTATGCGATTGTTACAATGCCCACGACAATTTACATATATGTAGTTTTCTAATGATAATCATGCTTTGCAACTTAGTTTTTTCTTTCCCTAAATTTCTTCTTCTCCCTCGTGTATGTTTACTTGCTATTAACTTCGGTAATTTATGTGATTGAGGTATTAAATTCATATACATTAATAATATGTCTCATTAATTTTCAGAGACAATTGTTTGTTATTCCTTAGCACCTAAAAGGAACAAATTTGTCTCGAAAAACAACTTTTTGTAACCAGTTAAAATTAATTGATTTCATTCTTTTACCATCATTCTAATTAACATTTTTTTTATGAAACTTATTTTTATAATCATAACTGCTAAATATATAACTTAATTTTTTCTCTTTCAATGAAATTATCTATTTAAGAAAATACATTATTTTAAGAACGTTAATAATTTTTTTAACAAGAAAATCCTTGACTTGGCGTAGTCCAAATAATAAGTGTAGGATTTTCATGGCAGTTTGTTTTTAAATCCTAGCCAAAATTGCATTATACTTGTAGGGAAAAAGAAAAAAAAAAAAAAAGAAAAGAGATAGAGAGAGAGTTAAAAATGAAGGTGATTTAATATATTATATTGTCATTCCATGTTTGTTATACAACATTACAAAATAATTAATGAGTATTTCTGCCAAAAAACGTCATCTCTACGTCAAGTGATCATAAAAATATTTTGGATTAATTGATGGTTGATCTTATCCCATTTTCTAAAAATTGAAAATTTCAATAAATAGTAGATCTAGTTTAATATTGTTACCTAAAGTAGCATTAATTTCAATTTTTTTAAAAAAATAGGATTAACTAATTAGTATTTTTTTAATTGAAAAAAAAACTAATTATTAAATCTAAATTTATTAAATTATTAAATAATGTAGCAATAACTTTTTTTAATAAATTACTAATATATTGTCCACTTGAATCTAATTTAATTGATCAAGACATTTGTAACCTCTCTTGAAAATCATAGATTCTCACATTTTATGTTTGAATTATAATACTCTAATAAAAAAATATTTATTATTGAAACATAACCTATAAAAAAGATTATTAATACATTGATCGGTTGAACTATATTTAAGTTGGCTAAACATTATTATATTATAATAAATAAAACATGTCACCAAATATTTATATTTTTGTGAATAAAGCTACAAATTATTAGTTAAATTAACATTTTCCCCCTAAGAATCACATAATTAATAATCAAATGGATCGATCATTTCACATGTATAATTAATAATTATATGTTTTAATAATTGATAGAAATTATTAAGTGCTTTTTGTAATTCTTGTTATTATAAACTACAATTGCTATATAAGAAAATGTGTGTAAAGTTTGCCATTTCAGAGAAAACAAACTCTCTTCGCATATATACATGCGTATTATAAGCTTGTTTGGTTTCGTTCACATGGGTTTTTTTAGAAAAATATTTGAGTATAATCGAATCAACTTGAATTTATTATTAATTAAAAAATAAATCAATCCATATTAACTTCATTTCACTAAATAATTTTTTGACTTTTTACTAAAATAATTCCTGAATCATTAAAAGTATACTTTTTTTATAACATAAAATACGACATTGATGTATATTAATTTCAATTCAATATTTGAAAATAGGTACTTACATAAATAAATTAACTAACATTTTTCATTATTTTTTATACAAAATTTTGAATAAGTGATCCAAACAATTTAAATCAACCCAATCTAACTCAACTCAACTCAACTCAAATATTTAATAGTATAGTTAGGTCTCGAACAATTAAGTTGAGTCTAAAAAATTTCTCAACTCAATCGAACAGAACCAAATTCAACTCAACTCTTGATCAAAATATTTCTTAATTTTTTTAATTATTTTTTACAAAAGTTATAGGTACTTTAACAGGATAAGAGGAATTAAATCGACCAAACTTGGAATAGAATTAAAATATGATTTTCAAAGGTATGTGACCATAGCCCTTCGTTTGAATTAATTTCATAAATTATTGGATGTCATGAATTAATTATATAGTCAAGTTGTTATAATAAAGTTATAATATTTCAAAAAACCGATGGCGGTTCAAGTACGTTTAAGGAACGCTGGTTTTCTAAGAATGCAAAAGACTTTTTTGTCCCAAAAAAAAAAAAAAAAACAATTTGTTCTTTGCTAATCAGAATTATAAATTTGTTTTGGTTGCCATTTTAGACTCTGATAATATTTTTAAACTATTTGGTATTTAAGGGTTACGTTAATTATTGATTAACATCAAATAATTTTTCATTAATTATTGTTTCTAGCTTGCTTTTCTCATTTGATTCTCACACATGGTTTGAGATTATGGGCTATTTGTATTTTGTTTGATACAAATATCATTTTTTTAAAATTATTATTAAAATATATTATAATATTACATGTGAAACGACTAATGACTAATGAGGGGGGAAACCATTTTTTTATTATCTTTGCATTTAATCTTGTGAGTCAATTTTTTTAACCTTAAGTTTTGTATTTTTTTATTTCCTCCAATTATAAAATTGAATAAGGTGTGAAACTAATATTCTTAATTAGTTAAGTTTTGATTTTTCTATAGACTTATAGTTAGCTATGAACACTTTTGTGTGGGTGGACAAGAGATTATTTTTGTAAATATTAGTTTTGTTAAGAACAACGGATCTTTCCATATTTCTACGATGGTATGATATTGTTCACTCTAGGTATAAGCTCTGATGACTTTGCTTTTAGTTTCACTCAAAAGACTTAATATCAATGAAAATGTTATCCTCTACTTATAAACCCATGATTTTCCCATTTTCCTAACCAATGTGAGACTTCAAAAATTTGGTGGCATTCCCCAACAGGTTTTGGTCATATTTTTTATGCTTTTTAACTGAGCTTAGCATATCTTGTTGCTAACTTTGAGAACTTTTTTTACCTGATTGATTTTAGGGTTAGGTTGGAGCATTTTCATGGTTAGGGCTTGACGTTTTGCAATTTGATTTTAAGTGTTTTTGTTGATTGAATTTAGTCTGATCTATTAAACTATTTTGTGAGCAATTTTTTGATTTAGTTTTAAGGAGGTATTAATTTCATGACTTTTCCAAGTTTATAATTCAATTTGATAAAATTAAATGTTTAAAGTTAAAATTGACTTATAGGGCTCAAAATTATTACCTTGTTTTCCAAATTTTACATCAACGTTTTCTTCACAAAAGTAAATTTATGTACTAAAAAGACGTGAAGAGAATCTTAATCAAAGAGATGCTTAAGCTCCACAAACAATGAAAAACAATTTGATTAGGGCATGTAAGAAGTGGATTAGCACATAAACATTCATGAGAACCCTTTGAAACATTCTACTAGTTAGTGTTTTTTTAATTAATTATACAACAACAATAAAATAAACAAGTAGAATTAATCGAATTTTTTGACCAAAAGTATGATATATATTCCATATTTATACATATTTGACTATCAATTAATCAATTCCTATCTCCAAAAAAGATTTTGTTGAAGTTTTAGATATTTTACTCTGTTTTTTTTTCTAATTTTTTTTTTCTTTAGTAAGAGAGGTTGGAATTGGAAGGGGAGGGGCAAATCGTTTTGACTTTGACTAGATTCTCAGTCAAACATAACTTAAAGCCGACGAGGGAATTTTTTGGTAAAAAACTTTGAAATTTATTTTAAAAGATAAAAATCATTTTTTTTATGTACTTTTAAGGGCAAGTGAGTAAATCTTTACTCTAACATTTTAATTTTATTAATTGAAACTTAGATTTGGATAAATGTTTTAATTTTTATCTTATATTAGGTTTTCATTACATTCACCTATTAATTTCAGTAAAAACTTATATAAAAACCTCCCACAAACCCACTAATTTCATTGGAAATGAATATATAAAATCAAACTCTACAAAACTAATGCGCAAGATGAACACATTAAATAAACCTCTCAAAACTCACTCATTTTAACAAACTTCCCACCCTTTCAATATTTCTCTTGACCCCTATCAATTTTGTACCAAATCTTTGTTTTGTAATCCATTGAACCGAAGTCAAGGTCTAATTTGATAAAATTAAAAATTTAGGATAAAAATTAATTCATTTAAGTTCAAGGGTGAAAATTAAAAATTTCCCAAAATTTTATAGAATCTACAACATTTTACCAAAAATTCCCAAGCAAAGCATCAACTCCCCTAAAATACCTCAATCCCAAAAAAAAAAAAAGCTAAATACATCTTTGAGAACCGTTCTCAATTTTTTTTAGTTCAACAAATATGAGGGTAGAGAATTGAACCTTCAACAATGACAACAAAGGTAATATAAGTGTTTTTATTTACTTAAGTTATGTTCAAATTGACCAACTTAATTAATTTGATTAAATAAGTTAATAATTGGGATTAGTACAAATAACAAAATGCCTTTACAAAATTGTATCTTATGTTTTTGCTCATATAAAACTTAGAACCCACAAATCATGACTTGCTGGCCAGCCTCCGCCACCGTCGACGAGAACAAAGAAGAAACACAGCATCTGGCCGCCGGAGCAATGGACAAAACCAGAGCTTGCTCCACTTCCCGGTCGACTTGTCGTCGGATCAAAGACACAGCATAGTCCATGAACGCCGCATCACACGGCAGCTTGATCGGCCCGTCCCTCGGCAGCCCGAACTCCTCCTCCGACATCTTCAACAGCTCCCTGAACACGTAGCTCCCCAGATATCTTATCGGAAAAACGAACCGCTTCTGATCGACTGTGTAGACGACGAAGTGGCCCTTGTCAGCCACCGTGGAGGAGCTTCTGGTTCGCGGCAACGATATCCTCTTCCGCCGCTGAGAGGCGGCCGCCGTCTTCTGCCATTTCCTGGCTATTCTAATTAG

