MELO3C016917 (gene) Melon (DHL92) v4

Overview
NameMELO3C016917
Typegene
OrganismCucumis melo cv. DHL92 (Melon (DHL92) v4)
DescriptionHybrid signal transduction histidine kinase M-like protein
Locationchr07: 1139591 .. 1151314 (+)
RNA-Seq ExpressionMELO3C016917
SyntenyMELO3C016917
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

AATATTTTTCCAATTAATATCTTTAATCCATTTTTGATCTATGCCGTTTCTCCACATGCTTCCAATCTCGTCCGTCCATTTTTTAATATCCAAAATCCATTGATTCTTCCATTTATAAAAACCCGTTTCCTCTTCCTACTTCTCCTTCTTCTTCTCGTCTGTGTTTTTTTTTTTCCCTTTCCCCTTTTTTCTCTCTCCTTGTTGTCACTGTTCAAATTCAAAGTCGTCATGTCGATTACTTTGGATAGGGTTCGGCAGGTTGATGGTAAACGCTCTGGATTCTCGCCGGAAGATTTGGGTTATGGATCGGTGTTTCAGAGGTTGGTTACTCAGGATGTGGATCGCGCTGTTGAAGGGTTTCAAAAGGAGGAGGATGCTGATGAATCTAATACTTGCAGCTCCGCTTCCACTTCTTCCTCTTCTTCGATTGGGAGGAATAGTGATCAGTCCGATGATGAGGATAACGGTGAGAATGATGAGGTCCAGAGCTCATATAAAGGCCCGCTTGATATGATGGATTCCTTGGAGGAGGTTTTGCCTGTCAGAAAAGGCATCTCAAAGTTTTATAGTGGAAAATCAAAATCTTTCACGAGTCTGGCCGATGCCTCCTCTGTTAACTCTATGAAAGAGATTGCAAAGCCAGAGAATGCCTATTCCAAGAAACGTAGGAATCTTATGGCCTACAATCTTGTGTGGGAGAAGAATAGGAGTTTTCCTCTCAAGAACAACGGTGGTGGTATATCAAAAAGACCAATCAGCTCAAGCAAAAGCTCCTTGGCTTTGGCTGTTGCTATGAGCAGCTCCGAAAGTAACAGCAGTGAAGATTCAAATTCTAGCTCATATTCAAGTTCTCCACCGCCTCGCCCACCTCTACATCCACAATCCAGACCATCTAACAACAATTTCCCTTCCATGGTGCCACCTCAAAAAACTTTCTCCACTTGGCGTTCATATTCCTTGGCTGATTTACAAGAGTGCGCCACCTTTGCTAATAAGGCCAACCTAACCAATCTGAACTGACCCCAGAAAAGTTCCTTCTCTTGCATAGGTACGCAAGAGTCTTTTAACTATATTCTAGGAACCCTGAAATAGAAGGTTTTTTCTAGTATGATTTTAGGTCTTATGGTCTTTACTGTACTCTATGTCTTAAAATCCAAAAACTTTCATGTCTCGTTGTTTATAATGAAAAATGGGGATATGAAATTGAGAGGAAAGCTGAGGGTAGCAGATGTGAGTCATATTTGTCAACACCTGTATGTCTGTATTGGCCTAAGACAAGCAACCATCTCAACTACCCATCCATACATAAGCAGCCACCTTGAAGGTTAGTTTGACCAATGAACCACACAACTTCCAAATTCTTTTTGGTTCCCACCAAGATTGCAGACCTGGTTGGTTGAGTAACTTCTGAGAGTGTTCTTATGCTTATGAAAACATACTTCTGCTTCAATGGATAGTGTGACCTTCCACAATCCCATGTAATTGACTTTAGAACTTAAGTTGATTTGTTAACATTGATTCCCCATATACTGTATGAGTCACTCCCAGTAACATTTAAAAGGCTTATGGGTCCCTGATATTCATGTTTTCCCATGAGAGTTTCATTTATGGTTGGATTTCACTACGGCTTCTTTCTTCTAGATCTTGAGAATGTAAGACATGCACAATGCTGCAATTTGCTCGTTGCTTTAAGCATTTTGTAAGCATCATAATGCCCAATGACATTGATGAGTTTCTTCTGTGTTGGGTACATTGTGAGAATCTTGATGTTATAGTTATAGTAGTCAAATAGTTCTTGCTTCTTTGAAGAAAATATTGCAAAAATCTAACGTCGGTTGACGTGTTTGAACAGTATTAGATAAGATTGGAATTAGTGATGGGACCTCTTTAAATAGTTATTTGGACTAGTCTAGAGGTTAACAATTATATTTAGCCCTAATTAACAACCTTTTCAACGTGAGACCATCTATTTAAAATCCATTTATTACAAACCAAATACGACCATTATTGATTAGTCATAAATCTTTTGCCTAAATTATTAAAGAATACTCTTCGATTTTATGGATACAGATTAGTATACAACATCAGCATTTTGACCAATCATCCGATCTTCAGACTCATTAACCTTTATTTTCGATATACCCTAATCAATTAGTAACGCGTTCCTTCCCATAATTTACATCCGAAATACACAGATTTCTAGTTACAATAGAATCTAAGTTCTTTTCAGTAAGTGATCCACACTCTTCGACCGACACTTCCCTTTTCACAAATGGAAAAAGTATTATAATTTGAAGATAAGGCAGGCACAATAATCAAACCAATGGCCAAACAAAACTGGTGGCATGTAGATTTATTACCCTCGAAATCATTTGCCTAGTTAAAGTAAATTGACAAACCGTACACTAGAGAAAAAAACATCAAAGACCCAGACCAAGTGAATTATTGCTGCCTTGCTGTTAACACTTTAAATGCTATCATCCTCTCACTCATCAATTACTGAGCCTGAACATGAAACCCCAAAATAAACACAAGGCCAGTCCTCGAGAAGCTTTCAAATTTAACAGGTCCCACCAACCCGAAAATCACTCCCATTAATAGAACCAATACTTCTTTACTTCCCAAAAATCACTTTCTACATCTAAATGACTAAATCTACCAGTACGTCATATGTCCATGTTGCTGCTTGCCTACTTTTATATAAAACCTTACACTACAAAGTAAAACGAGGTTGTTTGTTGTTAATTCATTTATACAGGAAATTAAGTCTACCCACAAAGCCAACCCTTCTTGGATGGCATTCTTTTCATTGTTGTAGAGGTTTTCGCAACTTATTACTCACTGTTTTGTGATATTACCTCTCCAAACTTGACGAAGAGCTGGGCGTCTGAGGTGCTCATGGTTGGGCAGTTCAGCACATGCGGCGTCTTCAGATTTGCATACTCATCCTTGTAGCAAGAGGATTTTGCAGATGGGGGAATGGTTGTTATGGTTGGTGTTTGTTTTGGTGTTGCGGCAGAGGGTAGAAGACTTCCAATAACGCGTGTTACTTCGTGCATTGTTGGTCGATCAGATGGTTGCCTCTTTGTGCAAAGGAGAGCTAGCTGAAATGCCTTCTTGACAGCTCCAAGGTCCTTGCAAGTTGCAGTTATTTCAGGATCAACTGTCTCCATTACAGCATTGTTGGCTGTTTTTGACAAGATCTGATATGTAGGGGAAAAAATAATATTAAGAGAAAAGTCACCCCATAACGAACAGGTAAAAATATAACATTATGACTCGGGATACTAATAACTCGCAACTAATGCATCCAATGTTATCACGATAACATTGAGTGCATTAGTAAAGTAACTCATACAATAAATTTGTACTGACCAATTGGTGGAGATTTGATTCATTGTCCACTGCTTTCCTTCCTGTGAGCAATTCAAGCAACACAATGCCAAAGCTGTAAACATCGGACTTTTCAGTAAGTCGGGAAGTCCGAGCATACTCTGGATCAATGTATCCAATAGTTCCCATGATATAAGTGGACGTATATGTCTTTGAGGTGCACAAACTCTTGGCAATACCAAAATCAGTGAGATGGGCTTCAAAATCCTTGTCCAATAGAATGTTAGATGACTTAACATCCCTGTGGATAATGCGAGGGCTACAATCATGGTGTAGATATGACAGTCCCTGAGCTGCTCCATGTGCAATATTGAGCCGAGTGTCCCAGTCAAGCTTTTTCTTCTTAGTAGAGCCAGAGCCTGTACTAATCTAAATTAGTGACGAATCTAGATTCATTACTAGCATTTTGTGCAGATTTTCAAATAGTCAAAGTTCACGCCCTGTCGGGTGACTCACAAATCTTACTACAGTTTCACTGATGCAGAATTATGTAGAACAGAAAGACTATATCTGAATGCGAACAAATAGAACTAAAGCCAACTAAAACATTTAAGGCACAATTTTGGTGATGTTCAAACTAAATGCTTAATATTACCATGTAGATGATCCCAGAGACTGCCGTTTTCCATGTAGTCATAAAAGAGGAGATTCCCAGAGGGGGATAAGGAGTATCCTTGGAGGCTGACTAGATTTCTGTGTTTGATGCTACCCACGGTTTCCAGTTCGGTCTCGAACCCCTTCATGCTATGGGGCTGGTGAGAGTATAGCTTTTTGACAGCCACGGGTTTACAGTTCTTCAGTACACATTTGTAGACTGTGCTTGAAGCTCCATATCCAATAATGTACTTTTCGTTCAAATTTTCAGTCATCCTCATAATGTCCTCATAAACGTGAAGGGCCATATTCATGTGAAGGATTACTAGCTTAGGAGTTGAGTAAGTAACTGAGTTTTCACCAGGCACAAAATAAAATGTTTTAGTATTCAATTATTCAACTTGAATTACATCAAAACATTGATAGTGCTTTGTCATGTCAAATATTTCACATATAGATCATTTTCAGAAACAGTTATCTGGCTGCAATTCGGCAACACAGAAGCTTCATAGATCGGAAGACATACATGGAAGCCCAAAACTAAGAATAATAGAATTATAATATAAGTCAAAAAGCTAATAAGCTCCTACATTCATGTGTGTGTGTGTGAAGGTAAATTTAATCATGTATGACAACACATGTTATAACAAAAAGTACCTGGTTTGTCAAGTGATCCATCTGGAAAAGGTATTGTGTTGTTCGGACGACACACTGTTAGAAGGATCATTAACAAGATTACAAGGGCACCAAGAGCAATTCCCAGGATAGCGGCTTTAGATATGGTGACTGCAATGAGAGCAATAAAGGGAAATTAGAAAAATATGGCAAATTTCGCCATTCAATCCCTCGTTATTAGATACAACTATCTTTTTCTTTTTATATTGGCAAATGTCTAAAATAGCTTGCATGCGTCTCAACTATTCTCACAAGACTACCGGGTAACTTTACTACATTCACAGATACAACTATGAAAATCGTTTAGAAAGCATGATTACCTCTCTCTGTCGTATGAGCTTCATGACAGGGGTAGTTGTTGCTATTCCAATATCCACAGAGAGCAATATTTCCAAGGAAACTAAAAGGAAATTAACATAAGTAGTATGAATATTTGACAAAGGGACAAGAAAAATATATACTGGGATTAAACTATGAACGAGTGTCCACAGATGCCTATGATGTTTCTTTTCTACCCTCTCGTTCCAAATTCTATTCAAACAGGGAAATCAAAGTTCTGGGGCTCGCAACTCGAAGTTCTTACCTATCAGATGAAAACCTGGAGAAGTTGTTGCTTGTGGGAATGTCACCAGCTAGATTGTTATAAGATACGTTTCTGTAAGGTGATACATTGGTTTAGTTAAACATCTCTTTTGTCAACATTATCCAAACACTTCGATCGGGAGGATGACAAACTTACAATTCTGTAAGACTTAGGCAGCTAATCAGTGACGTAAGATCCCCAGATAAATTGTTGTTCTCAAGTCTCCTGCATAAATTTAATCGTTATACCATGAAGGGAACATGCAGGGACATACGTAAATACTTCAAATGCCTTAGCAGACAGAACTCAAGCCATAATGTCACAAGAACAACGTTATTATAAAAGAAATGTCACTAGAACGAAATTAAGGTAAAAGGGGGGAGATATCGTTTCATGACATGACCGAGCCACTTAAGAAAATACTAAGAGTAGCGGCTATAGGTCATGAATATAAACATGCAGCAGGAAGGAAAGAACGATTGACGGAAAATTTTACCAAAAAAGTTTCAGTTTCAGAACTTACAAGGAGAGAAGATTTTGAAGTTGACTCAGTTCTTGAGGAATGAACCCAGAGAGCTGGTTGTGTGAAATATCTCTATAGTATAGTAACATAGAAACAAGAATTAGAATAGAAAACTTAAGTTCATGCATTCAAAGAGCTGCTGATCAACACATCACTGCTCCCCAACCTAGAAAGGTACAAACGTTTCAGAACCACTTACATTTCCATGACACTCCTTAAATTGCCAAATTCAGCTGGAATGAATCCCGTTAAATGATTCCTACTTAAATTTCTATAAACGTTACAAGAAGAGGTCAGTCAGTGATTTCAGCCCAAAGAAAAAAGATTGATGATTAACCAAAATGAGATAAAGATGATACATACAGCTTTAGAAGATGTTCCAGATCGCCAAAGGATGAAGAAATTGTGCCACTAATTTTGTTATTTGAAATGTCTCTGTGCAGAAACTATGAGTTAGTATAAGAAATATGGCGAACTCTTGAGTGAAAATTAGATCTTGTGTACTTACAATGTATCCAAGTTGCCAATACGAGACAGCTCAACTGGTATAGGACCTCGTAGATCATTTGAGGAAAGATTCCTGCACATGGTCAATACTATGAGAAGCAAATATATACACTGCTCCTGAGATTTGACTGCCAAATGAAGCAAACTGTATGATCACCACTCTCATGAACAGAGAAATAGCTTTCTAGCAACTTGGATTTTAATGCTGAACAAAAAGAACGACTTAACTTACAAGTAAGTCATACTCTCTAGCCTCTGGAAAGATGGGGGAATAGTTCCATTCAACTTGTTGCCATGCACATTTCTGAAACCAACAAATACTGTCTTAACGAATATCTGCTGAATGGAATCAGAGTTTAGTTTATGTTTTCTTACAGGCTGTTGAGATTTGTGCAAGAGCTAAGATTGTCAGGGATTGGCCCTCCGAGATTGTTATTAGCTACATTTCTGCAAGGTGTAAGTAAAAGAATGAGGACTTGAAAAAAGACATAAGACATTCATTTTGGAACAGGATGACAAAGCTTACAGATCAAACAAATCGGTGAGTTTCCCGAGCTCAGCTGGAATATTCCCAGCAAGATGATTATCATTCAATTCTCTGCAAAGGACAAAAAAAAAAAACATCAACATCCAACTAAAGTCATAAACCATAAGCCCTAAATGCAGGTTAAGACTCCACGTCAGTTGAGCTCAGCTGGAATATTTCCAGTAAGATGATTATCATTCAGTTCCCTCCAAATGCAACGAGTTGCATCAAAGGAAAGAGTGTTCTTAAATGTATGTCAAGATTCCACATAAATAAAAAGACGAAGGAGAGAGATGTTACAGATAATGGAGCTTCGTCATATTCCCTAGCTCCGGCGGAATAGGCCCAGTGAGCTTATTACTATGCAGGTACCTGTTTGCCATAAGAGACATCACTTACCAAAGTTAGTGTTACAAAATCAACAATTAAGCAATAATTGAGTGTAAAGATTGACCACAGATGTACGTGGTTCACTAACAATGTGTTAGCTACGTCCACGGACAGAGGGAAAACAAATATTATTAGAGAGAATGTTGCCAGCGAAACCTCGTACTGGGTCGTTCATGGAGTCACATATCAAATTCAAGGTATTCCAACTTAACATATTGAAACCTGCTTTCTAGATTATACTACTGATGATGTAACTTAACATAGGTTAGTATATGTATTAGCAGTTTCTTCACTATACATTTTAGGACAGGAATTTTACTTGGTGCTGCTAATGGGAAAAATAGAAAGAGAGAGAGTAGTCAAATGTACTTACAACTTCTCGGTATAAGTCAGATTCCCTAAGATAGAGGGGATCGAACCGGTTAACATGTTGCAGCTCAAATCTCTGATTTAGATATGGGAGAGAGAAGTTAGAAATAAAGACATAATCGAAAAAGAGAGCAAAAATCATGTGAAAAATATCCTCCTTAGAAAAGAAAGTGTATGAACTTGGTTTGTGAGAAAGCTAAAGTTGCTTACAACACAGCAAGCGCCTGCATCAGACCAATTACAGGTGGAATAGGACCTGATAGCTGATTACCCTGTAAGGACCTGGAAATGATAACCATAACATTTGAGGGAACGATACAGAAGTAAAACAATTATTCATTTAAACCCACAAAAGGCATGGCAGCAGATACAGTATGAAGATGCAAAATCACTTCAAGAACACATACAATGTGGCTACTTGAAGGAAACCAATGTTAAATGGTATCTCTCCACTGAGATGATTGTATGACAGGTCCCTGCCAAGTTATAAGAAAGAAACTTTAGCAGTCATCCAAATAGAATTTAAAACATTTAAGGATTCAATGAGAAGGACATAATACATACAAGACCTGGAAGGCTGTGCAGTTGCCTATTGTTTGAGGTATGCTGCCAGTTAGACTGTTATTTCTCACATCACTTCAAATGCGAAGAGTTTCATTAGGCTGAATGCACAAGTTCAAATTGGGAAAGGGAAAAAATAATAGTTTTTAAGTGGAAGTAAAGATCACTTACAAATACCATAAACCAGTCAGCTGGCACATGTCTGGAGAGAGTGTGCCCACCAAATTGTTACCACGCAAACCACTGAGAATAGAGTAGAATAACCAATGAAGCATTTAGAACCAACTACTGGCTGAAATCTGAAAGAATCAAGAGTAAAAAGTACTCACAGATATTGCAGCACTTCATTCCAGTATATTAGTCTTGGTATCTCCCCACTAAGATTATTCTGTGCCAAATCTCTAGAACCAATGGTGTAAGATAGAAATCCTTCAGTTATAAGTCCTTTGAATAAGAACTTTGAAGGCAGTGAAAAAAAGGATGGCAAGATAACTTACAAGACCTTCAAATTTGGAATCTGAGATAAGGTCGACGGGATTGGTCCAATCAGTCTATTATTTTTCAGAACACTGAAAGAATAGAAGATAATTAGTGTCACTTAGTTAAGCACAAGTTCTGCAAATGTATTTGAACTTACAGCATTTCCAGCTGCTTCAACTTCGAAATGGAAAATGGTATGTCTCCATAAATCTCATTAAACGATAAATCCCTACAAACAACATTCCATCAGTTAGCTTACTTCGAAGATATTTAACAGTTTCTAACTCAATGGGACTTACATGTTTATTAACGAAGAACAATCACCAATCTCATCTGGAATTTGCCCAGAAAGACCATTCCCTCTCAAATCCCTGTGGGATCAAAGTCGACAATAAGACAGTCTCTATGAACAACTTACGTCTGTCGGGAGGTTCATGAAAATGGAACAGAAACGTTCTAGAGAAATTTTAGAAGGCTCAAGGGAGTGAGAACAGGTATAAAGAAGAGAAAAGTACAGAGTTTGCAGGCTTTTGAGGTTCCCGATTGAAGGAGAAATTTCTCCATCCAGATTGAGACCTGAAAGATTACTGGGACAAGAAAAAAATTGGAAAAAAGGAGATGGACAAGTTAGAACAAAATTTACACTGGATTTTGAAATCTACCCACAAAAACTCCAACAAGAAAAAATAATGTAGCTTACAGAGAGATAACATTGAGAGTGGCATTGTCACAGGTGACACCTCTCCATACACAGAAATCTGAAGAAGGTGAGCTTGTCCAATCATAAAGAACATTATCCACATCCCTGAATGATTTCTTTATCTCCAACAACGTTGCTCCTTCAACATAAGAAAACATGTAACTAAAGATCTTAGCTCTCCATATCCATCAGAGACAAAGAATAATGTAAACATAACAGAGCATTTCAGAAAGACCCAATAGTTTTCAAAACAAGAGATTCCCTAGCACTACTTTCAAAGATCAGATTTAAAAAATGAAAGAAATGCATGGAAACTGTTGAAATAACATTATAAAAAACCACAAGCCTCCTTGAAAAAGGGTGTCCAAATAATGCTTGAAAAAGTACATAACAACCGCCAAATTCACTGATTAAACGCATGTTCTTGGATAGACTTCTTCTTTCTACCAAGCCCTCGTAGAGTTGAGGATAGAAGAGTATTCATCATTCCTCCTGATTTGATTACCAAGGGAATTTCAAAGTTCAAGTTCTTCATCTCATTTGTTAATGGTAACTTACCATCATCAGAGTCCACCACACCAACGGTAGCACAGAAAAGAAAAGCCAGGATAACAAGCTCAACAAGAAATGCCATGGCTGCCCTCTTCACATACTTCATTTTACTCAATTTTTGCAGTGTTCATGGCTGGCTAGTAATAAGAACCTGAGAACCCCTTAAAACCAACACCAAAATGAAAAAAGAAAGAGAACCCTCTTCTTATCTAAAGGAAATTAAAATGCTGTGAGGCTGTAATGGGAGAGACAATGTTGAGTTCGAGAGGAAAAAAATTTGAGTTCCCCTTTAGAGTAACTGGATTCTTATGATAGACTAAAGGAAAAGCTTCAGCCGTTCAATCACATCGCGAAGCAATAAACAACTGTGGAGAAATGGAGAGAGAAATGAGGAAATTACAGAGGATGAAGGAATGAATTATTTCGCAGATAAAGATAAAAACCCATCTGCCATAACTCTGTTACAAAACCTGCAACGTTACACAGAAACCCTTCAACCCATTTCCTTTTTTCTCTCTCTCTTTTCATTTCTGGTTAAAAATTTGCAAATGGGAGCTCACAGTAATAAGGGGTCGCTTTCTTGGTTGCAGAGATGGGTAATGGAAGGAACCCATTTGGGTGTTGCTGCTGCTGCTGACATGGACGCTGTTCTGTTGTTTTTGCTGCAGAATTGAGCCTTAAACTCAAGAAAATTATTAGATGATTATGATTTGTAGTTTTGTTATTTTTACTGTTCATAGTTTATGGTTTATACAGTGAATCTGAATTTACTTGCATTGCACTGTCCTGTCTGTCCCAATTCTCTTTATTTCTCTCCTCCCCCACTTGTGATACCCCAAAAAGTAGACTCTTTTGCATCAGTTTAAGATTTGAAGGTTTCGATAATCATCGAGGGGAATCTTGTTTTTGTGTTAATTGATTTCTAAGTTCATTCCTTTTTTGTATCTCTTGAGTCGTTGGTTACTTTTCTTAAGGTTTAAAGTTATTGTATCTCTAAGCTCCTTCTTATTTGGG

