Lcy04g001230 (gene) Sponge gourd (P93075) v1

Overview
NameLcy04g001230
Typegene
OrganismLuffa cylindrica cv. P93075 (Sponge gourd (P93075) v1)
DescriptionCCHC-type domain-containing protein
LocationChr04: 6110911 .. 6130818 (-)
RNA-Seq ExpressionLcy04g001230
SyntenyLcy04g001230
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGAGCTCCGAAACCACTTGATTCTCAACCGCAAGAGCCTAAGAGAGCTCAAACTACAAGCAACTACTTCTAAGGCACGGGTAAGAGTTAAAGCTTACCAGAATCACCAAACGACGCCGAAAACGATGCTGGACAGGGGCAAAAACGCGAGATCTAACCAAACCACGCAAATACTCTTAGATCGAGCCTTAACGAATACAAATGAGAGAGAAAACGGCTTACCCACAAGATTATCTTGCATAAAACGGCGCGGGAGAGGGAAGAGCTTGACGAAGACCCACAGAAAACGCACGGCAACTCGAGCACCACAACGACTAGCAGCTGCTGCTCGAGGCACGATGGCGACAGAGGGCTGGGCAACGACGGAGGCGACGCGGGACGGGCTTTGGTCGATGGCGGCGCGACTTCACGCGAAAGAGAACCCGAGAGAGACAGGGAGAGATTCGCGCGAGAAAGGACGGCGCGACGGCTGGGCTGGGGGCGACGGGTTGAAGCGTGGGAAGTGTGTGTATATAAGTGGTTCTTTTGGCTGGTTTGAGAGATTGAGGCTTCTTCCAGCTAAAATAACAGCGAACTCACTGGGAGCAAGCCTGATTGGAAAGCTGTTGGCTCCTATAATTATTTCGGGAGAGGTTATGCGCAAAACGTTTAAATCCGCGTGGAACATTCCTTCTAGTTTGATAGTGGAAAAGATTGAGACTAACATTTTTCTTTTCACGCTTATATCAGAGGAGGATCTTGTTCGGGTAATTCGCCAGGGGCCATGGCTGTTTGATAAATTTCTTCTTGTTTTATCTAAGCCAGTGCCGATGAGAAAACTGGGAAACGCGATAGGTAGATTTGAAGAATACGATAATGGTGGTCGACGTTACGGGTGGAAAGAGAGCTTGCGTGTGCAAGTGATAATTGATATATCCAAGCCGCTTCGTCGATGCATCAAGGTCAATCTAGATGGACCGATGGGAAGTTGTTGGGCACCTATCCGTTACGAGAAACTCCCGGAATTATGTTCATTTTGTGGCATAATTGGGCACGTTGTGAAGGATTGCAGTGCTTTTTTCCTGGGGGAGGGTTCGTCGGAGCAGAAAAATCAATATGGTGGACTGTCCAGCGGGAGGAAAGAAGAGGGACAATCGTCGTCGGTGGACCTATTTGACGCGAAGTCGATGGACATCTCTCCTGTTGCCGAGGAATCAATTGCGGTTACGGAAATCACGCCAGCATTCAATAATCCCAATAATGGCGAAGGTTTGGTTACAAAGGTAACGACAACATTGAAGGCTAAAAAGAAGTTAGAGTATGCTGCATCCAGTGAGGAACAATTAAAGCCAGCTTTGAATGAAAATTCCTCAATTTTCAATCAGCAATCGGGGACCTTTCAATTTGAAACGAAAAAGACACAGCCCGTCAGTTACGCCTATTCCTTTGAGGCGCTACTGAAAAATGAGGGAGTTGGGTCGGGCTTTTTTAATCAACCGCCTGCTTTTGATATGCCTGCACCAAATGAGCCGAGTGCTCTGCTAAATGGGCTGCCAGTGGAAGCCCAAACCCAACTCAAGGGTACTGATGAGCCTTTGCCTTTCAGAGAGCATGGTTCACATGCAGGGTTGGGTTGGCCCAATATTACACATTGGAAACATCGAGCAAGGAATTCTACTTTGGATGTGCAGAATGGGCTTGATGGGGATGGACTCAAAAAATGCCAAGGATCTGGGTTGCTGGATGGTACCAGAAAACGTGTCCGACTGGATGATGACAATCCTATTGAAGATTTTGATGTATCGGCAGAGGCTGCAGAGCAGTCCCGCCGAGAGCCATGA