mRNA sequence

ATAATGAAATGGGGGTGGGGGGGGGGGGATTGTATAAATTGAAGTATTTTTGGGGGGTGAGAGATGAAATTTGTGGAGAAATTCGGGGTGAGACTTTTCAGACATTGGGAATGGAAGAGTTCTATGAAGAAAGGAAGAGCTCGCGGAAGGTGGCAACGGCGGTGGCGGGGCATCAAGTTCCTCTGTACGGCGGGATCTCGGTGATCGGAAACTGGAGAGAGCAGCGGCTGGAGGGGGTGGAGGTGCCGCTGAACCTGACGGTGGGGGTGAGGTCTAGGGCTTACATTCTGGGGAAACTGGTGAAGCTTTCTGATCTTCAGCCACATGAAGCATGGATAAGCAAACGTCACCGGCAGCGCAATCCCGCCGACGAGCCCCGCCATGCTCCCCAGAAATGGGATCGCCACCGCCACGAAGAAACACAGATCTGGAACGAGCTCATGGCATTGATTATCACTAATAAGCTCGTTAAGCCGATGAGAAACTGTGAGGTGTCGCGGGCATGGAAGGCGTACAGAGCTGATTTGATCGTCAGTTACCTGTATCTCAAGGACGAGATTGTGCCCTCTGAAAGCAAAAGCGACGATTCCCAGAGCGTTCAATGCGTCAAAGGCCCTAGCCATGTTGGTGTTGGCTTTCACCGGATCGTAGGAAACGCCGGGCATTCTGCCCTTCACGACGGAGATCATCCATATCAACGTGCAGTAGCCGATGGCACTAACAGGACGGCGGCGCAGGTGAAAACCAAGTACCATTCGGTCGGCGTTAAGGAATCCGCTCTGCAGTTGGTTCCGCAAACGATTTTGAAGAATGTGTTCGACGTTGAGCCTCCGATGATTATCAGAGCCACGCAGGTGCCGGCGGAGAGTATAAAGTTGCCATATGAACGCCACCGTCAAGCTTATGATCCCTCCGGCCCTGCAACCAGAAGCTTTCAAAAACCCATTGAATTCAAACTTATTGTAAACGATCAGTGGTTTTATTTACCATCCGAGAATGGTGAAGGCGACGGGGAGCACCAGAGCCTGGATTCCGATGCCGGAGCAGAGGGTGTGGAAGGCGGCGTAGAAGGCGTTGCCGTTTCTCGACTCGGTGATCGGAAGCCAGGCGTCGTGGGGGTCCAGCCTCGTCAAGTTGAGGGCCCGTCGGATCGGACTTCCGATCGGAGTGATATTGAACCGCGGTCTAGGGCTCGACAGTCTCGGAGTTTTGCTCGCAATTTCTATCTGGTCGTCGCCGGAGAGCAGCGGCGAGCGGAACCCACAAATCATGACTTGCTGGCCAGCCTCCGCCACCGTCGACGAGAACAAAGAAGAAACACAGCATCTGGCCGCCGGAGCAATGGACAAAACCAGAGCTTGCTCCACTTCCCGGTCGACTTGTCGTCGGATCAAAGACACAGCATAGTCCATGAACGCCGCATCACACGGCAGCTTGATCGGCCCGTCCCTCGGCAGCCCGAACTCCTCCTCCGACATCTTCAACAGCTCCCTGAACACGTAGCTCCCCAGATATCTTATCGGAAAAACGAACCGCTTCTGATCGACTGTGTAGACGACGAAGTGGCCCTTGTCAGCCACCGTGGAGGAGCTTCTGGTTCGCGGCAACGATATCCTCTTCCGCCGCTGAGAGGCGGCCGCCGTCTTCTGCCATTTCCTGGCTATTCTAATTAG

