Tan0011105 (gene) Snake gourd v1

Overview
NameTan0011105
Typegene
OrganismTrichosanthes anguina (Snake gourd v1)
DescriptionRibonuclease H
LocationLG02: 13975724 .. 13989254 (+)
RNA-Seq ExpressionTan0011105
SyntenyTan0011105
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGTTCATCAATACCCTAAAGTCTCCATTTTATGATCATATGATAGGGAGTGCTTCAACGAATTTCTCAGACATCATGACGATTGGGGAAAGAATTGAGTTTGGAATCAAGCACGGTAGGATAAGTCAGGCCACAAAATCTTTGACAACCAAAAAAGGATCCACTTTGAAGAAAAATGAGGGAGATGTTTCAACAATTGTGACGCCGATGGAAAAACTTTTCAAAATTCTACTTGCTAATGGCTACGTATCTGTAGAATACTTATACCCAGATTCTACTCAAGAAGAATATAATGATAACTTGACTTGTTCATTTCACTTTGGGGCAAAAGGTCATTCTTTGGATCGATGTTACCACTTTTGCAAGAGGGTCCAAGAATTGATGGACATGAAGGTTCTTACTGTTGCACAATCTCGTGGCTTTTATCCAGATAATGAAGTGGGCACTATAGAAGGACTTTCCTCTAAAAAGGTTGGTTTAAATGTGCCTTTTATACCTCTCACAACTTTTATCGCGAAAAGCCCACCCTACCTATTTGGGTTGGGGTACAAACCCAATAGAATGGATATGATCAGAGTACAAAAGCAGGAAAAGGAAAAACGGTTAGCAAGATTGGAAAATCGTGAACTAGAGCATCAGGAAGAAAGGATTCTACCTCTCTACCATTCTTTCAAAAGTGCTGGTGTACTTCATCCAAAGAGTTGTGGAGATTATGCAATCGCAGCCGTGATTGAAGAAGAAGAAATAGGCCCATGGATCTACCCATGCCCAAAGAATTTCAAGCTTGACAATTGGAGTGTTATTGAATCGCCGTTATTTGCTGTTAAACTGTCAGAGTAA

Coding sequence (CDS)

ATGTTCATCAATACCCTAAAGTCTCCATTTTATGATCATATGATAGGGAGTGCTTCAACGAATTTCTCAGACATCATGACGATTGGGGAAAGAATTGAGTTTGGAATCAAGCACGGTAGGATAAGTCAGGCCACAAAATCTTTGACAACCAAAAAAGGATCCACTTTGAAGAAAAATGAGGGAGATGTTTCAACAATTGTGACGCCGATGGAAAAACTTTTCAAAATTCTACTTGCTAATGGCTACGTATCTGTAGAATACTTATACCCAGATTCTACTCAAGAAGAATATAATGATAACTTGACTTGTTCATTTCACTTTGGGGCAAAAGGTCATTCTTTGGATCGATGTTACCACTTTTGCAAGAGGGTCCAAGAATTGATGGACATGAAGGTTCTTACTGTTGCACAATCTCGTGGCTTTTATCCAGATAATGAAGTGGGCACTATAGAAGGACTTTCCTCTAAAAAGGTTGGTTTAAATGTGCCTTTTATACCTCTCACAACTTTTATCGCGAAAAGCCCACCCTACCTATTTGGGTTGGGGTACAAACCCAATAGAATGGATATGATCAGAGTACAAAAGCAGGAAAAGGAAAAACGGTTAGCAAGATTGGAAAATCGTGAACTAGAGCATCAGGAAGAAAGGATTCTACCTCTCTACCATTCTTTCAAAAGTGCTGGTGTACTTCATCCAAAGAGTTGTGGAGATTATGCAATCGCAGCCGTGATTGAAGAAGAAGAAATAGGCCCATGGATCTACCCATGCCCAAAGAATTTCAAGCTTGACAATTGGAGTGTTATTGAATCGCCGTTATTTGCTGTTAAACTGTCAGAGTAA

