Tan0006864 (gene) Snake gourd v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CCGACGGAAGGAAACCGGACGTGAACTTGAAGGCACAATGTCGGGAAGATGGAGGCGAAGTAAGAGACCCATGGCTCAGGCCGACGCTCACGCTCGTATTCCTCCACTGCTTCCACTTAGCACATCTCGGAGAGGTCTTTCAAATGCCATTTCTTGCTGGTATTGCGATTGTAAGATCACCTCGTTCAACGAACCCATTTTCCATTTTGGACGAAGACATGCCAGGTTTCTCTTTCAATTTTCACTCTCTGTTGTGGTCTAGCTGTTCATGGAGTTCTTTATTTTTGTTTTTACTGTTTGTTCAGCTGTATCAATCATCTTTTTTCTTTTCCTACTGGACTGGGTTGATGCCAAATTGTTTGTTTATGTATTTTAAATTTGTGTAAAACATTGCAGGGTTCTGAGAGCATGGTTCTCGACTGGGATTGGTTTTTCTCTTGCCGCTCTTGCTGCTGTTACCACGGTTTTAGCCGACGCTTTCTCTTTGTTGTTTATTGTCATTTTTTAAAATTTTCTTCTTTTCCACTTTGTTCTTGTTTTGTTTTATCAACTTTAGAGGTGAGTTAAAATCAAGCCGTTTTCATCTGAGTTATTTCAAACCAACTGATAGGGTGGGCTTTAAAACTTGACCTAGTAAAACCTAATTGCTCAAGGAAATGGCAGTGAGAGATAGGTCTACAGGTTATTAAACCACCTCATTATTGACTTTTTTCTGAGGGGAAGTGTCGATTAATTTCATCATATTTTATCTTATCATGATTCAATAGGTTTTTTTGCAGTACCTATTCCAACTTGATTGTCACACATCATCTATATTGGTGATAAACAATTTTTTTAATTCACTTACAACTCTCTTGATCCATATGCCTTCACATATACCATGAGCAAGCACTTTGAATTCTGCTTCTGCACTGCTTTTGGCAACCACATACTGATATTGTTTTTTACTTCTCCATGTTACAAGATTTCCTTTCCCCATACAAAAGAACAATAACTTGAGGTGAATTATCTATTTGTAATGTCCCTTGCCCAATCTGCATTGGAGTATACCTTAATGTCTTGTTGGTTTTTCCAAAAATAAGCCTCCTTCAAACATATGAGGATTTGGTATACAACTTGATTGAGGTGGATTTTCTATTTGTAATGCCCTCTGTTCAATCTGCATTAGAGTATAACTCAATATTTCTCTTGTCGGGTTTTCCAAAAACAATTCTTTTTTCGAAGTCATCTCCATTAGGTTATTTTAACTTGATTGTCACACATCATCTATATTGGTGATAAACAACTTTTTCCTAGTTCACTTAGAACTCTTTTGATTCATATGCCTTCATATATATTGTGAGCAAGCGCTTTGAATTATGCTTCTGCCCTGTTTTTGGCAACCACATACCTATATTTTATTTTTATTTTTTTTAAAATCGTAAACCAAGCTTTCATTGAGAAAAAATGAAAGAATACACGGGCATACAAAAAACAAGCCCACAAAAAAAGGGGAGCTTACAACAAAGCGCTTCACCCGAGCAAAATAAAGTCTAAAGGGTAATTACAAAAAGGTTTGACCACAGAGGCCCAGAGAGAAATATAGAATCTACTGAGGGCCCAAATATCAAAAGAGGAACGATTGACCCCTCGAAAGATTCTATTATTTCTCTGTCCCAAATACTCCAAAGAATAGCACAAACTCCAGCTCTCCACAACCCCTGAACCTGAGGGCGCAAAAGTAGCTCCAACATAACATCTCTGCAAACCTCCCCACACCTGGAGAAAGGAACCCCTAACTCACCGAAGAAGAGCCTCCACACCTCCTGAGCCACCTCGCACCTCCAAAATAAATGGTCAGTATCTTCAGCTGCCTTTTTACAAAGGATGCAACACCATGGCCCTGCCAAAGACGGCCATCTCCTCGAAACCCTCTCCAAAGTATTTACCCTTCCGTGAAGGACCTGCCAAGTAAAAAATCTTACCTTCTTTGGGATACACACCTTCCAAACTAAGGAAAAGACTGACGCCCCTGAGAAGCAGGAGGAGAAGAATTAACCAAGGACAGGAAAAAAGACCGACACGAGAACCCAACCGCCAAAGGCGAACATCATTCCTGTCCGAGCAACACCGAAGACCATCCAAAATAGAAAGGAGGGACAAGACGTCTGCCGTCTCCATACAAGATTTCCGTGTTACAAGATTTCCTTCTCCATACAAAAGAACAATAACTTGAGGTGAATTTTCTATTTGTAATGTCCCTTGCCCAATCTGCATTATAATATACCTCAATATTTCTCTTGTCGTGTTTTTTAAAAACAATCCTTTTTTTGAAGCCATCTTCAAATATACGAGGATTTGGTATACAACTTCCATATGTTCATCATCAGGATTGTGCTTTTCTTTTCTTTTTTTAAGAAACCGAGCTTTAAGTGAGAAAAAATGAAAGAATACAAGGCATACAAAAAAGGAGAGTCCACAAAAAAGGGGAGGCGACCTACAAGAAAGGTCTCCAGTCAAGCATAATAAGACCTAGTGTATAATTACAAAAAGCCATTATCACCGAAGCCCAAAGAGACATAGAATCTAATCAGGAACCACACATCACAAGGAGATCTCTCAAGCCCACAAAAGATTTTGTTGTTTCTCTCACCCTAAAGCCCCATTAGGATTGTGCATAAACGGACTAACCATGCTAATTGTGAACCCAATATCTTGATGGGTATGAAAAAGATAGATACGTTACCCTACAAAGCGTTGATATCTCCCCTTTCCACTATTGCGCTCTCATGATTTACTCTAGGTTTCTTTTGAGGGTCCATAGGAGAATCTGTTGGTTTGCATCCCAACATACCAGTTTCTTTGAGAGATCAAGTACATATTTCCTTTGGGACACAATTATGTCCTATGTAGATCAAACGACCTCCATTCCTAGAAAGTTTTTGAGATTTCCTAGATTATTGACTTTAAATTCCTGAGCCAAGTGATTCTTCAACTTCTATAATTCGAATTCATCATTCTCACAAAGAATGATATTATCAACATATACTATTAAAAGTGCAAGTAAAGCTTATGATCTCCTTTTTATAAACAAAGTGTGATTTGCTTGACACTATGAGTACCCAAGATCGAGAACAAAGGTTGCAAACCTACATAACCAAGCATGAAGAGATTGCACAAGTCCCTAAAGAGATTTCTCAAGTTCACACACCTTTCCCTGATCAAATCTCTCATTACACTGGGGAGGAATATCCATGTAAACTTCCTTTTCCAAATTTTTATAATCCTTATAGTGTTGAGTTAGTTTTGTTACTGGAATAAAAGTTTCATGATAGTCAATCCCATAAGATTGAGTGAATCCTCTAGCAACGAGTTTGACCTTCAATCTTTCAATGCTCCCATCTGCCTTATGATTGATTATAAAAATTTACTTGCATCCAACCATTCATTTTCCACTAGGAAAATTTGTCACTATCCACGTGCCATTTTTCTCAAGTGCTTCAATCTTATCTTCTACGACCTTTCTCCAGCCAGGATGCTTTAGTGCTTCATGGATGTTGATTGGTACTTGAACACTATCAATATGAGAAGCAAATGCTTGATAATGACTCAGATAGCCCATCACATTACACATAATTTCCTATAGCGTGAATAATTTAACTTTTTTGACCCATTTCCTTACTGCTGTTGGTGAGTCAGTTGGTGAGTCTGAATCATCAACGATAGGAATTACAACTTCATCTAACTCATCTTTACCCTCACTTATGGTTGTTCATTAGAAGTTCGAACTGGTTCAAATGATTGGGAGTGTTGGTCTACTTAGGACCTATTGTCTCAACCTGTTTGTTTCTCCTTGCGAAGATGAGGAGACTTTCACTAGCAAGTTGAGATATGCTATTTGGGTTTGTTTCTTGGTTGTGAGCTAGGAAGCACGAACACTTCAGATTTGGCTAAGTGTCGGTGTCGGACACGTGTCGGACACGGACACGTCCGGACACGTTCCGGACACGTGTCCGATACGCAGTTTTCGTGTCTTTTTTTTTTTTTTTTTAAATTTTCGGACACGCCAAGGACACGCTGAAGACACGTTGGGGACACGCTGCACGTTTAAAAGGGAAAAAAAACCATTGGGCCTAACTTGGCCCAACTTTATGTTAAAAATAAAAAGCAGCCAGCCCTAAAAAGAAAATAAAAAAACAGGCCTAAACAACACAAAACTAATCTGCCAGCCCTAAAAAAACTTGGCCCAACTTTATGTTAAAAATAAAGCCAGCCAATTTTCTAAAAAGAAATAAAAAACAGCCCTAAAAAAACAGCACGACTTTCACGGTTTCACCTCTCTTTCTCGTTTGCAATCGCACCAAACCAGTCTCAGCCCTCCAACATCTTCATTTCGGCGATCGCTTTGCCTGCTTCCGACGCCGGCGACTTCTGCTGCTGTTTCGTGAGCCGGCGAATGACTTTCTAACTTTCTAGTACTTTCATTTCTATTGTAATATTTTGTTGTATTCATATGTTGGATATTGAACTTCTTAGTATTGTCATTTATGGATTAATGAAGCACATATTATTTAATATATATACACATATGACATATATTACCTAAAAAAATAAAATAAAAAACGTGTCCGTGTCCGTGTCCTACATTTTTAGAAATTGGCGTGTCGCCATGTCCGTGTCGTGTCCGTGTCGTGTCCGTGTCCGTGTCCGTGTCCGTGTCCGTGCTTCTTAGGTTGTGAGGGACTAGATGAGCCACATGTATACTCAGTGAAGGTGAACTCGTATGAGGAAGGGGGATTAAGCGAGGTGAAGGATTAAGATTCAGTCCCAAATAAAAAGTCATAACTGATAACAATCAATTTTGGAATAAAATGAGGGATGTTGAAAGAAAGGGACATCCATGGTGACATATATCTGTTCAATATCAGAGTAGCACTTGTAACTTCGTTAATTGGGTGAGTATCCCAAGAATATGTATTTATTGGCACGTGGATCCAATTTACTACGATATTGGGAATGGATATGAGCAATACACCCAAAAACCTTAAGGACCAAACTAAAGGACTGTGTTTGAAAATGAGGAAAGGATTGAAGGAAAAGTTGACAATGGTTGGAGAAGCCAAGAACGTGAGAAGGGATTTGATTTATCAAGTAGGTGTTAGTGAGAAACTTTTCATTCCAATAGAGTTTTGGAACATTAGTAGAAAATATCATCAAGTGACTTCAAGTGCTAAGATGGAGAAGTCCGTGACCTCTGATAGGTAATCCCTAGGAGATGAACATGTGAAGGCTTCCATTTTGCTGTTTCCAGCTACTCCATTTTGTTGTGAGTTTTCCTTCATTCCATTCTTTCTTTGTCAAGTGAGCCCTTCTTCTTTGTGTTCTCCCATCTTTTCCATGCTTTGGAAAATCAAAATCTTAGAAGGTAAAAATTTATTGTTTGGTGGGTCCTCCATGGCAAGGTGTAAATACTCTGGATCATGTGCAGAGGTTTTCGCCTAATTTGATCGGGCCCCAATGTTGTATTCTCTGTAGGGAAGTGGTCGAGGATTTGGATCGTCTCTTGTGGTCTTGTCAGTTTACTAGATTGGTGTGGAGTGGCTTTTTTGGGTCGTTTAACTTCATATTGGCTTGGTAAGGAGTTGTAGTTCTATGTTGGAGGAGTTTCTTTTCCATTCTCCCTTTCATGAAAAAGGTTACCAGTTGTGGTTTGCTTGTCGTTGTGGGGAAATAACCCATAGGATTTTTAGAGGGGTTGAGAAACCTTTAGGTGAAGTGTGGTCTCTTGTTAGATAGCCTCTCTTTGGGTCTCCATATGTAAAGATTTTGTAATTGCCTTTTATGCCTTTTTTTTGGGCTCAACTGTTCTTAAATTAGTTGGTTTTTTTTTTTTTTTTTTTTTTTTGTATTCTTTCATTTTATCTCAATGAAAGCATGACTTTTCATATATATACAATGTATAAGCTCCAAGTTGATTCTTAAAAGAATTTCCACTTTGGACTCTGTTTTTATGGACAATAGAATTTGAAATAGACTTCCTATATGGACAAACTAACACCTGATTAGCTAGCAAGCTAAGAGAAAGTAATTTCTGCAATAATTTCTATCATTACAGATTTGCAGTGCACTATGTACTGTTGTTTTTCTAGGAAAGTAATTTCCTTTTCTTTTATTACTTCATGTTAGTAACAAGCTTAATTCTTTATTTTCCAGGTCCTCTTTATGGAACTTGCAATAGCCATGCATATTTTTGGCAATAACAATGTGCTCCGTGGTCTTCCTATTTCCTCTTCCTCCTTATTTGGTCTACCTCCGTTGGTCCATATACAATTCCTTTCAATATTTCGTTCCATTATTAGTTAAATGATCTCACACTTCAATTTCTCTGTGCCATACCTGCTTCTCATTACATTTTTTCTTCTGTACTAGATTTCCAGTAGTAGTTTTGCCCCTGCGGATGCTGGATACATAATTATCTCTACCTTAATATCTGTAGCTTTTCATGAATTTGGTCATGCTGCTGCTGCTGCAAGGTAGGATTCTTTCTACATCACCAATTCTAATTTTTGTTTCTTTTCAATTGGCATTTGTTAAACAGTGATTATATGTACTAATTTGTATCAGAAGCATTACCTGGAAAATTAGATGATCATTGTTTTAGATCTTAGAATGTAGTGAACTAGATTATCATTCTTTTCACTTGGGAAACTTTGGCAGTGAGGGCATAAAATTGGAGTATGTTGCTGTTTTTATTGCACTCCTTTTCCCTGGCGCTTTGGTGGCTTTCAATCATGATGCACTGCAGGATTCATCTTGCTTCAATGCTCTGCGTATCTACTGTGCTGGTATTTGGCACAATGCAGTTGTAAGATCAAATTATGTTACTTGTGTGCTGTTGATTTTTGTTTAATCTCCCATTCTAGCTCGGATCTAGGTCTGACTATAATTGCTTCAGTAGTTTCCTCCCTTCTAAGAGATATATCTGAGTGTACTATCTCTCTAGCTTTCTGCAGCTTCTGGATTGATATTGTTCTTCCTGCCGCTGATTCTGTTTCCTCTTTACATACATGGCGAAAGTCCCATGGTACCTCAACATTTTATATTCACATGCATAAAATTATTTCATAAATTCACATGGAAAGATTCTAACTTTCATTTTCTCCTCATGACTGATTCCTGTGAACTCTAATAGGTTCTGAACGTTCCTTTTACTTCGCCATTGTCTGGTTATTTGTCCCATGGTCATGTGATTTTGTCATTGGATGGCATTCACGTTCGAAGTGTAGATGATTGGATCAATCTCTCGACTCAAATAAGTGAATTAACATTTCAAAATGAAACCCTCTCCAGACTTGGTGAAAACAACCGAATGGCCAATGGCAGAAAGGAGTATTGTGTTCCAAATTTTATGTTGAAAGAAAGCAATAAAGTTCAGTTCACACATGATCGGTTAGCTTGTTTTGGCGACCTTACTTCTTTTACATCTATTCCTTGTGTTAGTTCCACTGCTTTAATTGATGGTGATGTGGAAGATAGCCATTCTAACCGCAAAGAAAGGATATATTGCTTGAATCCCAGTGATGTTATTAAGCTTGATAAATGCACTAGACAATGGGATAAATCCATAAGCAATGATAGCAATAGCACCTGTATGTGTTCACAGGTAACCACTTGATCTTTGGTGAGCATTATGCACTTTTGCAAGTTCTCTTTGTTTAAACCTGAATAATTGGACATATGCTCTGGCTTTAGCTTATCACTTTTTTCTTTGGAAAAAATTTAATCCACAGGATGAAACTTGCTTAAGTCCAGTCCATGTACCTGGTTTGGTATGGGTCGAGATTACATATTTGAACCCCCATTCCTCAGACTGTTTCTATTCCAGAGAGTATCTACTCCCAAGTTCAAATTGTAGTGGAACTTTCATTTTTGTTGGTGACGTGGTCTCAATGGCACGCTCTATTCAGCTGACCATGTATCGACCACGATTGGATTTTCATTTTGCTACATATCTTCCAGATGTACTGGAAAGGATTTTATTGTGCTTATTTCATGCCTCTCTTGCACTAGCTCTTCTCAACAGTTTTCCGGTTAGTTTTAATGCACCATTTTGTAAATTATTTCCATATTTACTTCATGGGGAAAACATCAAATAAAGTTTAGGGTTTAGTGTAGTTCTTCTAGTCTTGGGCTTTGCAGAATTTTTGTAAATATATCTGCTGTTAGGAATTTTGAAATTTTGTAAGTATTGTTGATGAAGTAATGGTGGTGGAGCCGAAAGCCTTATGGCACTATTTTTTAATTAATCTTTCAAAGTATTTACTGAATGGTGCTGAAGTTAACCTTTGTTTAGGGTCTCAAAGCTGTCTGGGTGATCTTTGCCCTAGTGGCACCCCTTTTTCTTAAGACATTCAGTTAAAGGTGATGCCTATGGTGCTGAATTCTTGAATGAACTTCCTGTAAAAGGATGCAAGCCCATGGAAACTTTGAACTTCCTTGACAAGGTGTTGGCCATTCATTTATCTTAAGAGGGTCAACTTTAATCCTATGTTCACCTATTATAAAACCTAAAAAAGACAAGTTTGGACACTCCGAAAATACATTTCTTCTAGCCTTGCGTTATGTGCCAAGATATCATGAAATAAACTACCACAAATTTTCTGAAAAGGGGATGTAAAACTTTGTTTATAAGGTGCATGAATGTACTAGGTGCATTAATAAGTCCAAATGATATTACAATCCACTCAAACAATTGCTCATTTGTTTTAAAGGTAGTTTTCCACTCATCTCCGGACCTTATAGAGATTTGGTGATTTCAAAGATTAATTTTAGATCACTCAAGTCTAAACCAACTAAACCAATGTCTACTTTCATCCTTTCCTACCCACCCTATGTATAAAAATTATCCTAACAACCTCCCTAACTAATTACTAATATACCCATAATACTCTAATAATATTCCTAATGCTATCCTAATAGCATTCCTATCAGTCGGTTAATTCTGGTGCATTCAATTTTGTAAAGTTTGCTTTTATTCTATTTTTCCCTTAAAGCGCCAGCTGGAATTATCAAAGAAATGGAGAAAGCTGACTAGGGACTTCTTCTGGGATGGTGGTACCATCTGAAAAGATGTAAAGGTTCTAGAGTTTCCCTCTCCTCAATCTTAAGTTTTTGTGAGGATTCCCAAGATCAACCAAGAATACTTGAAGTTTGATCTTTACAGCTCCTTTTCCTGCTTTTTCTGTTAGGTTAGAATAAATTATCACTCAATTTACATCTGTTCAATTGCTTTTGGAGCTGAGTCAATAATTAAAGCCCATATAAAATAATCATTATGATGGGCAAAGATGAAGTAAATTATTGAACTTTCTTTATGATTATTACTAATTGTGTATTTTTATAGGTATATTATTTGGATGGTGAATCTATTCTGGAGATAATTATTTTCCAGCTCACCTCAATGAGCCCGAGGAACAAGGAAAAAGTTCTTCGATCTTTTCTGATGGGAGGGACACTAATGTCAACCTTTTTACTGCTGAGGATTTTCTTCCACTTATTTGTCAGCTGATGGTAATCTGTAACAGTGGTTTTGGTTTATCTTTGAGCATAGTAGGTTGCCTACTAATTTCCAATTGCAGTGGTTGGTAAAGACTTTTTATTGTTTGTATATACATCTTAGAAATTTTTATACCAAGTCTAGGATTTTTCTTTTCTAGAAAGGATGGTGTCCAAGGTTTGGGATATATGCTTATTTAGGTTCATTAGATTTTTTCATAATAAACTTAATATTTTGAAATTTAGTATTATTATTTGTTGAGGGAAGATTTATTAACTCAGAAAGATGTAGATAAAAGAAGGATGTTAGATATTGTTAGGTAGTTATCGTACAAAAAGTCAGCGTCAATTGCTATTACATTTCTGATCACTATGGAGTCGTTTGGATTGAGGAGTTGGGGGAGTGGAGTTGGGAGGAGTTAATAACTCCCCCAACTCCTTGTTTGGCCCAAGGAGTTATTAACTCCTCCTTGTAGGTCTCACAGGTTTATTAACTCCTACTCCCCCAACTCCTCAATCCAAACGACCCCTATGAATTATCAATACTTTTAAGATAATTCGAGAAGTCAGGGCTCTCCAAATACAGCTTATATTCTGCACACCCTTCTCATCTGTCTGCTCTCATTGCATCAAATACAAACCCCGCTAACCATGGCTAACATCCAACTCCTCATTGCCTATCCAACCAATAGAAACAGAAGTAACTAACGGGAATAAACTTCCTTACTAGGAGGGGTAAAAAGGAAAGCACAACCCCTGAGAAGTATCCCTTGTATTTAGGGGAGGGTTGCATTTTGTTCTTTTTGAAGTATCCCCATTTTTGTGTATCTTTCAACGCCTAACAGTAGCAAGGTACCGAACAGCAGCCTAGATGTTACCTTATCAACTTAAGCAATACTATTTGAATTGAACTCAGTGAGACTCATCTTGTTCTATATTTCTGGAAAAAATTTTAACCAAATGAAGGAAATCTGATAGACTTGGCAAGCCTTCCTCTGGTTAAGTTTACATACGTTAGAAAGAAGGCACGGAGTGCGTAGTTAGTTAATTGATTCATCTCTTGCCTATTTCAACGTGATACATTACATAACACTCTTTCTATATCAACAATCATTTGTAAAATATATGTATGTATGTACGTATGTGTGTATGTATATCTCAATAGTCATATTAATTGGTATCATGACTTCCTCCTAGGTACCCTAAGTGGGAAGAAGATGGATAACATAATGGAAATCATGGAAGCTGTTGTAGCAAAGGAGCTGCAGAAAATTCTAGCGATGAGGAAGAGTTGTTGCCTTGTTGGTAGGAGTTCACCAACTGCTGAAGAGACGAGAGGTGACAGAGTGAATGCTTACAAAACATTTTGGTCTGAAAGGAAATGAGAATAGAATTTGTAGGTAGAGGTATTTTGATAGGAGGAGAGGTTAGAGAAGCCAAATAGACGAGGGAGGAGAAACTACCAGTAAATCAACAGTGGCAGAAGGGTGGAAAATTTATAGCCAGATCGAGCTGGACTCTAGACACAGCTTCTTCAATGATTGAGCCTACACTAAGAACCTGTTTGGGGTACAAGTTATAATAACTTAACTTATGTTATTATAACCGGTAGAATACTTTACACTCCAAACACAAACTACTATAATCCTAGGCTATACTATACTGTATTTTAAATAATATTATATGATTTCACAAATTATTATAACTCAC CCGACGGAAGGAAACCGGACGTGAACTTGAAGGCACAATGTCGGGAAGATGGAGGCGAAGTAAGAGACCCATGGCTCAGGCCGACGCTCACGCTCGTATTCCTCCACTGCTTCCACTTAGCACATCTCGGAGAGGTCTTTCAAATGCCATTTCTTGCTGGTATTGCGATTGTAAGATCACCTCGTTCAACGAACCCATTTTCCATTTTGGACGAAGACATGCCAGGGTTCTGAGAGCATGGTTCTCGACTGGGATTGGTTTTTCTCTTGCCGCTCTTGCTGCTGTTACCACGGTCCTCTTTATGGAACTTGCAATAGCCATGCATATTTTTGGCAATAACAATGTGCTCCGTGGTCTTCCTATTTCCTCTTCCTCCTTATTTGGTCTACCTCCGTTGATTTCCAGTAGTAGTTTTGCCCCTGCGGATGCTGGATACATAATTATCTCTACCTTAATATCTGTAGCTTTTCATGAATTTGGTCATGCTGCTGCTGCTGCAAGTGAGGGCATAAAATTGGAGTATGTTGCTGTTTTTATTGCACTCCTTTTCCCTGGCGCTTTGGTGGCTTTCAATCATGATGCACTGCAGGATTCATCTTGCTTCAATGCTCTGCGTATCTACTGTGCTGGTATTTGGCACAATGCAGTTCTTTCTGCAGCTTCTGGATTGATATTGTTCTTCCTGCCGCTGATTCTGTTTCCTCTTTACATACATGGCGAAAGTCCCATGGTTCTGAACGTTCCTTTTACTTCGCCATTGTCTGGTTATTTGTCCCATGGTCATGTGATTTTGTCATTGGATGGCATTCACGTTCGAAGTGTAGATGATTGGATCAATCTCTCGACTCAAATAAGTGAATTAACATTTCAAAATGAAACCCTCTCCAGACTTGGTGAAAACAACCGAATGGCCAATGGCAGAAAGGAGTATTGTGTTCCAAATTTTATGTTGAAAGAAAGCAATAAAGTTCAGTTCACACATGATCGGTTAGCTTGTTTTGGCGACCTTACTTCTTTTACATCTATTCCTTGTGTTAGTTCCACTGCTTTAATTGATGGTGATGTGGAAGATAGCCATTCTAACCGCAAAGAAAGGATATATTGCTTGAATCCCAGTGATGTTATTAAGCTTGATAAATGCACTAGACAATGGGATAAATCCATAAGCAATGATAGCAATAGCACCTGTATGTGTTCACAGGATGAAACTTGCTTAAGTCCAGTCCATGTACCTGGTTTGGTATGGGTCGAGATTACATATTTGAACCCCCATTCCTCAGACTGTTTCTATTCCAGAGAGTATCTACTCCCAAGTTCAAATTGTAGTGGAACTTTCATTTTTGTTGGTGACGTGGTCTCAATGGCACGCTCTATTCAGCTGACCATGTATCGACCACGATTGGATTTTCATTTTGCTACATATCTTCCAGATGTACTGGAAAGGATTTTATTGTGCTTATTTCATGCCTCTCTTGCACTAGCTCTTCTCAACAGTTTTCCGGTATATTATTTGGATGGTGAATCTATTCTGGAGATAATTATTTTCCAGCTCACCTCAATGAGCCCGAGGAACAAGGAAAAAGTTCTTCGATCTTTTCTGATGGGAGGGACACTAATGTCAACCTTTTTACTGCTGAGGATTTTCTTCCACTTATTTGTCAGCTGATGGTAATCTGTAACAGTGGTTTTGGTTTATCTTTGAGCATAGTAGGTTGCCTACTAATTTCCAATTGCAGTGGTACCCTAAGTGGGAAGAAGATGGATAACATAATGGAAATCATGGAAGCTGTTGTAGCAAAGGAGCTGCAGAAAATTCTAGCGATGAGGAAGAGTTGTTGCCTTGTTGGTAGGAGTTCACCAACTGCTGAAGAGACGAGAGGTGACAGAGTGAATGCTTACAAAACATTTTGGTCTGAAAGGAAATGAGAATAGAATTTGTAGGTAGAGGTATTTTGATAGGAGGAGAGGTTAGAGAAGCCAAATAGACGAGGGAGGAGAAACTACCAGTAAATCAACAGTGGCAGAAGGGTGGAAAATTTATAGCCAGATCGAGCTGGACTCTAGACACAGCTTCTTCAATGATTGAGCCTACACTAAGAACCTGTTTGGGGTACAAGTTATAATAACTTAACTTATGTTATTATAACCGGTAGAATACTTTACACTCCAAACACAAACTACTATAATCCTAGGCTATACTATACTGTATTTTAAATAATATTATATGATTTCACAAATTATTATAACTCAC ATGTCGGGAAGATGGAGGCGAAGTAAGAGACCCATGGCTCAGGCCGACGCTCACGCTCGTATTCCTCCACTGCTTCCACTTAGCACATCTCGGAGAGGTCTTTCAAATGCCATTTCTTGCTGGTATTGCGATTGTAAGATCACCTCGTTCAACGAACCCATTTTCCATTTTGGACGAAGACATGCCAGGGTTCTGAGAGCATGGTTCTCGACTGGGATTGGTTTTTCTCTTGCCGCTCTTGCTGCTGTTACCACGGTCCTCTTTATGGAACTTGCAATAGCCATGCATATTTTTGGCAATAACAATGTGCTCCGTGGTCTTCCTATTTCCTCTTCCTCCTTATTTGGTCTACCTCCGTTGATTTCCAGTAGTAGTTTTGCCCCTGCGGATGCTGGATACATAATTATCTCTACCTTAATATCTGTAGCTTTTCATGAATTTGGTCATGCTGCTGCTGCTGCAAGTGAGGGCATAAAATTGGAGTATGTTGCTGTTTTTATTGCACTCCTTTTCCCTGGCGCTTTGGTGGCTTTCAATCATGATGCACTGCAGGATTCATCTTGCTTCAATGCTCTGCGTATCTACTGTGCTGGTATTTGGCACAATGCAGTTCTTTCTGCAGCTTCTGGATTGATATTGTTCTTCCTGCCGCTGATTCTGTTTCCTCTTTACATACATGGCGAAAGTCCCATGGTTCTGAACGTTCCTTTTACTTCGCCATTGTCTGGTTATTTGTCCCATGGTCATGTGATTTTGTCATTGGATGGCATTCACGTTCGAAGTGTAGATGATTGGATCAATCTCTCGACTCAAATAAGTGAATTAACATTTCAAAATGAAACCCTCTCCAGACTTGGTGAAAACAACCGAATGGCCAATGGCAGAAAGGAGTATTGTGTTCCAAATTTTATGTTGAAAGAAAGCAATAAAGTTCAGTTCACACATGATCGGTTAGCTTGTTTTGGCGACCTTACTTCTTTTACATCTATTCCTTGTGTTAGTTCCACTGCTTTAATTGATGGTGATGTGGAAGATAGCCATTCTAACCGCAAAGAAAGGATATATTGCTTGAATCCCAGTGATGTTATTAAGCTTGATAAATGCACTAGACAATGGGATAAATCCATAAGCAATGATAGCAATAGCACCTGTATGTGTTCACAGGATGAAACTTGCTTAAGTCCAGTCCATGTACCTGGTTTGGTATGGGTCGAGATTACATATTTGAACCCCCATTCCTCAGACTGTTTCTATTCCAGAGAGTATCTACTCCCAAGTTCAAATTGTAGTGGAACTTTCATTTTTGTTGGTGACGTGGTCTCAATGGCACGCTCTATTCAGCTGACCATGTATCGACCACGATTGGATTTTCATTTTGCTACATATCTTCCAGATGTACTGGAAAGGATTTTATTGTGCTTATTTCATGCCTCTCTTGCACTAGCTCTTCTCAACAGTTTTCCGGTATATTATTTGGATGGTGAATCTATTCTGGAGATAATTATTTTCCAGCTCACCTCAATGAGCCCGAGGAACAAGGAAAAAGTTCTTCGATCTTTTCTGATGGGAGGGACACTAATGTCAACCTTTTTACTGCTGAGGATTTTCTTCCACTTATTTGTCAGCTGA MSGRWRRSKRPMAQADAHARIPPLLPLSTSRRGLSNAISCWYCDCKITSFNEPIFHFGRRHARVLRAWFSTGIGFSLAALAAVTTVLFMELAIAMHIFGNNNVLRGLPISSSSLFGLPPLISSSSFAPADAGYIIISTLISVAFHEFGHAAAAASEGIKLEYVAVFIALLFPGALVAFNHDALQDSSCFNALRIYCAGIWHNAVLSAASGLILFFLPLILFPLYIHGESPMVLNVPFTSPLSGYLSHGHVILSLDGIHVRSVDDWINLSTQISELTFQNETLSRLGENNRMANGRKEYCVPNFMLKESNKVQFTHDRLACFGDLTSFTSIPCVSSTALIDGDVEDSHSNRKERIYCLNPSDVIKLDKCTRQWDKSISNDSNSTCMCSQDETCLSPVHVPGLVWVEITYLNPHSSDCFYSREYLLPSSNCSGTFIFVGDVVSMARSIQLTMYRPRLDFHFATYLPDVLERILLCLFHASLALALLNSFPVYYLDGESILEIIIFQLTSMSPRNKEKVLRSFLMGGTLMSTFLLLRIFFHLFVS Homology