Coding sequence (CDS)

ATAATGAAATGGGGGTGGGGGGGGGGGGATTGTATAAATTGAAGTATTTTTGGGGGGTGAGAGATGAAATTTGTGGAGAAATTCGGGGTGAGACTTTTCAGACATTGGGAATGGAAGAGTTCTATGAAGAAAGGAAGAGCTCGCGGAAGGTGGCAACGGCGGTGGCGGGGCATCAAGTTCCTCTGTACGGCGGGATCTCGGTGATCGGAAACTGGAGAGAGCAGCGGCTGGAGGGGGTGGAGGTGCCGCTGAACCTGACGGTGGGGGTGAGGTCTAGGGCTTACATTCTGGGGAAACTGGTGAAGCTTTCTGATCTTCAGCCACATGAAGCATGGATAAGCAAACGTCACCGGCAGCGCAATCCCGCCGACGAGCCCCGCCATGCTCCCCAGAAATGGGATCGCCACCGCCACGAAGAAACACAGATCTGGAACGAGCTCATGGCATTGATTATCACTAATAAGCTCGTTAAGCCGATGAGAAACTGTGAGGTGTCGCGGGCATGGAAGGCGTACAGAGCTGATTTGATCGTCAGTTACCTGTATCTCAAGGACGAGATTGTGCCCTCTGAAAGCAAAAGCGACGATTCCCAGAGCGTTCAATGCGTCAAAGGCCCTAGCCATGTTGGTGTTGGCTTTCACCGGATCGTAGGAAACGCCGGGCATTCTGCCCTTCACGACGGAGATCATCCATATCAACGTGCAGTAGCCGATGGCACTAACAGGACGGCGGCGCAGGTGAAAACCAAGTACCATTCGGTCGGCGTTAAGGAATCCGCTCTGCAGTTGGTTCCGCAAACGATTTTGAAGAATGTGTTCGACGTTGAGCCTCCGATGATTATCAGAGCCACGCAGGTGCCGGCGGAGAGTATAAAGTTGCCATATGAACGCCACCGTCAAGCTTATGATCCCTCCGGCCCTGCAACCAGAAGCTTTCAAAAACCCATTGAATTCAAACTTATTGTAAACGATCAGTGGTTTTATTTACCATCCGAGAATGGTGAAGGCGACGGGGAGCACCAGAGCCTGGATTCCGATGCCGGAGCAGAGGGTGTGGAAGGCGGCGTAGAAGGCGTTGCCGTTTCTCGACTCGGTGATCGGAAGCCAGGCGTCGTGGGGGTCCAGCCTCGTCAAGTTGAGGGCCCGTCGGATCGGACTTCCGATCGGAGTGATATTGAACCGCGGTCTAGGGCTCGACAGTCTCGGAGTTTTGCTCGCAATTTCTATCTGGTCGTCGCCGGAGAGCAGCGGCGAGCGGAACCCACAAATCATGACTTGCTGGCCAGCCTCCGCCACCGTCGACGAGAACAAAGAAGAAACACAGCATCTGGCCGCCGGAGCAATGGACAAAACCAGAGCTTGCTCCACTTCCCGGTCGACTTGTCGTCGGATCAAAGACACAGCATAGTCCATGAACGCCGCATCACACGGCAGCTTGATCGGCCCGTCCCTCGGCAGCCCGAACTCCTCCTCCGACATCTTCAACAGCTCCCTGAACACGTAGCTCCCCAGATATCTTATCGGAAAAACGAACCGCTTCTGATCGACTGTGTAGACGACGAAGTGGCCCTTGTCAGCCACCGTGGAGGAGCTTCTGGTTCGCGGCAACGATATCCTCTTCCGCCGCTGAGAGGCGGCCGCCGTCTTCTGCCATTTCCTGGCTATTCTAATTAG

