Sed0027603 (gene) Chayote v1

Overview
NameSed0027603
Typegene
OrganismSechium edule (Chayote v1)
DescriptionHolliday junction resolvase MOC1, chloroplastic
LocationLG01: 60007284 .. 60018835 (-)
RNA-Seq ExpressionSed0027603
SyntenySed0027603
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ACGAAGAATAAGTGAGATCTAGTGAATGGGTCGGTGACGCGATTAATTATCTAGTTTGATGTTAATCCATTTCTATTCCACGATCAAAGATTCGGTTTTCGGAAGTGCTCCTAATTATCCATTAGAATTTAGAAGGTGGGTGTGATTTCTATTGGTGCGAAGTTTATGAATTGATGGAATCACTTACATTGCAATCTCAGTCCCACTCTTCCATGAACTCCCTCCTCTCTTCCAACCTCAAACCCAGACTTCACGGCTTCAGATTTCTCTGCACTTCGTCTTCTTCGTCACTTCATTCTCCACAAATCCCTACAAACCCTTCTTCTTCTGTTCGCAAAGAGCGCAACGGCGGAGCCAATTTGAAAGTCGCCCACGCTCAGCTCAAGGACAACTGGTTGGCTTCTCTTTCCTCTCCTTTTCCTCGAGGTCACGACCTGAATGCGAGCTCCGACTGCGTTATTGGCGTCGATCCCGACGTTTCTGGTGCTGTCGCGCTCTTGAGAACCCTCGATTCCATTTGTGAGCCTCAGGTATATGATTCTCCACACCTCCAAGTACTAGTTGGTGGAAGAAGCAGGAAACGCTTAGATGCTAAATCGATTGTCCAACTTCTTCACAGCTTTAATGCTCCAATTGGAACTACTGCATATCTGGAGCAGTCAACCCCATATCCACAGGATGGAAAACATGGGTGGTGGAGTGGAGGATTTGGATATGGATTGTGGATTGGCGTATTAGTTGGGCTGGGATTTTCTGTTGTTCCCGTGTCATCTCTTGCGTGGAAAAACAAATTTGAGCTGTCAGGAAAGGATACTTCTAAGGACGACAGCCGGAGGCTTGCATCAGAATTATTTCCATCTCTAAGCCCCCTTCTGAAAAGGAAAAAAGATCATGAGATGGATCAAGAAAATGTTCGCTTATTTCAAGAGATGTGGCAAAATTTTTACAATGACATGAAAAGTTATTTTAGAGAGATAAGAGAGGAAAGTGCAAGGGAGCAGGAACAAAGAAGATTAGAAAGGGAGGAGCAGTCCAAGGCAAGGGAACAATGGTACTCAGAGATGGAAGCTAGGATTCGAGGAAGAAGGGAGGTTGTGGAAGAAACAGTGACGGTTAGGGTTTTGACACCGCCACCTCCGCTGCCACCACTGCTGCCGCTGCCGCCGTCACCACCTCCACCACCACCATCGCCGCCACCACCTCCGACATCGCCTCTGCCACCTCCGTTGCCACCACCGCTACCGCCATCGCCACCACCTCTGACATCGCCGCCGCCACCACCGCTGCCACCTCCGTCGCCACCACCGCTGCCACCTTCGCCACCACCTCCGCCACCAACGCCGCCGTTTCCGCCACCACCGACGCGCCGCTGCCGCAATCGCCGCTGCTACCGCTGGAAAAAGAAAAAGAAAAAAAAGAAAAGAAAAGAAGTTTTCATTTTTTTATTTTTCTATTTTTGTGTATGCCCACCTTGAGGACAAGGTGCTTTAAAGGGGCGGGTATTGATAAGGTTGGGCCTAGGGTTCTATTTAGCTATTACTTGGAGAATAAGTTAGTATTTTGTTATAAATAGAGTGGGTTAGGTTAGGGTTTAGGCATCCAATTGTTAAATGAGTTATTGAGTGATTTATTATAGGGCTCAAGAGATTCTCTTGAGAAGGGAGATTCCAAGTTCCTATCAAAACTTGGTTTATCTTTATTCTTTTATCTTTTGATATAATCTAGATCTTGGATCATATCACATACCTTATGAATTACACACAACTTGGCATTTTAAATATGCAAGTCTTGGGCCTTTTAACTCGTCTATGCCAAGTTAGAGCCAAGGTTGAAGATAAAGACTTGTTTTGTAAACGCTTTTTGTTCATTTTGATTAATTCACTATGATTTATTCCTTCGGCTGTGGGGTTGTGAAATTATTATACCTAAGTTATGAATTTTGTGATACAACCCGAGATCTATAATGTTATCAAAACATAAAGAAACTAAATAAAAGATAAACCAAGTTCTGATGGAAACTTGACTCCCATTCTTTAGAGAATACTCTCTATGAACCCACAAGATTTCACTTAATATTTAGATGCCTCTACCATTACCCCCGTTGCATCTATTTATAACCAAATGGCTAACAAACTAATTGTCTAATAACTTAACTACCCCTACATTTCTCCCTTATATTCTAATGTAGGTACGTATCATTTTGTTTTTCGTTATAGATCTGCAGAAGAATGTAAGAAATGTGAGAATGTGACTTAGCGGATGGTTCTCTACCATCAGAAACGAATGTGAGAAATGTCCACTGATTTGGAACCGTCTTTAATGGCCGACTGCATGCTGCCTTGAATTACTAGATCCAGTTAATTTCAGTTCTTTTCTAAACCATCACGGCCATGCCTAGTGGTTAAGAAAAGTCTTTAAGTAACTAAGATGTGATGAATTCAATATTTAGTGACCGCCCATCTAGAATTTAATTTCTTACAAATTTTCTTGACACCTAAATGTTGTGGAATCAGACGGTCTGTCCCATGAAAATAGGCAATGTGTGTGTAAGTTGGTATGGACACTCATAGATATAAAAAAAAAGTTCTTTCAATTTCCCGGCTGCAGAGGACTAAAAGCCACGGTCTTCTCTCAACATTGTATCTTCATTTCATTGCATAAACTCATGGATATAAAAAAAGGGGTTCTTTTCTACAATTTTCCTGCTGCTGGAGACTAAAATCTATGGTCTTCTCTCAACATTATATCTTCATTTCATTGTATAAACCAGGAAAAACGAGTTCGGGTTGATACACAAATGCTTGAATGTGTCCGACTTGCAGAAGAAATGTCTATGAACTGGTTATGACCGCTTCTGAGTTTCTCGTATTTGTAGGGAGGGCTGAGGCTTTACTCATTGCTGCTTATGGAAAAGGCTTGGGCATGAAGTTGGAAACACCTTCCATCTTAGAGTCGATAGCATCATAGCAATGGCAGCTGGTCCTAGCTTTCTTCTTCCCCAAATTAGATTCAAGAATGGTGTTAAATTGAAAGAACAAACGAAATCGGTGAGTGCTCGAGCCAACTTATGTGCAACTGTCAGATATATTCCCCATAGATGGGGTTCCTTTCTTTAGATTACTTTACTTTAGACAACCATTTATCTCGCTAAGTTAGAAATGAGCAGTGTAGCAATGTTTCTCTGTAACCAAAAAATGGATACAGGCTCTTAATATCGTTATAGAGATTGGAAAATTTTTAAGGCCTCAATAACCGTTTGTGTTTTTGGTTTTTGAAATTGAAGCTTATTTTTACTTATATTTTCTACGATATGCTTCATCTTTCATACAATGTACCTAACTTTTTTGAGAAAGTACGTGAATACTGAC