Coding sequence (CDS)

ATGGAGCTCCGAAACCACTTGATTCTCAACCGCAAGAGCCTAAGAGAGCTCAAACTACAAGCAACTACTTCTAAGGCACGGGTAAGAGTTAAAGCTTACCAGAATCACCAAACGACGCCGAAAACGATGCTGGACAGGGGCAAAAACGCGAGATCTAACCAAACCACGCAAATACTCTTAGATCGAGCCTTAACGAATACAAATGAGAGAGAAAACGGCTTACCCACAAGATTATCTTGCATAAAACGGCGCGGGAGAGGGAAGAGCTTGACGAAGACCCACAGAAAACGCACGGCAACTCGAGCACCACAACGACTAGCAGCTGCTGCTCGAGGCACGATGGCGACAGAGGGCTGGGCAACGACGGAGGCGACGCGGGACGGGCTTTGGTCGATGGCGGCGCGACTTCACGCGAAAGAGAACCCGAGAGAGACAGGGAGAGATTCGCGCGAGAAAGGACGGCGCGACGGCTGGGCTGGGGGCGACGGGTTGAAGCGTGGGAAGTGTGTGTATATAAGTGGTTCTTTTGGCTGGTTTGAGAGATTGAGGCTTCTTCCAGCTAAAATAACAGCGAACTCACTGGGAGCAAGCCTGATTGGAAAGCTGTTGGCTCCTATAATTATTTCGGGAGAGGTTATGCGCAAAACGTTTAAATCCGCGTGGAACATTCCTTCTAGTTTGATAGTGGAAAAGATTGAGACTAACATTTTTCTTTTCACGCTTATATCAGAGGAGGATCTTGTTCGGGTAATTCGCCAGGGGCCATGGCTGTTTGATAAATTTCTTCTTGTTTTATCTAAGCCAGTGCCGATGAGAAAACTGGGAAACGCGATAGGTAGATTTGAAGAATACGATAATGGTGGTCGACGTTACGGGTGGAAAGAGAGCTTGCGTGTGCAAGTGATAATTGATATATCCAAGCCGCTTCGTCGATGCATCAAGGTCAATCTAGATGGACCGATGGGAAGTTGTTGGGCACCTATCCGTTACGAGAAACTCCCGGAATTATGTTCATTTTGTGGCATAATTGGGCACGTTGTGAAGGATTGCAGTGCTTTTTTCCTGGGGGAGGGTTCGTCGGAGCAGAAAAATCAATATGGTGGACTGTCCAGCGGGAGGAAAGAAGAGGGACAATCGTCGTCGGTGGACCTATTTGACGCGAAGTCGATGGACATCTCTCCTGTTGCCGAGGAATCAATTGCGGTTACGGAAATCACGCCAGCATTCAATAATCCCAATAATGGCGAAGGTTTGGTTACAAAGGTAACGACAACATTGAAGGCTAAAAAGAAGTTAGAGTATGCTGCATCCAGTGAGGAACAATTAAAGCCAGCTTTGAATGAAAATTCCTCAATTTTCAATCAGCAATCGGGGACCTTTCAATTTGAAACGAAAAAGACACAGCCCGTCAGTTACGCCTATTCCTTTGAGGCGCTACTGAAAAATGAGGGAGTTGGGTCGGGCTTTTTTAATCAACCGCCTGCTTTTGATATGCCTGCACCAAATGAGCCGAGTGCTCTGCTAAATGGGCTGCCAGTGGAAGCCCAAACCCAACTCAAGGGTACTGATGAGCCTTTGCCTTTCAGAGAGCATGGTTCACATGCAGGGTTGGGTTGGCCCAATATTACACATTGGAAACATCGAGCAAGGAATTCTACTTTGGATGTGCAGAATGGGCTTGATGGGGATGGACTCAAAAAATGCCAAGGATCTGGGTTGCTGGATGGTACCAGAAAACGTGTCCGACTGGATGATGACAATCCTATTGAAGATTTTGATGTATCGGCAGAGGCTGCAGAGCAGTCCCGCCGAGAGCCATGA

