Tan0015468 (gene) Snake gourd v1

Overview
NameTan0015468
Typegene
OrganismTrichosanthes anguina (Snake gourd v1)
Descriptionzf-RVT domain-containing protein
LocationLG01: 41788060 .. 41808523 (-)
RNA-Seq ExpressionTan0015468
SyntenyTan0015468
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.
GAAAAAGAAAATACGAGTCATCAAAACGTGCGTCTGCAAATGCAGAGGGTAAACGGTCTCTCCGGCTCCCAGTACCTCTTTTGAAGAAAGATAAGGGACCCAAAAAATAGCAGAACACGAAGCAGGTAGAGAGTTTTCTGGTTCTACGTAAACAACTTCGGAACCCTGGAAGTTGCTTCTCAATGGAGCTGACTCTGCCGACCCCTTTGTTTGCCTCCTTCCCCAAGAGTACGCTTAAATTCTTTCTGCTCTGAATTTCATTCCATTTCTCTGTTTCCCATATCAAATGATCTAAAACTTATCTAACCATGTTCGCAATTTGGGATTTTCCAATGCAATTGATGTTTTTAGACTCATTTAAGTTTAGTAGGTTGATGTACATGTGGGTTCTTAGAGTTCTAACTTTCCACAATTTATTTTCTTGCAATTGCCCATTCTTTGTCTTCGGCCTTTCTGCAAGAGTGTTTTAGTCAGTTTATTCATCTATGTTGGGATTTTCAATTCCGGAGTGTTGTTTGAAAAAAGTTGTTTGCCACAATTTGGTTGTGTTGGAAAGCTTTGAGACTTGAGAGACTAGATTTTGTTGGTTTGTTATGATTAATGTGATTGTTTAGTTGTTAACTCATCTTTAGTATAGGTTAATTAAGATGATCTTTGGCTGGGGAGCATTTCTTAGTTTGGATGGTATGGAACAAGACTCTGAGTGTTATGATGTGGTTGGAATCAAGGAGGCTTATAATTAAGGTCTTTTAGTTAAAGTAAATTATGGTAAAGGGGTTATAACCAAAATTTGGGAAATGTAGGTCATAAAGTAGTGCTTTGTACCACTTGTGAAGACTTTGGTTTCGTATTGGGGGTGCTTTAAGGGCACTTTGTAGCCTGTAGGTGTCGATCGTCACAAAGAGGAGCCCTTTACTTTCTCTTGAGGAAGAAACTTTGTCAACGATGTCATGTCCCAAAGCGATATTCCTGCTGGAAACACTGTCTAATGCCTTGGGTAGTTGTGGCATGTTATTTATGACATGGTGGCGCCAGCTATTCGATTGTGGTTGTTTACACAGTTGTTTGATGCAACTCTTACCAGAAAAGTGGTGTCAAAGCTGTTAGGTCATAGTTCTTTGCCTAGCATTACAATCAGGAGGTTCCATTTGATATGCGTGCATAACATCACACAATATCCATATACATCTATCAATATAAATAGCTCAATCTCCATATATTGTCTCATTTTGAAGCCTCTACTTGGCACTCTGGCACTGGTTAGTTATGATACATTTTCTGATCAATGCCCATTGGAGGATTTTTAATTTTTTTTGTAATTCCCTTGGCTTATCTAGGTTGATCTCTAATACCTGCTTTTGTATCTTTTCTTCAACTAAGTTTCCAGTTTCTTAATTGGAAAACGATTTTACTTTATTTAAACCTCACTTCAATTTAATTTAATTTATTTTATCTCCTTCCTTCTTTATGTTTCTGTTATTACTTTAACAGGTTACACGCATAACACCACTTTTTTTTTTCCTGTTGCATTTAGAATTAAGAATTACACTTATCATATCACTTAAAGGTACAACAATTTCTTGCTAGAGCTCTAAAATCAAATTGTGTAAACAAATAATGTGTAAATTAATATTTTCTTTTCCCCATATTAGTAAGTCAGACAGTGAAGTTTCCATATTAGATTGATGGATTGGAGGAGCTGTTAAAGTTTTCCTTTGCTGTACCAGAATCTACATTATATACTTATGATATGACATCAAACCTTTCTACTGATTGGAATGCTCTTCATGTGAAGTAATTAGGGATTTTAAGCCCATCAACCATGGCCTTTGCTTGTTGGACTCCAATCCTCTTTCAGCTGATGTGAAACTACAAGGAAGAAGAAGAACATTGACTAAAGCTTCTTCCTTACCTGAAACAGCAGCTTCTGTGGCCATTGCTGCTACAGTTGTTGGTGCAGCAGCCACCTTCCTTTCCAGAAGAAACAAAGATTCTGAGGCAGAGGAGGTTGGTTTTAGATCTGAAACACCGTTTTTGTGCCATTATCTATCATAGAGTATAAGTGTCTGAAACCTGCATCTTGTCAGTTATGCTGTTTTTGGGTCATTACCTAAAAAGCATGGATGCTTTAGTTTGAGGCAGGGGAGGGTGTGACACCTATGCTTTAGTTTGAGGCAGGGGAGGGTGTGACACCTAGGTTCAAGTCCTGGTAGGTGCCTTTTGCATCCATTTTTTATAATGCCCCTTAATTTCCTTTTTTAGTATAAATTATTGTCCATCTTTCATTCATGTTTCAACTAAGAAGCACAGACACAGACACGAGACACGGACATGACACGACACGGACACGGCGACACGTCAGTTTTCAAAAAAGTAGGACACGACACGTTAGAGACACACTAATTTTTTTTAATATATTTTTAAATATATGAGGTATATTTTGACATGTTGTCAATATTTTGTACTCTTAGCGTAAATTTTTACCCTTAAACATCAAAAGACATGCATAAAATTCATTAAAAAGATTAGATAACGATATCGATATGATAACAAATAACAAATAACAAACAACAACATCCAATATTCAATATTCAATAAGTCTTAAACAAAAACATAAAAAATGAATTAAACCAAGCAAGCCTTCCTTAAACTAAATATTTTCCCCATCTTTGTCCTCTTCACCAATCTGAGTTTGATTGCCATCATCAGTAAAAACTACTGCTTCCAATTCTGGTTCATCCAAAGATAAACTTGCTACTTCAAGCATTCCAACATCCTCAAATGGATCAAAAGAGTCTCCAACGATGTCCCACAATCTAGTCTCTCCTTTGAAATATTCTGGAGTTCTCCTTGATAAAAGTTGAAGATTGCTATGGATGAACACTAAGTCTTCTACACGTTGTGGTGTCATCTTGTTCCTTCTTATGGAGTTCACAAATGAATATGTACTCCAATTTCTCTCGCAACACGAGGAGGATGAAGGTTGCACAAGTAGTTTGAGAGCTAAAAAGCATGTAGAGTTGGAGTAAAAACACCATAAATGACCCGCCAACTTTTAGGATCCATAGAATATCTTTCACGTATGGACTCATGGTCTGTAAACTCTGCCGCCATTGTAGAGAAATTAGCAAATTCCATGTTCACTTTTGTGCGCTCCACATTAATATCTTTTGATGCATTTCATTCTCTCTCGAGATACTTCTAAATCTTTATAGGGTGGGACTCGAGTCTTGTCTTCTTGAAGCCATGGTTCATTGTAATACCTAAATAAAATTTTTAATATATCAACTTTAGAGTGTGATTACTAATTAGAAAAAAAAAGGAAAGAATAAACATCTAATAGTTGAAGAGTAGTATGTAGTACTAGTAGTGTAGAGTCATTGGATTTAGAGAATGTGCCAAATAATGGAGTGGAGTGTTATTTTTGTTCCAACGATCAATTAGAATTTGATGCACCACGTCATAAAAAGATGAAAATTCATCTACCTGCTTTCCTTCATGTTTATAGATTGCAACCTTCACTTTTTCAATCATGCTATCCCACATATCATATACCAAATGAAGACATGGTTTGTTTGTACCACAAGCTCTGATCATGTCATATATAGGTGAGGTAAACGAAAGAATATAATCGATCTTATCCCACCAAACATCATCAAGTACCAACTGCTTCACATGTCTTGCTTTTTCCACATCATCTTCTCTATAACATGACCATTTATCACTTATAACCATACTTTGCAGACCACTCTTAATGAGTTTAAATCTTTTAAGCATAATGATTAGAAATATCAGAAATCCAACCACACTCTTCAAATACATGTTGATTACTTTCAATATTTTTGGCCAAACAAATATTTTTCAAAGCAAGGTTTAGAATATGAACTACACATGGTGTCCATACTATGTTTGAAAATTGTGATTCAATAATTTGTCCTACACCCTTACGATTAGGAGCATTGTCAGTGAGTATTTGGACCACATTCTGATGTCCCACCTCATTTATAACTTCTTTCATCAAATTTGCTATGAAATATTTATCTTCAACCTCACCTGAGCAATCTACTGCTTTAAGAAACATTGGTCCTCCTTCTGTAATTGCTATAAAATTAATTAAAGGTCTCCTTTGTGAATCACTCTACCCATCACTAACTATACTTACCCCCTTCTGACACCATGTACTTTTAATAGACTGCAACAATCTCTCAACATTTGCTTTTTCCCTTTGAAGAAGAGTTGTCCTTAACATATTATACCCAGGAGGTCTATAACCTGACAATGCATTATTTGCAGCTAAAGTAAATGCATTCACATAATGTGGATTTCTAGCCAAACGAAAAGGCAATTCGGCAGAATAAAACATTCTAGCAATTTCTCCATGCAATTGCTCACGAGTTGCCAAGTTAAATGACTTCTCAAGTGCACTAATATTTCCTTTCCTTTTCTTTTGTTCCATGGTTGAGAGGGAATAGTTACTCATACATCCAAAAGATTGAGATTGGGTATGGATTGAAGGAGGTAAAGGAACTTGTTTAGGAGTGCTCTTTTGATTTAGAAGTTTTGCTCCATCATCCAATTCTTGCATTTCAGCAAGATCTCTAGGGATGACCTTCCGACATATTCCAATTCCATAACCGCTTAACTTCAACAAGTGGGCCCTAACTCTCGTATAAGAACTTTTCTTCCTTTCTTGACAAAAATTACATTGCCAAGAAATATTCCCACCTCCTTCATTCAATCTTTTATTTTTGGTCACATAGTTCCACAATGGTTTTGTTTCATCTTCAAAAGAGGAGGTGGAGCAATCTTTTGAATTTGTTTCTGAATGACTAGAAGAAGACTCCATCCTAGGTTAAATTAAAAAACAATCTTCAACTATTATTCAACATAAATAGTAAACAAATAGAAAAAAAAACACAATTGCCTCCTGAAATATGTTTAAATAGTGGAGGCCGAAAAATAAGTAGAAAAAAATGATTGTTGCTGAAAAATTGAAGACCCAATGTTCTTTTCTTCAAAAATTGGTCGCCGATGAGTTGCCGGTGAGTCGCTGCCCGTCAGTGAGTGTTGGGTCTGAGCGCCGACCGATGGTTGAAGATTTAGTGGGGTTGTTTTTTTTTATGTCGTGGCTACTGTTTGTAGAAGAAAAGAAAGAAAAGAGTCAAAATACTCTGTCTGTCATGATTCAAATCAGGGTGGGGTGGTTGTTGCTGCTTGAAGAAGAAGAAAAAAGACCTAATTAAAGTGGGTTGTTGGTTTTTCTTTTTTTAATAGGCCTTTTAAATGGGCTCAACTTTTGGAATAAACGTGAAAAAAGACCTAATTGTCGTGTCTCCCGTGTCCCATCTCGTGTCCCTAAAGTGTCTGGACGTGTCGGAAATAAAAAAAAAACAGACACGCTAATTAACATGTCGGACACGTGTCGACAGCATGTCGGTGTCCGACACCGACACTTGGCCATTTTCTAAGTGTCAGTGCTTTCTAGTGTTTCAATTACTTTTGTACACATGAGGCCATTGTCTCCATTGAAGAAAAGTTATAATAGTTATGATAAATATTTCACAAACAAGTCTAGATCTGAGAACTAGAATTCTTCTGTATTATTCAAGACCCAGTTTGTAAAACATATTTACAACAATGACCTTCCTAACCTTAAAATCATACTTTTTTTTTAGTTCACCTTGATTGAGCATGGGCTTTGCATTATGGCAATTTCGCCTTTACCCCCGTCCCCGTCCAACAAGCCAATCAAAGCATACACAGTAAATGGGAAGAAAAATCGTCTACACCGAGAATTAAAGAACTTAAAAACCACTATTCACTTTGATAAGTCAACCACCTTGACACTTATTGAGGGTGAAAACAATGCTTGATGAAGTTTATGACGTGGAATGTACAAGACCTAGGACCATGGAAAAAACAGGCCTTGGTTAGGAAAACCATCGTACAACACAATCCTGGTATCGTTCTCCTAAGGAGACTAAATCATCGTCTGTTAACAATCAATTAATAAAGTCTATTTGGAGTTCCTCACATATTGGTTGGGTGGCTCTTGATGTTATTTATTATGCTGGAGGCATACTTATTTTGTGGAGTGAACCTTATTTTACTATTGCTGAAGTCATACAAGGCTTGTATATTCTTTCCATTCATATTATTTTGACTGAAGGCTTTTCTTTTTGGTTAACGAAAATCTATGGTCCATCTGGGAATAGATTTTCTGAGGATTATTGGCGGGAATTGAATGATGTGGCTAGACTAGGGGGTGATCGTTGGATTATTGGTGGGGATTTTAATGTCACTCGCTGGTCATGGAAAAAATCGCACGATCACTCTTTTAGTAGAAGTATGAATGAGTTTAATTACTGGATTTCCAATTTGTCAGCTAATTGATATCTCCATACAGAATGATTATTTTACTTGGTCTAGTTTTGGCCGCACTCAATATTTATCTCTTCTTGATAGATTCCTAATCAATGAGGAATGTCTTAATAAATTTGGCTTTGCTAATTTCAATCGACTAGATCGGATTACATCAGACCATTACTCATTGGCTCTAAATTTTGGCAGCATTAGATGGGGCCCTAGTCCTTTTCGCTTTGAGAACTATTGGTTGTAGGTACCTTCTTTATGTGATGTTGTTGATAGTTGGTGGTGACAGAATCCATTGGTATGTTGGCCTGGTCATGGTTTGATGATAAAGTTAAAAGGTCTTAAAGTTGTCTTAATTGATTGGGATAAATCACATCGTGTTGAGGCTGCTAATTTACGCTTATTAATTTATCCATTGCAATCTTTGGATAGATTGTAAGACAGTAACCAGTTAACTCCGACACAAATTGATTCTCGACGTTCGCTCCCAGTGTTTTTAAAGGCTCAAGGCGCACTAAGGTAAAAAAAAAGGCGCATGCGTTTTTTTTTTGTAAGGCGGACTATATATATATATATATATAAATTTAGCAATGCTTTGAATGACCAAGTACCAACCTAAATTCACAATTTAGACTTCAAAAACTAAAAAAAAACAAAAAAAAAAAAAAGGCGCGTCACAGGGGCTTCATGGAAGGATGCACAATTTGGACGTAAAAAACTAAAAAAAAAAAGAAAAGAAAGACACGCCTCACATGCTTCATGGAAGGCGCACGCCTAGGCCGCACCTTCTTACCAGCGCCTCACTTCTTCGAGGCAAGGCGCTTCACATGCGCTTTGTGCCTCAAGCGTGCCTTTTAAAACACTGTTCGCTCCATGGACAGATTGAGACTTTGACTGCACTGGAACATATTGGAGACACTGTTGTAAATTGCAATGGCTTAAAAGAGGAAGATGAAAATACAAAAATTTTCCATCATATTTTGGCAGAGAGGAGAAGACCGAATTCGATTACTGAAATCATATCTAGACAAGGTATTAGCCTTTTAACAACCTTTGACATTGCATTTGAATTCATTGATTTTTATTCGACCTTGTATACTAAAGATGTTAATCATCGGTTTCTTCCAACAAATGTTGATTGGAGTCCTAATAGTATAGAGCAGGGCTCACCGACATGAAGAGGCTTTTACTGTGGATAAGGTTTTCAAAGCAGTTTCTTCTTTAAGTCTCCAGGCCTGATGGTTTTACAGCTGAGTTTTTCAAATTCTTTTGGGATACTGTTAAATAGGATGTTATGCCAATGGTTAACAAGTTTTTCTCTTCTCATGTTGTGAATTTTTCTCTAAATGAAACTTATATCTGTCTAACCCTAAAGAAATTTGCTGCTAAATGAGTATCTGATTATTGACCAATTAGTCTTACCTCTTGTGCTTACAAGATTATTGCGAGAGTTCTATCCTATAAATTGAAGAAGGTAGTGCGCTGTACTATTGCTGAAAACTAGATGACATTTGTTGAAAATAGACAAATTCTTAACGCTTCTCTAATGACCAATAAGATGATAGATGACTGGAATATACATAATCGACAAGGTGTGGTCCTAAAGTTAGACATTGAGAAGGCTTTTGATATTGTTGACTAGGAATTCTTAGATGTAGTCTTGGACTCTTGGTTGCTAAAGGTTTTAACACATTATGGTGGAAGTGGATAAGAGGCTGCACTTCTAGTGTGAATTACTCGATCATTATAAATGGTCGGCCTCGTGGGAAGATTATCCCATCTCGTGGCATGAGACAAGGTGATCCATTATGCCCCTTTCTTTTTGTTTTGGTGTCTGACTACCTTAGCCGTTTATTGAATCATAGTGCAAGGTTACTGGCTGTGATATTATATTAATACTAAAGTTTGAGAGAATCAGTTCATCTTATTCCATTCACTCAAGATATATATATATATATATATATATATACAAGTGTACAAGGTTAACCTAAATAGAATAGCGTAAAAAGACAATAAAGGACAACCTAAAAGATATATTAACAAAATACAATTATACTAATATAAGAACTCTAACAATCGTTTAGAAAAAAGAATGCCATTTATTGTCCTTTCTCCCTCTTGATGTGTTATGTGTGGTTTGAATTCAGAGTCTGTGAGCCATCTTTTTGTGTATTGTTGTTTTCCTCATGTTTCTGGATGTGCATTAGATGCTTTTGGTTGGTCTTTGTCTCTTTTCAACAATATCTGTAATACCCTACTTTTAAAAACTCTTTTTCTAAGGGTCATTACTATCATGCATGCATTCGAGGCCCTAAATAACTTTAAATAAGTAAAAATTGATAATAAAAATCAGTTTAATTTGGGATCCCATAAATTCAAAACATTTACAAACATAACTAACTTTGGTCTCAATTTAAAAATCGTTATGCTACATAAGCGAAAAACTAAAATCACTTAAAAACACTTTGTAAATCATGTATGCGGAATATCTTGACTTGGTTCCCATGGCTTCCGTAGCGCATCTCTGTCACTCGCCCGGTACACCCTCGCTTTTACCTGAAAACATTTTAAAAACGGAGAAAACAAAACAAAGGTAAAGGGGTGAGTATTCAAAATACCCAGTAAGTGGGGATCGGAAAATGCAAACACATGCAACATGACTTTCTTTTAAACATGACTTTCAATCATGACTGTTATTCGTGACCTTTAAAATCATAAAACTTTTTGTAGTGGGACCTAAAACTTTCTTTCATAAAATCATGACTTTTCTCTTTAGCTATACGTGGTCAATTGAGTCTACCTAAGTCTTTTCATATTGAGTCCCTCACAGACCCCTATAGGTTTGAGTCTCTCACAGACTCCTATAAGTTTTAAGTCCTCACTGCACTCTATAAGTTTTGAGAGTCCCTCATGCACTCCATATAAGTTTTGACCCATAGGATCTCTGATGCATGTTTTACCATGCATAAATTCTCAGGAGACCAATTGCCACAGCCTACATAACATGTTCATATACATACAATATGCATGAGGTCCCATTCTTTAATCACATAAACATATGCATTCATAATGATGCAACAATCATGTAGATCATATAATCAAGGCATAACTTTAAACTCGAGTCATTCAATCATAATAATAAATACGTTTATAATTTAAGATACCTATTTAACACAATGACATAACTGAAAATCTCGATATGCATAACTATACATAACTGTGTCAAGACTCATTTTTAAATACTTTGAAATCATTTCTGTTTGGGTCCTCTCAAACCATTAAAATATTCATTTTCAAGCCTTAAGCATAAATCCTGGAAAATCACTCTTTTCATTGAATTTCATGTTTTAAATTAAATCTTCTAGAAACCATATTTATTCCCCTTTTCGAAATTATTTGTAGAAAAATCCCTTACCTTGTCTCCATTCTAAGGTCTCTGCAAGTTCCTAAAATCTCGTCCTTACTTTCACGTTCAACTCAACACGTTCCAAATTCAAATCTCCACTAATGGAAGCTTGAAACAGACTCGGGGTACGAAACTGATCGGGTTGGGCTCATTTCGGCGCGTGGCCGGTCGGCGACGGCGAGTGGTGGCGCATGGCCGGCTGGTGGCGGCAGACGACAATGGTTCAGCGCGTGAAGTACAAATTCGTGAAGCTCATGAGCCGATCTATTCGGAACCGGTGCTAATTCCAACAAATCGACCTAAAAACTCTCCAAAAGCTCGAACCAAAAGCGGTTGTTCGGCTTGCTTCTCGTTCCGACGAAGAGACTGTTGCAGTAGCTGGCTTCGACCGAATCTGCGACAACGTGAGGCATAGCGGCGGCTTCGTCTGAAGGTTCGGGTTTGGGTGTGACGGAAAACCTCGTAGCAGCTCAGCTCGAGCAGGGACGCACCTCGTCTCGCAGCGACACACTTCGGTTGAAGACGAAGGCAAGGTCGGCAGCGTCGGCTTGCAACCCGGCTGAGACGCGACTGGAAGGGGCGTCAGCAGGGTCTCGGTTGCCTAAGCTCATGCGGTGGTTGGTTGAGCTGACCGGCGGCTGGACAACTTCTTCCATGGAGGAAGTTCCAAATCATGAAACAAGGGGAAGGTAGGAGAAGACTCCCTCGTTTTGCGTGCCTCAAGAGATAAAACCCTAATTTACTTCATTTTACTTTCCAAGAATGCCCCTTCACTCAACTCCTAACCACAAAAATGCCCATGGGCTCATTTAGGTGCTTTAAAAAAATCTTTAATTAAACTAATTTCTTAATTGCATAATCTTTACTCAAAATACAAAGCCCCAAGGCCCAAATAATTAATTCCAATAACTTAATCCAAAAACACAAAATTTAAAAGGAATTGGAGTTCTGGGGCATTACAATATCTTTGATTTTCGTCTGTCTATGGTTTTGGTGGGTCATCCATTCAAAAACACAAAGAAGATCCTTTGGTTGGCGATTGTTCGTTCTTTTGTTTGGCACCTTTGGTTGGAGAGTAATAACAGAAATTTCAGGGATGTATCTTCTACTTTTGATAGTTTTTTTTACAAAGGCTTTTATATGGTGTAAACCTATACAACCTTTTAGTGTTTATAGTTTATCTTTTATCATTTCCAATTGGAGACTTCTTTTGTAATTCACCAATAAGGTGCTCGGAGGTTTTCTCCTTTATTTCATTTATTAATGAAACCGTTTCTTCATCCAAAAGAGAGGTCACCTTGAAATCATACTTGTTCGTTGATGAAATATAGTTAATTTATGATTTTGTATAAATTTTTTGAATTACTTGTAAATTATTTTTACTGAATTTGAGTCTAGCCCCCCCATAAATAAACATTATGGATCCACCAGTGCACGTTAACCCACTAGTTGTACAAAGTCAATATGGATTCAACATTTGTTAGACACGTGTTTGGCACTTGTTAAACATGCTAACTAGACACATGACAATATAGAACAAAAATGATCAATTTCTAAGGAAAAATACATCAAATTCATTTCGTTAAGCATGTAAATGCAAAACTTATTGACTCTCAATTTCTGTCTCATATAAAAATGATATATATTTTAGTATATGTGTCATTGTCGTGTTTGTATCCTAAACTTTTTAAAAATGGTGAGAAAACTGGTTATTCTCTTAAGCCTATTTTCTTTCATTGATCTTGCCATTTAGAACTGGTAGGTTTGTCTGTGTTTCTCTAGATCCTACTGAGCTGAAAGACATCAGACATACATAAAAAATCGTTTAGATCCATACCAAGCTCTGAAAGCTCATGTGTTGTAGGCTAGAAAGCACCGACGCTTGTAAAATGGTCAAGTGTCGGTGTTAGACACGTTAATTAGCGTGTCTGTTTTTTTTTTTTAAATTTCCGACACGTCCAGATACTTTAGGGACACGAGATGGGACACGAGAGACACGACAATTAGGTCTTTTTTCACGTTTATTCCAAAAGTTGAGCCCATTTAAAAGGCCCATTAAAAAAAGAGAAACCAACAACCCACTTTAATTAGGTATTTTTTCTTCTTCTTCAAGCAACAACAACCACCCCACCCACGATTTGAATCACGACAGACAAAGTATTTCGACTCTTCTCTTTCTTTTCTTCTGCAAACAGTAGCCACGACATAAAAAAACAACCCTACTAAATCTTCGACCATTGGCTGGCGCTCAAACCCAACACTCATCGGCGGGCGGTGACTCATCGACGACCAATTTTTGAAGAAAAGAACATCGAGTCTTCAATTTTTCAGTTGCAATCATTTTTTTCTACTTATTTTTCAGCCTCATCCTCTATTTAAACATATTTTAGCAGGTAATTGTGTTTTTTTCTTCCATTTGTTTACTATCTATGTTGAATAATAGTTGAAGTTTGTTTTTTAATTTAACCTAGGATGGAGTCTTCTTCTAGTCATTCAGAAACAAATTCAAAAGATTACTCCACCTCCTCTTTTGAAGATGAAACAAAACCCACGAACTATGCGACCAAAAATGAAAGATTGAATGAAGGAGGTGAGAATATTTCTTGGCAATGTAATTTTTTGTCAAGAAAGGAAGAAAAGTTCTTATACGAGAGTTAGGGCCCACTTGTTGAAGTTAAGCGGTTATGGAATTGGAATATGTCGGAAGGTCACCCCTAAAGATCTTGTTGAAATGCAAAAATTGGATGATAGAGCAAAACTTCTAAATCAAAAGAGCACTCCTAAACAAGTTCCTTTACCTCTTTCAATCCATACCCAATCTCAATCTTTTGGATGTATGAGTAACTATTTGTTGATTATTTCCTTATTTGTTGATGAGAATATTTGATATTATCTAGTATCTTTTATATTATTTGAATTAGATATTATCTAGTATCTTTTATATTATTTGAATTAGATATACTGGAAGAGTATTTCCTTTTCTGTAAATAAGGGTTCTCACCTATATAAGAAACCCTTCCTTCTCATAGTAAATATACAGAAATAATACATTATACTCTTGATATTCTACATGGTATCAGAGCAGAAACCCTAAATTCTGTCAAAACCCTAATTTCTTTTCTTTCTAAACACCAAAAGAAAAACCCTAGCCTCCTCCGTTGACACCACATCGCTGGCGACATTGCCGGCCGACCGGTGCTTTGAACCCTAGGATCCTTGCCGGAGATAACCAACCCTTGCTGGAGATAATAGACGCCTGCGATCCGACACTTGCAAACTTGCGAACGTATGCGACCCGCGATCCGTGACCCGCGTCCTGCGAACTTGCGACCCACGACCCACGTGAGTGAGAGCCTGTTCGTAGTGTTGTCGCCCGCCGGTTCCTTTCTCGCCGCCGTCTCCCTTGCCGGTTGCCTCCTCGCCATCGCCGTCGACTTCACCTCTGTCGGCCGATTTCCTCTGTTTTTTTTCCTAAAAAATAGTGCACTATATCAGGATTACTGGATCTCCTTTTGTTGACTGCACTATTTGTTTTCTTTTGGTGATTTTTATCTCTATTTCTCAGTCCTTGATTGATCTTCAGGAAAGATGTCAGAAAATAAATCTTTGTCCGTTATTAAAGGCTCGGATGATCGGATCCATTCCAACAACCCTACTGTCCAAATTACTACAATTCGACTCAATGGCGATAATTTCCTTCGTTGGTCGTAGAGCGTTCGAATGTATATCCGAGGACAAGGGAAGATTGGCTACCTTACTGGGGATAAGCTCATGCCTGCCAAAGATGATCCTTCATTTCTTTGGGTGGGATTCGAGAACTCCATGGTGATGACTCGTTAGTAAATTCCATGGTAGAAGAGATTAGTTGCAATTATATGTGTTATTCTACCGCTAAGGAATTATGGGATAACGTGGCTCGGATGTATTTCGACTTAGAGAATCACCACGGTATTTGAGCTCAATCTCAAACTGAGTGACATTAGACAGGAAATAATTCGGTTACACAATATTTTCATTTGTTGAAGCGAATTTGGCAAGATCTTGATCTATTTGATTCTTATGAATGGAAGTCAACCGATGACCAAAACACTACTGAAAAAGTTGTGGAAGATAATCGAATTTATAAATTTCTCACGACCTCAATGTGGAATTTGATGAGGTTAGAGGGAGAATACTTGGTAAGACTACTCTTCCTACTATTAATGATGTGTTTTCTGAAGTTCGCAGGGAAGAGAGTCGTCGAAATGTTATGATAGGTAAGAAAGTGTCTGATTCTGTTGAAAGTTCTGCGTTAATAGTTGAAGGTTCAGCTCTCAAGGCATCAGACCACACACCCAAGACAAATGATAAAGCTAGAGTCTGGTGTGACTACTGCAACAAACCTCGACATACTCGTGAAATTTGTTAGAAAATTCATGGAAAGTCTGCTAATTGGAAGAGTGGTAAGCAAGGTGAAAATGGTATGAATCAACACTCATCTTCTGCTAATATTGTTGACTCTAATCCATTTAGCAAGGAGCAAGTTGATCAAATCCTGAAACTGTTGAAGACCACTTCATCACCTGGTAATCCTAGTATTTCCTTGGCACAAACAGGTAATTACCCTCGAGCTCTCTCTTGCCTTAACTCACCCCCATGGATCATAGATTCTGGGGCCTCGATCATATGATCAGTTCCTCCAAAATATTTGAATCATACTCCCCGATGTACTATAATGAGAAAATTCGAATTGCAGACAGTAGTTTTAACTCAATTGCAGGGAAAGAAACTATTAAATTGTCCTAAAAAATTGCTCTACACTCTGTTCTGCATATCTTATTAATCGAATGCCCATAAAAGTGTTGGATTTTAAAACGCCCCTGGATTTACTTAAAACCTTTTTTCTCTCAATCCTATTGTTTTCTGACTTACCACTCAAAGTGTTTGGGTGTACTGCTTATGTTCATCTTTCGAGTCCTTCTCAGTCTAAACTTAATCCTAGAGCTGTTAAGTGTGTTTTCTTAGGATATGCATCCAACAAGAAAGCCTATAAAAGTTTTGACCCAATAACCAAAAAATATTTTGAAAGCATGGACATCTCCTTTTTGGAAAATCAACCTTTTTTTTCAAATTCTCTTCAGGAGGAGATAACACCTAACTTAGAAGATAATTTCTGGGACACGTCTCCTCTTCCCACACTTATTAATCCTGAGGTTACGAGTTCTAGTTCTCCAATGCCACGTATGAAAACCTTTTCTTCAGGGGGAGAAACACTACAAGATAAACCTGAGCTTCAGGTTTATACTAGGAGGACATTGAATCAAAACAACCGGGACCAGATAGTAGACTTGTCACAGAACTAATCTAATACTCCGATGAATGATTCTGAAGAACGAAGTAACACATCTTCTATTCCCAATTTTTCTTCTAGTATGAATCATTTACCTGATCTTGATATTTCGATAGCCCATAGGAAAGGTACTCGTAAATGCACCAAATACCCTATTTCAAATTATCTCTCTTACCATAGACTATCTGATAACCACAAAGCTTTTACATCTAGGATGACCAATCTGTTTGTCCCAAGGAATATACAGGAGGTCCTGAATGATTCGAATTGGAAATCAACAGTTATGGAGGAGATGAATGCTCTTAAAGAATGGCACATGGAACATAGCGATTACAAAAGGTAAGAAGACAGAGGATGTAAATGAGTGTTTAATATAAAATGTAAAGTCAAGCGCAAGATTGAAAGATACAAGGCTAGACTTGTTGCTAAAGGCTTCACTCAGACCTATGGGATTGATTATCAGGAAACATTTGCTCCTGTTGCTAAAATTAACTCTATTAGAGTTTTGTTATCAATTGCTGTCAATGCGGATTGACCTCTCTATCAACTTGATATCAAGAATGCATTTCTCAATGGGGAGCTTGAAGAAGAGGTATTTATGGATTTACCACCTAGATTTGAAGAAGAACTGGGACTTAACAAAGTGTGCGGGTTGAAGAAATCTCTATACGGTCTTAAACAATCCCCTAAAGCATGGTTTGAACGGTTTGGAAAAGTAGTCATGAATTATGGATTCTGTCAAAGTCAAGCAGATCATACTATCTTCTGAGACATCTTGAAAAAATAACAAAATTGTTGTGTTAATAGTATATGTCGATGACATTGTTCTTACAGAAATGACGAGACAGATTGACAACTTTGAAAAAAACACAGCTAATGAATTCCAAATTAAAGACTTGGGTACCTTGAAGTACTTTCTAGGAAAGGAATTTGCTAGGTCAAAGGAGGGCATTCTTGTAAATCAAAGGAAGTATATCATTGATTTACTTGAAGAGACAGACCTACTTGGTTGCAGAACAACAGAAACTCCTATCGAACCAAACTTGAGATTACAAGTTGCAACGGGAAAAGAGGTTAAGGACAAAGAAAAATACCAGAAACTTGTGGGAAGACTCATTTATTTATCTCACACACGTCCTGACATTGCATTCGCAGTAAGCGTAGTAAGCCAATTTATGCATGCCCCGAGATCTTCTCATTTTGAAGTAGTCTACAGGATCCTAAGATACTTAAAAGGAACACCTGGAAAAGGTATACTGTTTAAGAAGCATGATAACTTACATGTTGAAGTTTACACCGATCTTGACAGGCGGGAGTAGTCAGATGGATAGGCGGTATACTTACGGATATTGCTCGCTTGTTGGAGGTAACCTAGTTACAGCGTAGCAAAAACAAAATGTGGTGGCGAAGTAATCTTTGAACTCCGATTAAGAGCCTTAGCTCATGGAATTTGTGAAGGTATATGGATAAAAAAATTATTAGAAGAGTTAAAGTTTCCTAAGAAACAACCAATGCGTATTTATTGTGATAATAAGGCAGCAATTTCCATTGCCCACAATCCAGTCCTTCATGATAGGACAAAACATATTGAGGTTGATAAATATTTCATAAAGGAGAAGATTTATGCGGGAGTCATATGCATTCCCCATCTCCCTACGACAGAACAAATAGCTGATGTGCTGACAAAGGGATTTCCTAAAGTACAATTTGACAAGATGATCACCAGGCTGACAATGGAAGATATCTTCAAATCAACTTGAGGGGGAGTGTTGATTATTTCCTTATTTGTTGATGAGAATATTTGATATTATCTTGTATATTTGATATTATTTGAATTAGATATTATCTAGTATCTTTTATATTATTTGAATTAGATATACTGGAAGATTATTTCCTTTTCTGTAAATAAGGGTTCTCTCCTATATAAGAAACCCTTCCTTCTCATAGTAAATATACATAAATAATACATTTTACTCTTGGTATTCTACACTATTCCCTCTCAACCATGGAACAAAAGAAAAGGAAAGGAAATATTAGTGCACTCGAGAAGTCATTTAACTTGGCAACCCGTGATCAATTGCATGGAGAAATTGCTAGAATGTTTTATTCTGCCGAATTGCCTTTTCATTTGGCTAGAAATCCACATTATGTGAATGCATTACTTTAGCTGCAAATAATGCATTGTCGGGTTATAGACCTCCTGGGTATAATATGTTAAGGACAACACTTCTTCAAAGGGAAAAAGAAAATGTTGAGAGAATGTTGCAGGCTATTAAAAGTACATGGTGTCAGAAGGGGGTAAGTATAGTTAGTGATGGGTGGAGTGATTCACAAAGGAGACCTTTAATTAATTTTATGGTAATTACAGAAGGAGGACCAATGTTTCTTAAAGCAGTAGATTGCTCGGGTGAGGTTAAAGATAAATATTTCATAGCAAATTTGATGAAAGAAGTTATAAAAATGAGGTGGGACATCAGAATGTGGTCCAAATAATCACTGACAATGCTCCTAATTGTAAAGGTGCAGGACAAATTATTGAATCACAATTTTCAAACATTGTATGGACACCATGTGTAGTTCATACTCTGAACCTTGCTTTGAAAAATATTCGTTTGGCCAAAAATATTGAAAGTAATCAACATGTATTTGAAGAGTGTGGTTGGATTTTGATATTTCTAGTGATGTTATGGTGGTAAAGAATTTTATCATGAATCATTCGATGAGGCTTGCAATGTTCAATGAGTTTGTGCCTTTGAAGCTACTTTCAATAGCAGAAACACAATTTGCATCTACAATCATTATGCTTAAAAGATTTAAACTCATTAAGGGTGGTTTGCAAAGTATGGTTATAAGTGATAAATGGTCATGTTATAGAGAAGATGATGTGGAAAAAACAAGACATGTGAAGCAGTTGGTACTTGATGATGTTTGGTGGGATAAGATCGATTATATTCTTTCGTTTACCTCACCTATATATGACATGATTAGAGCTTGTGATACAAACAAACCATATCTTCATTTGGTATATGATATGTGGGATAGCATGATTGAAAAAGTGAAGGTTGTAATCTATAAACATGAAAGAAAGCAGGTAGATGAATTTTCATCTTTTTATGACGTGGTGCATCAGATTCTAATTGATCGTTGGAATAAAAAAAACACTCAACTCCATTGTTAGGTACATTCTCTAAATCCAAGGTACTCTACTACTAGTACTACATACTACTCTTCAACTATTAGATGTTTACTGTCTTTCCTTTTTTTTTTTTTTTTTTTTTTAATTAGTAATCACACTCTAAAGTTGATATATTAAAAATTTTATTTATACAATGAACCATGGCTTCAAGAAGACAAGACTCAAGTTCCACCCCATAAAGATTTAGAAATATCTCGAGAGAGAATGAAATGCATCAAAAGATATTTTAGTTCAAATGTGGAGTGCACAAAGTGAACATGGAATTTGCTAATTTCTCTACAACGATGGCAGAGTTTGCAGACCATGATTCCATACGTGAAAGATATTCTATGGATCCTAAAAGTTGGTGGGTCATTTATGGTGCTTTTACTCTAACTCTACAGGCTTTAGCTCTCAAACTACTTGTGCAACCTTCATCCTCCTCGTGCTGCGAGAGAAATTGGAGTACATATTCATTTGTGAACTCCATAAGAAGGAACAAGATGACACCACAACGTGTAGAAGACTTAGTGTTCATCCATAGCAATCTTCGACTTTTATCAAGGAGAACTTCAAAATATTCCAAAGGAGAAACTAGATTGGGGGACATCGCTGGAGATTCTTTTGATTCATTTGAGGATGTAGGAATGTTTGAAGTAGCAAGTTTATCTTTGGATGAACCAGAATTGGAAGCAATAGTTTTTACTGATGTTGACAATCAAACTTAGATTGGTGAAGAGGACAAAGATGGGAAAATATTTAGTTTATGGAAGGCTTGCTTTGTTTAATTCATTTTGTATTTTTTTGTTTAAGACTTATTGAATATTGAATATTGGATGTTGTTGTTTGTTATTTGTTATTTGTTGTCATATTGAGATCGTTATCTAATATTTTTAATGAATTTTATGCATGTCTTTTGATGTTTAAAGGTAAAAATTTACACTAAGAGTACTAAATTTTGACATGTCAAAATATACCTCATATATTTAAAAAATATATTAAAAAAAAATTAATGTGTCCCTAACGTGTCGTGTCCTACTTTTTTGGAAATTGACGTGTCGCTGTGTTCGTGTCGTGTCCGTGTCTGCGCTTCTTAGGCTATAGGTGGGAAGATATGGGCTGGATGAGCATGTTAATAATCACCGTAGGCCCTTATGGCCCGAAAGCTCAGCCGTGTTCGTATCATGTCATGTCCATGTCTTATGTCCGTATCCTTACTTCTTAGGTCATTTTCTATATGATTTTTGATTAAACTACCCCAAAGCTTGAGTGCTTAAGCTAATAGGTTATGATATATTTGATCTTTTATTCATATTTTTTAATACTTTCCATCTTTTGTGGACTTGAAAATTAGCACAAGGCCTAATAAGTGACTATCAATGTTCATGGGGGAGGAAATGAAATTACAAATGCTTGAACTCCTGTTATGATTAGAGGCTAAGCTACAACTAAACTCCAATGTGCCTTAAGTGGATAGATTGTAATACATTTAATCTTTTATTCATATTCTTTGCAATGCAATGTTCTGCTGATCCCCTTTGTAGCTTCCTTTGATTTTCTCCATAATCCTATGGTTATCTTTTAAATTTCAGATTCCTTTGAGAACATGTGAAGATTGTGGTGGTTCAGGCTTATGTTCTGAATGCAAAGGTGAAGGGTTTGTGCTTAAGAAACTCTCAGATGAAAGTGCAGAGCGAGCGAGGTTGGCTGCAAAGAATATGGCCACACGGTTTACCGCAGCGTACAACTTTCTTGTCTCTTCTCTCTCTCTTGTTAGAAAGCTTCAACTTTCAACTTATATCTGACTTTAATCTTTCTCAGGCTTCCTAAAAAATGGAGCTACTGTTCCAAGTGTTCTTCTGCTCGTTCTTGTAGTGCTTGTGGTGGCAGTGGGACGTTGAATTCTTAGTCTTAATTTGCTAATCTCAGAAATTCCATTAAAGAGATGAAATCTGAGACCACAATCTGCTCTTTTTGTTGTCGAAAGGAAATTTGACTTTATCCTTTTATGAGCTTGCTTGATCAAAGCCAGTATCGTAAATATTAACATGCTGTATTTGAAATTTTTGAGTACCTTTAGTGCACTGAAGACGTGTAGACAAGAGAGAAACTTAATATTTTCTGCCTGTATGTAATCTTCCAAATTCTTCGATTCTTAATAGCAATGCCAATGATATGTTTA