Coding sequence (CDS)

ATGGAATCACTTACATTGCAATCTCAGTCCCACTCTTCCATGAACTCCCTCCTCTCTTCCAACCTCAAACCCAGACTTCACGGCTTCAGATTTCTCTGCACTTCGTCTTCTTCGTCACTTCATTCTCCACAAATCCCTACAAACCCTTCTTCTTCTGTTCGCAAAGAGCGCAACGGCGGAGCCAATTTGAAAGTCGCCCACGCTCAGCTCAAGGACAACTGGTTGGCTTCTCTTTCCTCTCCTTTTCCTCGAGGTCACGACCTGAATGCGAGCTCCGACTGCGTTATTGGCGTCGATCCCGACGTTTCTGGTGCTGTCGCGCTCTTGAGAACCCTCGATTCCATTTGTGAGCCTCAGGTATATGATTCTCCACACCTCCAAGTACTAGTTGGTGGAAGAAGCAGGAAACGCTTAGATGCTAAATCGATTGTCCAACTTCTTCACAGCTTTAATGCTCCAATTGGAACTACTGCATATCTGGAGCAGTCAACCCCATATCCACAGGATGGAAAACATGGGTGGTGGAGTGGAGGATTTGGATATGGATTGTGGATTGGCGTATTAGTTGGGCTGGGATTTTCTGTTGTTCCCGTGTCATCTCTTGCGTGGAAAAACAAATTTGAGCTGTCAGGAAAGGATACTTCTAAGGACGACAGCCGGAGGCTTGCATCAGAATTATTTCCATCTCTAAGCCCCCTTCTGAAAAGGAAAAAAGATCATGAGATGGATCAAGAAAATGTTCGCTTATTTCAAGAGATGTGGCAAAATTTTTACAATGACATGAAAAGTTATTTTAGAGAGATAAGAGAGGAAAGTGCAAGGGAGCAGGAACAAAGAAGATTAGAAAGGGAGGAGCAGTCCAAGGCAAGGGAACAATGGTACTCAGAGATGGAAGCTAGGATTCGAGGAAGAAGGGAGGTTGTGGAAGAAACAGTGACGGTTAGGGTTTTGACACCGCCACCTCCGCTGCCACCACTGCTGCCGCTGCCGCCGTCACCACCTCCACCACCACCATCGCCGCCACCACCTCCGACATCGCCTCTGCCACCTCCGTTGCCACCACCGCTACCGCCATCGCCACCACCTCTGACATCGCCGCCGCCACCACCGCTGCCACCTCCGTCGCCACCACCGCTGCCACCTTCGCCACCACCTCCGCCACCAACGCCGCCGTTTCCGCCACCACCGACGCGCCGCTGCCGCAATCGCCGCTGCTACCGCTGGAAAAAGAAAAAGAAAAAAAAGAAAAGAAAAGAAGTTTTCATTTTTTTATTTTTCTATTTTTGTGTATGCCCACCTTGA