Protein sequence

MELRNHLILNRKSLRELKLQATTSKARVRVKAYQNHQTTPKTMLDRGKNARSNQTTQILLDRALTNTNERENGLPTRLSCIKRRGRGKSLTKTHRKRTATRAPQRLAAAARGTMATEGWATTEATRDGLWSMAARLHAKENPRETGRDSREKGRRDGWAGGDGLKRGKCVYISGSFGWFERLRLLPAKITANSLGASLIGKLLAPIIISGEVMRKTFKSAWNIPSSLIVEKIETNIFLFTLISEEDLVRVIRQGPWLFDKFLLVLSKPVPMRKLGNAIGRFEEYDNGGRRYGWKESLRVQVIIDISKPLRRCIKVNLDGPMGSCWAPIRYEKLPELCSFCGIIGHVVKDCSAFFLGEGSSEQKNQYGGLSSGRKEEGQSSSVDLFDAKSMDISPVAEESIAVTEITPAFNNPNNGEGLVTKVTTTLKAKKKLEYAASSEEQLKPALNENSSIFNQQSGTFQFETKKTQPVSYAYSFEALLKNEGVGSGFFNQPPAFDMPAPNEPSALLNGLPVEAQTQLKGTDEPLPFREHGSHAGLGWPNITHWKHRARNSTLDVQNGLDGDGLKKCQGSGLLDGTRKRVRLDDDNPIEDFDVSAEAAEQSRREP
Homology
[Close]
BLAST of Lcy04g001230 vs. ExPASy TrEMBL
Match: A0A6J1DU55 (uncharacterized protein LOC111023135 OS=Momordica charantia OX=3673 GN=LOC111023135 PE=4 SV=1)

HSP 1 Score: 176.4 bits (446), Expect = 3.6e-40
Identity = 91/211 (43.13%), Postives = 121/211 (57.35%), Query Frame = 0 

Query: 188 KITANSLGASLIGKLLAPIIISGEVMRKTFKSAWNIPSSLIVEKIETNIFLFTLISEEDL 247
           K+    L  SL+GKLLA  IIS +V+ +    AW +   L VE I  N+FLF    E D+
Sbjct: 32  KMAEQGLAYSLVGKLLAKRIISADVLSRVLLLAWKVEHQLTVESIGKNLFLFHFCRECDM 91

Query: 248 VRVIRQGPWLFDKFLLVLSKP----------------------VPMR--------KLGNA 307
            RV++ GPW FDK L+VL KP                      +PM         +LGNA
Sbjct: 92  NRVMKTGPWFFDKALIVLQKPCSSKNISELEFNRVAFWIHLFDLPMSWLNKTMAIRLGNA 151

Query: 308 IGRFEEYDNGGRRYGWKESLRVQVIIDISKPLRRCIKVNLDGPMGSCWAPIRYEKLPELC 367
           IG F + D   + + W  SLR++V+IDI+KPLRR IK+N+DGPMG CW PI+YE+LP+ C
Sbjct: 152 IGNFVDVDCNEKGFSWGASLRIRVLIDITKPLRRGIKINIDGPMGGCWIPIQYERLPDFC 211

[Close]
BLAST of Lcy04g001230 vs. ExPASy TrEMBL
Match: A0A6J1BSZ1 (uncharacterized protein LOC111005481 OS=Momordica charantia OX=3673 GN=LOC111005481 PE=4 SV=1)

HSP 1 Score: 144.1 bits (362), Expect = 2.0e-30
Identity = 76/193 (39.38%), Postives = 102/193 (52.85%), Query Frame = 0 

Query: 190 TANSLGASLIGKLLAPIIISGEVMRKTFKSAWNIP-SSLIVEKIETNIFLFTLISEEDLV 249
           T   L  SLI KLL+   IS  V++ T K AW +   +  V+ I  NIFLF      D  
Sbjct: 34  TGKCLELSLICKLLSKRSISCTVLKNTLKIAWKLDCKAFSVDIIGFNIFLFNFNRSSDRN 93