Protein sequence

MFINTLKSPFYDHMIGSASTNFSDIMTIGERIEFGIKHGRISQATKSLTTKKGSTLKKNEGDVSTIVTPMEKLFKILLANGYVSVEYLYPDSTQEEYNDNLTCSFHFGAKGHSLDRCYHFCKRVQELMDMKVLTVAQSRGFYPDNEVGTIEGLSSKKVGLNVPFIPLTTFIAKSPPYLFGLGYKPNRMDMIRVQKQEKEKRLARLENRELEHQEERILPLYHSFKSAGVLHPKSCGDYAIAAVIEEEEIGPWIYPCPKNFKLDNWSVIESPLFAVKLSE
Homology
[Close]
BLAST of Tan0011105 vs. NCBI nr
Match: XP_022131653.1 (uncharacterized protein LOC111004780 [Momordica charantia])

HSP 1 Score: 146.0 bits (367), Expect = 4.9e-31
Identity = 85/194 (43.81%), Postives = 109/194 (56.19%), Query Frame = 0 

Query: 1   MFINTLKSPFYDHMIGSASTNFSDIMTIGERIEFGIKHGRISQATKSL------------ 60
           MFINTLK PFYD MIGSASTNFS+IMTIGE IE+G+KHG+I+  T+ L            
Sbjct: 45  MFINTLKHPFYDRMIGSASTNFSNIMTIGETIEYGVKHGQITSTTEELLAAKRQVIPRRK 104

Query: 61  --------------------------------TTKKGSTLK-----------KNEGDVST 120
                                           +TK  + LK           +++  V  
Sbjct: 105 LAPVPVDLIQPPYPRWYDVNARCDYHAGAIGHSTKNCTALKYRVQALIRVGIESKSKVGD 164

Query: 121 IVTPMEKLFKILLANGYVSVEYLYPDSTQEEYNDNLTCSFHFGAKGHSLDRCYHFCKRVQ 140
           I  P+E+LF+ LL +GYVSVEYL P+   +EY+ + TC FH GAKGHSL++C  F KRVQ
Sbjct: 165 ITIPLEELFENLLGSGYVSVEYLCPNLKYKEYDGSQTCPFHAGAKGHSLEQCNRFQKRVQ 224

[Close]
BLAST of Tan0011105 vs. NCBI nr
Match: XP_022131653.1 (uncharacterized protein LOC111004780 [Momordica charantia])

HSP 1 Score: 66.6 bits (161), Expect = 3.8e-07
Identity = 35/76 (46.05%), Postives = 51/76 (67.11%), Query Frame = 0 

Query: 179 FGLGYKPNRMDMIRVQKQEKEKRLARLENRELEHQEERILPLYHSFKSAGVLHPKSCGDY 238
           FGL YKP+R  +IRV+  EK KRL+R EN E ++    +  L HSF+SAG++H +     
Sbjct: 618 FGLRYKPSRGYIIRVRSLEKAKRLSRFENEERDYPRRIVPRLNHSFRSAGIIHQEYDESS 677

Query: 239 AIAAVIEE-EEIGPWI 254
           A+A V EE E++GP++
Sbjct: 678 AVAVVTEEREQVGPFV 693


HSP 2 Score: 144.8 bits (364), Expect = 1.1e-30
Identity = 96/247 (38.87%), Postives = 117/247 (47.37%), Query Frame = 0 

Query: 1   MFINTLKSPFYDHMIGSASTNFSDIMTIGERIEFGIKHGRI-SQATKSLTTKKGSTLKKN 60
           MFINTLK PFYD MIGSASTNFSDIMTIGERIE+G++H RI S A + L  KK S  KK 
Sbjct: 298 MFINTLKHPFYDRMIGSASTNFSDIMTIGERIEYGVRHKRITSTADEPLAAKKASHSKKK 357

Query: 61  EGD--------------------------------------------------------- 120
           EG+                                                         
Sbjct: 358 EGELTPVPVDPIQPLYPRWYDANARCDYHAGAIGHSTENCTALKYRVQALLKAGWLNFKK 417

Query: 121 --------------------------------VSTIVTPMEKLFKILLANGYVSVEYLYP 155
                                           V+ I TP E+LF+ILL +GYVSVEYL P
Sbjct: 418 ENEPDVSKNPLSNHQNVQINAIECQGIESKSKVADIRTPKEELFEILLGSGYVSVEYLCP 477

