Tan0021193 (gene) Snake gourd v1

Overview
NameTan0021193
Typegene
OrganismTrichosanthes anguina (Snake gourd v1)
DescriptionTy3/gypsy retrotransposon protein
LocationLG10: 53929047 .. 53943507 (+)
RNA-Seq ExpressionTan0021193
SyntenyTan0021193
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

GTTATTTCTTAGAATTCACACTCAAAAGTCTTGGATCTGTTTCAAAAAAAAAAAAAAAAAGTCTTGGATTGGATCAGAATGTGATCAAATTCATGGATGGCGTTCCATATTCTTAATCTAAATTTCCATCTGCCCCTTTGCTCTTAAAAGCTCTCTAAATGGCTGAAGCTTCATCGTCGACTTCTCCAGCCATATCTACAACAACTATTCAAGCAAAATATGATGTGTTCTTGAGTTTTCGAGACCGACGGTAGTTATGCAGAAGCATTTGGTCAACACTTGGAGACTCTCAAGGGTGGGCAAGATGAAATACAAAGGTGGAAGGATGCACTAACAGAATTAGCAAATTTGTCTGGTTGGGATTTACTTGATCGGTAAATAAGCTAAGTATATGACTTTTTAAAAAAAAACTTTTATTTTGTTGCTCTCAAGAATTTTGCCCATTTGAGTATTTTTAAGTTTTGAGTTCAACAAAATTGGATAGGCATAATTAATATATATTTTCCTAAAAAAAGTTAGGGGAAAAAATAATTTTTTAAAAACTTAGCAAGATATATCAATTTCTAACTAGCTTAATTGTTGTAATCTTTACACTAAATTTGATTAAGTATTACAAATTTTACCACTAAATAGATAAAATCTCTTATAAAAATATATAAATGTACATTTACTGTTGTGATAAAACAGATGTCTAAAATAAAATTGATGGACTTAAGATAAAAATTGTACCACAGTTGAAATTTTTGTGGGTTTTAACAGATTCATTTATGGTTAATTTTAGGCATCCATCAACTTAAATCTTATGTGAGGTTTGGTTTTTTTTTTTTAGGAAAATTTTTTACTTTGTTTTATTGTTAAAATTAGTAGGTAAATTTAACGGAAGTGGAACATAACCCAATAATTGCAACGTTGGACTAAGTTTAGAGATCACAATTAATTACTATGTGTTTTATTTATTTATTTATCTTTTGAAAAGGAGAAATTAATTAACGACCACCAACCAAGCCAACAGTAAAAAAAAAAAAAGAAAGAAAAGAAAAGAGAAAAAATAAACCAATCCTCATTAAAGAAATTTACAATTCTGCCTCTTCCTTTTGATTTGTTCCACCAAGCATCGGTACGAGTTCGAAGAGAGGGGTCCAAATTGTGTGACTCGAATGGCTCTCCATCGAAGCCGACAACAGGCATTTCGTTTCATGCTACTCTCCACCAAACTTTTCTAGACAATATGCCCATCTTACAAATTGAGGAAAATCAGCTGGATTACCACTTGAATTTAGGAAATCTCTGTAGGACCACGTCATTGGAATGGCTTTTCCACAAAGAGTGAGAAGCCTCCTCATCAGAAGATGAAGGTTGGTCCCTTTTCGACCTTTAGTTTAGATAGCTAGATGATGATCTCTCTTGACAGAGAAGGCTCCTTTTGCATCTGGACCCCAGCCCAAATAATAGGGTCACTGGAACCTGGACGGCTAGATGGCTTATTCAGGATATCATTCACATTTAAATTAATATTTGAACTCTTTTAAATATTTAATTCTCTCATATAATTTAATATGAATCATATTCACATTAAATTTATAATATAAAGTTTAAGTTCCAAAACTTTATATTATAACGTATTTATATACATTAAATTTATTTCCTAATGAATTTGAACATTTCAAATTCAAACGATATAAGAACCCTTTACGAGCTAGAAGGTGGACCTAATGGACTCTACTGGTCGGAAGGCTCCAACGATACTGAAATTATTCTTGTTAATCTCATTGACCTCCTAATCACCATTCGTTAATCTGAGAACACTCCACTAAAGTCTCACAAATTTGCACTCTTCTCACTCGCAGATATTTTTACGTGGCCACAAATATTGACCAATAACAAAGAAGTCAATCCTTCACGAATGTTAAGTAACACCAACCAGGTCAAATTACCGCTTTACCCCAGGGTTACATCTTGTACCTTAAGTACCAGTTCTCCTCTAATGAACAATTTGTTTGTGGTCCTACCAACAAACAGAAAGTCCTTTTCGGGCCAATAAGAGGGTTGGGCCCTTTGTTCAAGTCCCGGAGACACTACTTAAGGGAACATTCATCTACCCCTAGTAGGCAAGAAGAATTGAATTCCATCTTGCTAAGTAAGTCCCCAGTCGCTCACTCGATCTTGTCCCCAAGAAGGTAGGCATATTGAGTCGGCGAATTTGGCCACTCTCACCCATACTAGTCAAAGGACAATCTCTCGCAAATAGGAGTTTGTAACCTGCTCAGGATTGAGATCAAGTTGCCTAGGTCATCATAGTGAAATAGAAACCTAACTAGTCAACGGAGTTACATCTAGCGGTTACTATTTCGCGGTTCGGTCTTATGTAATCTCATTACATAGGATATCTCCACTCACATGTCATCTATACGAACAGGATAGGATCACAGTGTTTGTATCATATACAAAGTGGGTCACATCCATAGTGTTACCATGGTAAGGTACCCAAACCTTATCTCCTTACTATAGACTCTTTAGGTTGTATCTCGAACTGAGATTCTTTATATGTACACTACATTCAGTTCAAGAGACATTTTACAACATTGGATGTTAGTTTATTAGATTTAGGGTTAAAATAAGGGCAATGTCGTAAATAACGAACAATAAATCTTTATTGAAATAATAACTATTTATTACAATAATTAGAACAAAATTACAAAACTACGAGTTTTAGGGCACAAACCCCAACAGGATTGATGTGGTGTTAGGCATGACTTGGTTGAATAGCTTATGGAAAATAGACATTCACTGGCCAACCCTCACGATTAAAGTGGAGATGGAGAACCGAGTGATTATTTTGAAAAGTGACCCAAGCTTAACTAAGTCAAATGTATCCCTTAAGAAGATGATGAAAGCATGGGAGGACCATGATCAACGCTTTTTAATGGAATTAAAAATGTTAGAGGCAAGGCCAGAGGGCAAGGTGGAAGTAAGCAATGGGGGAGACAAAGAACAGGAAGCATATTTGATTAAAATATTAAATGAGAATGGAGACGTGTTTCAATGGCCAAATCAGTTCCCTCCACGAAGGGAAGTAGATCATCACATACATTTAAAAGAAGGAACCAATCCAGTGAATTTGAGGCCAAATTGTTATACACAATTACAAAAAGGAGAGATCAAAAGGTTAGTTGATGAAATGATGACTAGTGGAGTGATAAGGCCTAGTGCAACCCATATTCGAGTCCAGTACTCTTGGTAAAGAAGAAAGATGGTGATGGAGATTATGTGTCGACTATAGAGCCTTAAATAATGTGATCATACCAGACAAATTTCTCATTCCAGTAGTAGAAGAGTTATGATCATTCGTTACACGCAAATGCATGCGATCGAAGTAATAAAATTGGAGTACTCCAGAGTATCAAACGCACAAGGAACGGGTTTCACCAAGTTACTTCGGGAAAACAAGAGTTGCTACGAAGATGCAAGTGTGGTAACAAAGTTTTTAAGAATGTTTTGGTCGTAAAGAATTGTTGCTAATATGTAAAGTAAACAATGAGATAAAAGAAGAGAATTCAAGTTGTTTGCGCCCCTTCGAAGAAAATGTTGGCGAAAATGCAGTAGCAATTGTGCCAACAATCCTAAATCTAAGTAAATCGGGTTCGACTCCTATTCGTTTTTGCTCCCAAAACCATTAGGGGACTAAACAATTAAACCTACATGTTTGTGGCTAATTGAGCTTAGATGGTTCCGCACACAACCCTTTTGATTTTGGAGCCTCGCCCTATCTATGTCTAAGGTTGAAGTTTCAGATCTTATGTCTATGTCATTTCCTCCGTTGGTTTTATGAGATCCATTATCCCTTGACCCTTTCAGTATCAAGTTCGAGCTTGATGGACAAATCAGTGATATGCTAGGGTTACCCAAATAATATTCAATAAAAATAAACTTAGAGTTGGTTGCCGACACAACTACTTTACTAATTTAAGTTTGGCAACTCTCTTCTAAGGCATTCACAACTTAAACCCCTAAAAAGGATTTAGCACATGGTTTAAATAAAGGAAAATATTGTCTTGGTTGATGGAAATGTAAAAGACATCTTGCAAATAGAAGGTAAAAGACGACAATAAGAGGAATAATAAAGAAACTATAAATTGGAAAATAAATGGAGGCCTCACCCCTTACCTTTTATTAAATACATAACTCAATCTAAATCAGTATGGGTTGGATTAAACTCGAATACAGAAAGTTTTGGAGTGTAGCATGCGATGAACGAGAAAAATCTCGAGAATCCTTTCGTAGATCGACTTCAAAATCCCAAGGGAAGTTAAGAATCTTTACCTCCAATACTTTCGTAAGGAGGGATCAACCAAGGATTCGTTACAAACTAAGAAATAAGAAAAACTTGTTGGAATAAAAATACTGGAAACAAAATCTTGTTGTTATGGATACAAAGTAACGAAAAACTTGAAAAACAAATGGAAAAGAAATTGATCTAATAACCTTCCTCCCGATTGCCTCTTTCTCTAGGGTTTCTTGTGTATTTTTAGGTGTTTTCCTTTAGGGTTTCCTTGTTTGGACTCCCATGTATGGTGGAAAATCAATAAATCACGAATCTGGGTTGTCAACGGTTCCAAAAATGGCAAAAATCTTGTAATTCCTGCGACATCCCTTTTCTGCAGATTCTTACAATGCAGTCCACATTTTAGCTCGCATTTTGTCTTGTCTGGTCTTGTAAGCCCTAAACTCTATTTTCTTTTATCATTTTGCACTCATTCATGATGTTTTGAAATATGCAAAATCGTATAGGTTGCACTAAATGATGTCGTGATCGGATTTGGAAATCTATTGAATTTGGAGCTACAATGTGTCTAAGCTTCATAAGAAGATAGGAGCTGGCCAAGGGAGGTGAAGCCTCGGAGTTAAACATGGCAAGTAGGTCTTTGTCAAATTCATGAGAAAAACAGCAAGCAGCTGGAAAATGGGTCATCTTCAAACGATCATATCTCTCAATTTACTGAGTCAAATTCGTTGATTTGTAAGTCAAAATCTCATAAATTGAGTTTAGAATCCGAAACTTGTCGACTTTTGGAAAAATACAGAGAGGACGAAGGAGAAAAGTGTAGAACAGTGAGAGGTGTTCAAAGTTCTCGGGTAACAGAACAGTGTGAGGAGTTCAGTCTGTTGTGAGCTCATTAGGACGAATTAGAAGCTGATATTTTGAGGTGCAAGGGAAAAACTGCTAGCAAGAGATTGAAGGAGATTCTCTTCCATTTCTATATACCTTACAACCAATTGTGTGGCAAACGGAGATAGGAAAAGCGTATAACCCTTGGAACTCTTTTGGTGATTGTAGCAGACGAGTTTCCAGTGCTTAGCCTTGACAAGACCTATTTGCCACCACGCCATTTAGCTCCTTGACCATGGCTCGAGGTGGCAAACGAGGCAGGCAAGTGGAGACTGGAACTCAAGAAGCTACTGGTGATAGAGGATGAGAGGTATCAAAGGGAGAGTCTAGTCATCCTCAGCAAGAGGTGAACATGGAGGAACAGATCTTTACGAGGATAACTCAAAGATTAGCTGAAAGTGTTGGATCAACACAAGCAGATCCAGAAAAGAAGTATGGCATTGAAAGACTGAAAGGCTAGGTGCAATAATATTTGAAGGCACGACAGATCCCGCCGATGCTGAGGTTTGGTTAAATCTGATTGAGAAGTGCTTTAGGGTCATGCGATGCCCTGAAGACAGGAAGGTCGATTTAGCGAAGATTCTTACTCCGAGAAAGGAGCGGATGATTGGTGGAAGATAACGAGAGAGCGAGAAAAGGGAAGCTTGGAGTGGAAAAGAGTTTCGAAAGGCCTTTGAAGATAAGTATTATCCGAGATCTTATCGTGATGCAAAGAGGAACGAGTTTCTAGGACTTGTTCAGGGATCGATGACAGTAAGAGAATATGAGAAGAAGTTCACAGAGTTATCAAAGTATGCTAGCACTATTGTTGCAAACGAGACAGATCGATGTAAGAGGTTCGAGGATGGTCTACGAACAGAGATCGTAACGCTTTGTGCAAAGTCAAGTTCGGAGTGGGTTGAGTTCTCCAAGCTTGTTGAGACGACATTACGGGTAGAAACGAAGCTTTGTAGATGACGAGAATGGGAAAAGGGG