Protein sequence

MESLTLQSQSHSSMNSLLSSNLKPRLHGFRFLCTSSSSSLHSPQIPTNPSSSVRKERNGGANLKVAHAQLKDNWLASLSSPFPRGHDLNASSDCVIGVDPDVSGAVALLRTLDSICEPQVYDSPHLQVLVGGRSRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPYPQDGKHGWWSGGFGYGLWIGVLVGLGFSVVPVSSLAWKNKFELSGKDTSKDDSRRLASELFPSLSPLLKRKKDHEMDQENVRLFQEMWQNFYNDMKSYFREIREESAREQEQRRLEREEQSKAREQWYSEMEARIRGRREVVEETVTVRVLTPPPPLPPLLPLPPSPPPPPPSPPPPPTSPLPPPLPPPLPPSPPPLTSPPPPPLPPPSPPPLPPSPPPPPPTPPFPPPPTRRCRNRRCYRWKKKKKKKKRKEVFIFLFFYFCVCPP
Homology
[Close]
BLAST of Sed0027603 vs. NCBI nr
Match: XP_022153090.1 (uncharacterized protein LOC111020674 isoform X1 [Momordica charantia])

HSP 1 Score: 386.0 bits (990), Expect = 4.4e-103
Identity = 200/246 (81.30%), Postives = 208/246 (84.55%), Query Frame = 0 

Query: 4   LTLQSQSHSSMNSLLSSNLKPRLHGFRFLCTSSSSSLHSPQIPTNPSSSVRKERNGGANL 63
           L LQ QSH  MNS LSS LKP  + FR LCT  SSS+H PQIP  PSSS RKE  G A L
Sbjct: 13  LQLQVQSHCFMNS-LSSKLKPEFYHFRLLCT--SSSVHPPQIPARPSSSGRKESGGAAKL 72

Query: 64  KVAHAQLKDNWLASLSSPFPRGH---------DLNASSDCVIGVDPDVSGAVALLRTLDS 123
           K+AH+QLKDNWLASLSSPFP GH         DLNASSDCVIGVDPDVSGAVALLRT  S
Sbjct: 73  KIAHSQLKDNWLASLSSPFPLGHDHPINGSRGDLNASSDCVIGVDPDVSGAVALLRTDYS 132

Query: 124 ICEPQVYDSPHLQVLVGGRSRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPYPQDGKHGW 183
           +C  QVYDSPHLQVLVGGR RKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPYPQDGK GW
Sbjct: 133 VCSAQVYDSPHLQVLVGGRRRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPYPQDGKQGW 192

Query: 184 WSGGFGYGLWIGVLVGLGFSVVPVSSLAWKNKFELSGKDTSKDDSRRLASELFPSLSPLL 241
           WSGGFGYGLWIG+LVGLGFSV+PV SLAWKNKFELSGKDTSKDDSRR+AS LFPSLSPLL
Sbjct: 193 WSGGFGYGLWIGILVGLGFSVIPVPSLAWKNKFELSGKDTSKDDSRRVASTLFPSLSPLL 252

[Close]
BLAST of Sed0027603 vs. NCBI nr
Match: XP_023512747.1 (Holliday junction resolvase MOC1, chloroplastic [Cucurbita pepo subsp. pepo])

HSP 1 Score: 375.9 bits (964), Expect = 4.6e-100
Identity = 201/255 (78.82%), Postives = 212/255 (83.14%), Query Frame = 0 

Query: 1   MESL-----TLQSQSHSSMNSLLSSNLKPRLHGFRFLCT-SSSSSLHSPQIPTNPSSSVR 60
           MESL      LQ+QSH  M S LSS LK  LH FRFLCT SSSSS+ S  IPT PSSSVR
Sbjct: 1   MESLPLNAHPLQAQSHCFMIS-LSSKLKSELHRFRFLCTSSSSSSVRSSGIPTRPSSSVR 60

Query: 61  KERNGGANLKVAHAQLKDNWLASLSSPFPRGHDL---------NASSDCVIGVDPDVSGA 120
           KE +GG  LK+AH QLKDNWLASLS PFP GHD          NA+SDCVIGVDPDVSGA
Sbjct: 61  KESSGGVKLKIAHTQLKDNWLASLSCPFPLGHDYSANGRPGDQNATSDCVIGVDPDVSGA 120

Query: 121 VALLRTLDSICEPQVYDSPHLQVLVGGRSRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTP 180
           VALLRT +SI   QVYDSPHLQVLVGG+ RKRLDAKSIVQLLHSFNAPIGTTAYLEQSTP
Sbjct: 121 VALLRTDESISSAQVYDSPHLQVLVGGKRRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTP 180