Coding sequence (CDS)

AATATTTTTCCAATTAATATCTTTAATCCATTTTTGATCTATGCCGTTTCTCCACATGCTTCCAATCTCGTCCGTCCATTTTTTAATATCCAAAATCCATTGATTCTTCCATTTATAAAAACCCGTTTCCTCTTCCTACTTCTCCTTCTTCTTCTCGTCTGTGTTTTTTTTTTTCCCTTTCCCCTTTTTTCTCTCTCCTTGTTGTCACTGTTCAAATTCAAAGTCGTCATGTCGATTACTTTGGATAGGGTTCGGCAGGTTGATGGTAAACGCTCTGGATTCTCGCCGGAAGATTTGGGTTATGGATCGGTGTTTCAGAGGTTGGTTACTCAGGATGTGGATCGCGCTGTTGAAGGGTTTCAAAAGGAGGAGGATGCTGATGAATCTAATACTTGCAGCTCCGCTTCCACTTCTTCCTCTTCTTCGATTGGGAGGAATAGTGATCAGTCCGATGATGAGGATAACGGTGAGAATGATGAGGTCCAGAGCTCATATAAAGGCCCGCTTGATATGATGGATTCCTTGGAGGAGGTTTTGCCTGTCAGAAAAGGCATCTCAAAGTTTTATAGTGGAAAATCAAAATCTTTCACGAGTCTGGCCGATGCCTCCTCTGTTAACTCTATGAAAGAGATTGCAAAGCCAGAGAATGCCTATTCCAAGAAACGTAGGAATCTTATGGCCTACAATCTTGTGTGGGAGAAGAATAGGAGTTTTCCTCTCAAGAACAACGGTGGTGGTATATCAAAAAGACCAATCAGCTCAAGCAAAAGCTCCTTGGCTTTGGCTGTTGCTATGAGCAGCTCCGAAAGTAACAGCAGTGAAGATTCAAATTCTAGCTCATATTCAAGTTCTCCACCGCCTCGCCCACCTCTACATCCACAATCCAGACCATCTAACAACAATTTCCCTTCCATGGTGCCACCTCAAAAAACTTTCTCCACTTGGCGTTCATATTCCTTGGCTGATTTACAAGAGTGCGCCACCTTTGCTAATAAGGCCAACCTAACCAATCTGAACTGA