Query: 250 RVIRQGPWLFDKFLLVLSKPVPMRK------------------------------LGNAI 309
           R++R GPW FD+ L+++  PV + K                              LGNAI
Sbjct: 94  RILRMGPWTFDRALIIIDNPVSLTKPLDMDFRNVSLWVHFFDLSLACMNKTMATRLGNAI 153

Query: 310 GRFEEYDNGGRRYGWKESLRVQVIIDISKPLRRCIKVNLDGPMGSCWAPIRYEKLPELCS 352
           G FE+ ++    + W   LRV+V  D+ KPL R IK+NLDGPMG CW PI+YE+LP+   
Sbjct: 154 GLFEDVESNANNFCWGSCLRVRVRFDVMKPLHRGIKLNLDGPMGGCWIPIQYERLPDFRY 213

[Close]
BLAST of Lcy04g001230 vs. ExPASy TrEMBL
Match: A0A6J1DX30 (uncharacterized protein LOC111024874 OS=Momordica charantia OX=3673 GN=LOC111024874 PE=4 SV=1)

HSP 1 Score: 130.6 bits (327), Expect = 2.3e-26
Identity = 73/209 (34.93%), Postives = 109/209 (52.15%), Query Frame = 0 

Query: 190 TANSLGASLIGKLLAPIIISGEVMRKTFKSAWNIPSSLI-VEKIETNIFLFTLISEEDLV 249
           T + L   L+GKL     I+  VM+ T ++AW + ++   V+ +  N+FLF+     D  
Sbjct: 34  TGSRLEQILVGKLFIKRPITCPVMKNTMRTAWKLENNAFEVQSLGYNLFLFSFARALDRN 93

Query: 250 RVIRQGPWLFDKFLLVLSKPVPM------------------------------RKLGNAI 309
           ++ + GPW FD+ L++++KPV +                               +LGNA+
Sbjct: 94  KIYKSGPWTFDRTLVLINKPVALIPPSELDFTKLPIWVRFFDLPLGCITRDMAIRLGNAL 153

Query: 310 GRFEEYDNGGRRYGWKESLRVQVIIDISKPLRRCIKVNLDGPMGSCWAPIRYEKLPELCS 368
           G FEE D       W  +LRV+V++DISKPLRR IK+NLDGP+G  W PI+YE+LP+ C 
Sbjct: 154 GGFEEADCDDLNPDWGSNLRVRVMLDISKPLRRGIKLNLDGPIGGAWIPIQYERLPDFCY 213

[Close]
BLAST of Lcy04g001230 vs. ExPASy TrEMBL
Match: A0A803KRS5 (Uncharacterized protein OS=Chenopodium quinoa OX=63459 PE=4 SV=1)

HSP 1 Score: 115.2 bits (287), Expect = 9.8e-22
Identity = 65/191 (34.03%), Postives = 96/191 (50.26%), Query Frame = 0 

Query: 190 TANSLGASLIGKLLAPIIISGEVMRKTFKSAWNIPSSLIVEKIETNIFLFTLISEEDLVR 249
           T N +  S++GKLL     + E M++T KS W +   ++++ +E N+F+F    E+D  +
Sbjct: 34  TKNQIALSMVGKLLTSKPFNAEAMKRTLKSVWRLHDKVVIKTVEMNLFVFQFFREKDKEK 93

Query: 250 VIRQGPWLFDKFLLVLSK----------------------PVPMRK--------LGNAIG 309
           V+   PW FD  LLVL +                       VP  K        +G+ +G
Sbjct: 94  VLDGCPWFFDGKLLVLKEVNGEEQPSEVTFNHTPLWIRLLDVPFSKRNRKTLTEIGDFLG 153

Query: 310 RFEEYDNGGRRYGWKESLRVQVIIDISKPLRRCIKVNLDGPMGSCWAPIRYEKLPELCSF 351
            F E D+     GW E +RV+V+IDI KPLRR + + + G   S W PI+YE+L E C F
Sbjct: 154 TFLETDD-TEPLGWGEFMRVKVMIDIEKPLRRGLFLAV-GAATSKWVPIKYERLEEFCLF 213