Protein sequence

NEMGVGGGGLYKLKYFWGVRDEICGEIRGETFQTLGMEEFYEERKSSRKVATAVAGHQVPLYGGISVIGNWREQRLEGVEVPLNLTVGVRSRAYILGKLVKLSDLQPHEAWISKRHRQRNPADEPRHAPQKWDRHRHEETQIWNELMALIITNKLVKPMRNCEVSRAWKAYRADLIVSYLYLKDEIVPSESKSDDSQSVQCVKGPSHVGVGFHRIVGNAGHSALHDGDHPYQRAVADGTNRTAAQVKTKYHSVGVKESALQLVPQTILKNVFDVEPPMIIRATQVPAESIKLPYERHRQAYDPSGPATRSFQKPIEFKLIVNDQWFYLPSENGEGDGEHQSLDSDAGAEGVEGGVEGVAVSRLGDRKPGVVGVQPRQVEGPSDRTSDRSDIEPRSRARQSRSFARNFYLVVAGEQRRAEPTNHDLLASLRHRRREQRRNTASGRRSNGQNQSLLHFPVDLSSDQRHSIVHERRITRQLDRPVPRQPELLLRHLQQLPEHVAPQISYRKNEPLLIDCVDDEVALVSHRGGASGSRQRYPLPPLRGGRRLLPFPGYSN
Homology
[Close]
BLAST of Sgr015227 vs. NCBI nr
Match: XP_022135688.1 (uncharacterized protein LOC111007587 isoform X1 [Momordica charantia] >XP_022135689.1 uncharacterized protein LOC111007587 isoform X2 [Momordica charantia])

HSP 1 Score: 119.4 bits (298), Expect = 9.9e-23
Identity = 58/65 (89.23%), Postives = 62/65 (95.38%), Query Frame = 0 

Query: 37  MEEFYEERKSSRKVATAVAGHQVPLYGGISVIGNWREQRLEGVEVPLNLTVGVRSRAYIL 96
           M EFYE+R+SSR+VATAVAGHQVPLYGGI+VIGNWREQR EGVEVPLNLTV VRSRAYIL
Sbjct: 215 MMEFYEKRQSSRRVATAVAGHQVPLYGGIAVIGNWREQRQEGVEVPLNLTVAVRSRAYIL 274

Query: 97  GKLVK 102
           GKLVK
Sbjct: 275 GKLVK 279

[Close]
BLAST of Sgr015227 vs. NCBI nr
Match: KAG6589033.1 (hypothetical protein SDJN03_17598, partial [Cucurbita argyrosperma subsp. sororia] >KAG7022748.1 hypothetical protein SDJN02_16484, partial [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 110.5 bits (275), Expect = 4.6e-20
Identity = 52/65 (80.00%), Postives = 60/65 (92.31%), Query Frame = 0 

Query: 37  MEEFYEERKSSRKVATAVAGHQVPLYGGISVIGNWREQRLEGVEVPLNLTVGVRSRAYIL 96
           MEEFY++R+SSRKV T+V+GHQVPLYGGIS IGNWR+QR +GVEV LNLTV VRSRAYIL
Sbjct: 218 MEEFYQKRQSSRKVTTSVSGHQVPLYGGISAIGNWRDQRQDGVEVLLNLTVAVRSRAYIL 277

Query: 97  GKLVK 102
           G+LVK
Sbjct: 278 GRLVK 282

[Close]
BLAST of Sgr015227 vs. NCBI nr
Match: XP_022928427.1 (uncharacterized protein LOC111435243 [Cucurbita moschata])

HSP 1 Score: 110.5 bits (275), Expect = 4.6e-20
Identity = 52/65 (80.00%), Postives = 60/65 (92.31%), Query Frame = 0 

Query: 37  MEEFYEERKSSRKVATAVAGHQVPLYGGISVIGNWREQRLEGVEVPLNLTVGVRSRAYIL 96
           MEEFY++R+SSRKV T+V+GHQVPLYGGIS IGNWR+QR +GVEV LNLTV VRSRAYIL
Sbjct: 218 MEEFYQKRQSSRKVTTSVSGHQVPLYGGISAIGNWRDQRQDGVEVLLNLTVAVRSRAYIL 277

Query: 97  GKLVK 102
           G+LVK
Sbjct: 278 GRLVK 282

[Close]
BLAST of Sgr015227 vs. NCBI nr
Match: XP_022989441.1 (uncharacterized protein LOC111486495 [Cucurbita maxima] >XP_023529756.1 uncharacterized protein LOC111792484 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 110.5 bits (275), Expect = 4.6e-20
Identity = 52/65 (80.00%), Postives = 60/65 (92.31%), Query Frame = 0 