Protein sequence

NIFPINIFNPFLIYAVSPHASNLVRPFFNIQNPLILPFIKTRFLFLLLLLLLVCVFFFPFPLFSLSLLSLFKFKVVMSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSASTSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSFTSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSKSSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWRSYSLADLQECATFANKANLTNLN
Homology
[Close]
BLAST of MELO3C016917 vs. NCBI nr
Match: XP_008452790.1 (PREDICTED: vitellogenin-2 [Cucumis melo] >KAA0064541.1 vitellogenin-2 [Cucumis melo var. makuwa] >TYK20049.1 vitellogenin-2 [Cucumis melo var. makuwa])

HSP 1 Score: 488.8 bits (1257), Expect = 3.8e-134
Identity = 263/263 (100.00%), Postives = 263/263 (100.00%), Query Frame = 0 

Query: 77  MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS 136
           MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS
Sbjct: 1   MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS 60

Query: 137 TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF 196
           TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF
Sbjct: 61  TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF 120

Query: 197 TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK 256
           TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK
Sbjct: 121 TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK 180

Query: 257 SSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR 316
           SSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR
Sbjct: 181 SSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR 240

Query: 317 SYSLADLQECATFANKANLTNLN 340
           SYSLADLQECATFANKANLTNLN
Sbjct: 241 SYSLADLQECATFANKANLTNLN 263

[Close]
BLAST of MELO3C016917 vs. NCBI nr
Match: XP_004141345.1 (vitellogenin-2 [Cucumis sativus] >KGN55382.1 hypothetical protein Csa_012692 [Cucumis sativus])

HSP 1 Score: 473.8 bits (1218), Expect = 1.3e-129
Identity = 258/263 (98.10%), Postives = 258/263 (98.10%), Query Frame = 0 

Query: 77  MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS 136
           MSITLDRVRQVD KRSGFSPEDLGYGSVFQRLVT DVDR VEGFQKEE ADESNTCSSAS
Sbjct: 1   MSITLDRVRQVDDKRSGFSPEDLGYGSVFQRLVTHDVDRVVEGFQKEE-ADESNTCSSAS 60

Query: 137 TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF 196
           TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF
Sbjct: 61  TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF 120

Query: 197 TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK 256
           TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK
Sbjct: 121 TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK 180

Query: 257 SSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR 316
           SSLALAVAMSSSESNSSEDSN SSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR
Sbjct: 181 SSLALAVAMSSSESNSSEDSNCSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR 240

Query: 317 SYSLADLQECATFANKANLTNLN 340
           SYSLADLQECATFANKANLTNLN
Sbjct: 241 SYSLADLQECATFANKANLTNLN 262

[Close]
BLAST of MELO3C016917 vs. NCBI nr
Match: XP_038896868.1 (uncharacterized protein LOC120085087 [Benincasa hispida])

HSP 1 Score: 455.7 bits (1171), Expect = 3.5e-124
Identity = 252/267 (94.38%), Postives = 256/267 (95.88%), Query Frame = 0 

Query: 77  MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS 136
           MSITLDRVRQV+ KRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQK E ADESNTCSSAS
Sbjct: 1   MSITLDRVRQVEDKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKGE-ADESNTCSSAS 60

Query: 137 TSSSSSIGRNSDQ----SDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGK 196
           TSSSSSIGRNSDQ    SD ED GENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGK
Sbjct: 61  TSSSSSIGRNSDQSARSSDGEDCGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGK 120

Query: 197 SKSFTSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPI 256
           SKSFTSLADAS+VNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPI
Sbjct: 121 SKSFTSLADASAVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPI 180

Query: 257 SSSKSSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTF 316
           SSS+SSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSN NFPSM PPQ+TF
Sbjct: 181 SSSRSSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNGNFPSMAPPQRTF 240

Query: 317 STWRSYSLADLQECATFANKANLTNLN 340
           STWRSYSLADLQECATFANKANLTNLN
Sbjct: 241 STWRSYSLADLQECATFANKANLTNLN 266

[Close]
BLAST of MELO3C016917 vs. NCBI nr
Match: XP_022936302.1 (uncharacterized protein LOC111442964 [Cucurbita moschata] >XP_022936303.1 uncharacterized protein LOC111442964 [Cucurbita moschata])

HSP 1 Score: 412.9 bits (1060), Expect = 2.6e-111
Identity = 230/267 (86.14%), Postives = 248/267 (92.88%), Query Frame = 0 

Query: 77  MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS 136
           MSITLDRVR+VD + SGFSPEDLGYGS+F+RL T DVDR VEGF+KE  A+ESNTCSSAS
Sbjct: 1   MSITLDRVRRVD-QPSGFSPEDLGYGSMFERLETGDVDRDVEGFEKE--AEESNTCSSAS 60

Query: 137 TSSSSSIGRNSDQ----SDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGK 196
           TSSSSSIGRNSDQ    SDDED+GENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFY+GK
Sbjct: 61  TSSSSSIGRNSDQSARSSDDEDSGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYNGK 120

Query: 197 SKSFTSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPI 256
           SKSFTSLADAS+V+S++EI KPENAYSKKRRNLMA+NLVWEKNRSFPLKNNGGGISKRPI
Sbjct: 121 SKSFTSLADASTVSSVEEIVKPENAYSKKRRNLMAFNLVWEKNRSFPLKNNGGGISKRPI 180

Query: 257 SSSKSSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTF 316
           SSS+SS ALAVAMSSSESNSSEDSN SSYSSSPPPRPPLHPQS+ SN+N  S+VPPQ+ F
Sbjct: 181 SSSRSSFALAVAMSSSESNSSEDSNCSSYSSSPPPRPPLHPQSKASNSNLASIVPPQRNF 240

Query: 317 STWRSYSLADLQECATFANKANLTNLN 340
           STWRSYSLADLQECAT ANKANLTNLN
Sbjct: 241 STWRSYSLADLQECATSANKANLTNLN 264

