Moc07g03130 (gene) Bitter gourd (OHB3-1) v2

Overview
NameMoc07g03130
Typegene
OrganismMomordica charantia cv. OHB3-1 (Bitter gourd (OHB3-1) v2)
DescriptionLate embryogenesis abundant (LEA) hydroxyproline-rich glycoprotein family
Locationchr7: 2797486 .. 2811690 (+)
RNA-Seq ExpressionMoc07g03130
SyntenyMoc07g03130
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.
ATGGCGGATTCGCCATTGAAGCCGCCGGTATCGCTCCAGAAGCCGCCGGGATACAAGGATCCGAGCGCGTCCTCAGGTCCGGGGAAGGGCGGGAGGAAGGCGCGGCTGCCGACGTCGTACCAGCCGAAGAAGAAGCGGAGGAACTGCTGCCGGACCTGCTGCTGCGTGCTCTGCTTCCTGATCCTGTTCCTGATCGTGGTCGCAGCGCTGGCCTCCGCGCTGTTCTACCTTCTCTTCGACCCGAAGCTGCCGGTGTTCCACCTGATCTCCTTCCGGATCTCGGATTTCAAGGTGTCGCCCAAGGCGGACGGCTCGTACCTGGACGCGGAGGCCTCCATCCGCGTGGAGTTCAAGAATCCCAACGACAAGCTCGGGATCGTGTACGGGAGGATCGAGTACGACGTGACGGTGGGGGAGATGACGGAGTTCGGGCGGCGGTCGATCCCGGGGTTCACGCAGGGGCGGAGGAACTCGACGACGGTGAAGGCGGAGACGGGGGTGAAGAGTAAGCTGCTGGCGGTGGATGACGGGGGGAAGATGTCGTCGTGGTTCCAGAGCAAGACGCTGCCGGTCAAGGTGGAGGCCGACACGGCGGTGGGCCTCGTCGTGCAGGGCTGGTCCATTGGCCCTCTCGCCGTCAGATTGGATTGCGAGTCCAGATTGAAGAGCGTTGAGGCTGGTGACATGCCCGATTGCAACATTCATTTCCTCAGATGGTACCTCTCTATCCTCACCCGCCCTTTCTTTTCCTCAAAATCTTTAGTACTAATAGGTTTATATTATATCGTATTTTGATCCGGTACTCTCTTGGTTGGTATTGGATTTTTACAAGAGAGTGCAAATAAAAGTCCATACCTATGATATAATGATAGGACAATTATCTACAAGGTTTTTGGTAATAAAAAATAGAGTCATGAAGTTATACTATCTTGTTTTAATCATAGTTACATAAAATTACATAATTACACAAGTTAAACCCACAAGATACTACATAGGATTATACAATTGAAAAACATCCTCACTAAATCTAACCCACCATATAGGGACTACTTGCACAAGTCCCTTTCTTTACAAATAAAAACAAAACAAAAGTATCATAATCTTCATAAGAATGCTACACTATCATGCCATCACGAAGGTATTATTGGAGTATCGTTATCCTTTAACCGTTAGAAAGAGACCAAATTAACTCTATAATAATCTAAAGTGGCCTAAACAAAATTATAAAATTTAAGTACTTTCGGGTCAGGGGATTCGAACTCATGAACTCTTGAAAAGAGACACCTGGTAAAATTATAAAATTTAAGCACATTTGATAATGACTATATTTTCTATTAAAAAAAATGAGTTATTTACTACTTATTTATTCGTATATCATCTTTCTAAACATTACCTTGCTTATAAAAATACTTGACCTAACTTTCTTCCATTATAATTCAAATTTCTCGAATATTTTCCTATTTACATATATATAAAGTATTCTTTGTTTTTGAATATTATTTGCATATATATAAAGTTAAAGATGAATTACAAAGAATGTGGTGATTTATTTATTTATTTGCAATTTATTCTTAATTGATATAAGATCTTAACTAATTAATTATATGAACATGTGTTTTGTTGTAATTAGTGGGTTTTTGTTTTGGTGTTTGATTGCAGGATCACTATACGTGGATGAGATTCCTCCAAAGACAATTATATCCCTATTGAAAATGATAATCATTTTCTCTCTCTTTTTTCTTTTATTATTTTCTTTTGTTTGTTTATTTGGGTGAGATTTTTTTCACAACTCCCTTTTTCTTTTTTTCTCCCAAAATTATTTTTATTAATTAATACTATTTTAGAGAGTTCAAATAATTTGACCAAGTACATCATTTCGATAAGCTATTTAAATTCTCTATAATTATATTTTTCACGTGTGAAATATAATAAGAAAGAAAAAAAAAAGAAATTCCATTTGTATTGATGTAACGGGTGTTTATATGTTTTAAATTTGGATTATGTAATTATATACGTAAAGACAATGTAATTTGATTTTGGAAAGAAATTTGTTTGTTTTATTTGTTTAAAAGAAAAAGAAAAAAGAGGTGAGGGGTATGATATCTTCACCTCGACGTGGGACCTCAAGGGTGACAGACAAGGAAATCAAGAGAGACCATTTGGATTTTGGTGGGTGATGTAATGTCTCCTCTTCCTTTTGGATAATGTCTATGAAAACTTGCTTTTAATCTTTGAATATCTATTTTAGTCTTTTCCTTTGTTAGTATGTTCAATTAATGATGTTCCTTCATTGTTAAATAGGTAGCAAAAAAGAAATCTAATTATAAGGTAGAAATGAAGATTTCTTGTGTGTGGTACATTGATGTTGATGTTCTTCCAATAATAACAAGTTTGGCCATAATAATAGTAAGTGATATATATGCATATTAGTGATGTACTTTATATTAGGTCTACTTCTGATATACTTTAGCAATGAAGCAACAAAGCAACAAAGTTTATCAGTGATATACTTTATATTAGTATATCTGTCACATAAATGGTATGTTAGTGATATTATATATAAAATTTTAGAGAAATTAGACTAAATAACATAAAATAAATAAGTATTTGTAAAAATATCGTTGTTTCTAGTTTTTTTTTTTCGTTTTTAAACGAGCACCGTGGAAATACATCCCACTCAACCATCAAATTGCTAATCCAGTCCCTTGTATCATGGTTTCGAATCCCTAGGTCACAAAAGTGGTTTTTTGATTGGCTCATGTAATTGTACAAGTTTGCCGTTTATGTCATTTTTGTAAAATTTTAAACCTATACTATATATAAAAGTACATATTACTTTTGTACTATTTTTGTAATTTCTTCTAAAATTTTATATTAGGTATACCAGTTACATTCTTTATAAACCATTAAAAAAAATTATATTTCAGTAATATATGAAGAAAATTTATTGTATTTGCAAACTAATTTTCGTGCGTGACAAATTTGTAAATATGACAACCAATTTTTGTCATCCATTTTATAATTGTTAAAGGCCTAAAATATATTTTTATATTACTCATATACCAAAATTGATACTTTACCTATCATCAACAAATTTTAAACTCCATGAATTAAATTGTTACTTACTATAGTTTAGAGAGTAAATTATTACACATTTTAAACTATATATTTAGACTAAATTGTTACATAATAAAATTTAGAGATTAGATTTTTACTTTCGAAACCATATAAAGTTTATTTTAATCATTGAATTTTCATGATTTATTTAAGTTTGGTTTCTAACTTTCAAATATTTTGTTTTAGTCGCTTATAATTTTGTATATAATTTTTTTAGTTCAACAAAGAAGTAGGGGAGTCAAACTTTGGACTTGTAAGGCAATAAGTATTGTCTTATCCATTTGAACTATACGATAATTTATTTATTATATTTGCAATTCCAACCGGTGCAAGCTCGTATCCAGGACTTTAAAAGTTTAACTCTTATAATTAGCATTCCTTTCTTTTTAACTTCTCACTCGATCTTCTAACTTAGGATTATAAGACTTGTTCCTACTATATGAGCCGTATTTAAAAATATTTTTTCAAATAATTCCTCTGACTTTTGCATTAACTAATTGAGCTATTCTCAAGTTGATAAAAAGAGAAATTTCTAAAATCGAAACAATCATCAAAAGGGAGTAAAAATGTTTCGTCTATAGAAATATAATTAGGCAACAATGACACCATGCTATAATAGGGGCTAACGATCTTATTATCAAATAAAACAATTGAGCCATCAAAATTTTAGATATATATCTATACAAAGTATTTCTTAGAAATAATAAACATTTGCATTGAAGATAAATGTATTTCTTTAAAGTTTAAACACGTTAGATATATAAATTGATTGAAAAAAAAAAAACGAGCAAAGTAAAGCAAGTAAGCAAACAGGAGAAGAAATGAATATAAATATATAAAACACCATTTTTTTTTATGTTGGTGTTGAGGAGTGGCGGATCCAAAAATTTTGTTGAGGGAACTTTATATTAATTTTTAAGTAAGTAATTCACAAATTTATAAAAGTATGATTGTGAGGCTGATAAGATTATTTTTAAATATGCTCTACAAATTTAATTTCAAATATTGCATTTGTAATTAACTATTATATCTACCAAAACTATAATTAATTTTCTTCATTCGAAGGAGGATGATTATTTAGATTCCAAATTAAATTTATAAGAACATTAATAAAAGAAAAATTATACTATAAAATAAAAATGATAATAATTATATGTATAGTTGAAACACGACAATTTTATATTCTAGTCTAAGTTTTTACTAACTATTATATTTAAAATAACTTTAAATAGTCAAATTTATAGTCTATATTATGTAAAGTAATTAATAAAAAAAAGTACCTTAATAATTAATTCCCAAATTGTCATTTTCTTTAGATTCTCGAAAATTGAAATTGAAAATCTTTTGATGGCTCAATTATTTTATTTGATAATAAGATTTTTCACTAAATTAAGTCATGAGGGTTATTGGAAGATTCAAATACATTTACAAATCACTAGTAACACCTATTATATAGCGTGGTGTCATTGTTGAACTTTTAACTCACAAGCAAGGACAAAACAGAACAAATAAAAGCTGAATGTAATGAATAAGAGCAGCCGAAGACTAAACACAGTAGTTGAAACCAAAGTAAGAGCAAAAATTAAAACAGAGAGATAGGGAAAGAGATGGACAAACGGATTTGTAGTGGTTCCATCCAAGTATGATCTACATCCACTTTCTTCGGGCCATCCACTATTACTATAAGTGAGAAATACAACAGCATCAAGAGAAAATGAAGCAACACTCAAAGAAACCGGTGTCTCAAAAACCCATCTCAAAACCAAAGAAATTACAGCTGCTCTTCTTCTTCAATAACCTCACCACCCAGCTTCCTTCTTGAACAAGAAGCTAACAAACCTAGAGACGAAGACAACCCCTCGCTCTATTATAGAAAAATGCTCACCCAAATCACTCTCTCCTTTTTTTCAGTAGCACACACAGCAGAAGAAATAAGGCAGGAGGTGTAACTAATTTTCTGGATAATGACCCGAGAAAAAAGACCCGCTTGAAACCCCGCTTTAAAAGCCTCTTTAAAAGCATCTGTCACAACCATATATTCTGACTCTGTTGTTGATAGTGATACAACTGATTGCAATGAAGATTTTCAACTGATTGTACTATTTCCCAAATATGTGAACACTAGCCTAGTCAAAGATCTTCTTGTGTCTCTGTCTGAAGCATAATCTGCATCGACAAATCCCACTAATTTCCCCTGTATTGACATCTGATTTGTGTATAAAATATCCTTCATGACTGTTCCATCCCTTCACATACCTTATTATCCATTTTATGGCAGCCTAATGTTCTTTCCTCGGATTGGACGTATATCGGCTGACAACACTAAGAGCATGAGCTAGATCCGGTCTTGTACATAACATAAGATACATAAGACTTCCTCCGACGTTTGCATAAGGAATAAAACTCATCTCTTTTTCTTCTTCTGGTGTTTGAGGTGATTGACTTGCACATAACTTAAATGATTTGCTAAGGGAGTACTTACTGATTTACAATTCAGCATTCTGAATTTATCAAGCATTTTCAAAGAGTATAGGTGTTGAGAAAGGAATATAGTCCCATTTTTCTTATCCCTTTTTATGTCTATCCCCAATATTCTTTTGGCTTCACCTAATTCTTTCCTTTCAAATTCTCCCTTCAAACTATCTTTAAGTTAAGCTAATTCAATTTCATCACTGCAAGCAAGAAACATGTCATCTACATACAAGAGAAGATATATGGAAGGCTTATCTTTGGTATGTTTGAAGTATACACAATGATCTAACATGCTCCTAGTAAAGCCACAAGATAACATATAAATGAATCAAACTTTAAGTACCATTGTCTAGGAGCTTGTTTCAAGCCATCTGTACATTCCTTGACAAATCCAGTCGATTGTTGCATGTAGATGACTTCTGATAGGTCTCCATGAAGGAATGTTGTCTTAACATCTAGTTGCTCCAATTCTAAATCACAGGCAGCTACTATTGACAATAGAACTCGAATGGAGGAATGCCTAACAACCAGTGAAAATATCTCCCGTGATCTACTCCTTTTTGAGTAAAGCCCTTTGCAACCAATCTAGTTTTATACCGAATTGGTTATAATGTATCAACATCGTGTTTTAACTCAAATATCCATTTACATCCAAATAGCTTTTGGTTAGGCGGATTTTCAACTAATTCCCACGTACCATTTTTCTGAAGCGAGTTCATCTCTTCTTGCGTAGCAGATTTCTTTTTTCTTTCACTCAGAGTTCACACCTTCTTGGTATGTTAAAGGTTCATCTCCAGCTTGATCAATCTCCAGATGGCATGGAGAATGAGTGAAAAGTCGTGAAACGTTGGTGAGTGGGGAGACATTTTTTTTAAATTATTGTTTTTTTAACCGGGTTCAAGTTTTAACCGACCCAAAATTGAACCAATTGTACAACTCGACATTACTTGTACACATGGATATATGCCACCTCAGATTTCTGTTAAATCTAACCAATTTTTTAACGGTAGGGACTAAATTGTTACCATTTTAAAGTACATGGACTAAATCGTTACTTTTGAAAATTCAGAGACCAAATCGTTACTTTCACCAAAGTTCGAGGACCAAATGTGTTTTTTAACCTTTCTTTTTTAATTAAATAACCTATTCAGTACTTCGCCATTTGCCGCGATTTCACTGCCTACTTTTGAAATTAGTTTCTTTAGTACATTATTTCTGTAATATATCTTAAAAAAGCATCATTTAAAAAAAAATCGTGAGACTAACTAGTTTATTTATTTATTATTTTATTTTTATGTCTCAAAAATAATATGATGGTAAAGTTTAAGGATTATTTAATAATATAATATAAATACTAAAAAGTAAATACAACTTTCAAATTGTATTAATAATTAGTATTTTAAAACAAAGTATAGAATTGTCTGTTAAAATTGTACTTTTCAATACGAAAAAAATAAAACAATAAAAGAGCAATTTGAATAATTAAAGTTAGTGTCATTTTTCAATTAAAAAAATCATCAATTTAAAAGGAAAAAATAATTTATTTTGTCAATAAAGATATAGTAAATTAAATTAAATTTATGTAATAAAAAATCAAATGTTCAAAATATTAATTAGATAGCTAAAATTAAAAAAATATCAAATGAGGGATAATAGAGAAAATTATAAGTTTATGCCCCTTAAAGCTATTTTTTAAGATGAAAAAATCATATTACTTTTCTATCACATATTAAAACAAAAATAATTAGAATATAAAATGTATATACCTTGTCACAATTATAGACAGGTTGAAGTTATTTGAAAATTATGAAAATTAGATGTATGGTTACATCTCTAAAAATAACTTTTTTTTAGTTAAAAGAGAGAGGGAATTATAAAAATAACACAAAAAATGAATGTATTTATATTTATAGCATTGGGTTTAAAGTTTTCTAAAAAGAATAGCATAATTTACAAACTTATTTAAAGAGATCAATCAAAAGTCAATTTTGTAATACTTTTTGAAAAAAAAAATATAAAGTAATGATATTTTTATGTTACAAATTTAATTTATGACATTTAGTATACTTATGATGTTTTGGTTTTAGAAAAATTAAAATGATCAAAAACAAAAATACAAAAAAATAAAGTGTAAAAATAAAAATAAACTAAAATATTAAAAGAGACTAAAAAAATTTACAATAATAAATTTTGAAAAATTATAGATAATGCATCGTGAAACTAGTTTTATTTTTGTAGTCTAAAAAACTGAAAATATTTTAAATTTTTGTCGACATTCCCATATGTTCATGGGTTCGACATGTGATACAAGTGATGAATAAACATTTCCATAGTATCACAACAAAAAAAAAAAGGCAAAATATTAATAAAGTATAGATATGATATCGTTCACATGAGATTTCTGGAGAAATTTGATTCCTGGACTAAATATAATTTGTATTGATATTTGGAGTTCGTACAATCTCTAACATTTATTCTGATTCTTTCTATTGTATTCTTGGACGATCATATCGGCCCACTAACTGCTTATTGATCTTGATTGACCTTCTGGTTTCTTGTTGATCTTGATTGACTTTTTAGATGCTTGTTGATCTTGATCGGCCTTCTAGATTTTTTATGATCTTAATCGACCTTCTAGCTCTTTAATTATCTTGATCGACTGTCTGGCTGCTTATTGATATTGATCGACCTTCTAGCTTTTTTATGATATTAATCGGCCTTCTGACTCTTGGATTATGATCCTGATTGGCCTTCTATTTGCGTGTTTATCTTGATTGATATTCTAGCTCTTTGATTATCTTGATCGGCCTACTGTTTCTTGTTGATCTTGATTGGCCTTTGGGCTACTTATTGATCTTGATCGGCCTTCTGGTACTTGTTGATCTTGATCGACCTTCTAGATGCTTGTTGATATTTGATCTGCCTTCTAGTATCTTGTTGATCTTTGATCGGCCTTCTGGCTACTTCTCGATCTTGATTGGGCTTCTGGTGCTTGTTGATCTTGATCAACCTTTTGAAGGTTTATTGAACTTTGATCAGTCTTTTGGCATCTTCTTGATCTTTGATCCTAATTGATCGTACTTTAACCTGTTGCGCTTGTCTGGATCCTAGAAAAAAGGGTTTGGATCTTTCAAGAGATCGATCTTGGCATCCTTAATGTTAGCCAGAATTTTACCAATAGGAACATTGGGAGGTGTGAACTTGTTATATCTATTTGGTCACTCACGCCTTTTCATTTTTTACTAGCAGTTTTAACCATAACCTCAGCTTTATTTATCGGTCTGAACAAGATACAACTTATTTGATTAAAATTAATCGTGTGTCGATCATCATTAGGTCGACGAGAAGAGCTAGATCTATTGTCCCTCTTGTCTTTATCTTTTACCCTTAGGGGGAGCTTCGGTTAATGGGTTTCTAGTCCTTTAACTGAACAAGATCTTCTGCCTCTATGAACTTTTTATCTTGTTCGAAGCATCCTTTTAAGGTTGTCTCCGACTTCTTGCCCAACAACCAAGTGAACTTCTTGTGTGTAATCCCATTAATGAATGATGAGCAAATAAAGACGTTGGTACAATGGGCTACCTTTAATTGCTCTGCAAAGAATATTTTGATGAAGTTGCAATGTCTCTTCTTAATGGAAAGCAAATATGTATTGAAGTATTTTGTATCTTGGTGAGTTGTAAATTGAGCTGTGAAGGCCTTCCGCAACTACTTCCAAGTCGAGATGGAATAGGTTGTGAGAATCTATATCATTTTGTAGCAGGGCTTTGTAGGGTGATTAAGAATGCCCTACATTTCATCATATCTGAATATGTGTGGAAATTCATAATGGACTCAAAGGTCTCCACGTGATCTATTGGATCAATTGAGGCATCATACTTGTCGAAGGTCGGTAGAGGGCACTTCTGTGGAATTGAATATCCAGAGATAGCTTCAACGAAAGGTGGCTCTTTAGGCTCATCGTCATCAGAATAAGGCTCTTCTTTGGCCTTCTTGAGGTCACTTTTGATCCCACTGACCAATTCTTTCTTCAACTTGTAGGCTTAAGTTGCCTAGTGGTTCCGACTTCTTAGGGAGTTGCTTCTTGGCTTCGTTAAGTTTCTGAGCTATGTTACGCGGTTCAGAGTATCTCGTAGATCTCCATCTTCCCTTTGAGATTGTCGAGCTTATAAGAAAGAATGTAGATTCCCTTCAACTCAGGGTCTGCCATTCGGCCAATAACTAATTTCTCCACTTGCGGGTGGGCGACCTATTTTTTGAGAAGTCATCGTCCACCTTTTGTTTCCCCTTTTTAGGATCACATGGGAGCTCTGGTTTGGGCAGCTCGGGGAGAAGTACTCGAGCATTTTGTAGGACCTGCATCATGGCCTCCAATATTGCCCGCATCTGAGCGACTTGAGATTGCGGGTTGATAACTCTCCATAAGAGAGTGTTTTATGGTCTAATTTGAGTATTAATTGTGTGGAAATGTGAGGATCATTGTTAAAAGACATGTAAAATATGAGAAATCATTTAGTTAGGTCCCTGACTTGTTAGAATTCTCAATTTCCTCAATCGGAATGAATTATGCTTAAGTATTGATGTTTTATGCAGGAATTGTACAATTTGTTGAGGACAAGCCGGGTGCTGCAAAAGATGTGAAGGTGTTGTTGGAGCATGACTGAAAGAGCATTTATGCTAGAGCTTAAAGCTGCTCAGATGCCCTATCACATGTGACTGCACACTAATTCTTCACATCTATTTTTCACCGCGCCTGTACAGCTTCCAGGAAGTGCCCTAAATTTTAAGGACCCGATATATAAGGAAAATATACCCTAGCCACAAAAAGGAGGGACAAAACATAAATCCATTTGGAGAGCATTGATTTTAAAGAACACTCGTTGTCTTGTCACAATCTGTTCATCGAATAATGAGCTGAAGGATGTAGACTGACTTCCTTGGCGTCACCATTTTTGGCTGAAGAAGCTTCCACTTTCCTGCTGTCCACTTCATCCAGGGCTCTATTTCTTCTCTACCTCCTATTTTCTTTTCTTTTACTATGAACTAAACCCCACCTTCGGGGATGAGATTGTTGTAACCTTGTTGCTTACTGTACTTTAGTAACCTTGAATACTGTTTTAATAGGAGTGTTTTCATTCTTCCACATCTGAATTTGTTTGGCTAACTTATTGAGTGTGTATTGCTTGCTTGAGGATCGGGAGAGTCCTTGTGATTGTGATTGCTCCTATTAGCTTTAGATTCCTCTCATTCGAAGTAGGATGGTGAGCACTTAGGGATGGGGCTCACTCTATTGTGCTTATAGATTGGTTTTATTGCTTGCTTTTATTACAACGGGAGTTGGGTCGAAGCATGTTTTGGGTATTTCAGAAGAGAACTATATCGGTATGAGCATTCAGTATTTTAGGTTGCTAGAGCATAGTTAGAAAAAATGGTGAAAGCATCTAAGCGAATCCCCTCGATTTACCTTTATATCATTTCTTCATTACACGTGCATGTTTTCTGTGACGGATGCTCCAGCATTGTATCGAAATATTTATGCAGCGATCAATTTACTGCTTTATAAATTTATTTTCATTGTTCTCACAATATTCCAATCAAACTACTCTTTTATTTTTGTTTTTTGGTATTATAAACTACTGAATCGAAATATAACTCAAATCCTTTACGAGACGACCTTGTTTGGTACTACAATTGAGCAATTAGTGTATACTTGCACTACTTTTCTCCTAGTTGTGAGGAAGCGAACACGGGTCGACAATTGGCACCTCATCTATCAGTGTAGATCGAGTTTTTCTTATGTAAGCTCGCGTCTTCGGCTTGGTTGCCTTTAAAGACTTAAGGGCATCATTTTGAGTATTTCCATTAGGAGGCCAGCTTGGATCCTCCAGATTGCGATTGCTCAAAGTTTGGTAATAATTCTTCATGTCTAGGCACAAAAGTCTTTGTTTAGCATTGGCCCCAGAAAGACGGTGCCAAATGTTATGTTGCTGCTGAGCCCGAAAATCGGCTTCCGATGAACCCGATCGAGACACAGAGGGCAAGTTGCACGAGAAAAGACTATACATATGGAACAAACACTTCGACACTCTGGTAAAGGTTTGAGCGCAGTAGGTCATTCTCTGTCTGAATCGTGTATCTAAGTTAGAGAAATGACATTTCTTTTATAGGCATAATGGGGAGGGGGGAAAAGTTCATTATGGTCATTCCAATAGGAGGTTGGGCCGATTACGAATTGTTGGGCCTGAGGTCAGTATTCTCAGGTAGGTTGAGTGAATCTGAGTCGATTCTCTTGTTCATATAGTCTCAGCTCAATTAAGGAGTAATTCGGTCTTCTCCTTTTGGTTTGGTAAGTTATTTAGATGTCCCCGAGAACTAAACTAATTAGTCCACATGTCATGTCGAATTTTACCCTCCGACACCATTTGTTGCAGACTTTTTGATCAATTAGGTGTAAGAAGGTATTTTACCAATTTAGACTGGCGACCAAAGTAATACCAAGTATGGTCGCTGAGAGCGACGGTGATAAGATGGCCTGCAATAAGGCAATTGTTGGGATTGGTGGAGCTAAAATAATGGAAGATTGGAGAAATTGGATAGAAGAGGAATGAAAATATTGTAGGAGTCATATAGGCCAAGAGCAGCATCTCAACGCTGCGACAAATAGGCGGAAAACAAAAGGCGCGCGTTTGGTGTTTGAAACTGATGACTTTCGTAGTGTGTCAACGTTGCGGCAATAATTTAAATATTGCTTCTCTATTTTAGGTTTTTGTTTACATTGTGTTGTTGCATAGTGTGAATGGCAGGTGGAATAGTGTTATTGCACTGGTATTGAGGCGTTGTAGTAGTAGCATTGGAAGAGATATAGAGATAAGATCCCAGAGTGGTAGTGCCTCATCGGCGGTTCTCGTGGATATTTGGTGAGGTTTTTCATTCTTGTAAATCTTGGATTCTATTGTCTTAGTTTCTAGAAGTTTTGTGACTTTTGTTGATACCTCTAGATTTTTTTTTCCTTTGAAATAAGAGGAAAGCCAAAAGAATTAAAGAAGTTCACACTGAACGAGATCCACTAACCACATCGAGTAAACATCATGCTATTCAGCTACCAAGTTCTCTTCCAACGATCTTCGAGCAATACCATGGGCTACAAAAATTTTTATTGAGGCTTTTAGGTTTGAAAGAGTTATATTGCATTTGACTATTAATAAATTAGAACACATATTAATTTTTGTTAGGAAAAATTACTCACCAAGAAACTTTTTTCTTGACCAACAAAGATATATTTGAACATATTGTCCTTTCATTTCACGTGATTAGGAAAATGTACAACAAACCATTCTTATTATATTGCATAATCGGTAGATGAGTGTGGAATTTGCATAAACACAACATTTAAGAGTTAAATTATGTGAAACTACTTCATTTAGCAATATTAATATTGATTAAAAAAAATGAAAAATTACAAAAAAAAGATATTAAAAATAATGTAAATGTAGCTAAAGTGGATTAATACATTTATACCTCCCATCATATCTGATATGTTCAATATAATTTAATTAAAAAAAATGAAAAGTAATAGGTGAATATTATGTAGGAGGTGTTGTAAGAAAAATACAAATTTAGAAATATCTAAAAGAAGAAAGCTGGCCAATAAAATATTGACAGAAAAGACACTAGTGGGAAGTGTGGGAGAAAGTGCATTTGTTTGTTTGTCTTTTTTTTGTCTTTTTTTTTTTTTAAACTAGAAAATCAATAAGTTCATTTGTTTATATTGGTCAATTTATTAAAGTCATGTTTGAGATATTTTGTTTTAATTCTTTTTATTTCTTTATTCCAATAGTAAAAATAGATGGATTGGATTTATTCAAAGAAACATGCAAGTCATGAGAGGAGAAAGGGAAAATGTGAGTGAATTTAATGAGGACATGTCATTTTCAGTCTGCCTCACCTCTGGCCCTTTGTTTTTGTTTTCATTCCCCTCTCTCTCTCTCATATTTTTATATCTTAAACTTTATGATATCTTAGATTCTCTCTCTCATTTCTTAAACTTTTTGATATCTAAGATGTTTTCTACCTTAGTATACGAGTGAAGATTGAGAATTTAAATTCACGACATCTTGATTAGGTGTCAAGTACCGTTGAACTAAGCTCATATTGATTATGATATCTTAAATATCTTAAATGTTCTTAAAATTTCCATAAAGATTAACTATTTGATTTGCAACAAAGATAAAGAATGAGATTACAGGAAGACTTGCAAAATCTTCGTGGATTATTGGTCAGGTTGAAGAAATTTAGAAGAAAAGAGAATGGGAAAGAGAGAAGAGAAAGAAGAAAGTACCTCGTACTCGTGTTCCTGATAGGTTTCGTGAAGATTAATACTGATGTACTTTTGATTTTCGACAATGAAAAACAAGGATTGGAGTCTTGATTCAGGATGACCAAAATGGAATTCGAGCGGCAACGACTTCTATGCATAATATCGTTCCCCCATTGCTTGCTGAAATTTTAGCTATTCGTGAAGGGGTTCGATTGGTAGCAAGATTGGGGTCGAAATGCTTGTTGCTCGAATTCGTCTCCAAAGATGCGGTAAATCTGAACAACACTGAAAATGATTGA

mRNA sequence

ATGGCGGATTCGCCATTGAAGCCGCCGGTATCGCTCCAGAAGCCGCCGGGATACAAGGATCCGAGCGCGTCCTCAGGTCCGGGGAAGGGCGGGAGGAAGGCGCGGCTGCCGACGTCGTACCAGCCGAAGAAGAAGCGGAGGAACTGCTGCCGGACCTGCTGCTGCGTGCTCTGCTTCCTGATCCTGTTCCTGATCGTGGTCGCAGCGCTGGCCTCCGCGCTGTTCTACCTTCTCTTCGACCCGAAGCTGCCGGTGTTCCACCTGATCTCCTTCCGGATCTCGGATTTCAAGGTGTCGCCCAAGGCGGACGGCTCGTACCTGGACGCGGAGGCCTCCATCCGCGTGGAGTTCAAGAATCCCAACGACAAGCTCGGGATCGTGTACGGGAGGATCGAGTACGACGTGACGGTGGGGGAGATGACGGAGTTCGGGCGGCGGTCGATCCCGGGGTTCACGCAGGGGCGGAGGAACTCGACGACGGTGAAGGCGGAGACGGGGGTGAAGAGTAAGCTGCTGGCGGTGGATGACGGGGGGAAGATGTCGTCGTGGTTCCAGAGCAAGACGCTGCCGGTCAAGGTGGAGGCCGACACGGCGGTGGGCCTCGTCGTGCAGGGCTGGTCCATTGGCCCTCTCGCCGTCAGATTGGATTGCGAGTCCAGATTGAAGAGCGTTGAGGCTGGTGACATGCCCGATTGCAACATTCATTTCCTCAGATGCTCTTTGATTATCTTGATCGGCCTACTGTTTCTTGTTGATCTTGATTGGCCTTTGGGCTACTTATTGATCTTGATCGGCCTTCTGGTACTTGTTGATCTTGATCGACCTTCTAGATGCTTGTTGATATTTGATCTGCCTTCTAGTATCTTGTTGATCTTTGATCGGCCTTCTGGCTACTTCTCGATCTTGATTGGGCTTCTGGTGCTTGTTGATCTTGATCAACCTTTTGAAGAGTATCTCGTAGATCTCCATCTTCCCTTTGAGATTGTCGAGCTTATAAGAAAGAATGTAGATTCCCTTCAACTCAGGGATCACATGGGAGCTCTGGTTTGGGCAGCTCGGGGAGAAGTACTCGAGCATTTTGTAGGACCTGCATCATGGCCTCCAATATTGCCCGCATCTGAGCGACTTGAGATTGCGGGAATTGTACAATTTGTTGAGGACAAGCCGGGTGCTGCAAAAGATGTGAAGAAAGACGGTGCCAAATGTTATGTTGCTGCTGAGCCCGAAAATCGGCTTCCGATGAACCCGATCGAGACACAGAGGGCAAGTTGCACGAGAAAAGACTATACATATGGAACAAACACTTCGACACTCTGGCATAATGGGGAGGGGGGAAAAGTTCATTATGGTCATTCCAATAGGAGGTTGGGCCGATTACGAATTGTTGGGCCTGAGGTCAGTATTCTCAGGTGGAATAGTGTTATTGCACTGGTATTGAGGCGTTGTAGTAGTAGCATTGGAAGAGATATAGAGATAAGATCCCAGAGTGGTAGTGCCTCATCGGCGGTTCTCGTGGATATTTGGATTGGAGTCTTGATTCAGGATGACCAAAATGGAATTCGAGCGGCAACGACTTCTATGCATAATATCGTTCCCCCATTGCTTGCTGAAATTTTAGCTATTCGTGAAGGGGTTCGATTGGTAGCAAGATTGGGGTCGAAATGCTTGTTGCTCGAATTCGTCTCCAAAGATGCGGTAAATCTGAACAACACTGAAAATGATTGA

Coding sequence (CDS)

ATGGCGGATTCGCCATTGAAGCCGCCGGTATCGCTCCAGAAGCCGCCGGGATACAAGGATCCGAGCGCGTCCTCAGGTCCGGGGAAGGGCGGGAGGAAGGCGCGGCTGCCGACGTCGTACCAGCCGAAGAAGAAGCGGAGGAACTGCTGCCGGACCTGCTGCTGCGTGCTCTGCTTCCTGATCCTGTTCCTGATCGTGGTCGCAGCGCTGGCCTCCGCGCTGTTCTACCTTCTCTTCGACCCGAAGCTGCCGGTGTTCCACCTGATCTCCTTCCGGATCTCGGATTTCAAGGTGTCGCCCAAGGCGGACGGCTCGTACCTGGACGCGGAGGCCTCCATCCGCGTGGAGTTCAAGAATCCCAACGACAAGCTCGGGATCGTGTACGGGAGGATCGAGTACGACGTGACGGTGGGGGAGATGACGGAGTTCGGGCGGCGGTCGATCCCGGGGTTCACGCAGGGGCGGAGGAACTCGACGACGGTGAAGGCGGAGACGGGGGTGAAGAGTAAGCTGCTGGCGGTGGATGACGGGGGGAAGATGTCGTCGTGGTTCCAGAGCAAGACGCTGCCGGTCAAGGTGGAGGCCGACACGGCGGTGGGCCTCGTCGTGCAGGGCTGGTCCATTGGCCCTCTCGCCGTCAGATTGGATTGCGAGTCCAGATTGAAGAGCGTTGAGGCTGGTGACATGCCCGATTGCAACATTCATTTCCTCAGATGCTCTTTGATTATCTTGATCGGCCTACTGTTTCTTGTTGATCTTGATTGGCCTTTGGGCTACTTATTGATCTTGATCGGCCTTCTGGTACTTGTTGATCTTGATCGACCTTCTAGATGCTTGTTGATATTTGATCTGCCTTCTAGTATCTTGTTGATCTTTGATCGGCCTTCTGGCTACTTCTCGATCTTGATTGGGCTTCTGGTGCTTGTTGATCTTGATCAACCTTTTGAAGAGTATCTCGTAGATCTCCATCTTCCCTTTGAGATTGTCGAGCTTATAAGAAAGAATGTAGATTCCCTTCAACTCAGGGATCACATGGGAGCTCTGGTTTGGGCAGCTCGGGGAGAAGTACTCGAGCATTTTGTAGGACCTGCATCATGGCCTCCAATATTGCCCGCATCTGAGCGACTTGAGATTGCGGGAATTGTACAATTTGTTGAGGACAAGCCGGGTGCTGCAAAAGATGTGAAGAAAGACGGTGCCAAATGTTATGTTGCTGCTGAGCCCGAAAATCGGCTTCCGATGAACCCGATCGAGACACAGAGGGCAAGTTGCACGAGAAAAGACTATACATATGGAACAAACACTTCGACACTCTGGCATAATGGGGAGGGGGGAAAAGTTCATTATGGTCATTCCAATAGGAGGTTGGGCCGATTACGAATTGTTGGGCCTGAGGTCAGTATTCTCAGGTGGAATAGTGTTATTGCACTGGTATTGAGGCGTTGTAGTAGTAGCATTGGAAGAGATATAGAGATAAGATCCCAGAGTGGTAGTGCCTCATCGGCGGTTCTCGTGGATATTTGGATTGGAGTCTTGATTCAGGATGACCAAAATGGAATTCGAGCGGCAACGACTTCTATGCATAATATCGTTCCCCCATTGCTTGCTGAAATTTTAGCTATTCGTGAAGGGGTTCGATTGGTAGCAAGATTGGGGTCGAAATGCTTGTTGCTCGAATTCGTCTCCAAAGATGCGGTAAATCTGAACAACACTGAAAATGATTGA