mRNA sequence

GAAAAAGAAAATACGAGTCATCAAAACGTGCGTCTGCAAATGCAGAGGGTAAACGGTCTCTCCGGCTCCCAGTACCTCTTTTGAAGAAAGATAAGGGACCCAAAAAATAGCAGAACACGAAGCAGGTAGAGAGTTTTCTGGTTCTACGTAAACAACTTCGGAACCCTGGAAGTTGCTTCTCAATGGAGCTGACTCTGCCGACCCCTTTGTTTGCCTCCTTCCCCAAGATAATTAGGGATTTTAAGCCCATCAACCATGGCCTTTGCTTGTTGGACTCCAATCCTCTTTCAGCTGATGTGAAACTACAAGGAAGAAGAAGAACATTGACTAAAGCTTCTTCCTTACCTGAAACAGCAGCTTCTGTGGCCATTGCTGCTACAGTTGTTGGTGCAGCAGCCACCTTCCTTTCCAGAAGAAACAAAGATTCTGAGGCAGAGGAGATTCCTTTGAGAACATGTGAAGATTGTGGTGGTTCAGGCTTATGTTCTGAATGCAAAGGTGAAGGGTTTGTGCTTAAGAAACTCTCAGATGAAAGTGCAGAGCGAGCGAGGTTGGCTGCAAAGAATATGGCCACACGGTTTACCGCAGCGCTTCCTAAAAAATGGAGCTACTGTTCCAAGTGTTCTTCTGCTCGTTCTTGTAGTGCTTGTGGTGGCAGTGGGACGTTGAATTCTTAGTCTTAATTTGCTAATCTCAGAAATTCCATTAAAGAGATGAAATCTGAGACCACAATCTGCTCTTTTTGTTGTCGAAAGGAAATTTGACTTTATCCTTTTATGAGCTTGCTTGATCAAAGCCAGTATCGTAAATATTAACATGCTGTATTTGAAATTTTTGAGTACCTTTAGTGCACTGAAGACGTGTAGACAAGAGAGAAACTTAATATTTTCTGCCTGTATGTAATCTTCCAAATTCTTCGATTCTTAATAGCAATGCCAATGATATGTTTA

Coding sequence (CDS)

ATGGAGCTGACTCTGCCGACCCCTTTGTTTGCCTCCTTCCCCAAGATAATTAGGGATTTTAAGCCCATCAACCATGGCCTTTGCTTGTTGGACTCCAATCCTCTTTCAGCTGATGTGAAACTACAAGGAAGAAGAAGAACATTGACTAAAGCTTCTTCCTTACCTGAAACAGCAGCTTCTGTGGCCATTGCTGCTACAGTTGTTGGTGCAGCAGCCACCTTCCTTTCCAGAAGAAACAAAGATTCTGAGGCAGAGGAGATTCCTTTGAGAACATGTGAAGATTGTGGTGGTTCAGGCTTATGTTCTGAATGCAAAGGTGAAGGGTTTGTGCTTAAGAAACTCTCAGATGAAAGTGCAGAGCGAGCGAGGTTGGCTGCAAAGAATATGGCCACACGGTTTACCGCAGCGCTTCCTAAAAAATGGAGCTACTGTTCCAAGTGTTCTTCTGCTCGTTCTTGTAGTGCTTGTGGTGGCAGTGGGACGTTGAATTCTTAG

Protein sequence

MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKLQGRRRTLTKASSLPETAASVAIAATVVGAAATFLSRRNKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDESAERARLAAKNMATRFTAALPKKWSYCSKCSSARSCSACGGSGTLNS
Homology
[Close]
BLAST of Tan0015468 vs. NCBI nr
Match: XP_038893788.1 (uncharacterized protein LOC120082609 [Benincasa hispida])

HSP 1 Score: 290.4 bits (742), Expect = 9.5e-75
Identity = 152/164 (92.68%), Postives = 155/164 (94.51%), Query Frame = 0 

Query: 1   MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKLQGRRRTLTKASSLPETAAS 60
           MEL LPTPLFA+FPKIIRD KP NHGLCLLDSN LSADVKLQG RRTLT ASSLPETAAS
Sbjct: 1   MELILPTPLFATFPKIIRDPKPNNHGLCLLDSNCLSADVKLQGGRRTLTIASSLPETAAS 60

Query: 61  VAIAATVVGAAATFLSRRNKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDESAE 120
           VAIAATVVGAAATFLSRRNKDS+A E+PL TCEDCGGSGLCSECKGEGFVLKKLSDESAE
Sbjct: 61  VAIAATVVGAAATFLSRRNKDSQAVEVPLITCEDCGGSGLCSECKGEGFVLKKLSDESAE 120

Query: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSACGGSGTLNS 165
           RARLAAKNMATRFTAALPKKWSYCSKCSSARSCS CGGSGTLNS
Sbjct: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSTCGGSGTLNS 164

[Close]
BLAST of Tan0015468 vs. NCBI nr
Match: XP_004147283.1 (uncharacterized protein LOC101218484 [Cucumis sativus] >KGN64792.1 hypothetical protein Csa_014200 [Cucumis sativus])

HSP 1 Score: 287.7 bits (735), Expect = 6.2e-74
Identity = 149/164 (90.85%), Postives = 155/164 (94.51%), Query Frame = 0 

Query: 1   MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKLQGRRRTLTKASSLPETAAS 60
           MELTLPTPLF S PKI+R+ KP N+GLCLLDSNPLSADVKLQG RRTLT ASSLPETAAS
Sbjct: 1   MELTLPTPLFVSIPKIVRNSKPNNNGLCLLDSNPLSADVKLQGGRRTLTIASSLPETAAS 60

Query: 61  VAIAATVVGAAATFLSRRNKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDESAE 120
           VAIAATVVGAAATFLSRRNK+SEA E+PL TCEDCGGSGLCSECKGEGFVLKKLSDE+AE
Sbjct: 61  VAIAATVVGAAATFLSRRNKNSEAVEVPLITCEDCGGSGLCSECKGEGFVLKKLSDENAE 120

Query: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSACGGSGTLNS 165
           RARLAAKNMATRFTAALPKKWSYCSKCSSARSCS CGGSGTLNS
Sbjct: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSTCGGSGTLNS 164

[Close]
BLAST of Tan0015468 vs. NCBI nr
Match: XP_022998903.1 (uncharacterized protein LOC111493423 [Cucurbita maxima])

HSP 1 Score: 287.3 bits (734), Expect = 8.1e-74
Identity = 150/164 (91.46%), Postives = 154/164 (93.90%), Query Frame = 0 

Query: 1   MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKLQGRRRTLTKASSLPETAAS 60
           MELTLPTPLFAS  KIIRD KPINHGL L DSNP+SAD+KLQG RRTLT ASSLPETAAS
Sbjct: 1   MELTLPTPLFASSSKIIRDPKPINHGLRLFDSNPISADLKLQGGRRTLTIASSLPETAAS 60

Query: 61  VAIAATVVGAAATFLSRRNKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDESAE 120
           VAIAATVVGAAATFLSRRNKDSEAEEIPLR CEDCGGSGLCSECKGEGFVLKKLSDE+AE
Sbjct: 61  VAIAATVVGAAATFLSRRNKDSEAEEIPLRPCEDCGGSGLCSECKGEGFVLKKLSDENAE 120