[Close]
BLAST of Lcy04g001230 vs. ExPASy TrEMBL
Match: A0A803LAB8 (Uncharacterized protein OS=Chenopodium quinoa OX=63459 PE=4 SV=1)

HSP 1 Score: 114.8 bits (286), Expect = 1.3e-21
Identity = 67/192 (34.90%), Postives = 97/192 (50.52%), Query Frame = 0 

Query: 190 TANSLGASLIGKLLAPIIISGEVMRKTFKSAWNIPSSLIVEKIETNIFLFTLISEEDLVR 249
           T N +  SL+GKLL     + E M+ T  S W +  ++I++ +E N+F+F   +E D  +
Sbjct: 34  TKNQIALSLVGKLLTTKPFNVEAMKHTLTSVWKLQGNVIIKMVEMNLFVFQFFNEADKEK 93

Query: 250 VIRQGPWLFDKFLLVLSK----------------------PVP--------MRKLGNAIG 309
           VI   PW FD  LLVL +                       VP        M ++G+ +G
Sbjct: 94  VIDGCPWFFDGKLLVLKEIKGEEQPSEVEFKFAPMWVRLLDVPFNKRNKKTMTEIGDFLG 153

Query: 310 RFEEYDNGGRRYGWKESLRVQVIIDISKPLRRCIKVNLDGPMGSCWAPIRYEKLPELCSF 352
            F E D+     GW E LR++V+IDI+KPLRR + +   GP  S W  ++YE+L E C F
Sbjct: 154 CFLEADDSD-PLGWGEFLRIKVMIDIAKPLRRGLFL-ATGPSSSKWVALKYERLDEFCFF 213

[Close]
BLAST of Lcy04g001230 vs. NCBI nr
Match: XP_022156185.1 (uncharacterized protein LOC111023135 [Momordica charantia] >XP_022156186.1 uncharacterized protein LOC111023135 [Momordica charantia])

HSP 1 Score: 176.4 bits (446), Expect = 7.4e-40
Identity = 91/211 (43.13%), Postives = 121/211 (57.35%), Query Frame = 0 

Query: 188 KITANSLGASLIGKLLAPIIISGEVMRKTFKSAWNIPSSLIVEKIETNIFLFTLISEEDL 247
           K+    L  SL+GKLLA  IIS +V+ +    AW +   L VE I  N+FLF    E D+
Sbjct: 32  KMAEQGLAYSLVGKLLAKRIISADVLSRVLLLAWKVEHQLTVESIGKNLFLFHFCRECDM 91

Query: 248 VRVIRQGPWLFDKFLLVLSKP----------------------VPMR--------KLGNA 307
            RV++ GPW FDK L+VL KP                      +PM         +LGNA
Sbjct: 92  NRVMKTGPWFFDKALIVLQKPCSSKNISELEFNRVAFWIHLFDLPMSWLNKTMAIRLGNA 151

Query: 308 IGRFEEYDNGGRRYGWKESLRVQVIIDISKPLRRCIKVNLDGPMGSCWAPIRYEKLPELC 367
           IG F + D   + + W  SLR++V+IDI+KPLRR IK+N+DGPMG CW PI+YE+LP+ C
Sbjct: 152 IGNFVDVDCNEKGFSWGASLRIRVLIDITKPLRRGIKINIDGPMGGCWIPIQYERLPDFC 211

[Close]
BLAST of Lcy04g001230 vs. NCBI nr
Match: XP_022132681.1 (uncharacterized protein LOC111005481 [Momordica charantia])

HSP 1 Score: 144.1 bits (362), Expect = 4.1e-30
Identity = 76/193 (39.38%), Postives = 102/193 (52.85%), Query Frame = 0 

Query: 190 TANSLGASLIGKLLAPIIISGEVMRKTFKSAWNIP-SSLIVEKIETNIFLFTLISEEDLV 249
           T   L  SLI KLL+   IS  V++ T K AW +   +  V+ I  NIFLF      D  
Sbjct: 34  TGKCLELSLICKLLSKRSISCTVLKNTLKIAWKLDCKAFSVDIIGFNIFLFNFNRSSDRN 93