Protein sequence

MADSPLKPPVSLQKPPGYKDPSASSGPGKGGRKARLPTSYQPKKKRRNCCRTCCCVLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDAEASIRVEFKNPNDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKSKLLAVDDGGKMSSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDMPDCNIHFLRCSLIILIGLLFLVDLDWPLGYLLILIGLLVLVDLDRPSRCLLIFDLPSSILLIFDRPSGYFSILIGLLVLVDLDQPFEEYLVDLHLPFEIVELIRKNVDSLQLRDHMGALVWAARGEVLEHFVGPASWPPILPASERLEIAGIVQFVEDKPGAAKDVKKDGAKCYVAAEPENRLPMNPIETQRASCTRKDYTYGTNTSTLWHNGEGGKVHYGHSNRRLGRLRIVGPEVSILRWNSVIALVLRRCSSSIGRDIEIRSQSGSASSAVLVDIWIGVLIQDDQNGIRAATTSMHNIVPPLLAEILAIREGVRLVARLGSKCLLLEFVSKDAVNLNNTEND
Homology
[Close]
BLAST of Moc07g03130 vs. NCBI nr
Match: XP_022150413.1 (NDR1/HIN1-like protein 6 [Momordica charantia] >XP_022150414.1 NDR1/HIN1-like protein 6 [Momordica charantia])

HSP 1 Score: 475.3 bits (1222), Expect = 7.3e-130
Identity = 238/238 (100.00%), Postives = 238/238 (100.00%), Query Frame = 0 

Query: 1   MADSPLKPPVSLQKPPGYKDPSASSGPGKGGRKARLPTSYQPKKKRRNCCRTCCCVLCFL 60
           MADSPLKPPVSLQKPPGYKDPSASSGPGKGGRKARLPTSYQPKKKRRNCCRTCCCVLCFL
Sbjct: 1   MADSPLKPPVSLQKPPGYKDPSASSGPGKGGRKARLPTSYQPKKKRRNCCRTCCCVLCFL 60

Query: 61  ILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDAEASIRVEFKNP 120
           ILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDAEASIRVEFKNP
Sbjct: 61  ILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDAEASIRVEFKNP 120

Query: 121 NDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKSKLLAVDDGGKM 180
           NDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKSKLLAVDDGGKM
Sbjct: 121 NDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKSKLLAVDDGGKM 180

Query: 181 SSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDMPDCNIHFLR 239
           SSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDMPDCNIHFLR
Sbjct: 181 SSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDMPDCNIHFLR 238

[Close]
BLAST of Moc07g03130 vs. NCBI nr
Match: KAG7025304.1 (NDR1/HIN1-like protein 2, partial [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 339.0 bits (868), Expect = 8.2e-89
Identity = 166/249 (66.67%), Postives = 202/249 (81.12%), Query Frame = 0 

Query: 1   MADSPLKPPVSLQKPPGYKDPSAS--------SGPGKGGRKARLPTSYQPKKKRRNCCRT 60
           MADSPLKPP  LQ+PPGYKDPSAS        S P     K RLPTSY+PKK++ +CCR 
Sbjct: 1   MADSPLKPP--LQRPPGYKDPSASGSSASIPVSKPPAARNKPRLPTSYKPKKRKSSCCRL 60

Query: 61  CCCVLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDAEAS 120
           CCCV CFLILFLIVV +LA ALFYL+FDPKLP+FHL++FRIS FKV+P  DGSYLDA+ S
Sbjct: 61  CCCVFCFLILFLIVVVSLAGALFYLIFDPKLPLFHLLAFRISSFKVAPTPDGSYLDAQVS 120

Query: 121 IRVEFKNPNDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKSKLL 180
           IRVEFKNPNDKL I YG+IEYDV VG+  EFG+R + GFTQGRR++TTVKA++GVK K+L
Sbjct: 121 IRVEFKNPNDKLAIKYGKIEYDVMVGQAAEFGQRELQGFTQGRRSTTTVKADSGVKGKML 180

Query: 181 AVDDGGKMSSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDMPDC 240
            V+D  ++ S +QSK + VKVEA TAVG+V QGW++GP+ V+LDCES+LK++EAGDMP C
Sbjct: 181 GVEDSTRLVSKYQSKAMEVKVEARTAVGVVAQGWAVGPIPVKLDCESKLKNIEAGDMPTC 240

Query: 241 NIHFLRCSL 242
           NI+ LRC +
Sbjct: 241 NINLLRCGM 247

[Close]
BLAST of Moc07g03130 vs. NCBI nr
Match: XP_038886533.1 (NDR1/HIN1-like protein 6 [Benincasa hispida])

HSP 1 Score: 335.9 bits (860), Expect = 6.9e-88
Identity = 168/247 (68.02%), Postives = 201/247 (81.38%), Query Frame = 0 

Query: 1   MADSPLKPPVSLQKPPGYKDPSASSG---------PGKGGRKARLPTSYQPKKKRRNCCR 60
           MADSPLK P  LQKPPGYKDP+ S           P     K RLP+SY+PK++RRNCCR
Sbjct: 1   MADSPLKKP-PLQKPPGYKDPNPSGSSSTSSAPHLPPATRNKPRLPSSYKPKRRRRNCCR 60

Query: 61  TCCCVLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDAEA 120
           TCCCV CFLILFLIVVAALA ALFYL++DPKLPVFHL++FRIS FKVS   DGS+LDA+ 
Sbjct: 61  TCCCVFCFLILFLIVVAALAIALFYLIYDPKLPVFHLLAFRISSFKVSATPDGSFLDAQV 120

Query: 121 SIRVEFKNPNDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKSKL 180
           SIRVEFKNPNDKL I YG IEYDVTVG+ T+FGRR + GFTQGRR++TTVKAE  VK+K+
Sbjct: 121 SIRVEFKNPNDKLAIRYGAIEYDVTVGQSTDFGRRELAGFTQGRRSTTTVKAEAAVKNKM 180

Query: 181 LAVDDGGKMSSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDMPD 239
           LAV+DG ++ S FQSK++ VKVEA+T VG+V+QGW +GP+ V+LDCES+LK++E GDMP 
Sbjct: 181 LAVEDGARLLSRFQSKSMEVKVEAETTVGVVLQGWGLGPINVKLDCESKLKNIEDGDMPI 240

[Close]
BLAST of Moc07g03130 vs. NCBI nr
Match: KAA0032991.1 (protein YLS9 isoform X1 [Cucumis melo var. makuwa] >TYK21975.1 protein YLS9 isoform X1 [Cucumis melo var. makuwa])

HSP 1 Score: 335.5 bits (859), Expect = 9.0e-88
Identity = 168/253 (66.40%), Postives = 204/253 (80.63%), Query Frame = 0 

Query: 1   MADSPLKPPVSLQKPPGYKD-----PSASSG------PGKGGRKARLPTSYQPKKKRRNC 60
           MAD P+KPP  LQKPPGYKD      S+SS       P     K RLP+SY+PKK++RNC
Sbjct: 1   MADLPMKPP--LQKPPGYKDHHTAATSSSSASTVTHLPPPPRSKPRLPSSYKPKKRKRNC 60

Query: 61  CRTCCCVLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDA 120
           CRTCCC+ CFLILFLIVVAALA ALFYL++DPKLPVFHL++FRIS FKVS   DGS+LDA
Sbjct: 61  CRTCCCIFCFLILFLIVVAALALALFYLIYDPKLPVFHLLAFRISTFKVSATPDGSFLDA 120