Query: 181 YPQDGKHGWWSGGFGYGLWIGVLVGLGFSVVPVSSLAWKNKFELSGKDTSKDDSRRLASE 240
           +PQDGK GWWSGGFGYGLWIGVLVGLGFSVVPV SLAWKNKF+LSGKDTSKDDSRR+AS 
Sbjct: 181 FPQDGKQGWWSGGFGYGLWIGVLVGLGFSVVPVPSLAWKNKFQLSGKDTSKDDSRRVAST 240

[Close]
BLAST of Sed0027603 vs. NCBI nr
Match: KAG7010304.1 (hypothetical protein SDJN02_27097 [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 375.9 bits (964), Expect = 4.6e-100
Identity = 201/255 (78.82%), Postives = 212/255 (83.14%), Query Frame = 0 

Query: 1   MESL-----TLQSQSHSSMNSLLSSNLKPRLHGFRFLCT-SSSSSLHSPQIPTNPSSSVR 60
           MESL      LQ+QSH  M S LSS LK  LH FRFLCT SSSSS+ S  IPT PSSSVR
Sbjct: 1   MESLPLNAHPLQAQSHCFMIS-LSSKLKSELHRFRFLCTSSSSSSVRSSGIPTRPSSSVR 60

Query: 61  KERNGGANLKVAHAQLKDNWLASLSSPFPRGHDL---------NASSDCVIGVDPDVSGA 120
           KE +GG  LK+AH QLKDNWLASLS PFP GHD          NA+SDCVIGVDPDVSGA
Sbjct: 61  KESSGGVKLKIAHTQLKDNWLASLSCPFPLGHDYSTNGRPGDQNATSDCVIGVDPDVSGA 120

Query: 121 VALLRTLDSICEPQVYDSPHLQVLVGGRSRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTP 180
           VALLRT +SI   QVYDSPHLQVLVGG+ RKRLDAKSIVQLLHSFNAPIGTTAYLEQSTP
Sbjct: 121 VALLRTDESISSAQVYDSPHLQVLVGGKRRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTP 180

Query: 181 YPQDGKHGWWSGGFGYGLWIGVLVGLGFSVVPVSSLAWKNKFELSGKDTSKDDSRRLASE 240
           +PQDGK GWWSGGFGYGLWIGVLVGLGFSVVPV SLAWKNKF+LSGKDTSKDDSRR+AS 
Sbjct: 181 FPQDGKQGWWSGGFGYGLWIGVLVGLGFSVVPVPSLAWKNKFQLSGKDTSKDDSRRVAST 240

[Close]
BLAST of Sed0027603 vs. NCBI nr
Match: XP_008449639.1 (PREDICTED: uncharacterized protein LOC103491461 isoform X1 [Cucumis melo] >KAA0061758.1 uncharacterized protein E6C27_scaffold212G001360 [Cucumis melo var. makuwa] >TYJ96100.1 uncharacterized protein E5676_scaffold182G00620 [Cucumis melo var. makuwa])

HSP 1 Score: 375.2 bits (962), Expect = 7.8e-100
Identity = 193/249 (77.51%), Postives = 209/249 (83.94%), Query Frame = 0 

Query: 1   MESLTLQSQSHSSMNSLLSSNLKPRLHGFRFLCTSSSSSLHSPQIPTNPSSSVRKERNGG 60
           ME L LQ+ S+  M SL SS LKP+LH FRFLC+SS SSL SP+I T  SSS+RK+ +G 
Sbjct: 1   MEGLPLQAHSNYFMYSLPSSKLKPKLHHFRFLCSSSFSSLPSPEISTTSSSSLRKDSSGK 60

Query: 61  ANLKVAHAQLKDNWLASLSSPFPRGHDL---------NASSDCVIGVDPDVSGAVALLRT 120
           A L +AHAQLKDNWLASLS PFP GHD          NA+S+CVIGVDPDVSGAVALLRT
Sbjct: 61  AKLAIAHAQLKDNWLASLSCPFPLGHDFSSNASSRDRNAASECVIGVDPDVSGAVALLRT 120

Query: 121 LDSICEPQVYDSPHLQVLVGGRSRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPYPQDGK 180
            +SI   QVYDSPH+QVLVGGR RKRLDAKSIVQLLHSFNAPIGTTAYLEQS P+P+DGK
Sbjct: 121 DESISSAQVYDSPHVQVLVGGRRRKRLDAKSIVQLLHSFNAPIGTTAYLEQSNPFPKDGK 180

Query: 181 HGWWSGGFGYGLWIGVLVGLGFSVVPVSSLAWKNKFELSGKDTSKDDSRRLASELFPSLS 240
            GWW GGFGYGLWIGVLVGLGFSVVPV  LAWKNKFELSGKDTSKDDSRR+ASELFPSLS
Sbjct: 181 QGWWGGGFGYGLWIGVLVGLGFSVVPVPPLAWKNKFELSGKDTSKDDSRRIASELFPSLS 240