Query: 250 RVIRQGPWLFDKFLLVLSKPVPMRK------------------------------LGNAI 309
           R++R GPW FD+ L+++  PV + K                              LGNAI
Sbjct: 94  RILRMGPWTFDRALIIIDNPVSLTKPLDMDFRNVSLWVHFFDLSLACMNKTMATRLGNAI 153

Query: 310 GRFEEYDNGGRRYGWKESLRVQVIIDISKPLRRCIKVNLDGPMGSCWAPIRYEKLPELCS 352
           G FE+ ++    + W   LRV+V  D+ KPL R IK+NLDGPMG CW PI+YE+LP+   
Sbjct: 154 GLFEDVESNANNFCWGSCLRVRVRFDVMKPLHRGIKLNLDGPMGGCWIPIQYERLPDFRY 213

[Close]
BLAST of Lcy04g001230 vs. NCBI nr
Match: XP_022158377.1 (uncharacterized protein LOC111024874 [Momordica charantia])

HSP 1 Score: 130.6 bits (327), Expect = 4.7e-26
Identity = 73/209 (34.93%), Postives = 109/209 (52.15%), Query Frame = 0 

Query: 190 TANSLGASLIGKLLAPIIISGEVMRKTFKSAWNIPSSLI-VEKIETNIFLFTLISEEDLV 249
           T + L   L+GKL     I+  VM+ T ++AW + ++   V+ +  N+FLF+     D  
Sbjct: 34  TGSRLEQILVGKLFIKRPITCPVMKNTMRTAWKLENNAFEVQSLGYNLFLFSFARALDRN 93

Query: 250 RVIRQGPWLFDKFLLVLSKPVPM------------------------------RKLGNAI 309
           ++ + GPW FD+ L++++KPV +                               +LGNA+
Sbjct: 94  KIYKSGPWTFDRTLVLINKPVALIPPSELDFTKLPIWVRFFDLPLGCITRDMAIRLGNAL 153

Query: 310 GRFEEYDNGGRRYGWKESLRVQVIIDISKPLRRCIKVNLDGPMGSCWAPIRYEKLPELCS 368
           G FEE D       W  +LRV+V++DISKPLRR IK+NLDGP+G  W PI+YE+LP+ C 
Sbjct: 154 GGFEEADCDDLNPDWGSNLRVRVMLDISKPLRRGIKLNLDGPIGGAWIPIQYERLPDFCY 213

[Close]
BLAST of Lcy04g001230 vs. NCBI nr
Match: XP_021858667.1 (uncharacterized protein LOC110797848 [Spinacia oleracea])

HSP 1 Score: 114.8 bits (286), Expect = 2.7e-21
Identity = 61/178 (34.27%), Postives = 96/178 (53.93%), Query Frame = 0 

Query: 198 LIGKLLAPIIISGEVMRKTFKSAWNIPSSLIVEKIETNIFLFTLISEEDLVRVIRQGPWL 257
           L+GK+L     + E M++T    W +   +++  IE N+F+F    E D  RV+   PW 
Sbjct: 42  LVGKMLTRRPFNFEAMKRTLTQIWRLQEHVVIRMIEMNLFVFQFFCEADKDRVLEGCPWS 101

Query: 258 FDKFLLVLSKPVPMRK-------LGNAIGRFEEYDNGGRRYGWKESLRVQVIIDISKPLR 317
           FD  +L L +    ++       +G ++G F ++DN    +GW E +R++V+ DI KPLR
Sbjct: 102 FDNQILCLKETDGRKRNSSFAYDIGESLGGFLDFDNTD-SFGWDEFMRIKVLCDIEKPLR 161

Query: 318 RCIKVNLDGPMGSCWAPIRYEKLPELCSFCGIIGHVVKDC-SAFFLGEGSSEQKNQYG 368
           R +K+   GP    W  I+YE+L +LC F G +GH  +DC S     E  ++   QYG
Sbjct: 162 RGVKL-ATGPETEIWLDIKYERLGDLCYFYGKLGHTDRDCQSQVKATESENDVVYQYG 217

[Close]
BLAST of Lcy04g001230 vs. NCBI nr
Match: TXG50019.1 (hypothetical protein EZV62_025894 [Acer yangbiense])