Query: 121 EASIRVEFKNPNDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKS 180
           + SIRVEFKNPNDKL I YG+IEYDV VG+ TEFGRR + GFTQ RR++TTVKAE  VK+
Sbjct: 121 QVSIRVEFKNPNDKLSIKYGKIEYDVMVGQATEFGRRELAGFTQDRRSTTTVKAEAAVKN 180

Query: 181 KLLAVDDGGKMSSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDM 240
           K+LAV+DG ++ S FQSK L VKVEA+TAVG+V+QGW +GP+ V+LDCE++LK++E GDM
Sbjct: 181 KMLAVEDGARLLSKFQSKALEVKVEAETAVGVVIQGWGLGPITVKLDCETKLKNIEGGDM 240

Query: 241 PDCNIHFLRCSLI 243
           P CNI+ LRC ++
Sbjct: 241 PICNINLLRCDML 251

[Close]
BLAST of Moc07g03130 vs. NCBI nr
Match: KAG6592899.1 (NDR1/HIN1-like protein 2, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 335.1 bits (858), Expect = 1.2e-87
Identity = 165/246 (67.07%), Postives = 200/246 (81.30%), Query Frame = 0 

Query: 1   MADSPLKPPVSLQKPPGYKDPSAS--------SGPGKGGRKARLPTSYQPKKKRRNCCRT 60
           MADSPLKPP  LQ+PPGYKDPSAS        S P     K RLPTSY+PKK++ +CCR 
Sbjct: 1   MADSPLKPP--LQRPPGYKDPSASGSSASIPVSKPPAARNKPRLPTSYKPKKRKSSCCRL 60

Query: 61  CCCVLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDAEAS 120
           CCCV CFLILFLIVV +LA ALFYL+FDPKLP+FHL++FRIS FKV+P  DGSYLDA+ S
Sbjct: 61  CCCVFCFLILFLIVVVSLAGALFYLIFDPKLPLFHLLAFRISSFKVAPTPDGSYLDAQVS 120

Query: 121 IRVEFKNPNDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKSKLL 180
           IRVEFKNPNDKL I YG+IEYDV VG+  EFG+R + GFTQGRR++TTVKA++GVK K+L
Sbjct: 121 IRVEFKNPNDKLAIKYGKIEYDVMVGQAAEFGQRELQGFTQGRRSTTTVKADSGVKGKML 180

Query: 181 AVDDGGKMSSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDMPDC 239
            V+D  ++ S +QSK + VKVEA TAVG+V QGW++GP+ V+LDCES+LK++EAGDMP C
Sbjct: 181 GVEDSTRLVSKYQSKAMEVKVEARTAVGVVAQGWAVGPIPVKLDCESKLKNIEAGDMPTC 240

[Close]
BLAST of Moc07g03130 vs. ExPASy Swiss-Prot
Match: Q8LD98 (NDR1/HIN1-like protein 6 OS=Arabidopsis thaliana OX=3702 GN=NHL6 PE=1 SV=1)

HSP 1 Score: 67.8 bits (164), Expect = 4.6e-10
Identity = 43/124 (34.68%), Postives = 67/124 (54.03%), Query Frame = 0 

Query: 42  PKKKRRNCCRTCCCVLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPK 101
           PKK+R  CCR  C   CFL+L ++ V A +  + YL+F PKLP + +   +++ F ++  
Sbjct: 55  PKKRRSCCCRCFCYTFCFLLLLVVAVGA-SIGILYLVFKPKLPDYSIDRLQLTRFALN-- 114

Query: 102 ADGSYLDAEASIRVEFKNPNDKLGIVYGRIEYDVTVGEMT-EFGRRSIPGFTQGRRNSTT 161
              S L    ++ +  KNPN+K+GI Y      +TV  M  +    S+P F QG  N+T 
Sbjct: 115 -QDSSLTTAFNVTITAKNPNEKIGIYY-EDGSKITVWYMEHQLSNGSLPKFYQGHENTTV 173

Query: 162 VKAE 165
           +  E
Sbjct: 175 IYVE 173

[Close]
BLAST of Moc07g03130 vs. ExPASy Swiss-Prot
Match: Q9ZVD2 (NDR1/HIN1-like protein 13 OS=Arabidopsis thaliana OX=3702 GN=NHL13 PE=2 SV=1)

HSP 1 Score: 59.3 bits (142), Expect = 1.6e-07
Identity = 45/185 (24.32%), Postives = 82/185 (44.32%), Query Frame = 0 

Query: 43  KKKRRNCCRTCCCVLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKA 102
           KK  R+ CR C C     +  LIV+A ++ A+ YL++ P+ P + +  F +S   ++   
Sbjct: 64  KKTNRSNCRCCFCSFLAAVFILIVLAGISFAVLYLIYRPEAPKYSIEGFSVSGINLN--- 123

Query: 103 DGSYLDAEASIRVEFKNPNDKLGIVYGR-IEYDVTVGEMTEFGRRSIPGFTQGRRNSTTV 162
             S +    ++ V  +N N K+G+ Y +    DV   ++ +     +P F Q  +N T V
Sbjct: 124 STSPISPSFNVTVRSRNGNGKIGVYYEKESSVDVYYNDV-DISNGVMPVFYQPAKNVTVV 183

Query: 163 KAETGVKSKLLAVDDGGKMSSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRL 222
           K         L      +M +    KT+P K++    V +         + V +DC+  +
Sbjct: 184 KLVLSGSKIQLTSGMRKEMRNEVSKKTVPFKLKIKAPVKIKFGSVKTWTMIVNVDCDVTV 243

Query: 223 KSVEA 227
             + A
Sbjct: 244 DKLTA 244

[Close]
BLAST of Moc07g03130 vs. ExPASy TrEMBL
Match: A0A6J1D9D9 (NDR1/HIN1-like protein 6 OS=Momordica charantia OX=3673 GN=LOC111018575 PE=4 SV=1)

HSP 1 Score: 475.3 bits (1222), Expect = 3.5e-130
Identity = 238/238 (100.00%), Postives = 238/238 (100.00%), Query Frame = 0 

Query: 1   MADSPLKPPVSLQKPPGYKDPSASSGPGKGGRKARLPTSYQPKKKRRNCCRTCCCVLCFL 60
           MADSPLKPPVSLQKPPGYKDPSASSGPGKGGRKARLPTSYQPKKKRRNCCRTCCCVLCFL
Sbjct: 1   MADSPLKPPVSLQKPPGYKDPSASSGPGKGGRKARLPTSYQPKKKRRNCCRTCCCVLCFL 60

Query: 61  ILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDAEASIRVEFKNP 120
           ILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDAEASIRVEFKNP
Sbjct: 61  ILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDAEASIRVEFKNP 120

Query: 121 NDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKSKLLAVDDGGKM 180
           NDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKSKLLAVDDGGKM
Sbjct: 121 NDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKSKLLAVDDGGKM 180

Query: 181 SSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDMPDCNIHFLR 239
           SSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDMPDCNIHFLR
Sbjct: 181 SSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDMPDCNIHFLR 238

[Close]
BLAST of Moc07g03130 vs. ExPASy TrEMBL
Match: A0A5D3DEK8 (Protein YLS9 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold482G00040 PE=4 SV=1)

HSP 1 Score: 335.5 bits (859), Expect = 4.4e-88
Identity = 168/253 (66.40%), Postives = 204/253 (80.63%), Query Frame = 0 

Query: 1   MADSPLKPPVSLQKPPGYKD-----PSASSG------PGKGGRKARLPTSYQPKKKRRNC 60
           MAD P+KPP  LQKPPGYKD      S+SS       P     K RLP+SY+PKK++RNC
Sbjct: 1   MADLPMKPP--LQKPPGYKDHHTAATSSSSASTVTHLPPPPRSKPRLPSSYKPKKRKRNC 60

Query: 61  CRTCCCVLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDA 120
           CRTCCC+ CFLILFLIVVAALA ALFYL++DPKLPVFHL++FRIS FKVS   DGS+LDA
Sbjct: 61  CRTCCCIFCFLILFLIVVAALALALFYLIYDPKLPVFHLLAFRISTFKVSATPDGSFLDA 120

Query: 121 EASIRVEFKNPNDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKS 180
           + SIRVEFKNPNDKL I YG+IEYDV VG+ TEFGRR + GFTQ RR++TTVKAE  VK+
Sbjct: 121 QVSIRVEFKNPNDKLSIKYGKIEYDVMVGQATEFGRRELAGFTQDRRSTTTVKAEAAVKN 180

Query: 181 KLLAVDDGGKMSSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDM 240
           K+LAV+DG ++ S FQSK L VKVEA+TAVG+V+QGW +GP+ V+LDCE++LK++E GDM
Sbjct: 181 KMLAVEDGARLLSKFQSKALEVKVEAETAVGVVIQGWGLGPITVKLDCETKLKNIEGGDM 240