Coding sequence (CDS)

ATGACTTGGTTGAATAGCTTATGGAAAATAGACATTCACTGGCCAACCCTCACGATTAAAGTGGAGATGGAGAACCGAGTGATTATTTTGAAAAGTGACCCAAGCTTAACTAAGTCAAATGTATCCCTTAAGAAGATGATGAAAGCATGGGAGGACCATGATCAACGCTTTTTAATGGAATTAAAAATGTTAGAGGCAAGGCCAGAGGGCAAGGTGGAAGTAAGCAATGGGGGAGACAAAGAACAGGAAGCATATTTGATTAAAATATTAAATGAGAATGGAGACGTGTTTCAATGGCCAAATCAGTTCCCTCCACGAAGGGAAGTAGATCATCACATACATTTAAAAGAAGGAACCAATCCAGTGAATTTGAGGCCAAATTGTTATACACAATTACAAAAAGGAGAGATCAAAAGGTTAGTTGATGAAATGATGACTAGTGGAGTGATAAGGCCTAGTGCAACCCATATTCGAGTCCAGTACTCTTGGTAA

Protein sequence

MTWLNSLWKIDIHWPTLTIKVEMENRVIILKSDPSLTKSNVSLKKMMKAWEDHDQRFLMELKMLEARPEGKVEVSNGGDKEQEAYLIKILNENGDVFQWPNQFPPRREVDHHIHLKEGTNPVNLRPNCYTQLQKGEIKRLVDEMMTSGVIRPSATHIRVQYSW
Homology
[Close]
BLAST of Tan0021193 vs. NCBI nr
Match: KAA0053639.1 (Ty3/gypsy retrotransposon protein [Cucumis melo var. makuwa] >TYK00808.1 Ty3/gypsy retrotransposon protein [Cucumis melo var. makuwa])

HSP 1 Score: 149.8 bits (377), Expect = 2.0e-32
Identity = 70/153 (45.75%), Postives = 99/153 (64.71%), Query Frame = 0 

Query: 1   MTWLNSLWKIDIHWPTLTIKVEMENRVIILKSDPSLTKSNVSLKKMMKAWEDHDQRFLME 60
           M WL+SL   ++ W  L +    + R +++K DPSLTK+ VSLK +MK+W   DQ FL+E
Sbjct: 191 MQWLHSLGVTEVDWKKLMLTFHYQGRKVVIKGDPSLTKTRVSLKNLMKSWGADDQGFLVE 250

Query: 61  LKMLEARPEGKVEVSNGGDKEQEAYLIKILNENGDVFQWPNQFPPRREVDHHIHLKEGTN 120
            + +E     + E   G  +E E  +  +L +   VF+WP   PP+R +DHHI+LK GTN
Sbjct: 251 CRTIECGLLEEHEQDRGQGREDEEAMATLLKQFASVFEWPTALPPQRSIDHHIYLKSGTN 310

Query: 121 PVNLRPNCYTQLQKGEIKRLVDEMMTSGVIRPS 154
           PVN+RP  Y   QK E++RLVDEM++SG+IRPS
Sbjct: 311 PVNVRPYRYAHHQKEEMERLVDEMLSSGIIRPS 343