[Close]
BLAST of Sed0027603 vs. NCBI nr
Match: XP_038902489.1 (Holliday junction resolvase MOC1, chloroplastic [Benincasa hispida])

HSP 1 Score: 374.8 bits (961), Expect = 1.0e-99
Identity = 202/263 (76.81%), Postives = 215/263 (81.75%), Query Frame = 0 

Query: 1   MESL-----TLQSQSHSSMNSLLSSNLKPRLHGFRFLCT---------SSSSSLHSPQIP 60
           MESL      LQ+QS+S+MNS LSS L+P LH FR LCT         SSSSSL SP+IP
Sbjct: 9   MESLPFCAHPLQAQSNSTMNS-LSSKLRPELHHFRVLCTSSSSPSSSSSSSSSLRSPEIP 68

Query: 61  TNPSSSVRKERNGGANLKVAHAQLKDNWLASLSSPFPRGH---------DLNASSDCVIG 120
           T  SSSVRK+ +GGA LK+AH QLKDNWLASLS PFP G+         DLN +SDCVIG
Sbjct: 69  TRTSSSVRKKSSGGAKLKIAHTQLKDNWLASLSCPFPLGYDYSANASPGDLNPASDCVIG 128

Query: 121 VDPDVSGAVALLRTLDSICEPQVYDSPHLQVLVGGRSRKRLDAKSIVQLLHSFNAPIGTT 180
           VDPDVSGAVALLRT +SI   QVYDSPHLQVLVG R RKRLDAKSIVQLLHSFNAPIGT 
Sbjct: 129 VDPDVSGAVALLRTDESISSAQVYDSPHLQVLVGRRRRKRLDAKSIVQLLHSFNAPIGTM 188

Query: 181 AYLEQSTPYPQDGKHGWWSGGFGYGLWIGVLVGLGFSVVPVSSLAWKNKFELSGKDTSKD 240
           AYLEQS P+PQDGK GWWSGGFGYGLWIGVLVGLGFSVVPV SLAWKNKFELSGKDTSKD
Sbjct: 189 AYLEQSIPFPQDGKQGWWSGGFGYGLWIGVLVGLGFSVVPVPSLAWKNKFELSGKDTSKD 248

[Close]
BLAST of Sed0027603 vs. ExPASy Swiss-Prot
Match: Q8GWA2 (Holliday junction resolvase MOC1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=MOC1 PE=1 SV=1)

HSP 1 Score: 208.0 bits (528), Expect = 2.2e-52
Identity = 106/177 (59.89%), Postives = 129/177 (72.88%), Query Frame = 0 

Query: 68  AQLKDNWLASLS--SPFPRGHDLNASSDCVIGVDPDVSGAVALLR--TLDSICEPQVYDS 127
           A +K+ WL SLS  S        NA S C+IG+DPD+SGA+ALL+   L S    QVYD+
Sbjct: 55  ALMKEKWLDSLSLTSQDEDTTPENAESSCIIGIDPDLSGALALLKFDHLGSSSFAQVYDT 114

Query: 128 PHLQVLVGGRSRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPYPQDGKHGWWSGGFGYGL 187
           PH+ VLVG R RKRLDAKSIVQL+ S + P G+  Y+EQS P+P+DGK GW+SGGFGYGL
Sbjct: 115 PHIPVLVGKRVRKRLDAKSIVQLIQSLDVPSGSRVYIEQSNPFPKDGKQGWYSGGFGYGL 174

Query: 188 WIGVLVGLGFSVVPVSSLAWKNKFELSGKDTSKDDSRRLASELFPSLSPLLKRKKDH 241
           WIG LV  GF V+PVS+  WK  F+L+    +KDDSRR+A+ELFPSLS  LKRKKDH
Sbjct: 175 WIGTLVASGFCVIPVSASLWKRHFQLASGSCTKDDSRRVAAELFPSLSSQLKRKKDH 231

[Close]
BLAST of Sed0027603 vs. ExPASy TrEMBL
Match: A0A6J1DFT4 (uncharacterized protein LOC111020674 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111020674 PE=4 SV=1)

HSP 1 Score: 386.0 bits (990), Expect = 2.1e-103
Identity = 200/246 (81.30%), Postives = 208/246 (84.55%), Query Frame = 0 

Query: 4   LTLQSQSHSSMNSLLSSNLKPRLHGFRFLCTSSSSSLHSPQIPTNPSSSVRKERNGGANL 63
           L LQ QSH  MNS LSS LKP  + FR LCT  SSS+H PQIP  PSSS RKE  G A L
Sbjct: 13  LQLQVQSHCFMNS-LSSKLKPEFYHFRLLCT--SSSVHPPQIPARPSSSGRKESGGAAKL 72

Query: 64  KVAHAQLKDNWLASLSSPFPRGH---------DLNASSDCVIGVDPDVSGAVALLRTLDS 123
           K+AH+QLKDNWLASLSSPFP GH         DLNASSDCVIGVDPDVSGAVALLRT  S
Sbjct: 73  KIAHSQLKDNWLASLSSPFPLGHDHPINGSRGDLNASSDCVIGVDPDVSGAVALLRTDYS 132