Query: 37  MEEFYEERKSSRKVATAVAGHQVPLYGGISVIGNWREQRLEGVEVPLNLTVGVRSRAYIL 96
           MEEFY++R+SSRKV T+V+GHQVPLYGGIS IGNWR+QR +GVEV LNLTV VRSRAYIL
Sbjct: 218 MEEFYQKRQSSRKVTTSVSGHQVPLYGGISAIGNWRDQRQDGVEVLLNLTVAVRSRAYIL 277

Query: 97  GKLVK 102
           G+LVK
Sbjct: 278 GRLVK 282

[Close]
BLAST of Sgr015227 vs. NCBI nr
Match: XP_038888376.1 (uncharacterized protein LOC120078225 [Benincasa hispida])

HSP 1 Score: 108.2 bits (269), Expect = 2.3e-19
Identity = 51/67 (76.12%), Postives = 61/67 (91.04%), Query Frame = 0 

Query: 37  MEEFYEERKSSRKVATAVAGHQVPLYGGISVIGNWREQRLE--GVEVPLNLTVGVRSRAY 96
           MEEFY++R+SSR+V T+VAGHQ+PLYGGIS IGNWR+QR +  GVE+PLNLTV VRSRAY
Sbjct: 217 MEEFYQKRQSSRRVKTSVAGHQIPLYGGISAIGNWRDQRQDGVGVEIPLNLTVAVRSRAY 276

Query: 97  ILGKLVK 102
           ILG+LVK
Sbjct: 277 ILGRLVK 283

[Close]
BLAST of Sgr015227 vs. ExPASy TrEMBL
Match: A0A6J1C5K4 (uncharacterized protein LOC111007587 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111007587 PE=4 SV=1)

HSP 1 Score: 119.4 bits (298), Expect = 4.8e-23
Identity = 58/65 (89.23%), Postives = 62/65 (95.38%), Query Frame = 0 

Query: 37  MEEFYEERKSSRKVATAVAGHQVPLYGGISVIGNWREQRLEGVEVPLNLTVGVRSRAYIL 96
           M EFYE+R+SSR+VATAVAGHQVPLYGGI+VIGNWREQR EGVEVPLNLTV VRSRAYIL
Sbjct: 215 MMEFYEKRQSSRRVATAVAGHQVPLYGGIAVIGNWREQRQEGVEVPLNLTVAVRSRAYIL 274

Query: 97  GKLVK 102
           GKLVK
Sbjct: 275 GKLVK 279

[Close]
BLAST of Sgr015227 vs. ExPASy TrEMBL
Match: A0A6J1JK28 (uncharacterized protein LOC111486495 OS=Cucurbita maxima OX=3661 GN=LOC111486495 PE=4 SV=1)

HSP 1 Score: 110.5 bits (275), Expect = 2.2e-20
Identity = 52/65 (80.00%), Postives = 60/65 (92.31%), Query Frame = 0 

Query: 37  MEEFYEERKSSRKVATAVAGHQVPLYGGISVIGNWREQRLEGVEVPLNLTVGVRSRAYIL 96
           MEEFY++R+SSRKV T+V+GHQVPLYGGIS IGNWR+QR +GVEV LNLTV VRSRAYIL
Sbjct: 218 MEEFYQKRQSSRKVTTSVSGHQVPLYGGISAIGNWRDQRQDGVEVLLNLTVAVRSRAYIL 277

Query: 97  GKLVK 102
           G+LVK
Sbjct: 278 GRLVK 282

[Close]
BLAST of Sgr015227 vs. ExPASy TrEMBL
Match: A0A6J1EJW4 (uncharacterized protein LOC111435243 OS=Cucurbita moschata OX=3662 GN=LOC111435243 PE=4 SV=1)

HSP 1 Score: 110.5 bits (275), Expect = 2.2e-20
Identity = 52/65 (80.00%), Postives = 60/65 (92.31%), Query Frame = 0 

Query: 37  MEEFYEERKSSRKVATAVAGHQVPLYGGISVIGNWREQRLEGVEVPLNLTVGVRSRAYIL 96
           MEEFY++R+SSRKV T+V+GHQVPLYGGIS IGNWR+QR +GVEV LNLTV VRSRAYIL
Sbjct: 218 MEEFYQKRQSSRKVTTSVSGHQVPLYGGISAIGNWRDQRQDGVEVLLNLTVAVRSRAYIL 277

Query: 97  GKLVK 102
           G+LVK
Sbjct: 278 GRLVK 282

[Close]
BLAST of Sgr015227 vs. ExPASy TrEMBL
Match: A0A0A0K4T2 (LEA_2 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_7G018790 PE=4 SV=1)