HSP 1 Score: 112.8 bits (281), Expect = 1.0e-20
Identity = 68/188 (36.17%), Postives = 94/188 (50.00%), Query Frame = 0 

Query: 194 LGASLIGKLLAPIIISGEVMRKTFKSAWNIPSSLIVEKIETNIFLFTLISEEDLVRVIRQ 253
           L   L GKLL+   ++ E         W       +E +E NIF FT   E D   V+R 
Sbjct: 37  LSLRLAGKLLSVKHVNREAFLSVLPRIWRTVKEFEIEILEGNIFSFTFKEESDRRSVLRG 96

Query: 254 GPWLFDKFLLVLSKP----------------------VPM--------RKLGNAIGRFEE 313
           GPW FDK LLVL +P                      VP+        R LG+ IG  +E
Sbjct: 97  GPWSFDKALLVLEEPTGKGDIREMKFDKVAFWIQIHKVPLLCMTSEIGRFLGSMIGEVKE 156

Query: 314 YDNGGRRYGWKESLRVQVIIDISKPLRRCIKVNLDGPMGSCWAPIRYEKLPELCSFCGII 352
            D+GG      + +RV+V++D++KPLRR ++V++ G        +RYE+LP+ C  CG I
Sbjct: 157 IDDGGSGDCVGKYIRVRVVVDVTKPLRRMLRVDVLGDGKETNMLLRYERLPDHCYRCGRI 216

[Close]
BLAST of Lcy04g001230 vs. TAIR 10
Match: AT2G01050.1 (zinc ion binding;nucleic acid binding )

HSP 1 Score: 52.0 bits (123), Expect = 2.0e-06
Identity = 37/169 (21.89%), Postives = 68/169 (40.24%), Query Frame = 0 

Query: 212 VMRKTFKSAWNIPSSLIVEKIETNIFLFTLISEEDLVRVIRQGPW-LFDKFLLV------ 271
           V+ +  +  W     + V  +    F+     EE+ +  +  GPW +   +LLV      
Sbjct: 94  VLNRKLRELWKPSGVMTVMDLPRQFFMIRFELEEEYMAALTGGPWRVLGNYLLVQDWSSR 153

Query: 272 --------LSKPVPMR---------------KLGNAIGRFEEYDNGGRRYGWKESLRVQV 331
                   ++ PV +R               ++   +GR  + D     +      RV +
Sbjct: 154 FDPLRDDIVTTPVWVRLSNIPYNYYHRCLLMEIARGLGRPLKVDMNTINFDKGRFARVCI 213

Query: 332 IIDISKPLRRCIKVNLDGPMGSCWAPIRYEKLPELCSFCGIIGHVVKDC 351
            ++++KPL+  + +N D         + YE L ++CS CGI GH+V  C
Sbjct: 214 EVNLAKPLKGTVLINGDRYF------VAYEGLSKICSSCGIYGHLVHSC 256

[Close]
BLAST of Lcy04g001230 vs. TAIR 10
Match: AT3G31430.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: endomembrane system; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G18636.1); Has 295 Blast hits to 291 proteins in 12 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 295; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). )

HSP 1 Score: 49.3 bits (116), Expect = 1.3e-05
Identity = 39/152 (25.66%), Postives = 62/152 (40.79%), Query Frame = 0 

Query: 237 FLFTLISEEDLVRVIRQGPWLFDKFLLVLSKPVP-------------------------- 296
           F+FTL  EE L  V+R+GPW F+ ++++L +  P                          
Sbjct: 175 FIFTL--EESLETVLRRGPWAFNDWMILLQRWEPQIPLFPFIPFWVQIRGIPFQFLNRGV 234

Query: 297 MRKLGNAIGRFEEYDNGGRRYGWKESLRVQVIIDISKPLRRCIKVNLDGPMGSCWAPIRY 356
           +  +G A+G+  + D         +  RV +  DI+ PLR          + +     RY
Sbjct: 235 VEHIGRALGQVLDTDFNVEVVARMDFARVLLHWDITHPLRFQRHFQFTAGVNTL-LRFRY 294