Query: 124 ICEPQVYDSPHLQVLVGGRSRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPYPQDGKHGW 183
           +C  QVYDSPHLQVLVGGR RKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPYPQDGK GW
Sbjct: 133 VCSAQVYDSPHLQVLVGGRRRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPYPQDGKQGW 192

Query: 184 WSGGFGYGLWIGVLVGLGFSVVPVSSLAWKNKFELSGKDTSKDDSRRLASELFPSLSPLL 241
           WSGGFGYGLWIG+LVGLGFSV+PV SLAWKNKFELSGKDTSKDDSRR+AS LFPSLSPLL
Sbjct: 193 WSGGFGYGLWIGILVGLGFSVIPVPSLAWKNKFELSGKDTSKDDSRRVASTLFPSLSPLL 252

[Close]
BLAST of Sed0027603 vs. ExPASy TrEMBL
Match: A0A5D3B8B8 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold182G00620 PE=4 SV=1)

HSP 1 Score: 375.2 bits (962), Expect = 3.8e-100
Identity = 193/249 (77.51%), Postives = 209/249 (83.94%), Query Frame = 0 

Query: 1   MESLTLQSQSHSSMNSLLSSNLKPRLHGFRFLCTSSSSSLHSPQIPTNPSSSVRKERNGG 60
           ME L LQ+ S+  M SL SS LKP+LH FRFLC+SS SSL SP+I T  SSS+RK+ +G 
Sbjct: 1   MEGLPLQAHSNYFMYSLPSSKLKPKLHHFRFLCSSSFSSLPSPEISTTSSSSLRKDSSGK 60

Query: 61  ANLKVAHAQLKDNWLASLSSPFPRGHDL---------NASSDCVIGVDPDVSGAVALLRT 120
           A L +AHAQLKDNWLASLS PFP GHD          NA+S+CVIGVDPDVSGAVALLRT
Sbjct: 61  AKLAIAHAQLKDNWLASLSCPFPLGHDFSSNASSRDRNAASECVIGVDPDVSGAVALLRT 120

Query: 121 LDSICEPQVYDSPHLQVLVGGRSRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPYPQDGK 180
            +SI   QVYDSPH+QVLVGGR RKRLDAKSIVQLLHSFNAPIGTTAYLEQS P+P+DGK
Sbjct: 121 DESISSAQVYDSPHVQVLVGGRRRKRLDAKSIVQLLHSFNAPIGTTAYLEQSNPFPKDGK 180

Query: 181 HGWWSGGFGYGLWIGVLVGLGFSVVPVSSLAWKNKFELSGKDTSKDDSRRLASELFPSLS 240
            GWW GGFGYGLWIGVLVGLGFSVVPV  LAWKNKFELSGKDTSKDDSRR+ASELFPSLS
Sbjct: 181 QGWWGGGFGYGLWIGVLVGLGFSVVPVPPLAWKNKFELSGKDTSKDDSRRIASELFPSLS 240

[Close]
BLAST of Sed0027603 vs. ExPASy TrEMBL
Match: A0A1S3BMH5 (uncharacterized protein LOC103491461 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103491461 PE=4 SV=1)

HSP 1 Score: 375.2 bits (962), Expect = 3.8e-100
Identity = 193/249 (77.51%), Postives = 209/249 (83.94%), Query Frame = 0 

Query: 1   MESLTLQSQSHSSMNSLLSSNLKPRLHGFRFLCTSSSSSLHSPQIPTNPSSSVRKERNGG 60
           ME L LQ+ S+  M SL SS LKP+LH FRFLC+SS SSL SP+I T  SSS+RK+ +G 
Sbjct: 1   MEGLPLQAHSNYFMYSLPSSKLKPKLHHFRFLCSSSFSSLPSPEISTTSSSSLRKDSSGK 60

Query: 61  ANLKVAHAQLKDNWLASLSSPFPRGHDL---------NASSDCVIGVDPDVSGAVALLRT 120
           A L +AHAQLKDNWLASLS PFP GHD          NA+S+CVIGVDPDVSGAVALLRT
Sbjct: 61  AKLAIAHAQLKDNWLASLSCPFPLGHDFSSNASSRDRNAASECVIGVDPDVSGAVALLRT 120

Query: 121 LDSICEPQVYDSPHLQVLVGGRSRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPYPQDGK 180
            +SI   QVYDSPH+QVLVGGR RKRLDAKSIVQLLHSFNAPIGTTAYLEQS P+P+DGK
Sbjct: 121 DESISSAQVYDSPHVQVLVGGRRRKRLDAKSIVQLLHSFNAPIGTTAYLEQSNPFPKDGK 180

Query: 181 HGWWSGGFGYGLWIGVLVGLGFSVVPVSSLAWKNKFELSGKDTSKDDSRRLASELFPSLS 240
            GWW GGFGYGLWIGVLVGLGFSVVPV  LAWKNKFELSGKDTSKDDSRR+ASELFPSLS
Sbjct: 181 QGWWGGGFGYGLWIGVLVGLGFSVVPVPPLAWKNKFELSGKDTSKDDSRRIASELFPSLS 240