HSP 1 Score: 106.3 bits (264), Expect = 4.2e-19
Identity = 52/67 (77.61%), Postives = 60/67 (89.55%), Query Frame = 0 

Query: 37  MEEFYEERKSSRKVATAVAGHQVPLYGGISVIGNWREQRLE--GVEVPLNLTVGVRSRAY 96
           MEEFY++R+SSR+V T+VAGHQVPLYGGIS IGNWR+QR +  GVEV LNLTV VRSRAY
Sbjct: 218 MEEFYQKRQSSRRVVTSVAGHQVPLYGGISAIGNWRDQRQDGAGVEVSLNLTVAVRSRAY 277

Query: 97  ILGKLVK 102
           ILG+LVK
Sbjct: 278 ILGRLVK 284

[Close]
BLAST of Sgr015227 vs. ExPASy TrEMBL
Match: A0A1S3BJ42 (uncharacterized protein LOC103490245 OS=Cucumis melo OX=3656 GN=LOC103490245 PE=4 SV=1)

HSP 1 Score: 105.1 bits (261), Expect = 9.3e-19
Identity = 51/67 (76.12%), Postives = 60/67 (89.55%), Query Frame = 0 

Query: 37  MEEFYEERKSSRKVATAVAGHQVPLYGGISVIGNWREQRLE--GVEVPLNLTVGVRSRAY 96
           MEEFY++R+SSR++ T+VAGHQVPLYGGIS IGNWR+QR +  GVEV LNLTV VRSRAY
Sbjct: 218 MEEFYQKRQSSRRMVTSVAGHQVPLYGGISAIGNWRDQRQDGVGVEVSLNLTVAVRSRAY 277

Query: 97  ILGKLVK 102
           ILG+LVK
Sbjct: 278 ILGRLVK 284

[Close]
BLAST of Sgr015227 vs. TAIR 10
Match: AT4G35170.1 (Late embryogenesis abundant (LEA) hydroxyproline-rich glycoprotein family )

HSP 1 Score: 63.2 bits (152), Expect = 7.8e-10
Identity = 32/65 (49.23%), Postives = 44/65 (67.69%), Query Frame = 0 

Query: 37  MEEFYEERKSSRKVATAVAGHQVPLYGGISVIGNWREQRLEGVEVPLNLTVGVRSRAYIL 96
           M EF + RKS R + T V G Q+PLYGG+  +   R +  + V +PLNLT  +R+RAY+L
Sbjct: 205 MGEFSQRRKSERIIETKVFGDQIPLYGGVPALFGQRAEP-DQVVLPLNLTFTLRARAYVL 264

Query: 97  GKLVK 102
           G+LVK
Sbjct: 265 GRLVK 268

[Close]
BLAST of Sgr015227 vs. TAIR 10
Match: AT2G41990.1 (CONTAINS InterPro DOMAIN/s: Late embryogenesis abundant protein, group 2 (InterPro:IPR004864); BEST Arabidopsis thaliana protein match is: Late embryogenesis abundant (LEA) hydroxyproline-rich glycoprotein family (TAIR:AT4G35170.1); Has 172 Blast hits to 168 proteins in 15 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 172; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). )

HSP 1 Score: 57.8 bits (138), Expect = 3.3e-08
Identity = 29/64 (45.31%), Postives = 39/64 (60.94%), Query Frame = 0 

Query: 37  MEEFYEERKSSRKVATAVAGHQVPLYGGISVIGNWREQRLEGVEVPLNLTVGVRSRAYIL 96
           M +F   R     V T V GHQ+PLYGG+S         L+ + +PLNLT+ + S+AYIL
Sbjct: 210 MNKFTVGRNGETNVVTVVQGHQIPLYGGVSF-------HLDTLSLPLNLTIVLHSKAYIL 266

Query: 97  GKLV 101
           G+LV
Sbjct: 270 GRLV 266

[Close]
BLAST of Sgr015227 vs. TAIR 10
Match: AT1G45688.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: plasma membrane; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G42860.1); Has 258 Blast hits to 242 proteins in 39 species: Archae - 0; Bacteria - 11; Metazoa - 10; Fungi - 14; Plants - 198; Viruses - 17; Other Eukaryotes - 8 (source: NCBI BLink). )

HSP 1 Score: 47.0 bits (110), Expect = 5.8e-05
Identity = 33/103 (32.04%), Postives = 51/103 (49.51%), Query Frame = 0 