BLAST of Tan0006864 vs. ExPASy Swiss-Prot
Match: F4JUU5 (Membrane-bound transcription factor site-2 protease homolog OS=Arabidopsis thaliana OX=3702 GN=S2P PE=2 SV=2) HSP 1 Score: 415.6 bits (1067), Expect = 8.5e-115 Identity = 233/511 (45.60%), Postives = 316/511 (61.84%), Query Frame = 0
BLAST of Tan0006864 vs. ExPASy Swiss-Prot
Match: O54862 (Membrane-bound transcription factor site-2 protease OS=Cricetulus griseus OX=10029 GN=MBTPS2 PE=2 SV=1) HSP 1 Score: 118.6 bits (296), Expect = 2.2e-25 Identity = 134/512 (26.17%), Postives = 214/512 (41.80%), Query Frame = 0
BLAST of Tan0006864 vs. ExPASy Swiss-Prot
Match: Q8CHX6 (Membrane-bound transcription factor site-2 protease OS=Mus musculus OX=10090 GN=Mbtps2 PE=2 SV=1) HSP 1 Score: 117.1 bits (292), Expect = 6.3e-25 Identity = 135/514 (26.26%), Postives = 208/514 (40.47%), Query Frame = 0
BLAST of Tan0006864 vs. ExPASy Swiss-Prot
Match: Q5RAC8 (Membrane-bound transcription factor site-2 protease OS=Pongo abelii OX=9601 GN=MBTPS2 PE=2 SV=1) HSP 1 Score: 115.2 bits (287), Expect = 2.4e-24 Identity = 134/517 (25.92%), Postives = 211/517 (40.81%), Query Frame = 0
BLAST of Tan0006864 vs. ExPASy Swiss-Prot
Match: O43462 (Membrane-bound transcription factor site-2 protease OS=Homo sapiens OX=9606 GN=MBTPS2 PE=1 SV=1) HSP 1 Score: 114.8 bits (286), Expect = 3.1e-24 Identity = 134/515 (26.02%), Postives = 208/515 (40.39%), Query Frame = 0
BLAST of Tan0006864 vs. NCBI nr
Match: XP_022957694.1 (membrane-bound transcription factor site-2 protease homolog [Cucurbita moschata]) HSP 1 Score: 953.0 bits (2462), Expect = 1.1e-273 Identity = 473/542 (87.27%), Postives = 505/542 (93.17%), Query Frame = 0
BLAST of Tan0006864 vs. NCBI nr
Match: KAG6605818.1 (Membrane-bound transcription factor site-2 protease-like protein, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 949.1 bits (2452), Expect = 1.6e-272 Identity = 470/542 (86.72%), Postives = 504/542 (92.99%), Query Frame = 0
BLAST of Tan0006864 vs. NCBI nr
Match: XP_023534713.1 (membrane-bound transcription factor site-2 protease homolog [Cucurbita pepo subsp. pepo]) HSP 1 Score: 946.8 bits (2446), Expect = 8.1e-272 Identity = 472/542 (87.08%), Postives = 503/542 (92.80%), Query Frame = 0