[Close]
BLAST of Tan0011105 vs. NCBI nr
Match: XP_022143495.1 (LOW QUALITY PROTEIN: uncharacterized protein LOC111013372 [Momordica charantia])

HSP 1 Score: 142.5 bits (358), Expect = 5.5e-30
Identity = 97/268 (36.19%), Postives = 124/268 (46.27%), Query Frame = 0 

Query: 1   MFINTLKSPFYDHMIGSASTNFSDIMTIGERIEFGIKHGRI-SQATKSLTTKKGSTLKKN 60
           MFINTLK PFYD M+GSASTNFSDIM IGERIE+G++HGRI S A + L  KK S  KK 
Sbjct: 240 MFINTLKHPFYDRMVGSASTNFSDIMAIGERIEYGVRHGRITSTADEPLAAKKTSHSKKK 299

Query: 61  EGD--------------------------------------------------------- 120
           EG+                                                         
Sbjct: 300 EGELAHVPVDPIQPPYPRWCDANARCDYHTGAIGHSIENCTALKYRVQALIKAGWLNFKK 359

Query: 121 --------------------------------VSTIVTPMEKLFKILLANGYVSVEYLYP 176
                                           V+ I TPME+LF+ILL +GYVSVEYL P
Sbjct: 360 ENGPBVSNNPLPNHXNVQINAIECQEIESKSKVADITTPMEELFEILLGSGYVSVEYLCP 419

[Close]
BLAST of Tan0011105 vs. NCBI nr
Match: XP_022143495.1 (LOW QUALITY PROTEIN: uncharacterized protein LOC111013372 [Momordica charantia])

HSP 1 Score: 102.4 bits (254), Expect = 6.3e-18
Identity = 48/90 (53.33%), Postives = 64/90 (71.11%), Query Frame = 0 

Query: 179  FGLGYKPNRMDMIRVQKQEKEKRLARLENRELEHQEERILPLYHSFKSAGVLHPKSCGDY 238
            FGLGYKP+R D+IRV+  EK KRL+R EN E ++    + PL HSF+SAG +H +  G  
Sbjct: 921  FGLGYKPSRGDIIRVRSLEKAKRLSRFENEERDYPRRTVPPLSHSFRSAGTIHQEYDGSS 980

Query: 239  AIAAVIEE-EEIGPWIYPCPKNFKLDNWSV 268
             +AAV EE E++ P++YPCP  F+L NWSV
Sbjct: 981  VVAAVTEEREQVRPFVYPCPDGFELSNWSV 1010


HSP 2 Score: 119.0 bits (297), Expect = 6.5e-23
Identity = 80/224 (35.71%), Postives = 112/224 (50.00%), Query Frame = 0 

Query: 1   MFINTLKSPFYDHMIGSASTNFSDIMTIGERIEFGIKHGRISQATKSL-TTKKGSTLKKN 60
           MF+NTL++PFY+ MIG+ASTN  DI+ IGERIE+GIKHGR+++AT      KKG+  KK 
Sbjct: 128 MFMNTLRAPFYERMIGNASTNVFDIIVIGERIEYGIKHGRLAEATTEYGGIKKGTISKKK 187

Query: 61  EGDVST-----------------------------------------------IVTPMEK 120
           E +V +                                               IV PME 
Sbjct: 188 EEEVQSLINAGWLSFKKSGEKPNVNENPLPDHENPKVNVVDSLVEKCKNEVHEIVMPMEA 247

Query: 121 LFKILLANGYVSVEYLYPDSTQEEYNDNLTCSFHFGAKGHSLDRCYHFCKRVQELMDMKV 175
            F+ L   GYVS EYL P+   E Y+++  C F+    GH + +C  F  +VQ+LMD K+
Sbjct: 248 FFEGLFEVGYVSHEYLDPNIRYEGYDESRHCRFYQRVAGHVVQQCQKFRSKVQQLMDSKI 307

[Close]
BLAST of Tan0011105 vs. NCBI nr
Match: KAA0037781.1 (uncharacterized protein E6C27_scaffold471G00160 [Cucumis melo var. makuwa])