Query: 37  MEEFYEERKSSRKVATAVAGHQVPLYGGISVI-------GNWREQRLEG----------- 96
           +++FY+ RKS R V   V G ++PLYG  S +          + ++ +G           
Sbjct: 226 VKKFYQGRKSERTVLVHVIGEKIPLYGSGSTLLPPAPPAPLPKPKKKKGAPVPIPDPPAP 285

Query: 97  -VEVPLNLTVGVRSRAYILGKLVKLSDLQPHEAWISKRHRQRN 121
              VP+ L+  VRSRAY+LGKLV+    +  E  I+  H+  N
Sbjct: 286 PAPVPMTLSFVVRSRAYVLGKLVQPKFYKKIECDINFEHKNLN 328

[Close]
BLAST of Sgr015227 vs. TAIR 10
Match: AT5G42860.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: plasma membrane; EXPRESSED IN: 19 plant structures; EXPRESSED DURING: 11 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT1G45688.1); Has 1807 Blast hits to 1807 proteins in 277 species: Archae - 0; Bacteria - 0; Metazoa - 736; Fungi - 347; Plants - 385; Viruses - 0; Other Eukaryotes - 339 (source: NCBI BLink). )

HSP 1 Score: 46.2 bits (108), Expect = 9.9e-05
Identity = 29/83 (34.94%), Postives = 43/83 (51.81%), Query Frame = 0 

Query: 37  MEEFYEERKSSRKVATAVAGHQVPLYGGISVI-------GNWREQRLEG----------- 96
           +++FY+ RKS R V   V G ++PLYG  S +          + ++ +G           
Sbjct: 205 IKKFYQSRKSQRTVVVNVLGDKIPLYGSGSTLVPPPPPAPIPKPKKKKGPIVIVEPPAPP 264

Query: 97  VEVPLNLTVGVRSRAYILGKLVK 102
             VP+ L   VRSRAY+LGKLV+
Sbjct: 265 APVPMRLNFTVRSRAYVLGKLVQ 287

The following BLAST results are available for this feature:
BLAST of Sgr015227 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022135688.19.9e-2389.23uncharacterized protein LOC111007587 isoform X1 [Momordica charantia] >XP_022135... [more]
KAG6589033.14.6e-2080.00hypothetical protein SDJN03_17598, partial [Cucurbita argyrosperma subsp. sorori... [more]
XP_022928427.14.6e-2080.00uncharacterized protein LOC111435243 [Cucurbita moschata][more]
XP_022989441.14.6e-2080.00uncharacterized protein LOC111486495 [Cucurbita maxima] >XP_023529756.1 uncharac... [more]
XP_038888376.12.3e-1976.12uncharacterized protein LOC120078225 [Benincasa hispida][more]
BLAST of Sgr015227 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Sgr015227 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1C5K44.8e-2389.23uncharacterized protein LOC111007587 isoform X1 OS=Momordica charantia OX=3673 G... [more]
A0A6J1JK282.2e-2080.00uncharacterized protein LOC111486495 OS=Cucurbita maxima OX=3661 GN=LOC111486495... [more]
A0A6J1EJW42.2e-2080.00uncharacterized protein LOC111435243 OS=Cucurbita moschata OX=3662 GN=LOC1114352... [more]
A0A0A0K4T24.2e-1977.61LEA_2 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_7G018790 PE=4 ... [more]
A0A1S3BJ429.3e-1976.12uncharacterized protein LOC103490245 OS=Cucumis melo OX=3656 GN=LOC103490245 PE=... [more]
BLAST of Sgr015227 vs. TAIR 10
Match NameE-valueIdentityDescription
AT4G35170.17.8e-1049.23Late embryogenesis abundant (LEA) hydroxyproline-rich glycoprotein family [more]
AT2G41990.13.3e-0845.31CONTAINS InterPro DOMAIN/s: Late embryogenesis abundant protein, group 2 (InterP... [more]
AT1G45688.15.8e-0532.04unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT5G42860.19.9e-0534.94unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 330..398
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 442..456
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 381..398
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 113..135
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 431..456
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 527..556
NoneNo IPR availablePANTHERPTHR31852:SF175LATE EMBRYOGENESIS ABUNDANT PROTEINcoord: 37..101
NoneNo IPR availablePANTHERPTHR31852LATE EMBRYOGENESIS ABUNDANT (LEA) HYDROXYPROLINE-RICH GLYCOPROTEIN FAMILYcoord: 37..101

Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
Sgr015227.1Sgr015227.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0016021 integral component of membrane