Query: 241 PDCNIHFLRCSLI 243
           P CNI+ LRC ++
Sbjct: 241 PICNINLLRCDML 251

[Close]
BLAST of Moc07g03130 vs. ExPASy TrEMBL
Match: A0A6J1H856 (NDR1/HIN1-like protein 6 OS=Cucurbita moschata OX=3662 GN=LOC111461008 PE=4 SV=1)

HSP 1 Score: 335.1 bits (858), Expect = 5.7e-88
Identity = 165/246 (67.07%), Postives = 200/246 (81.30%), Query Frame = 0 

Query: 1   MADSPLKPPVSLQKPPGYKDPSAS--------SGPGKGGRKARLPTSYQPKKKRRNCCRT 60
           MADSPLKPP  LQ+PPGYKDPSAS        S P     K RLPTSY+PKK++ +CCR 
Sbjct: 1   MADSPLKPP--LQRPPGYKDPSASGSSASIPVSKPPAARNKPRLPTSYKPKKRKSSCCRL 60

Query: 61  CCCVLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDAEAS 120
           CCCV CFLILFLIVV +LA ALFYL+FDPKLP+FHL++FRIS FKV+P  DGSYLDA+ S
Sbjct: 61  CCCVFCFLILFLIVVVSLAGALFYLIFDPKLPLFHLLAFRISSFKVAPTPDGSYLDAQVS 120

Query: 121 IRVEFKNPNDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKSKLL 180
           IRVEFKNPNDKL I YG+IEYDV VG+  EFG+R + GFTQGRR++TTVKA++GVK K+L
Sbjct: 121 IRVEFKNPNDKLAIKYGKIEYDVMVGQAAEFGQRELQGFTQGRRSTTTVKADSGVKGKML 180

Query: 181 AVDDGGKMSSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDMPDC 239
            V+D  ++ S +QSK + VKVEA TAVG+V QGW++GP+ V+LDCES+LK++EAGDMP C
Sbjct: 181 GVEDSTRLVSKYQSKAMEVKVEARTAVGVVAQGWAVGPIPVKLDCESKLKNIEAGDMPTC 240

[Close]
BLAST of Moc07g03130 vs. ExPASy TrEMBL
Match: A0A6J1KTU7 (NDR1/HIN1-like protein 13 OS=Cucurbita maxima OX=3661 GN=LOC111498155 PE=4 SV=1)

HSP 1 Score: 333.2 bits (853), Expect = 2.2e-87
Identity = 164/246 (66.67%), Postives = 200/246 (81.30%), Query Frame = 0 

Query: 1   MADSPLKPPVSLQKPPGYKDPSAS--------SGPGKGGRKARLPTSYQPKKKRRNCCRT 60
           MADSPLKPP  LQ+PPGYKDPSAS        S P     K RLPTSY+PKK++ +CCR 
Sbjct: 85  MADSPLKPP--LQRPPGYKDPSASGSSASIPVSKPPAARNKPRLPTSYKPKKRKSSCCRL 144

Query: 61  CCCVLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDAEAS 120
           CCCV CFLILFLIVV +LA ALFYL+FDPKLP+FHL++FRIS FKV+P  DGSYLDA+ S
Sbjct: 145 CCCVFCFLILFLIVVVSLAGALFYLIFDPKLPLFHLLAFRISSFKVAPTPDGSYLDAQVS 204

Query: 121 IRVEFKNPNDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKSKLL 180
           IRVEFKNPNDKL I YG+IEYDV VG+  EFG+R + GFTQ RR++TTVKA++GVK K+L
Sbjct: 205 IRVEFKNPNDKLAIRYGKIEYDVMVGQAAEFGQRELQGFTQARRSTTTVKADSGVKGKML 264

Query: 181 AVDDGGKMSSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDMPDC 239
            V+D  ++ S +QSK + VKVEA TAVG+V QGW++GP++V+LDCES+LK++EAGDMP C
Sbjct: 265 GVEDSTRLVSKYQSKAMEVKVEARTAVGVVAQGWAVGPISVKLDCESKLKNIEAGDMPTC 324

[Close]
BLAST of Moc07g03130 vs. ExPASy TrEMBL
Match: A0A0A0KCD8 (LEA_2 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_6G042460 PE=4 SV=1)

HSP 1 Score: 332.8 bits (852), Expect = 2.8e-87
Identity = 169/249 (67.87%), Postives = 202/249 (81.12%), Query Frame = 0 

Query: 1   MADSPLKPPVSLQKPPGYKD--------PSASSG---PGKGGRKARLPTSYQPKKKRRNC 60
           MAD PLKPP  LQKPPGYKD         SAS+    P     K R P+SY+PKK++RNC
Sbjct: 1   MADLPLKPP--LQKPPGYKDHNTTATSSSSASTATHLPPPLRPKPRPPSSYKPKKRKRNC 60

Query: 61  CRTCCCVLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDA 120
           CRTCCC+ CFLILFLIVVAALA ALFYLL+DPKLPVFHL++FRIS FKVS   DGS+LD+
Sbjct: 61  CRTCCCIFCFLILFLIVVAALALALFYLLYDPKLPVFHLLAFRISSFKVSTTPDGSFLDS 120

Query: 121 EASIRVEFKNPNDKLGIVYGRIEYDVTVGEMTEFGRRSIPGFTQGRRNSTTVKAETGVKS 180
           + SIRVEFKNPN+KL I YG+IEYDVTVG+ TEFGRR + GFTQGRR++TTVKAE  VK+
Sbjct: 121 QVSIRVEFKNPNEKLSIKYGKIEYDVTVGQATEFGRRELAGFTQGRRSTTTVKAEAAVKN 180

Query: 181 KLLAVDDGGKMSSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDM 239
           K+LAV+DGG++ S FQSK L VKVEA+T VG+VVQGW +GP+ V+LDCES+LK+++ GDM
Sbjct: 181 KMLAVEDGGRLLSKFQSKALEVKVEAETEVGVVVQGWGLGPITVKLDCESKLKNIDGGDM 240

[Close]
BLAST of Moc07g03130 vs. TAIR 10
Match: AT2G46300.1 (Late embryogenesis abundant (LEA) hydroxyproline-rich glycoprotein family )

HSP 1 Score: 187.2 bits (474), Expect = 3.7e-47
Identity = 113/249 (45.38%), Postives = 150/249 (60.24%), Query Frame = 0 

Query: 1   MADSPLKPPVSLQKPPGYKDPSASSGP-------GKGGRKA-RLPTSYQPKKKRRNCCRT 60
           MAD  + P   LQKPPGY+DP+ SS P        +  RKA  +PTSY+PKKKRR+CCR 
Sbjct: 1   MADYQMNP--VLQKPPGYRDPNMSSPPPPPPPIQQQPMRKAVPMPTSYRPKKKRRSCCRF 60

Query: 61  CCCVLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSPKADGSYLDAEAS 120
           CCC +C  ++  I +  + +A+FYL FDPKLP F L SFR+  FK++   DG+ L A A 
Sbjct: 61  CCCCICITLVLFIFLLLVGTAVFYLWFDPKLPTFSLASFRLDGFKLADDPDGASLSATAV 120

Query: 121 IRVEFKNPNDKLGIVYGRIEYDVTVG---EMTEFGRRSIPGFTQGRRNSTTVKAETGVKS 180
            RVE KNPN KL   YG    D++VG   + T  G  ++ GF QG +NST+VK ET VK+
Sbjct: 121 ARVEMKNPNSKLVFYYGNTAVDLSVGSGNDETGMGETTMNGFRQGPKNSTSVKVETTVKN 180

Query: 181 KLLAVDDGGKMSSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDM 239
           +L+      ++++ FQSK L + V A T VGL V G  IG LAV L C     +    D 
Sbjct: 181 QLVERGLAKRLAAKFQSKDLVINVVAKTKVGLGVGGIKIGMLAVNLRCGGVSLNKLDTDS 240

[Close]
BLAST of Moc07g03130 vs. TAIR 10
Match: AT4G01110.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT1G01453.1); Has 273 Blast hits to 272 proteins in 18 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 273; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). )

HSP 1 Score: 119.0 bits (297), Expect = 1.2e-26
Identity = 91/257 (35.41%), Postives = 135/257 (52.53%), Query Frame = 0 

Query: 1   MADSPLKPPVSLQKPPGYKD-----------PSASSGPGKGGRKARLPTSYQPKKKRR-N 60
           MA   L  PV LQKPPGY++            S+SS   +   K  +P ++ P KKR+ +
Sbjct: 1   MAGETLLKPV-LQKPPGYRELHSQPQTPLGSSSSSSSMLRRPPKHAIPAAFYPTKKRQWS 60

Query: 61  CCRTCCCVLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVS--PKADG-S 120
            CR  CC +C  +  +I++  L  ++F+L + P+LPV  L SFR+S+F  S     DG S
Sbjct: 61  RCRVFCCCVCITVAIVILLLILTVSVFFLYYSPRLPVVRLSSFRVSNFNFSGGKAGDGLS 120

Query: 121 YLDAEASIRVEFKNPNDKLGIVYGRIEYDVTVGE---MTEFGRRSIPGFTQGRRNSTTVK 180
            L AEA+ R++F+NPN KL   YG ++  V+VGE    T  G   + GF +   N T V 
Sbjct: 121 QLTAEATARLDFRNPNGKLRYYYGNVDVAVSVGEDDFETSLGSTKVKGFVEKPGNRTVVI 180