[Close]
BLAST of MELO3C016917 vs. NCBI nr
Match: KAG7024377.1 (Guanine nucleotide-binding protein alpha-2 subunit, partial [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 402.9 bits (1034), Expect = 2.7e-108
Identity = 224/261 (85.82%), Postives = 242/261 (92.72%), Query Frame = 0 

Query: 83  RVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSASTSSSSS 142
           RVR+VD + SGFSPEDLGYGS+F+RL T DVDR VEGF+KE  A+ESNTCSSASTSSSSS
Sbjct: 493 RVRRVD-QPSGFSPEDLGYGSMFERLETGDVDRGVEGFEKE--AEESNTCSSASTSSSSS 552

Query: 143 IGRNSDQ----SDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSFTS 202
           IGRNSDQ    SDDED+GENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFY+GKSKSFTS
Sbjct: 553 IGRNSDQSARSSDDEDSGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYNGKSKSFTS 612

Query: 203 LADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSKSS 262
           LADAS+V+S++EI KPENAYSKKRRNLMA+NLVWEKNRSFPLKNNGGGISKRPISSS+SS
Sbjct: 613 LADASTVSSVEEIVKPENAYSKKRRNLMAFNLVWEKNRSFPLKNNGGGISKRPISSSRSS 672

Query: 263 LALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWRSY 322
            ALAVAMSSSESNSSEDSN SSYSSSPPPRPPLHPQS+ SN+N  S+VPPQ+ FSTWRSY
Sbjct: 673 FALAVAMSSSESNSSEDSNCSSYSSSPPPRPPLHPQSKASNSNLASIVPPQRNFSTWRSY 732

Query: 323 SLADLQECATFANKANLTNLN 340
           SLADLQECAT ANKANLTNLN
Sbjct: 733 SLADLQECATSANKANLTNLN 750

[Close]
BLAST of MELO3C016917 vs. ExPASy TrEMBL
Match: A0A5A7VFR8 (Vitellogenin-2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold134G001690 PE=4 SV=1)

HSP 1 Score: 488.8 bits (1257), Expect = 1.8e-134
Identity = 263/263 (100.00%), Postives = 263/263 (100.00%), Query Frame = 0 

Query: 77  MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS 136
           MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS
Sbjct: 1   MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS 60

Query: 137 TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF 196
           TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF
Sbjct: 61  TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF 120

Query: 197 TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK 256
           TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK
Sbjct: 121 TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK 180

Query: 257 SSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR 316
           SSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR
Sbjct: 181 SSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR 240

Query: 317 SYSLADLQECATFANKANLTNLN 340
           SYSLADLQECATFANKANLTNLN
Sbjct: 241 SYSLADLQECATFANKANLTNLN 263

[Close]
BLAST of MELO3C016917 vs. ExPASy TrEMBL
Match: A0A1S3BU42 (vitellogenin-2 OS=Cucumis melo OX=3656 GN=LOC103493705 PE=4 SV=1)

HSP 1 Score: 488.8 bits (1257), Expect = 1.8e-134
Identity = 263/263 (100.00%), Postives = 263/263 (100.00%), Query Frame = 0 

Query: 77  MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS 136
           MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS
Sbjct: 1   MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS 60

Query: 137 TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF 196
           TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF
Sbjct: 61  TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF 120

Query: 197 TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK 256
           TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK
Sbjct: 121 TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK 180

Query: 257 SSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR 316
           SSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR
Sbjct: 181 SSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR 240

Query: 317 SYSLADLQECATFANKANLTNLN 340
           SYSLADLQECATFANKANLTNLN
Sbjct: 241 SYSLADLQECATFANKANLTNLN 263

[Close]
BLAST of MELO3C016917 vs. ExPASy TrEMBL
Match: A0A0A0L451 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G648530 PE=4 SV=1)

HSP 1 Score: 473.8 bits (1218), Expect = 6.1e-130
Identity = 258/263 (98.10%), Postives = 258/263 (98.10%), Query Frame = 0 

Query: 77  MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS 136
           MSITLDRVRQVD KRSGFSPEDLGYGSVFQRLVT DVDR VEGFQKEE ADESNTCSSAS
Sbjct: 1   MSITLDRVRQVDDKRSGFSPEDLGYGSVFQRLVTHDVDRVVEGFQKEE-ADESNTCSSAS 60

Query: 137 TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF 196
           TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF
Sbjct: 61  TSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGKSKSF 120

Query: 197 TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK 256
           TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK
Sbjct: 121 TSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPISSSK 180

Query: 257 SSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR 316
           SSLALAVAMSSSESNSSEDSN SSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR
Sbjct: 181 SSLALAVAMSSSESNSSEDSNCSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTFSTWR 240

Query: 317 SYSLADLQECATFANKANLTNLN 340
           SYSLADLQECATFANKANLTNLN
Sbjct: 241 SYSLADLQECATFANKANLTNLN 262

[Close]
BLAST of MELO3C016917 vs. ExPASy TrEMBL
Match: A0A6J1FCW4 (uncharacterized protein LOC111442964 OS=Cucurbita moschata OX=3662 GN=LOC111442964 PE=4 SV=1)

HSP 1 Score: 412.9 bits (1060), Expect = 1.3e-111
Identity = 230/267 (86.14%), Postives = 248/267 (92.88%), Query Frame = 0 

Query: 77  MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS 136
           MSITLDRVR+VD + SGFSPEDLGYGS+F+RL T DVDR VEGF+KE  A+ESNTCSSAS
Sbjct: 1   MSITLDRVRRVD-QPSGFSPEDLGYGSMFERLETGDVDRDVEGFEKE--AEESNTCSSAS 60

Query: 137 TSSSSSIGRNSDQ----SDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGK 196
           TSSSSSIGRNSDQ    SDDED+GENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFY+GK
Sbjct: 61  TSSSSSIGRNSDQSARSSDDEDSGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYNGK 120

Query: 197 SKSFTSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPI 256
           SKSFTSLADAS+V+S++EI KPENAYSKKRRNLMA+NLVWEKNRSFPLKNNGGGISKRPI
Sbjct: 121 SKSFTSLADASTVSSVEEIVKPENAYSKKRRNLMAFNLVWEKNRSFPLKNNGGGISKRPI 180