HSP 1 Score: 119.0 bits (297), Expect = 6.5e-23
Identity = 80/224 (35.71%), Postives = 112/224 (50.00%), Query Frame = 0 

Query: 1   MFINTLKSPFYDHMIGSASTNFSDIMTIGERIEFGIKHGRISQATKSL-TTKKGSTLKKN 60
           MF+NTL++PFY+ MIG+ASTN  DI+ IGERIE+GIKHGR+++AT      KKG+  KK 
Sbjct: 128 MFMNTLRAPFYERMIGNASTNVFDIIVIGERIEYGIKHGRLAEATTEYGGIKKGTISKKK 187

Query: 61  EGDVST-----------------------------------------------IVTPMEK 120
           E +V +                                               IV PME 
Sbjct: 188 EEEVQSLINAGWLSFKKSGEKPNVNENPLPDHENPKVNVVDSLVEKCKNEVHEIVMPMEA 247

Query: 121 LFKILLANGYVSVEYLYPDSTQEEYNDNLTCSFHFGAKGHSLDRCYHFCKRVQELMDMKV 175
            F+ L   GYVS EYL P+   E Y+++  C F+    GH + +C  F  +VQ+LMD K+
Sbjct: 248 FFEGLFEVGYVSHEYLDPNIRYEGYDESRHCRFYQRVAGHVVQQCQKFRSKVQQLMDSKI 307

[Close]
BLAST of Tan0011105 vs. ExPASy TrEMBL
Match: A0A6J1BU14 (uncharacterized protein LOC111004780 OS=Momordica charantia OX=3673 GN=LOC111004780 PE=4 SV=1)

HSP 1 Score: 146.0 bits (367), Expect = 2.4e-31
Identity = 85/194 (43.81%), Postives = 109/194 (56.19%), Query Frame = 0 

Query: 1   MFINTLKSPFYDHMIGSASTNFSDIMTIGERIEFGIKHGRISQATKSL------------ 60
           MFINTLK PFYD MIGSASTNFS+IMTIGE IE+G+KHG+I+  T+ L            
Sbjct: 45  MFINTLKHPFYDRMIGSASTNFSNIMTIGETIEYGVKHGQITSTTEELLAAKRQVIPRRK 104

Query: 61  --------------------------------TTKKGSTLK-----------KNEGDVST 120
                                           +TK  + LK           +++  V  
Sbjct: 105 LAPVPVDLIQPPYPRWYDVNARCDYHAGAIGHSTKNCTALKYRVQALIRVGIESKSKVGD 164

Query: 121 IVTPMEKLFKILLANGYVSVEYLYPDSTQEEYNDNLTCSFHFGAKGHSLDRCYHFCKRVQ 140
           I  P+E+LF+ LL +GYVSVEYL P+   +EY+ + TC FH GAKGHSL++C  F KRVQ
Sbjct: 165 ITIPLEELFENLLGSGYVSVEYLCPNLKYKEYDGSQTCPFHAGAKGHSLEQCNRFQKRVQ 224

[Close]
BLAST of Tan0011105 vs. ExPASy TrEMBL
Match: A0A6J1BU14 (uncharacterized protein LOC111004780 OS=Momordica charantia OX=3673 GN=LOC111004780 PE=4 SV=1)

HSP 1 Score: 66.6 bits (161), Expect = 1.8e-07
Identity = 35/76 (46.05%), Postives = 51/76 (67.11%), Query Frame = 0 

Query: 179 FGLGYKPNRMDMIRVQKQEKEKRLARLENRELEHQEERILPLYHSFKSAGVLHPKSCGDY 238
           FGL YKP+R  +IRV+  EK KRL+R EN E ++    +  L HSF+SAG++H +     
Sbjct: 618 FGLRYKPSRGYIIRVRSLEKAKRLSRFENEERDYPRRIVPRLNHSFRSAGIIHQEYDESS 677

Query: 239 AIAAVIEE-EEIGPWI 254
           A+A V EE E++GP++
Sbjct: 678 AVAVVTEEREQVGPFV 693


HSP 2 Score: 144.8 bits (364), Expect = 5.3e-31
Identity = 96/247 (38.87%), Postives = 117/247 (47.37%), Query Frame = 0 