Query: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSACGGSGTLNS 165
           RARLAAKNMATRFTAALPKKWSYCSKCSSARSCS CGG+GT NS
Sbjct: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSTCGGTGTFNS 164

[Close]
BLAST of Tan0015468 vs. NCBI nr
Match: XP_023525360.1 (uncharacterized protein LOC111788983 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 283.5 bits (724), Expect = 1.2e-72
Identity = 148/164 (90.24%), Postives = 153/164 (93.29%), Query Frame = 0 

Query: 1   MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKLQGRRRTLTKASSLPETAAS 60
           MELTLPTPLFAS  KIIRD KPINHGL L DSNP+SAD+KLQG RRTL  ASSLPETAAS
Sbjct: 1   MELTLPTPLFASSSKIIRDPKPINHGLRLFDSNPISADLKLQGGRRTLPIASSLPETAAS 60

Query: 61  VAIAATVVGAAATFLSRRNKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDESAE 120
           VAIAATVVGAAATFLSRRNKDSEA+EIPLR CEDCGGSGLCSECKGEGFVLKKLSDE+AE
Sbjct: 61  VAIAATVVGAAATFLSRRNKDSEAKEIPLRPCEDCGGSGLCSECKGEGFVLKKLSDENAE 120

Query: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSACGGSGTLNS 165
           RARLAAKNMATRFTAALPKKWSYCSKCSSARSCS CGG+GT NS
Sbjct: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSTCGGTGTFNS 164

[Close]
BLAST of Tan0015468 vs. NCBI nr
Match: XP_008463215.1 (PREDICTED: uncharacterized protein LOC103501412 isoform X2 [Cucumis melo])

HSP 1 Score: 283.5 bits (724), Expect = 1.2e-72
Identity = 147/164 (89.63%), Postives = 153/164 (93.29%), Query Frame = 0 

Query: 1   MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKLQGRRRTLTKASSLPETAAS 60
           MELTLPTPLF S PKI+R  KP NHGLCLL+S PLSAD+KLQG RRTLT ASSLPETAAS
Sbjct: 1   MELTLPTPLFVSIPKIVRSSKPNNHGLCLLNSIPLSADMKLQGGRRTLTIASSLPETAAS 60

Query: 61  VAIAATVVGAAATFLSRRNKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDESAE 120
           VAIAATVVGAAATFLSRRNKDSEA E+PL TCEDCGGSGLCSECKGEGFVLKKLSDE+AE
Sbjct: 61  VAIAATVVGAAATFLSRRNKDSEAVEVPLITCEDCGGSGLCSECKGEGFVLKKLSDENAE 120

Query: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSACGGSGTLNS 165
           RARLAAKNMATRFTAALPKKWSYCSKCSSARSCS CGGSGTL+S
Sbjct: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSTCGGSGTLSS 164

[Close]
BLAST of Tan0015468 vs. ExPASy TrEMBL
Match: A0A0A0LVE3 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G097700 PE=4 SV=1)

HSP 1 Score: 287.7 bits (735), Expect = 3.0e-74
Identity = 149/164 (90.85%), Postives = 155/164 (94.51%), Query Frame = 0 

Query: 1   MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKLQGRRRTLTKASSLPETAAS 60
           MELTLPTPLF S PKI+R+ KP N+GLCLLDSNPLSADVKLQG RRTLT ASSLPETAAS
Sbjct: 1   MELTLPTPLFVSIPKIVRNSKPNNNGLCLLDSNPLSADVKLQGGRRTLTIASSLPETAAS 60

Query: 61  VAIAATVVGAAATFLSRRNKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDESAE 120
           VAIAATVVGAAATFLSRRNK+SEA E+PL TCEDCGGSGLCSECKGEGFVLKKLSDE+AE
Sbjct: 61  VAIAATVVGAAATFLSRRNKNSEAVEVPLITCEDCGGSGLCSECKGEGFVLKKLSDENAE 120

Query: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSACGGSGTLNS 165
           RARLAAKNMATRFTAALPKKWSYCSKCSSARSCS CGGSGTLNS
Sbjct: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSTCGGSGTLNS 164

[Close]
BLAST of Tan0015468 vs. ExPASy TrEMBL
Match: A0A6J1KI37 (uncharacterized protein LOC111493423 OS=Cucurbita maxima OX=3661 GN=LOC111493423 PE=4 SV=1)

HSP 1 Score: 287.3 bits (734), Expect = 3.9e-74
Identity = 150/164 (91.46%), Postives = 154/164 (93.90%), Query Frame = 0 

Query: 1   MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKLQGRRRTLTKASSLPETAAS 60
           MELTLPTPLFAS  KIIRD KPINHGL L DSNP+SAD+KLQG RRTLT ASSLPETAAS
Sbjct: 1   MELTLPTPLFASSSKIIRDPKPINHGLRLFDSNPISADLKLQGGRRTLTIASSLPETAAS 60

Query: 61  VAIAATVVGAAATFLSRRNKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDESAE 120
           VAIAATVVGAAATFLSRRNKDSEAEEIPLR CEDCGGSGLCSECKGEGFVLKKLSDE+AE
Sbjct: 61  VAIAATVVGAAATFLSRRNKDSEAEEIPLRPCEDCGGSGLCSECKGEGFVLKKLSDENAE 120

Query: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSACGGSGTLNS 165
           RARLAAKNMATRFTAALPKKWSYCSKCSSARSCS CGG+GT NS
Sbjct: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSTCGGTGTFNS 164

[Close]
BLAST of Tan0015468 vs. ExPASy TrEMBL
Match: A0A1S3CIP4 (uncharacterized protein LOC103501412 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103501412 PE=4 SV=1)

HSP 1 Score: 283.5 bits (724), Expect = 5.6e-73
Identity = 147/164 (89.63%), Postives = 153/164 (93.29%), Query Frame = 0 

Query: 1   MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKLQGRRRTLTKASSLPETAAS 60
           MELTLPTPLF S PKI+R  KP NHGLCLL+S PLSAD+KLQG RRTLT ASSLPETAAS
Sbjct: 1   MELTLPTPLFVSIPKIVRSSKPNNHGLCLLNSIPLSADMKLQGGRRTLTIASSLPETAAS 60

Query: 61  VAIAATVVGAAATFLSRRNKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDESAE 120
           VAIAATVVGAAATFLSRRNKDSEA E+PL TCEDCGGSGLCSECKGEGFVLKKLSDE+AE
Sbjct: 61  VAIAATVVGAAATFLSRRNKDSEAVEVPLITCEDCGGSGLCSECKGEGFVLKKLSDENAE 120

Query: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSACGGSGTLNS 165
           RARLAAKNMATRFTAALPKKWSYCSKCSSARSCS CGGSGTL+S
Sbjct: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSTCGGSGTLSS 164

[Close]
BLAST of Tan0015468 vs. ExPASy TrEMBL
Match: A0A6J1DHB6 (uncharacterized protein LOC111020449 OS=Momordica charantia OX=3673 GN=LOC111020449 PE=4 SV=1)

HSP 1 Score: 281.6 bits (719), Expect = 2.1e-72
Identity = 148/164 (90.24%), Postives = 151/164 (92.07%), Query Frame = 0 

Query: 1   MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKLQGRRRTLTKASSLPETAAS 60
           MELTLPTP   SFPKIIR  KPIN GLC LDSNPL ADVKLQG +RTLT ASSLPETAAS
Sbjct: 1   MELTLPTPFSTSFPKIIRGPKPINLGLCSLDSNPLLADVKLQGGKRTLTVASSLPETAAS 60

Query: 61  VAIAATVVGAAATFLSRRNKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDESAE 120
           VAIAATVVGAAAT LSRRNK SEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDE+AE
Sbjct: 61  VAIAATVVGAAATLLSRRNKASEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDENAE 120

Query: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSACGGSGTLNS 165
           RARLAAKNMATRFTAALPKKWSYCSKCSSARSC+ CGGSGTLNS
Sbjct: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCTTCGGSGTLNS 164

[Close]
BLAST of Tan0015468 vs. ExPASy TrEMBL
Match: A0A6J1G9T1 (uncharacterized protein LOC111452109 OS=Cucurbita moschata OX=3662 GN=LOC111452109 PE=4 SV=1)

HSP 1 Score: 280.0 bits (715), Expect = 6.2e-72
Identity = 147/164 (89.63%), Postives = 153/164 (93.29%), Query Frame = 0 