[Close]
BLAST of Sed0027603 vs. ExPASy TrEMBL
Match: A0A6J1FUK2 (Holliday junction resolvase MOC1, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111448269 PE=4 SV=1)

HSP 1 Score: 374.8 bits (961), Expect = 4.9e-100
Identity = 200/254 (78.74%), Postives = 211/254 (83.07%), Query Frame = 0 

Query: 1   MESL-----TLQSQSHSSMNSLLSSNLKPRLHGFRFLCTSSSSSLHSPQIPTNPSSSVRK 60
           MESL      LQ+QSH  M S LSS LK  LH FRFLCT SSSS+ S  IPT PSSSVRK
Sbjct: 1   MESLPLNAHPLQAQSHCFMIS-LSSKLKSELHRFRFLCT-SSSSVRSSGIPTRPSSSVRK 60

Query: 61  ERNGGANLKVAHAQLKDNWLASLSSPFPRGHDL---------NASSDCVIGVDPDVSGAV 120
           E +GG  LK+AH QLKDNWLASLS PFP GHD          NA+SDCVIGVDPDVSGAV
Sbjct: 61  ESSGGVKLKIAHTQLKDNWLASLSCPFPLGHDYSANGRPGDQNATSDCVIGVDPDVSGAV 120

Query: 121 ALLRTLDSICEPQVYDSPHLQVLVGGRSRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPY 180
           ALLRT +SI   QVYDSPHLQVLVGG+ RKRLDAKSIVQLLHSFNAPIGTTAYLEQSTP+
Sbjct: 121 ALLRTDESISSAQVYDSPHLQVLVGGKRRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPF 180

Query: 181 PQDGKHGWWSGGFGYGLWIGVLVGLGFSVVPVSSLAWKNKFELSGKDTSKDDSRRLASEL 240
           PQDGK GWWSGGFGYGLWIGVLVGLGFSVVPV SLAWKNKF+LSGKDTSKDDSRR+AS L
Sbjct: 181 PQDGKQGWWSGGFGYGLWIGVLVGLGFSVVPVPSLAWKNKFQLSGKDTSKDDSRRVASTL 240

[Close]
BLAST of Sed0027603 vs. ExPASy TrEMBL
Match: A0A0A0KH00 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G429140 PE=4 SV=1)

HSP 1 Score: 373.6 bits (958), Expect = 1.1e-99
Identity = 193/249 (77.51%), Postives = 209/249 (83.94%), Query Frame = 0 

Query: 1   MESLTLQSQSHSSMNSLLSSNLKPRLHGFRFLCTSSSSSLHSPQIPTNPSSSVRKERNGG 60
           ME L LQS S+S MNSL SS LK +LH FRFLCTSS SS+ S +I T  SSSVRK+ +G 
Sbjct: 1   MEGLPLQSHSNSFMNSLPSSKLKLKLHHFRFLCTSSFSSICSSEISTISSSSVRKDSSGK 60

Query: 61  ANLKVAHAQLKDNWLASLSSPFPRGHDL---------NASSDCVIGVDPDVSGAVALLRT 120
           A L +AHAQLKDNWLASLS PFP GHD          NA+S+CVIGVDPDVSGAVALLRT
Sbjct: 61  AKLAIAHAQLKDNWLASLSCPFPLGHDYSSNSSSPDRNAASECVIGVDPDVSGAVALLRT 120

Query: 121 LDSICEPQVYDSPHLQVLVGGRSRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPYPQDGK 180
            +SI   QVYDSPH+Q+LVGGR RKRLDAKSIVQLLHSFNAPIGTTAYLEQS P+P+DGK
Sbjct: 121 DESISSAQVYDSPHVQILVGGRKRKRLDAKSIVQLLHSFNAPIGTTAYLEQSNPFPKDGK 180

Query: 181 HGWWSGGFGYGLWIGVLVGLGFSVVPVSSLAWKNKFELSGKDTSKDDSRRLASELFPSLS 240
            GWW GGFGYGLWIGVLVGLGFSVVPV  LAWKNKFELSGKDTSKDDSRR+ASELFPSL+
Sbjct: 181 QGWWGGGFGYGLWIGVLVGLGFSVVPVPPLAWKNKFELSGKDTSKDDSRRIASELFPSLT 240

[Close]
BLAST of Sed0027603 vs. TAIR 10
Match: AT2G26840.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G43910.1); Has 835 Blast hits to 835 proteins in 26 species: Archae - 0; Bacteria - 25; Metazoa - 0; Fungi - 0; Plants - 40; Viruses - 2; Other Eukaryotes - 768 (source: NCBI BLink). )

HSP 1 Score: 208.0 bits (528), Expect = 1.5e-53
Identity = 106/177 (59.89%), Postives = 129/177 (72.88%), Query Frame = 0 