Query: 1   MFINTLKSPFYDHMIGSASTNFSDIMTIGERIEFGIKHGRI-SQATKSLTTKKGSTLKKN 60
           MFINTLK PFYD MIGSASTNFSDIMTIGERIE+G++H RI S A + L  KK S  KK 
Sbjct: 298 MFINTLKHPFYDRMIGSASTNFSDIMTIGERIEYGVRHKRITSTADEPLAAKKASHSKKK 357

Query: 61  EGD--------------------------------------------------------- 120
           EG+                                                         
Sbjct: 358 EGELTPVPVDPIQPLYPRWYDANARCDYHAGAIGHSTENCTALKYRVQALLKAGWLNFKK 417

Query: 121 --------------------------------VSTIVTPMEKLFKILLANGYVSVEYLYP 155
                                           V+ I TP E+LF+ILL +GYVSVEYL P
Sbjct: 418 ENEPDVSKNPLSNHQNVQINAIECQGIESKSKVADIRTPKEELFEILLGSGYVSVEYLCP 477

[Close]
BLAST of Tan0011105 vs. ExPASy TrEMBL
Match: A0A6J1CNY7 (Ribonuclease H OS=Momordica charantia OX=3673 GN=LOC111013372 PE=4 SV=1)

HSP 1 Score: 142.5 bits (358), Expect = 2.6e-30
Identity = 97/268 (36.19%), Postives = 124/268 (46.27%), Query Frame = 0 

Query: 1   MFINTLKSPFYDHMIGSASTNFSDIMTIGERIEFGIKHGRI-SQATKSLTTKKGSTLKKN 60
           MFINTLK PFYD M+GSASTNFSDIM IGERIE+G++HGRI S A + L  KK S  KK 
Sbjct: 240 MFINTLKHPFYDRMVGSASTNFSDIMAIGERIEYGVRHGRITSTADEPLAAKKTSHSKKK 299

Query: 61  EGD--------------------------------------------------------- 120
           EG+                                                         
Sbjct: 300 EGELAHVPVDPIQPPYPRWCDANARCDYHTGAIGHSIENCTALKYRVQALIKAGWLNFKK 359

Query: 121 --------------------------------VSTIVTPMEKLFKILLANGYVSVEYLYP 176
                                           V+ I TPME+LF+ILL +GYVSVEYL P
Sbjct: 360 ENGPDVSNNPLPNHXNVQINAIECQEIESKSKVADITTPMEELFEILLGSGYVSVEYLCP 419

[Close]
BLAST of Tan0011105 vs. ExPASy TrEMBL
Match: A0A6J1CNY7 (Ribonuclease H OS=Momordica charantia OX=3673 GN=LOC111013372 PE=4 SV=1)

HSP 1 Score: 102.4 bits (254), Expect = 3.0e-18
Identity = 48/90 (53.33%), Postives = 64/90 (71.11%), Query Frame = 0 

Query: 179  FGLGYKPNRMDMIRVQKQEKEKRLARLENRELEHQEERILPLYHSFKSAGVLHPKSCGDY 238
            FGLGYKP+R D+IRV+  EK KRL+R EN E ++    + PL HSF+SAG +H +  G  
Sbjct: 921  FGLGYKPSRGDIIRVRSLEKAKRLSRFENEERDYPRRTVPPLSHSFRSAGTIHQEYDGSS 980

Query: 239  AIAAVIEE-EEIGPWIYPCPKNFKLDNWSV 268
             +AAV EE E++ P++YPCP  F+L NWSV
Sbjct: 981  VVAAVTEEREQVRPFVYPCPDGFELSNWSV 1010


HSP 2 Score: 119.0 bits (297), Expect = 3.1e-23
Identity = 80/224 (35.71%), Postives = 112/224 (50.00%), Query Frame = 0 

Query: 1   MFINTLKSPFYDHMIGSASTNFSDIMTIGERIEFGIKHGRISQATKSL-TTKKGSTLKKN 60
           MF+NTL++PFY+ MIG+ASTN  DI+ IGERIE+GIKHGR+++AT      KKG+  KK 
Sbjct: 128 MFMNTLRAPFYERMIGNASTNVFDIIVIGERIEYGIKHGRLAEATTEYGGIKKGTISKKK 187