Query: 181 AETGVKSKLLAVDDGGKMSSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCES-RL 239
               VK + +      ++ +  +SK L VKV A T VGL V    I  + V + C   RL
Sbjct: 181 VPIKVKKQQVDDPTVKRLRADMKSKKLVVKVMAKTKVGLGVGRRKIVTVGVTISCGGVRL 240

[Close]
BLAST of Moc07g03130 vs. TAIR 10
Match: AT1G01453.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT4G01110.1); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). )

HSP 1 Score: 117.1 bits (292), Expect = 4.7e-26
Identity = 86/249 (34.54%), Postives = 123/249 (49.40%), Query Frame = 0 

Query: 2   ADSPLKPPVSLQKPPGYKD----PSASSGPGKGGRKARLPTSYQPKKKRRNC--CRTCCC 61
           A+ PL+P  +LQKPPG++D    PSA    G      R P    P  K+R C  CR  CC
Sbjct: 16  AEKPLQP--ALQKPPGFRDQQNQPSAPPS-GTATLPRRRPRPIHPADKKRRCSFCRVFCC 75

Query: 62  VLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSP-KADG--SYLDAEAS 121
            +C L   ++++  +A A+F+L + PKLPV  L SF+IS+F  S  K+D   S+L A+ +
Sbjct: 76  CVCILFAVILLLILIAVAVFFLWYSPKLPVVRLASFKISNFNFSDGKSDDGWSFLSADTT 135

Query: 122 IRVEFKNPNDKLGIVYGRIEYDVTVGEM---TEFGRRSIPGFTQGRRNSTTVKAETGVKS 181
             ++F+NPN KL   YG  +  V +GE    T      + GF +   N T V   T V+ 
Sbjct: 136 SVLDFRNPNGKLTFYYGDTDVAVILGEKDFETNLESTKVKGFIEKPGNRTAVIVPTTVRK 195

Query: 182 KLLAVDDGGKMSSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDM 239
           + +      ++    +SK L V V A T VGL V    I  + V L C   +       M
Sbjct: 196 RQVDDPTAKRLQVELKSKKLLVTVTAKTKVGLAVGSRKIVTVGVSLRCGGVILQTLDSKM 255

[Close]
BLAST of Moc07g03130 vs. TAIR 10
Match: AT1G01453.2 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT4G01110.1); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). )

HSP 1 Score: 117.1 bits (292), Expect = 4.7e-26
Identity = 86/249 (34.54%), Postives = 123/249 (49.40%), Query Frame = 0 

Query: 2   ADSPLKPPVSLQKPPGYKD----PSASSGPGKGGRKARLPTSYQPKKKRRNC--CRTCCC 61
           A+ PL+P  +LQKPPG++D    PSA    G      R P    P  K+R C  CR  CC
Sbjct: 16  AEKPLQP--ALQKPPGFRDQQNQPSAPPS-GTATLPRRRPRPIHPADKKRRCSFCRVFCC 75

Query: 62  VLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRISDFKVSP-KADG--SYLDAEAS 121
            +C L   ++++  +A A+F+L + PKLPV  L SF+IS+F  S  K+D   S+L A+ +
Sbjct: 76  CVCILFAVILLLILIAVAVFFLWYSPKLPVVRLASFKISNFNFSDGKSDDGWSFLSADTT 135

Query: 122 IRVEFKNPNDKLGIVYGRIEYDVTVGEM---TEFGRRSIPGFTQGRRNSTTVKAETGVKS 181
             ++F+NPN KL   YG  +  V +GE    T      + GF +   N T V   T V+ 
Sbjct: 136 SVLDFRNPNGKLTFYYGDTDVAVILGEKDFETNLESTKVKGFIEKPGNRTAVIVPTTVRK 195

Query: 182 KLLAVDDGGKMSSWFQSKTLPVKVEADTAVGLVVQGWSIGPLAVRLDCESRLKSVEAGDM 239
           + +      ++    +SK L V V A T VGL V    I  + V L C   +       M
Sbjct: 196 RQVDDPTAKRLQVELKSKKLLVTVTAKTKVGLAVGSRKIVTVGVSLRCGGVILQTLDSKM 255

[Close]
BLAST of Moc07g03130 vs. TAIR 10
Match: AT1G17620.1 (Late embryogenesis abundant (LEA) hydroxyproline-rich glycoprotein family )

HSP 1 Score: 73.6 bits (179), Expect = 6.0e-13
Identity = 51/192 (26.56%), Postives = 92/192 (47.92%), Query Frame = 0 

Query: 35  RLPTSYQPKKKRRNCCRTCCCVLCFLILFLIVVAALASALFYLLFDPKLPVFHLISFRIS 94
           R P   +     R CC  CCC   F+I+ L+++ A ASA+ YL++ P+ P     SF +S
Sbjct: 43  RPPAGRRRTSHTRGCCCRCCCWTIFVIILLLLIVAAASAVVYLIYRPQRP-----SFTVS 102

Query: 95  DFKVSPK--ADGSYLDAEASIRVEFKNPNDKLGIVYGRIE---YDVTVG--EMTEFGRRS 154
           + K+S         L    S+ V  +NPN  +G +Y   +   Y  + G  +    G+ +
Sbjct: 103 ELKISTLNFTSAVRLTTAISLSVIARNPNKNVGFIYDVTDITLYKASTGGDDDVVIGKGT 162

Query: 155 IPGFTQGRRNSTTVKAETGVKSKLLAVDDGGKMSSWFQS-KTLPVKVEADTAVGLVVQGW 214
           I  F+ G++N+TT+++  G     L     GK+    ++ K + +K+  ++ V + +   
Sbjct: 163 IAAFSHGKKNTTTLRSTIGSPPDELDEISAGKLKGDLKAKKAVAIKIVLNSKVKVKMGAL 222

Query: 215 SIGPLAVRLDCE 219
                 +R+ CE
Sbjct: 223 KTPKSGIRVTCE 229

The following BLAST results are available for this feature:
BLAST of Moc07g03130 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022150413.17.3e-130100.00NDR1/HIN1-like protein 6 [Momordica charantia] >XP_022150414.1 NDR1/HIN1-like pr... [more]
KAG7025304.18.2e-8966.67NDR1/HIN1-like protein 2, partial [Cucurbita argyrosperma subsp. argyrosperma][more]
XP_038886533.16.9e-8868.02NDR1/HIN1-like protein 6 [Benincasa hispida][more]
KAA0032991.19.0e-8866.40protein YLS9 isoform X1 [Cucumis melo var. makuwa] >TYK21975.1 protein YLS9 isof... [more]
KAG6592899.11.2e-8767.07NDR1/HIN1-like protein 2, partial [Cucurbita argyrosperma subsp. sororia][more]
BLAST of Moc07g03130 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q8LD984.6e-1034.68NDR1/HIN1-like protein 6 OS=Arabidopsis thaliana OX=3702 GN=NHL6 PE=1 SV=1[more]
Q9ZVD21.6e-0724.32NDR1/HIN1-like protein 13 OS=Arabidopsis thaliana OX=3702 GN=NHL13 PE=2 SV=1[more]
BLAST of Moc07g03130 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1D9D93.5e-130100.00NDR1/HIN1-like protein 6 OS=Momordica charantia OX=3673 GN=LOC111018575 PE=4 SV=... [more]
A0A5D3DEK84.4e-8866.40Protein YLS9 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold... [more]
A0A6J1H8565.7e-8867.07NDR1/HIN1-like protein 6 OS=Cucurbita moschata OX=3662 GN=LOC111461008 PE=4 SV=1[more]
A0A6J1KTU72.2e-8766.67NDR1/HIN1-like protein 13 OS=Cucurbita maxima OX=3661 GN=LOC111498155 PE=4 SV=1[more]
A0A0A0KCD82.8e-8767.87LEA_2 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_6G042460 PE=4 ... [more]
BLAST of Moc07g03130 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G46300.13.7e-4745.38Late embryogenesis abundant (LEA) hydroxyproline-rich glycoprotein family [more]
AT4G01110.11.2e-2635.41unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TA... [more]
AT1G01453.14.7e-2634.54unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT1G01453.24.7e-2634.54unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT1G17620.16.0e-1326.56Late embryogenesis abundant (LEA) hydroxyproline-rich glycoprotein family [more]
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (OHB3-1) v2
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR004864Late embryogenesis abundant protein, LEA_2 subgroupPFAMPF03168LEA_2coord: 115..217
e-value: 8.3E-9
score: 35.9
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..39
NoneNo IPR availablePANTHERPTHR31234:SF48SUBFAMILY NOT NAMEDcoord: 1..239
NoneNo IPR availablePANTHERPTHR31234LATE EMBRYOGENESIS ABUNDANT (LEA) HYDROXYPROLINE-RICH GLYCOPROTEIN FAMILYcoord: 1..239

Relationships

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

Feature NameUnique NameType
Moc07g03130.1Moc07g03130.1mRNA


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