Query: 1   MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKLQGRRRTLTKASSLPETAAS 60
           MELTLPTPLFAS  KIIRD K INHGL LLD+NP+SAD+KLQG RRTL  ASSLPETAAS
Sbjct: 1   MELTLPTPLFASSSKIIRDPKLINHGLRLLDTNPISADLKLQGGRRTLPIASSLPETAAS 60

Query: 61  VAIAATVVGAAATFLSRRNKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDESAE 120
           VAIAATVVGAAATFLSRRNKDSEA+EIPLR CEDCGGSGLCSECKGEGFVLKKLSDE+AE
Sbjct: 61  VAIAATVVGAAATFLSRRNKDSEAKEIPLRPCEDCGGSGLCSECKGEGFVLKKLSDENAE 120

Query: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSACGGSGTLNS 165
           RARLAAKNMATRFTAALPKKWSYCSKCSSARSCS CGG+GT NS
Sbjct: 121 RARLAAKNMATRFTAALPKKWSYCSKCSSARSCSTCGGTGTFNS 164

[Close]
BLAST of Tan0015468 vs. TAIR 10
Match: AT3G45050.2 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; Has 28 Blast hits to 28 proteins in 12 species: Archae - 0; Bacteria - 2; Metazoa - 0; Fungi - 0; Plants - 26; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). )

HSP 1 Score: 158.7 bits (400), Expect = 4.0e-39
Identity = 94/163 (57.67%), Postives = 110/163 (67.48%), Query Frame = 0 

Query: 1   MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKL--QGRRRTLTKASSLPETA 60
           MEL+L      SFP  +   K +           L+ D+K   Q  +R+ T   +L ETA
Sbjct: 1   MELSLIKLQSFSFPSSVSSVKDVRF---------LNLDLKSSHQRAKRSSTVVPALAETA 60

Query: 61  ASVAIAATVVGAAATFLSRR-NKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDE 120
            S+AIAATVVG AAT L RR NK SE  E  ++ CE C GSG+C ECKGEGFVLKKLSD 
Sbjct: 61  VSIAIAATVVGTAATILVRRNNKASEEAEASMKECEACLGSGICPECKGEGFVLKKLSDA 120

Query: 121 SAERARLAAKNMATRFTAALPKKWSYCSKCSSARSCSACGGSG 161
           +AE+ARLAAKNMATR+TA LPKKWSYC+KCSS RSC  CGGSG
Sbjct: 121 NAEKARLAAKNMATRYTAGLPKKWSYCTKCSSTRSCMICGGSG 154

[Close]
BLAST of Tan0015468 vs. TAIR 10
Match: AT3G45050.4 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). )

HSP 1 Score: 158.7 bits (400), Expect = 4.0e-39
Identity = 94/163 (57.67%), Postives = 110/163 (67.48%), Query Frame = 0 

Query: 1   MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKL--QGRRRTLTKASSLPETA 60
           MEL+L      SFP  +   K +           L+ D+K   Q  +R+ T   +L ETA
Sbjct: 1   MELSLIKLQSFSFPSSVSSVKDVRF---------LNLDLKSSHQRAKRSSTVVPALAETA 60

Query: 61  ASVAIAATVVGAAATFLSRR-NKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDE 120
            S+AIAATVVG AAT L RR NK SE  E  ++ CE C GSG+C ECKGEGFVLKKLSD 
Sbjct: 61  VSIAIAATVVGTAATILVRRNNKASEEAEASMKECEACLGSGICPECKGEGFVLKKLSDA 120

Query: 121 SAERARLAAKNMATRFTAALPKKWSYCSKCSSARSCSACGGSG 161
           +AE+ARLAAKNMATR+TA LPKKWSYC+KCSS RSC  CGGSG
Sbjct: 121 NAEKARLAAKNMATRYTAGLPKKWSYCTKCSSTRSCMICGGSG 154

[Close]
BLAST of Tan0015468 vs. TAIR 10
Match: AT3G45050.3 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; Has 28 Blast hits to 28 proteins in 12 species: Archae - 0; Bacteria - 2; Metazoa - 0; Fungi - 0; Plants - 26; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). )

HSP 1 Score: 158.7 bits (400), Expect = 4.0e-39
Identity = 94/163 (57.67%), Postives = 110/163 (67.48%), Query Frame = 0 

Query: 1   MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKL--QGRRRTLTKASSLPETA 60
           MEL+L      SFP  +   K +           L+ D+K   Q  +R+ T   +L ETA
Sbjct: 1   MELSLIKLQSFSFPSSVSSVKDVRF---------LNLDLKSSHQRAKRSSTVVPALAETA 60

Query: 61  ASVAIAATVVGAAATFLSRR-NKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDE 120
            S+AIAATVVG AAT L RR NK SE  E  ++ CE C GSG+C ECKGEGFVLKKLSD 
Sbjct: 61  VSIAIAATVVGTAATILVRRNNKASEEAEASMKECEACLGSGICPECKGEGFVLKKLSDA 120

Query: 121 SAERARLAAKNMATRFTAALPKKWSYCSKCSSARSCSACGGSG 161
           +AE+ARLAAKNMATR+TA LPKKWSYC+KCSS RSC  CGGSG
Sbjct: 121 NAEKARLAAKNMATRYTAGLPKKWSYCTKCSSTRSCMICGGSG 154

[Close]
BLAST of Tan0015468 vs. TAIR 10
Match: AT3G45050.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; Has 26 Blast hits to 26 proteins in 11 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 26; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). )

HSP 1 Score: 117.1 bits (292), Expect = 1.3e-26
Identity = 74/138 (53.62%), Postives = 89/138 (64.49%), Query Frame = 0 

Query: 1   MELTLPTPLFASFPKIIRDFKPINHGLCLLDSNPLSADVKL--QGRRRTLTKASSLPETA 60
           MEL+L      SFP  +   K +           L+ D+K   Q  +R+ T   +L ETA
Sbjct: 1   MELSLIKLQSFSFPSSVSSVKDVRF---------LNLDLKSSHQRAKRSSTVVPALAETA 60

Query: 61  ASVAIAATVVGAAATFLSRR-NKDSEAEEIPLRTCEDCGGSGLCSECKGEGFVLKKLSDE 120
            S+AIAATVVG AAT L RR NK SE  E  ++ CE C GSG+C ECKGEGFVLKKLSD 
Sbjct: 61  VSIAIAATVVGTAATILVRRNNKASEEAEASMKECEACLGSGICPECKGEGFVLKKLSDA 120

Query: 121 SAERARLAAKNMATRFTA 136
           +AE+ARLAAKNMATR+TA
Sbjct: 121 NAEKARLAAKNMATRYTA 129

The following BLAST results are available for this feature:
BLAST of Tan0015468 vs.
Match NameE-valueIdentityDescription
BLAST of Tan0015468 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_038893788.19.5e-7592.68uncharacterized protein LOC120082609 [Benincasa hispida][more]
XP_004147283.16.2e-7490.85uncharacterized protein LOC101218484 [Cucumis sativus] >KGN64792.1 hypothetical ... [more]
XP_022998903.18.1e-7491.46uncharacterized protein LOC111493423 [Cucurbita maxima][more]
XP_023525360.11.2e-7290.24uncharacterized protein LOC111788983 [Cucurbita pepo subsp. pepo][more]
XP_008463215.11.2e-7289.63PREDICTED: uncharacterized protein LOC103501412 isoform X2 [Cucumis melo][more]
BLAST of Tan0015468 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A0A0LVE33.0e-7490.85Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G097700 PE=4 SV=1[more]
A0A6J1KI373.9e-7491.46uncharacterized protein LOC111493423 OS=Cucurbita maxima OX=3661 GN=LOC111493423... [more]
A0A1S3CIP45.6e-7389.63uncharacterized protein LOC103501412 isoform X2 OS=Cucumis melo OX=3656 GN=LOC10... [more]
A0A6J1DHB62.1e-7290.24uncharacterized protein LOC111020449 OS=Momordica charantia OX=3673 GN=LOC111020... [more]
A0A6J1G9T16.2e-7289.63uncharacterized protein LOC111452109 OS=Cucurbita moschata OX=3662 GN=LOC1114521... [more]
BLAST of Tan0015468 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G45050.24.0e-3957.67unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT3G45050.44.0e-3957.67unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT3G45050.34.0e-3957.67unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT3G45050.11.3e-2653.62unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availablePANTHERPTHR37230OS06G0731300 PROTEINcoord: 1..137

Relationships

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

Feature NameUnique NameType
Tan0015468.1Tan0015468.1mRNA
Tan0015468.2Tan0015468.2mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0016020 membrane