Query: 68  AQLKDNWLASLS--SPFPRGHDLNASSDCVIGVDPDVSGAVALLR--TLDSICEPQVYDS 127
           A +K+ WL SLS  S        NA S C+IG+DPD+SGA+ALL+   L S    QVYD+
Sbjct: 55  ALMKEKWLDSLSLTSQDEDTTPENAESSCIIGIDPDLSGALALLKFDHLGSSSFAQVYDT 114

Query: 128 PHLQVLVGGRSRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPYPQDGKHGWWSGGFGYGL 187
           PH+ VLVG R RKRLDAKSIVQL+ S + P G+  Y+EQS P+P+DGK GW+SGGFGYGL
Sbjct: 115 PHIPVLVGKRVRKRLDAKSIVQLIQSLDVPSGSRVYIEQSNPFPKDGKQGWYSGGFGYGL 174

Query: 188 WIGVLVGLGFSVVPVSSLAWKNKFELSGKDTSKDDSRRLASELFPSLSPLLKRKKDH 241
           WIG LV  GF V+PVS+  WK  F+L+    +KDDSRR+A+ELFPSLS  LKRKKDH
Sbjct: 175 WIGTLVASGFCVIPVSASLWKRHFQLASGSCTKDDSRRVAAELFPSLSSQLKRKKDH 231

[Close]
BLAST of Sed0027603 vs. TAIR 10
Match: AT2G26840.2 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G43910.1). )

HSP 1 Score: 189.1 bits (479), Expect = 7.4e-48
Identity = 106/230 (46.09%), Postives = 130/230 (56.52%), Query Frame = 0 

Query: 68  AQLKDNWLASLS--SPFPRGHDLNASSDCVIGVDPDVSGAVALL---------------- 127
           A +K+ WL SLS  S        NA S C+IG+DPD+SGA+ALL                
Sbjct: 55  ALMKEKWLDSLSLTSQDEDTTPENAESSCIIGIDPDLSGALALLKFDHLGSSSFAQNQTY 114

Query: 128 ------------------------------RTLDSICEP---------QVYDSPHLQVLV 187
                                         R  +  CE          +VYD+PH+ VLV
Sbjct: 115 YQSWLCFEHLVLMLRNYLSLQGSYVICEKNRECEGFCESFMLLCLVQFEVYDTPHIPVLV 174

Query: 188 GGRSRKRLDAKSIVQLLHSFNAPIGTTAYLEQSTPYPQDGKHGWWSGGFGYGLWIGVLVG 241
           G R RKRLDAKSIVQL+ S + P G+  Y+EQS P+P+DGK GW+SGGFGYGLWIG LV 
Sbjct: 175 GKRVRKRLDAKSIVQLIQSLDVPSGSRVYIEQSNPFPKDGKQGWYSGGFGYGLWIGTLVA 234

The following BLAST results are available for this feature:
BLAST of Sed0027603 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022153090.14.4e-10381.30uncharacterized protein LOC111020674 isoform X1 [Momordica charantia][more]
XP_023512747.14.6e-10078.82Holliday junction resolvase MOC1, chloroplastic [Cucurbita pepo subsp. pepo][more]
KAG7010304.14.6e-10078.82hypothetical protein SDJN02_27097 [Cucurbita argyrosperma subsp. argyrosperma][more]
XP_008449639.17.8e-10077.51PREDICTED: uncharacterized protein LOC103491461 isoform X1 [Cucumis melo] >KAA00... [more]
XP_038902489.11.0e-9976.81Holliday junction resolvase MOC1, chloroplastic [Benincasa hispida][more]
BLAST of Sed0027603 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q8GWA22.2e-5259.89Holliday junction resolvase MOC1, chloroplastic OS=Arabidopsis thaliana OX=3702 ... [more]
BLAST of Sed0027603 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1DFT42.1e-10381.30uncharacterized protein LOC111020674 isoform X1 OS=Momordica charantia OX=3673 G... [more]
A0A5D3B8B83.8e-10077.51Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold... [more]
A0A1S3BMH53.8e-10077.51uncharacterized protein LOC103491461 isoform X1 OS=Cucumis melo OX=3656 GN=LOC10... [more]
A0A6J1FUK24.9e-10078.74Holliday junction resolvase MOC1, chloroplastic OS=Cucurbita moschata OX=3662 GN... [more]
A0A0A0KH001.1e-9977.51Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G429140 PE=4 SV=1[more]
BLAST of Sed0027603 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G26840.11.5e-5359.89unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT2G26840.27.4e-4846.09unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
InterPro
Analysis Name: InterPro Annotations of Chayote (edule) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 36..56
NoneNo IPR availablePANTHERPTHR36015HOLLIDAY JUNCTION RESOLVASE MOC1, CHLOROPLASTIC-RELATEDcoord: 21..243

Relationships

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

Feature NameUnique NameType
Sed0027603.1Sed0027603.1mRNA
Sed0027603.2Sed0027603.2mRNA
Sed0027603.3Sed0027603.3mRNA
Sed0027603.4Sed0027603.4mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0009987 cellular process
biological_process GO:0006950 response to stress
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0016020 membrane