Query: 357 EKLPELCSFCGIIGHVVKDCSAFFLGEGSSEQ 363
           E+L   C  CG++ H   D  A  +  G  EQ
Sbjct: 295 ERLRGFCEVCGMLTH---DFGACLIQNGGEEQ 320

[Close]
BLAST of Lcy04g001230 vs. TAIR 10
Match: AT3G42140.1 (zinc ion binding;nucleic acid binding )

HSP 1 Score: 47.0 bits (110), Expect = 6.3e-05
Identity = 28/130 (21.54%), Postives = 59/130 (45.38%), Query Frame = 0 

Query: 222 NIPSSLIVEKIETNIFLFTLISEEDLVRVIRQGPWLFDKFLLVLSKPVPMRKLGNAIGRF 281
           N+   ++   +E +   F   SEE +  ++R+GPW F+ ++ V+ +   +    ++   F
Sbjct: 47  NVDEEVVGRILEIHKIEFLFQSEESMFSILRRGPWSFNDWMCVIQRWTKL----HSDAEF 106

Query: 282 EEYDNGGRRYGWK-ESLRVQVIIDISKPLRRCIKVNLDGPMGSCWAPIRYEKLPELCSFC 341
           +      +  G     L  ++I  I + +   ++ NL   +       +YEKL   C+ C
Sbjct: 107 KRIPFWIQIRGIPLRFLTARIITSIGERMGLFLETNLGRDVSV--LKFQYEKLKNFCTTC 166

Query: 342 GIIGHVVKDC 351
           G++ H   +C
Sbjct: 167 GMLSHDASEC 170

The following BLAST results are available for this feature:
BLAST of Lcy04g001230 vs.
Match NameE-valueIdentityDescription
BLAST of Lcy04g001230 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1DU553.6e-4043.13uncharacterized protein LOC111023135 OS=Momordica charantia OX=3673 GN=LOC111023... [more]
A0A6J1BSZ12.0e-3039.38uncharacterized protein LOC111005481 OS=Momordica charantia OX=3673 GN=LOC111005... [more]
A0A6J1DX302.3e-2634.93uncharacterized protein LOC111024874 OS=Momordica charantia OX=3673 GN=LOC111024... [more]
A0A803KRS59.8e-2234.03Uncharacterized protein OS=Chenopodium quinoa OX=63459 PE=4 SV=1[more]
A0A803LAB81.3e-2134.90Uncharacterized protein OS=Chenopodium quinoa OX=63459 PE=4 SV=1[more]
BLAST of Lcy04g001230 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022156185.17.4e-4043.13uncharacterized protein LOC111023135 [Momordica charantia] >XP_022156186.1 uncha... [more]
XP_022132681.14.1e-3039.38uncharacterized protein LOC111005481 [Momordica charantia][more]
XP_022158377.14.7e-2634.93uncharacterized protein LOC111024874 [Momordica charantia][more]
XP_021858667.12.7e-2134.27uncharacterized protein LOC110797848 [Spinacia oleracea][more]
TXG50019.11.0e-2036.17hypothetical protein EZV62_025894 [Acer yangbiense][more]
BLAST of Lcy04g001230 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G01050.12.0e-0621.89zinc ion binding;nucleic acid binding [more]
AT3G31430.11.3e-0525.66unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT3G42140.16.3e-0521.54zinc ion binding;nucleic acid binding [more]
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (P93075) v1
Date Performed: 2021-12-06
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR025836Zinc knuckle CX2CX4HX4CPFAMPF14392zf-CCHC_4coord: 303..351
e-value: 2.1E-11
score: 43.3
IPR025558Domain of unknown function DUF4283PFAMPF14111DUF4283coord: 190..266
e-value: 5.6E-10
score: 38.9
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 85..101
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 85..114
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 138..159
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 583..606
NoneNo IPR availablePANTHERPTHR31286:SF84SUBFAMILY NOT NAMEDcoord: 272..403
IPR040256Uncharacterized protein At4g02000-likePANTHERPTHR31286GLYCINE-RICH CELL WALL STRUCTURAL PROTEIN 1.8-LIKEcoord: 272..403

Relationships

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

Feature NameUnique NameType
Lcy04g001230.1Lcy04g001230.1mRNA