Query: 257 SSSKSSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTF 316
           SSS+SS ALAVAMSSSESNSSEDSN SSYSSSPPPRPPLHPQS+ SN+N  S+VPPQ+ F
Sbjct: 181 SSSRSSFALAVAMSSSESNSSEDSNCSSYSSSPPPRPPLHPQSKASNSNLASIVPPQRNF 240

Query: 317 STWRSYSLADLQECATFANKANLTNLN 340
           STWRSYSLADLQECAT ANKANLTNLN
Sbjct: 241 STWRSYSLADLQECATSANKANLTNLN 264

[Close]
BLAST of MELO3C016917 vs. ExPASy TrEMBL
Match: A0A6J1IQH5 (uncharacterized protein LOC111477263 OS=Cucurbita maxima OX=3661 GN=LOC111477263 PE=4 SV=1)

HSP 1 Score: 402.1 bits (1032), Expect = 2.3e-108
Identity = 226/267 (84.64%), Postives = 246/267 (92.13%), Query Frame = 0 

Query: 77  MSITLDRVRQVDGKRSGFSPEDLGYGSVFQRLVTQDVDRAVEGFQKEEDADESNTCSSAS 136
           MSITLDRVR+VD + SGFSPEDLGYGS+F+RL T DVDR VEGF+KE  A+ESNTCSSAS
Sbjct: 1   MSITLDRVRRVD-QHSGFSPEDLGYGSMFERLETGDVDRGVEGFEKE--AEESNTCSSAS 60

Query: 137 TSSSSSIGRNSDQ----SDDEDNGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYSGK 196
           TSSSSSIGRNSD+    SDDED+GENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFY+GK
Sbjct: 61  TSSSSSIGRNSDKSARSSDDEDSGENDEVQSSYKGPLDMMDSLEEVLPVRKGISKFYNGK 120

Query: 197 SKSFTSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKNNGGGISKRPI 256
           SKSFTSLADAS+V+S++EI KPENAYSKKRRNLMA+NLVWEKNRS PLKNNGGGISKRPI
Sbjct: 121 SKSFTSLADASTVSSVEEIVKPENAYSKKRRNLMAFNLVWEKNRSLPLKNNGGGISKRPI 180

Query: 257 SSSKSSLALAVAMSSSESNSSEDSNSSSYSSSPPPRPPLHPQSRPSNNNFPSMVPPQKTF 316
           SSS+SS ALAVAMSSSESNSSE+SN SSYSSSPPPRPPLHPQS+ S +N  S+VPPQ+ F
Sbjct: 181 SSSRSSFALAVAMSSSESNSSEESNCSSYSSSPPPRPPLHPQSKAS-SNLASIVPPQRNF 240

Query: 317 STWRSYSLADLQECATFANKANLTNLN 340
           STWRSYSLADLQECAT ANKANLTNLN
Sbjct: 241 STWRSYSLADLQECATSANKANLTNLN 263

[Close]
BLAST of MELO3C016917 vs. TAIR 10
Match: AT5G21940.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G43850.1); 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: 140.6 bits (353), Expect = 2.4e-33
Identity = 111/228 (48.68%), Postives = 151/228 (66.23%), Query Frame = 0 

Query: 129 SNTCSSASTSSSSSIGRNSD--QSDDEDNGEN---DEVQSSYKGPLDMMDSLEEVLPVRK 188
           S++ SS S+S+SSSIGRNSD  +   ED G++   +EV+S YKGPL+MM+SLE+VLPVRK
Sbjct: 30  SDSSSSPSSSASSSIGRNSDDGEKSSEDGGDDAGENEVESPYKGPLEMMESLEQVLPVRK 89

Query: 189 GISKFYSGKSKSFTSL-ADASSV----NSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSF 248
           GISK+YSGKSKSFT+L A+A+S     +SMK++AKPEN YS++RRNL+ +  +WE N++ 
Sbjct: 90  GISKYYSGKSKSFTNLTAEAASALTSSSSMKDLAKPENPYSRRRRNLLCHQ-IWENNKTT 149

Query: 249 PLKNNGGGISKRPI-SSSKSSLALAVA-----MSSSESNSSEDSN--SSSYSSSPPPR-- 308
           P     GGISK+ + SSS+S+L LA+A     M+   S+S  DS+  SS  +S  PPR  
Sbjct: 150 P----RGGISKKHVMSSSRSALTLAMAVAAGVMTGEGSSSGGDSSPGSSPTTSGSPPRQL 209

Query: 309 ----------PPLHPQSRPSNNNFPSMVPPQKTFSTWRSYSLADLQEC 327
                     PPL+P+S+ S  N  S       F  WRS+S+AD   C
Sbjct: 210 HHHQHQMKKLPPLYPRSQGSFGNLTSS-QSSLGFCAWRSFSVADFPRC 251

[Close]
BLAST of MELO3C016917 vs. TAIR 10
Match: AT3G43850.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: vacuole; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G21940.1); Has 215 Blast hits to 215 proteins in 19 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 213; Viruses - 0; Other Eukaryotes - 2 (source: NCBI BLink). )

HSP 1 Score: 106.3 bits (264), Expect = 4.9e-23
Identity = 74/164 (45.12%), Postives = 104/164 (63.41%), Query Frame = 0 

Query: 116 AVEGFQKEEDADESNTCSSASTSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLDMMDSL 175
           A++   +    D+   C S+ST SS SIG N   SDD++ GEN E++SSY GPLDMM+SL
Sbjct: 4   AIDKIDRTFTVDQEFACLSSST-SSDSIGEN---SDDDEGGEN-EIESSYNGPLDMMESL 63

Query: 176 EEVLPVRKGISKFYSGKSKSFTSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKN 235
           EE LP+++ ISKFY GKSKSF SL++ SS+  +K++ KPEN YS++RRNL+++ +     
Sbjct: 64  EEALPIKRAISKFYKGKSKSFMSLSETSSL-PVKDLTKPENLYSRRRRNLLSHRIC---- 123

Query: 236 RSFPLKNNGGGISKRPISSSKSSLALAVAMSSSESNSSEDSNSS 280
                  + GGISK+P  S        +AMS  E +SS   + S
Sbjct: 124 -------SRGGISKKPFKS-------VLAMSQREGDSSSSGDDS 143

[Close]
BLAST of MELO3C016917 vs. TAIR 10
Match: AT2G24550.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT4G31510.1); Has 219 Blast hits to 219 proteins in 33 species: Archae - 0; Bacteria - 0; Metazoa - 16; Fungi - 2; Plants - 184; Viruses - 0; Other Eukaryotes - 17 (source: NCBI BLink). )