Query: 61  EGDVST-----------------------------------------------IVTPMEK 120
           E +V +                                               IV PME 
Sbjct: 188 EEEVQSLINAGWLSFKKSGEKPNVNENPLPDHENPKVNVVDSLVEKCKNEVHEIVMPMEA 247

Query: 121 LFKILLANGYVSVEYLYPDSTQEEYNDNLTCSFHFGAKGHSLDRCYHFCKRVQELMDMKV 175
            F+ L   GYVS EYL P+   E Y+++  C F+    GH + +C  F  +VQ+LMD K+
Sbjct: 248 FFEGLFEVGYVSHEYLDPNIRYEGYDESRHCRFYQRVAGHVVQQCQKFRSKVQQLMDSKI 307

[Close]
BLAST of Tan0011105 vs. ExPASy TrEMBL
Match: A0A5A7T858 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold471G00160 PE=4 SV=1)

HSP 1 Score: 119.0 bits (297), Expect = 3.1e-23
Identity = 80/224 (35.71%), Postives = 112/224 (50.00%), Query Frame = 0 

Query: 1   MFINTLKSPFYDHMIGSASTNFSDIMTIGERIEFGIKHGRISQATKSL-TTKKGSTLKKN 60
           MF+NTL++PFY+ MIG+ASTN  DI+ IGERIE+GIKHGR+++AT      KKG+  KK 
Sbjct: 128 MFMNTLRAPFYERMIGNASTNVFDIIVIGERIEYGIKHGRLAEATTEYGGIKKGTISKKK 187

Query: 61  EGDVST-----------------------------------------------IVTPMEK 120
           E +V +                                               IV PME 
Sbjct: 188 EEEVQSLINAGWLSFKKSGEKPNVNENPLPDHENPKVNVVDSLVEKCKNEVHEIVMPMEA 247

Query: 121 LFKILLANGYVSVEYLYPDSTQEEYNDNLTCSFHFGAKGHSLDRCYHFCKRVQELMDMKV 175
            F+ L   GYVS EYL P+   E Y+++  C F+    GH + +C  F  +VQ+LMD K+
Sbjct: 248 FFEGLFEVGYVSHEYLDPNIRYEGYDESRHCRFYQRVAGHVVQQCQKFRSKVQQLMDSKI 307

The following BLAST results are available for this feature:
BLAST of Tan0011105 vs.
Match NameE-valueIdentityDescription
BLAST of Tan0011105 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022131653.14.9e-3143.81uncharacterized protein LOC111004780 [Momordica charantia][more]
XP_022131653.13.8e-0746.05uncharacterized protein LOC111004780 [Momordica charantia][more]
XP_022143495.15.5e-3036.19LOW QUALITY PROTEIN: uncharacterized protein LOC111013372 [Momordica charantia][more]
XP_022143495.16.3e-1853.33LOW QUALITY PROTEIN: uncharacterized protein LOC111013372 [Momordica charantia][more]
KAA0037781.16.5e-2335.71uncharacterized protein E6C27_scaffold471G00160 [Cucumis melo var. makuwa][more]
BLAST of Tan0011105 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1BU142.4e-3143.81uncharacterized protein LOC111004780 OS=Momordica charantia OX=3673 GN=LOC111004... [more]
A0A6J1BU141.8e-0746.05uncharacterized protein LOC111004780 OS=Momordica charantia OX=3673 GN=LOC111004... [more]
A0A6J1CNY72.6e-3036.19Ribonuclease H OS=Momordica charantia OX=3673 GN=LOC111013372 PE=4 SV=1[more]
A0A6J1CNY73.0e-1853.33Ribonuclease H OS=Momordica charantia OX=3673 GN=LOC111013372 PE=4 SV=1[more]
A0A5A7T8583.1e-2335.71Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold... [more]
BLAST of Tan0011105 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 188..216

Relationships

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

Feature NameUnique NameType
Tan0011105.1Tan0011105.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006259 DNA metabolic process