[Close]
BLAST of Tan0021193 vs. NCBI nr
Match: KAA0063463.1 (Ty3/gypsy retrotransposon protein [Cucumis melo var. makuwa])

HSP 1 Score: 149.1 bits (375), Expect = 3.4e-32
Identity = 74/156 (47.44%), Postives = 105/156 (67.31%), Query Frame = 0 

Query: 1   MTWLNSLWKIDIHWPTLTIKVEMENRVIILKSDPSLTKSNVSLKKMMKAWEDHDQRFLME 60
           M WL SL      W  LT+      + I +K DPSLTK+ VSLK ++K WE+HD  +L+E
Sbjct: 505 MQWLYSLGVTICDWKNLTLTFYDNEKQICIKGDPSLTKARVSLKNLVKTWEEHDHGYLIE 564

Query: 61  LKMLEARPEGKVEVSNGGDKEQ-EAYLIKILNENGDVFQWPNQFPPRREVDHHIHLKEGT 120
            + +E     +++ S+  +KE+ +  LI ILN+  DVF+WP + PPRR ++H IHLKEGT
Sbjct: 565 CRSVEV---AELKTSHKEEKEETKKKLIPILNQFSDVFEWPEKLPPRRSIEHQIHLKEGT 624

Query: 121 NPVNLRPNCYTQLQKGEIKRLVDEMMTSGVIRPSAT 156
           NPVN+RP  Y   QK E+++LV+EM+ SG+IRPSA+
Sbjct: 625 NPVNVRPYRYAYHQKEEMEKLVNEMLVSGIIRPSAS 657

[Close]
BLAST of Tan0021193 vs. NCBI nr
Match: TYK30083.1 (Ty3/gypsy retrotransposon protein [Cucumis melo var. makuwa])

HSP 1 Score: 149.1 bits (375), Expect = 3.4e-32
Identity = 74/156 (47.44%), Postives = 105/156 (67.31%), Query Frame = 0 

Query: 1   MTWLNSLWKIDIHWPTLTIKVEMENRVIILKSDPSLTKSNVSLKKMMKAWEDHDQRFLME 60
           M WL SL      W  LT+      + I +K DPSLTK+ VSLK ++K WE+HD  +L+E
Sbjct: 514 MQWLYSLGVTICDWKNLTLTFYDNEKQICIKGDPSLTKARVSLKNLVKTWEEHDHGYLIE 573

Query: 61  LKMLEARPEGKVEVSNGGDKEQ-EAYLIKILNENGDVFQWPNQFPPRREVDHHIHLKEGT 120
            + +E     +++ S+  +KE+ +  LI ILN+  DVF+WP + PPRR ++H IHLKEGT
Sbjct: 574 CRSVEV---AELKTSHKEEKEETKKKLIPILNQFSDVFEWPEKLPPRRSIEHQIHLKEGT 633

Query: 121 NPVNLRPNCYTQLQKGEIKRLVDEMMTSGVIRPSAT 156
           NPVN+RP  Y   QK E+++LV+EM+ SG+IRPSA+
Sbjct: 634 NPVNVRPYRYAYHQKEEMEKLVNEMLVSGIIRPSAS 666

[Close]
BLAST of Tan0021193 vs. NCBI nr
Match: TYK22240.1 (Ty3/gypsy retrotransposon protein [Cucumis melo var. makuwa])

HSP 1 Score: 149.1 bits (375), Expect = 3.4e-32
Identity = 74/156 (47.44%), Postives = 105/156 (67.31%), Query Frame = 0 

Query: 1   MTWLNSLWKIDIHWPTLTIKVEMENRVIILKSDPSLTKSNVSLKKMMKAWEDHDQRFLME 60
           M WL SL      W  LT+      + I +K DPSLTK+ VSLK ++K WE+HD  +L+E
Sbjct: 514 MQWLYSLGVTICDWKNLTLTFYDNEKQICIKGDPSLTKARVSLKNLVKTWEEHDHGYLIE 573