HSP 1 Score: 60.5 bits (145), Expect = 3.1e-09
Identity = 45/118 (38.14%), Postives = 72/118 (61.02%), Query Frame = 0 

Query: 126 ADESNTCSSASTSSSSSIGRNSDQSDDEDNGENDEVQSSYKGPLD-MMDSLEEVLPVRKG 185
           ++ +N     S+ SSSSIG +S+  ++E   E D+  S  +G LD    SLE+ LP+++G
Sbjct: 54  SNNNNKSPEESSDSSSSIGESSENEEEE---EEDDAVSCQRGTLDSFSSSLEDSLPIKRG 113

Query: 186 ISKFYSGKSKSFTSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKNRSFPLKN 243
           +S  Y GKSKSF +L +A+S    K++ K EN ++K+RR ++A N +  + RS    N
Sbjct: 114 LSNHYVGKSKSFGNLMEAAS--KAKDLEKVENPFNKRRRLVIA-NKLRRRGRSMSASN 165

[Close]
BLAST of MELO3C016917 vs. TAIR 10
Match: AT5G24890.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; EXPRESSED IN: 24 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G24550.1); 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: 60.5 bits (145), Expect = 3.1e-09
Identity = 56/165 (33.94%), Postives = 82/165 (49.70%), Query Frame = 0 

Query: 94  FSPEDLGYGSVFQRLVTQDVDRAVEGFQ--KEEDADES--------NTCSSASTSSSSSI 153
           FS E   YG+      T+    +   F+   EE  +ES         T   +S SSS   
Sbjct: 9   FSIEVSQYGTT-DLPATEKASSSSSSFETTNEEGVEESGLSRIWSGQTADYSSDSSSIGT 68

Query: 154 GRNSDQSDDEDNGENDEVQSSYKG--PLDMMDSLEEVLPVRKGISKFYSGKSKSFTSLAD 213
             +S++ ++E   END+V S   G   L  M SLE+ LP ++G+S  Y GKSKSF +L +
Sbjct: 69  PGDSEEDEEESENENDDVSSKELGLRGLASMSSLEDSLPSKRGLSNHYKGKSKSFGNLGE 128

Query: 214 ASSVNSMKEIAKPENAYSKKRRNLMAYNLV------WEKNRSFPL 241
              + S+KE+AK EN  +K+RR  +   L       W+  +S PL
Sbjct: 129 ---IGSVKEVAKQENPLNKRRRLQICNKLARKSFYSWQNPKSMPL 169

[Close]
BLAST of MELO3C016917 vs. TAIR 10
Match: AT5G56550.1 (oxidative stress 3 )

HSP 1 Score: 52.0 bits (123), Expect = 1.1e-06
Identity = 49/145 (33.79%), Postives = 77/145 (53.10%), Query Frame = 0 

Query: 121 QKEED-ADESNTCSSASTSSSSSIGRNSDQSDD--EDNGENDEVQSSYKGPLDMMDSLEE 180
           Q+EED   E +T  S    +SSS   +S    D  ED+ ++D   SS  GPL+ +  L  
Sbjct: 24  QEEEDIVQEVSTTFSDEEDNSSSCSLSSSMCSDFTEDDDDDDVSSSSSNGPLEDLSDLMS 83

Query: 181 VLPVRKGISKFYSGKSKSFTSLADASSVNSMKEIAKPENAYSKKRRNLMAYNLVWEKN-- 240
            LP+++G+SKFY GKS+SFTSL +  S+  + +       Y  KR++  +   + +++  
Sbjct: 84  HLPIKRGLSKFYEGKSQSFTSLGNVKSLEDLMKRGFKSRNYGAKRKSSRSTGGILDQSYK 143

Query: 241 RSFPLKNNGGGISKRPISSSKSSLA 261
           R F  K     ISK+P  +  S L+
Sbjct: 144 RVFSPK---ATISKKPNRTPSSVLS 165

The following BLAST results are available for this feature:
BLAST of MELO3C016917 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_008452790.13.8e-134100.00PREDICTED: vitellogenin-2 [Cucumis melo] >KAA0064541.1 vitellogenin-2 [Cucumis m... [more]
XP_004141345.11.3e-12998.10vitellogenin-2 [Cucumis sativus] >KGN55382.1 hypothetical protein Csa_012692 [Cu... [more]
XP_038896868.13.5e-12494.38uncharacterized protein LOC120085087 [Benincasa hispida][more]
XP_022936302.12.6e-11186.14uncharacterized protein LOC111442964 [Cucurbita moschata] >XP_022936303.1 unchar... [more]
KAG7024377.12.7e-10885.82Guanine nucleotide-binding protein alpha-2 subunit, partial [Cucurbita argyrospe... [more]
BLAST of MELO3C016917 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of MELO3C016917 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A5A7VFR81.8e-134100.00Vitellogenin-2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold134G00169... [more]
A0A1S3BU421.8e-134100.00vitellogenin-2 OS=Cucumis melo OX=3656 GN=LOC103493705 PE=4 SV=1[more]
A0A0A0L4516.1e-13098.10Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G648530 PE=4 SV=1[more]
A0A6J1FCW41.3e-11186.14uncharacterized protein LOC111442964 OS=Cucurbita moschata OX=3662 GN=LOC1114429... [more]
A0A6J1IQH52.3e-10884.64uncharacterized protein LOC111477263 OS=Cucurbita maxima OX=3661 GN=LOC111477263... [more]
BLAST of MELO3C016917 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G21940.12.4e-3348.68unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TA... [more]
AT3G43850.14.9e-2345.12unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT2G24550.13.1e-0938.14unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TA... [more]
AT5G24890.13.1e-0933.94unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT5G56550.11.1e-0633.79oxidative stress 3 [more]
InterPro
Analysis Name: InterPro Annotations of Melon (DHL92) v4
Date Performed: 2022-08-06
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 265..308
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 130..146
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 121..169
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 265..282
NoneNo IPR availablePANTHERPTHR33172:SF37MYOSIN LIGHT CHAIN KINASE DDB_G0279831 ISOFORM X1-RELATEDcoord: 117..329
NoneNo IPR availablePANTHERPTHR33172OS08G0516900 PROTEINcoord: 117..329

Relationships

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

Feature NameUnique NameType
MELO3C016917.1MELO3C016917.1mRNA