BLAST of Tan0006864 vs. NCBI nr
Match: XP_022995357.1 (membrane-bound transcription factor site-2 protease homolog [Cucurbita maxima]) HSP 1 Score: 944.9 bits (2441), Expect = 3.1e-271 Identity = 469/542 (86.53%), Postives = 503/542 (92.80%), Query Frame = 0
BLAST of Tan0006864 vs. NCBI nr
Match: XP_004145951.1 (membrane-bound transcription factor site-2 protease homolog isoform X1 [Cucumis sativus] >KGN49826.1 hypothetical protein Csa_000136 [Cucumis sativus]) HSP 1 Score: 906.4 bits (2341), Expect = 1.2e-259 Identity = 457/542 (84.32%), Postives = 488/542 (90.04%), Query Frame = 0
BLAST of Tan0006864 vs. ExPASy TrEMBL
Match: A0A6J1H2Q0 (Endopeptidase S2P OS=Cucurbita moschata OX=3662 GN=LOC111459160 PE=4 SV=1) HSP 1 Score: 953.0 bits (2462), Expect = 5.5e-274 Identity = 473/542 (87.27%), Postives = 505/542 (93.17%), Query Frame = 0
BLAST of Tan0006864 vs. ExPASy TrEMBL
Match: A0A6J1JYM6 (Endopeptidase S2P OS=Cucurbita maxima OX=3661 GN=LOC111490932 PE=4 SV=1) HSP 1 Score: 944.9 bits (2441), Expect = 1.5e-271 Identity = 469/542 (86.53%), Postives = 503/542 (92.80%), Query Frame = 0
BLAST of Tan0006864 vs. ExPASy TrEMBL
Match: A0A0A0KQ25 (Endopeptidase S2P OS=Cucumis sativus OX=3659 GN=Csa_5G139060 PE=4 SV=1) HSP 1 Score: 906.4 bits (2341), Expect = 5.9e-260 Identity = 457/542 (84.32%), Postives = 488/542 (90.04%), Query Frame = 0
BLAST of Tan0006864 vs. ExPASy TrEMBL
Match: A0A1S3AV46 (Endopeptidase S2P OS=Cucumis melo OX=3656 GN=LOC103482997 PE=4 SV=1) HSP 1 Score: 904.8 bits (2337), Expect = 1.7e-259 Identity = 454/542 (83.76%), Postives = 487/542 (89.85%), Query Frame = 0
BLAST of Tan0006864 vs. ExPASy TrEMBL
Match: A0A1S3AUN7 (Endopeptidase S2P OS=Cucumis melo OX=3656 GN=LOC103482997 PE=4 SV=1) HSP 1 Score: 892.5 bits (2305), Expect = 8.8e-256 Identity = 451/542 (83.21%), Postives = 484/542 (89.30%), Query Frame = 0
BLAST of Tan0006864 vs. TAIR 10
Match: AT4G20310.2 (Peptidase M50 family protein ) HSP 1 Score: 380.9 bits (977), Expect = 1.7e-105 Identity = 219/510 (42.94%), Postives = 297/510 (58.24%), Query Frame = 0
BLAST of Tan0006864 vs. TAIR 10
Match: AT4G20310.3 (Peptidase M50 family protein ) HSP 1 Score: 320.9 bits (821), Expect = 2.0e-87 Identity = 178/380 (46.84%), Postives = 236/380 (62.11%), Query Frame = 0
BLAST of Tan0006864 vs. TAIR 10
Match: AT4G20310.1 (Peptidase M50 family protein ) HSP 1 Score: 279.6 bits (714), Expect = 5.2e-75 Identity = 156/361 (43.21%), Postives = 217/361 (60.11%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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