Query: 61  LKMLEARPEGKVEVSNGGDKEQ-EAYLIKILNENGDVFQWPNQFPPRREVDHHIHLKEGT 120
            + +E     +++ S+  +KE+ +  LI ILN+  DVF+WP + PPRR ++H IHLKEGT
Sbjct: 574 CRSVEV---AELKTSHKEEKEETKKKLIPILNQFSDVFEWPEKLPPRRSIEHQIHLKEGT 633

Query: 121 NPVNLRPNCYTQLQKGEIKRLVDEMMTSGVIRPSAT 156
           NPVN+RP  Y   QK E+++LV+EM+ SG+IRPSA+
Sbjct: 634 NPVNVRPYRYAYHQKEEMEKLVNEMLVSGIIRPSAS 666

[Close]
BLAST of Tan0021193 vs. NCBI nr
Match: KAA0056478.1 (transposon Tf2-1 polyprotein isoform X1 [Cucumis melo var. makuwa] >TYK29049.1 transposon Tf2-1 polyprotein isoform X1 [Cucumis melo var. makuwa])

HSP 1 Score: 148.3 bits (373), Expect = 5.8e-32
Identity = 74/154 (48.05%), Postives = 101/154 (65.58%), Query Frame = 0 

Query: 1   MTWLNSLWKIDIHWPTLTIKVEMENRVIILKSDPSLTKSNVSLKKMMKAWEDHDQRFLME 60
           M WL+SL    + W  LT+    E + I +K DPSLTKS +SLK M K W D D+ FL++
Sbjct: 428 MQWLHSLGVTVVDWKNLTLTFSSEGKQISIKGDPSLTKSRISLKSMFKTWLDQDEGFLID 487

Query: 61  LKMLEARPEGKVEVSNGGDKEQEAY-LIKILNENGDVFQWPNQFPPRREVDHHIHLKEGT 120
            + ++ R E   E +N      EA  L  +L + GDVF WP + PPRR+++H IHLKEGT
Sbjct: 488 CRAIQVREEN--EQTNTATVIHEAEPLQNMLKQFGDVFDWPEKLPPRRKIEHQIHLKEGT 547

Query: 121 NPVNLRPNCYTQLQKGEIKRLVDEMMTSGVIRPS 154
           NP+N+RP  Y   QK E+++LV+EM+TSG+IRPS
Sbjct: 548 NPINVRPYKYGFQQKAEMEKLVEEMLTSGIIRPS 579

[Close]
BLAST of Tan0021193 vs. ExPASy TrEMBL
Match: A0A5A7UJK0 (Ty3/gypsy retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold1545G00090 PE=4 SV=1)

HSP 1 Score: 149.8 bits (377), Expect = 9.7e-33
Identity = 70/153 (45.75%), Postives = 99/153 (64.71%), Query Frame = 0 

Query: 1   MTWLNSLWKIDIHWPTLTIKVEMENRVIILKSDPSLTKSNVSLKKMMKAWEDHDQRFLME 60
           M WL+SL   ++ W  L +    + R +++K DPSLTK+ VSLK +MK+W   DQ FL+E
Sbjct: 191 MQWLHSLGVTEVDWKKLMLTFHYQGRKVVIKGDPSLTKTRVSLKNLMKSWGADDQGFLVE 250

Query: 61  LKMLEARPEGKVEVSNGGDKEQEAYLIKILNENGDVFQWPNQFPPRREVDHHIHLKEGTN 120
            + +E     + E   G  +E E  +  +L +   VF+WP   PP+R +DHHI+LK GTN
Sbjct: 251 CRTIECGLLEEHEQDRGQGREDEEAMATLLKQFASVFEWPTALPPQRSIDHHIYLKSGTN 310

Query: 121 PVNLRPNCYTQLQKGEIKRLVDEMMTSGVIRPS 154
           PVN+RP  Y   QK E++RLVDEM++SG+IRPS
Sbjct: 311 PVNVRPYRYAHHQKEEMERLVDEMLSSGIIRPS 343

[Close]
BLAST of Tan0021193 vs. ExPASy TrEMBL
Match: A0A5A7V5U6 (Ty3/gypsy retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold977G00490 PE=4 SV=1)

HSP 1 Score: 149.1 bits (375), Expect = 1.7e-32
Identity = 74/156 (47.44%), Postives = 105/156 (67.31%), Query Frame = 0 

Query: 1   MTWLNSLWKIDIHWPTLTIKVEMENRVIILKSDPSLTKSNVSLKKMMKAWEDHDQRFLME 60
           M WL SL      W  LT+      + I +K DPSLTK+ VSLK ++K WE+HD  +L+E
Sbjct: 505 MQWLYSLGVTICDWKNLTLTFYDNEKQICIKGDPSLTKARVSLKNLVKTWEEHDHGYLIE 564

Query: 61  LKMLEARPEGKVEVSNGGDKEQ-EAYLIKILNENGDVFQWPNQFPPRREVDHHIHLKEGT 120
            + +E     +++ S+  +KE+ +  LI ILN+  DVF+WP + PPRR ++H IHLKEGT
Sbjct: 565 CRSVEV---AELKTSHKEEKEETKKKLIPILNQFSDVFEWPEKLPPRRSIEHQIHLKEGT 624

Query: 121 NPVNLRPNCYTQLQKGEIKRLVDEMMTSGVIRPSAT 156
           NPVN+RP  Y   QK E+++LV+EM+ SG+IRPSA+
Sbjct: 625 NPVNVRPYRYAYHQKEEMEKLVNEMLVSGIIRPSAS 657

[Close]
BLAST of Tan0021193 vs. ExPASy TrEMBL
Match: A0A5D3E1V9 (Ty3/gypsy retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold216G00560 PE=4 SV=1)

HSP 1 Score: 149.1 bits (375), Expect = 1.7e-32
Identity = 74/156 (47.44%), Postives = 105/156 (67.31%), Query Frame = 0 

Query: 1   MTWLNSLWKIDIHWPTLTIKVEMENRVIILKSDPSLTKSNVSLKKMMKAWEDHDQRFLME 60
           M WL SL      W  LT+      + I +K DPSLTK+ VSLK ++K WE+HD  +L+E
Sbjct: 514 MQWLYSLGVTICDWKNLTLTFYDNEKQICIKGDPSLTKARVSLKNLVKTWEEHDHGYLIE 573

Query: 61  LKMLEARPEGKVEVSNGGDKEQ-EAYLIKILNENGDVFQWPNQFPPRREVDHHIHLKEGT 120
            + +E     +++ S+  +KE+ +  LI ILN+  DVF+WP + PPRR ++H IHLKEGT
Sbjct: 574 CRSVEV---AELKTSHKEEKEETKKKLIPILNQFSDVFEWPEKLPPRRSIEHQIHLKEGT 633

Query: 121 NPVNLRPNCYTQLQKGEIKRLVDEMMTSGVIRPSAT 156
           NPVN+RP  Y   QK E+++LV+EM+ SG+IRPSA+
Sbjct: 634 NPVNVRPYRYAYHQKEEMEKLVNEMLVSGIIRPSAS 666

[Close]
BLAST of Tan0021193 vs. ExPASy TrEMBL
Match: A0A5D3DFT1 (Ty3/gypsy retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold333G001370 PE=4 SV=1)

HSP 1 Score: 149.1 bits (375), Expect = 1.7e-32
Identity = 74/156 (47.44%), Postives = 105/156 (67.31%), Query Frame = 0 

Query: 1   MTWLNSLWKIDIHWPTLTIKVEMENRVIILKSDPSLTKSNVSLKKMMKAWEDHDQRFLME 60
           M WL SL      W  LT+      + I +K DPSLTK+ VSLK ++K WE+HD  +L+E
Sbjct: 514 MQWLYSLGVTICDWKNLTLTFYDNEKQICIKGDPSLTKARVSLKNLVKTWEEHDHGYLIE 573

Query: 61  LKMLEARPEGKVEVSNGGDKEQ-EAYLIKILNENGDVFQWPNQFPPRREVDHHIHLKEGT 120
            + +E     +++ S+  +KE+ +  LI ILN+  DVF+WP + PPRR ++H IHLKEGT
Sbjct: 574 CRSVEV---AELKTSHKEEKEETKKKLIPILNQFSDVFEWPEKLPPRRSIEHQIHLKEGT 633

Query: 121 NPVNLRPNCYTQLQKGEIKRLVDEMMTSGVIRPSAT 156
           NPVN+RP  Y   QK E+++LV+EM+ SG+IRPSA+
Sbjct: 634 NPVNVRPYRYAYHQKEEMEKLVNEMLVSGIIRPSAS 666

[Close]
BLAST of Tan0021193 vs. ExPASy TrEMBL
Match: A0A5A7UN05 (Transposon Tf2-1 polyprotein isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold120G001670 PE=4 SV=1)

HSP 1 Score: 148.3 bits (373), Expect = 2.8e-32
Identity = 74/154 (48.05%), Postives = 101/154 (65.58%), Query Frame = 0 

Query: 1   MTWLNSLWKIDIHWPTLTIKVEMENRVIILKSDPSLTKSNVSLKKMMKAWEDHDQRFLME 60
           M WL+SL    + W  LT+    E + I +K DPSLTKS +SLK M K W D D+ FL++
Sbjct: 428 MQWLHSLGVTVVDWKNLTLTFSSEGKQISIKGDPSLTKSRISLKSMFKTWLDQDEGFLID 487

Query: 61  LKMLEARPEGKVEVSNGGDKEQEAY-LIKILNENGDVFQWPNQFPPRREVDHHIHLKEGT 120
            + ++ R E   E +N      EA  L  +L + GDVF WP + PPRR+++H IHLKEGT
Sbjct: 488 CRAIQVREEN--EQTNTATVIHEAEPLQNMLKQFGDVFDWPEKLPPRRKIEHQIHLKEGT 547

Query: 121 NPVNLRPNCYTQLQKGEIKRLVDEMMTSGVIRPS 154
           NP+N+RP  Y   QK E+++LV+EM+TSG+IRPS
Sbjct: 548 NPINVRPYKYGFQQKAEMEKLVEEMLTSGIIRPS 579

The following BLAST results are available for this feature:
BLAST of Tan0021193 vs.
Match NameE-valueIdentityDescription
BLAST of Tan0021193 vs. NCBI nr
Match NameE-valueIdentityDescription
KAA0053639.12.0e-3245.75Ty3/gypsy retrotransposon protein [Cucumis melo var. makuwa] >TYK00808.1 Ty3/gyp... [more]
KAA0063463.13.4e-3247.44Ty3/gypsy retrotransposon protein [Cucumis melo var. makuwa][more]
TYK30083.13.4e-3247.44Ty3/gypsy retrotransposon protein [Cucumis melo var. makuwa][more]
TYK22240.13.4e-3247.44Ty3/gypsy retrotransposon protein [Cucumis melo var. makuwa][more]
KAA0056478.15.8e-3248.05transposon Tf2-1 polyprotein isoform X1 [Cucumis melo var. makuwa] >TYK29049.1 t... [more]
BLAST of Tan0021193 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A5A7UJK09.7e-3345.75Ty3/gypsy retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E567... [more]
A0A5A7V5U61.7e-3247.44Ty3/gypsy retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C2... [more]
A0A5D3E1V91.7e-3247.44Ty3/gypsy retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E567... [more]
A0A5D3DFT11.7e-3247.44Ty3/gypsy retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E567... [more]
A0A5A7UN052.8e-3248.05Transposon Tf2-1 polyprotein isoform X1 OS=Cucumis melo var. makuwa OX=1194695 G... [more]
BLAST of Tan0021193 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 availableGENE3D3.10.10.10HIV Type 1 Reverse Transcriptase, subunit A, domain 1coord: 100..161
e-value: 5.3E-7
score: 31.7
NoneNo IPR availablePANTHERPTHR34482DNA DAMAGE-INDUCIBLE PROTEIN 1-LIKEcoord: 1..152
NoneNo IPR availablePANTHERPTHR34482:SF20SUBFAMILY NOT NAMEDcoord: 1..152
IPR043502DNA/RNA polymerase superfamilySUPERFAMILY56672DNA/RNA polymerasescoord: 90..154

Relationships

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

Feature NameUnique NameType
Tan0021193.1Tan0021193.1mRNA
Tan0021193.2Tan0021193.2mRNA
Tan0021193.3Tan0021193.3mRNA
Tan0021193.4Tan0021193.4mRNA
Tan0021193.5Tan0021193.5mRNA
Tan0021193.6Tan0021193.6mRNA