CmaCh14G019250 (gene) Cucurbita maxima (Rimu) v1.1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.TTATAATTTTTCGTTCCATTTTTCTCTATAATATTCGAGAAATTTCGAAGGAATTGAAGTTCGTTTTCCTTAAGAAACTCGTCAATCATTTGACTTCCACAACTTTCCTCTTCCGCCATTCTTACTGTTTTTGGCGCTTAAGCGGCTCGATTTGGCATTGTTTTTTTTTTTTTCTCTCGCACCTGCAAAAGAATTGGAGCACGAGATCGCTACTTTTTTATTGGACAACATTGGGTACTTCGTTAACTGTTCATTTTACTGTTAATTAATGTATTTTTGTTCGATTTTTTTTTATTTATTATTTTGTAGTTTTTATTTAAATTTGATGTTTCTCGATAGCCTGGGATTTTTCTCTTAGAAGCCGAATTCCAGGATTCGAATCAGTACCTTTGTGAAAATACAATATGATTTGTTTGTTTTTGTCGCGGTTTTGTGTTTTACTCACGTGAAGATGGATCTGATATGGACTTTGTTTATGGATATATAATTTCTCTGGTTTGGACTGATAAAATGAGATATGTACGTATGAATTTGATTGGCCTTCTGATCTTTTGATATCCGGTTGCTGAGTTGAATCAGGCATTTGAGTTCTTCTTTAGAATTGTTAAAAATTCAACCGTTGTTTGTTATTTCCAATCCCAGCTTGTAACTGTTATTGGTTTGTTTATCCCTCTTGTTTACTGTGCTTCCTTGACCTGTGGTCAACATTATGAGTATTTCGTTTCTCATATGGTTAATGATTCATCAAAATGCCCAGAATTTTGTTTTACTATTGAACATTCTCCACTAGTATTTCATTAAATTCTTTTGGACTTCATTTCTTCATGAGAAGGGGTTTAAGATGGTGAGGAATAATTAGTGCAGTGTCATTCAAACCCTTTTCAATTGGGGACTAGGAATTTGTCTTCTTTTGTGCTCTAGACTTTTGGTTTTTCCCCATCTTTTAGAATTAGGTGTTCCCCCTTTCACATATGCTCTATAATTTTAATATGACATCTGTGAGATCTCACATCAGGTGGAGAGGGGAATGAAACATTCTTTCTAAGGGTGTAGAAACCTCTCCTTAGCAGCTGCATTTTAAAAACCTTGAGAGAAAGCCCGAAAGGGAAATGCCAAAGAGGACAATATCTGCTAGCGGTGAGCTTGGACCGTTACAAATAGTATCAGAGTCATACACCAGGCGGTGTGCCAGCGAGGACACTGGGCCCCGAAGGGAGGTGGATTGTGAGATTCCATATTGGTTGGAGAGGAGAACAAAACATTCTTTATAAGGGTGTGGAAACCTCATCCTAGCAGATGTGTTTTAAAAACCTTAAGGGGAAGCTTGAAAGGGAAAACCCGAAGAAGACAATACCTGCTAGCGGTGGGCTTGGGTCATTACAACATCAGTTGCAATAATCTGAGTGGAAGTACACGCTTCTTCTGAACTGTCTAGCATGCAAGAGCTACATTTTTTTAGTGAAAATATGTCTGTATATATATGTATTTTTCAGTTGTTTTAATGTGTTGTAGTATTTCACTGTCCATCATTCTGAATTGACGGACATACCCTACATTTGATGCATGGTAATCATCATCTTATGAACAAAAGTTGTATGAATAAATCGTGGAATGTTTCCATCTACGGTGAATGGACATCAAATGATGTAGAGTGCAAGATTCTATCATGATGGACAATGTTAGTGCTGATGCAATCAGAAGTTGCCGAAGTGAAGAACTTGAATTTCCAAGCTGATGTCGACTACTCATAGCTCTTTGCAGGGGCATAATGATAATGGGGTTCACACTGCAAGATCCCATCTAAAAAAAGGTGACAACTCGAACTACTTTCATGGTAGGATTGCATTTTTTTTCTCTCTAAAATCAATGCAGGTTGGTTAAAGTCGGCACTGAAAATAATAGTGTGGTTTAGTTCTGGATAGGTTTTTTCTTGTTATTTTTTAGTTGTCTTGACCTAGTCTCAACTGATAATTTAAGGAGGAGCAAACAGGGAAGTTAGTTTGGTTAATGGCTGAAATAACAGCTGCATTGTGTATATCGTTATCATCATCCTCCACTAAGTTCTAAACTAACACAATTATTTGTGTAGGCACCTTTGAAAGATCTCTTGCTTCAAATGATCTGAGAAGAGTTGTGAATGCCAATAGTCATCAAGACCAAGAAGCTATGGTATGGCCTTCTATGTACAATTTGCTCAGGTCTTAATTTTTTAAGCTGTCTGCAACATCTTAGAGATCTTGAAGTTGTACATAGGAACTGTCGTCAAGGGTAAGAGCACAGGAAGGGGAGATCCAGCTTCTTCGTCAACAAATTTCAGTTGCTTGTTTGAAGGTATAAATTGCTTAGATGACTCTAGGTTCATGTGATATTGATGGTTCACTTATTTCAACATCTGTTATACCTTACACAACAAGTCTCTGTGGTGAAAGGAATTACGACTGTTGAATGAGAAATATGCACTGGAGAGGAAATTTTCAGATATAAGAATGGTTTGTCTTTGTTCTTGGATATGGTTGTGTGGGCTACTGTTTTCATCTTTCTCCTAATCAAGTGGTTTCTTTGCGGTATGATTCGGATAACACAATTATTTTTCTCATTTTGTAACAGGCAGTTGATGAGAAGCAAACTGAAGCTATTAATTCTGCCTTCAATGAGTTGGGATACAGAAAAGGGGATCTGGAAGTGAACTTAAAATTGACTAATGAAGTGAAGGTATGTTTTTAGATTCTTTCCCAGGTCATTTTCATCTATTACCTTGTATGGAACTTGTCTGCGTACTGTAATCAGTCTCTCCAATCTGACAGGCTGTATATTTTTGGGCGCATGATGGTAAAATGAAACCCTTAATAAGTAATAATTCATTGACCAAAAAGAGGGAAGATATAAAAATATCAACCCAAAGAAGAAAAAAGAAAAAGCTTCTAGTTCATATTCATCATACAGGGGAGCAATGAAAAAATAAAAGAGAAAAAATAAAAGAAGCTCTTTTGGTCCCTAAAGTTCGGTTTGGTATCATTTAGGTGCTAGAGGGTTGGTTTGACAGCATTTAGGTTCTTGAGTTTTCAAACTCAACAATTTAGCTTTGAGTTTTAGATTTAGTAATATTCTTGGTCCCTCAGTTAGTTTTTCCATTAATTATTAGTGGAAAGCCAACATGATACCTTATATTTTTTTTCTTCTAATTTTAATTATTAAATAAAAAAACTTTTTAATATCTTTCTCCCTCCCTCCCTCCTAATCTTCTCCCCCTCATGGTTGCCATAACCATCAGCCGCCTTTCGCTGCCATTGTCTGTTGTCGACCATTGCTATTGTCTGCTTCTCCTTCTTTCTTCTTCTTTTCTTTTCCGTTCCTCCTCCTTTCTCAACTTTCTTTTAGGTGGACGATGGTAGTAGTCAACAATGACAGACGCTGGAAGCGAATGGTGACTTGTGGCGATGACAGCTATGAGAAGGAGAAGGTTTGGAGGAGGGATGGAGAAAGAAAAGAAGAAGAAGAAGATGGAGAAAAAGAATATAAGTATTAAAAAAATTTATATAATATAACTTTAATAATTAAAAAATTTTAAAAAATATTTTTATTAAAATTATTGGTTAGTAACTCATGGAAAAACTAACAGAGTGACAAAAAATGCTACTAAATCCAATACTCGGGTTAAATTGTTGAGTTTGAAAACTAAGGGACCTAAATACCACTAAACTCAAGCCTCTTGGACTAAGTATATTTTTTCAAAAAATAAAATAAAAATAGGTTGTTAGTATCTTAAATCCGCTTATGCTAACAATCTTGAGTGGTTTCATTCTCAATAGGCTGTGGATGATGAGAGATATCACTACACGTCATCATTGCTTGGGCTTTTGGAAGAGTACGGTATTTGGCCTCATGTCATAAATGCCTCTGTTATAACTAACAGTGTGAAGGTAAATTCTGTGCATATAAAGCTTGTGACTAATTCTGACTTCTGCAATTCATCTATCTTGCTAATATCCTTATTCCAAACGGATTCCTTGAAATAAATTTGTTTGAAATCTTGAAGCGGAATGCATGAAATTCATGTGCTCACTCAGTGGCGTTAATCTGTCTTTGGACCTAATTAAAGAATGCTCCCAAGTCAAAATTAGTTTATTCTGTGAGTGTGTGTTTGATGGCAGAGGAGTAGTGTGTAATGTGTACTCACTGGCCAATTTGATCGATTAGTTTGTGTAACATATTGCAACATCTTTTATACTCGTAGGTAGTTGTGGGCATTTTGTGGGGTTTTTTTTTTGTATGTACTTGTAAAATCTGTTTCTTATAAAACAAAAGATTAGGAGAATATATATATATATATTTTTTTTTTTGTAATACTTTCTTCCTTCTCTTTCATTTTGCGTCACCTCTTATTTTTCCTCAAATTTTTGTAGCTTCTTCATGATCAGTTGCAGTGGAAGATCAGAACTTCTTATGTAAGCTTATTAATATTGAAATTTGTTGCTTTTCCTTCAGTTATAAGTTGCCCAACCAAGATAGTAAAACGTCTGCTGTATATGATTGCAACTTCATCTACTAGCATTTATTTTGTTATTGCTTCATTTATTTATTCTCCATTAAATGTTCAAATCTTTTCTCTACAATGTTGTAATGGCAAATTTGTGTCAAATGGATTGAGAAACAACAGAATATTTAATGATGGGAGAAAATGTTGATAGTACAAAATTTCACTGCTCTTCCATTGAAAAAAAAAAAAAAAAATTATTTTTTATGAAATAACATGAAAATTTTTAAACTTTCATCCAATTACATTAACGTTTTACTGAACTGCCTTCTTGTTAAGCCAGACATTCAACTTTGCCAAATGCCCTTTTTTTTTCACTAAGATTTTAGCTTGGAAAAATGTATAAATGTTTTTCGGACCAATTTTCTTAAAGCCAGAAATGCAATGTTGTCAACAGCTCTACTTTTCGTCCTCCATTTTTTTTTTCTTTTTAGCAATGTCATTGTCTCTCATAATAACTGTCAGTTGAAACTAATAAATTACTGTAATAAAAGTTGTGCTTCTTTTCATCACAGGAAAAAATTGGAGAACAATCATCGCTTGCTGATAATCATTTGAAGAGGGGGTTTAATCCATACCAAAAAAGAGAGAGTACTGATTTTAAGTTCGTTGAAAGTGGATATCAATATCAAAAGAGAGAGATTACTGATATGGGGACTTCAAAATACCAACTTCATCCGAAAGCTGAGGTAGGGTTACTCTTTACTTCCTTGGCTACTATGTTTTCCTTTTGCTTTTACAAATATCCCACTCATTTAGTTCTCATCCCTGTTGCATGCAGCATTTGAGAACAACTGAAGATGTGTTTACATCTAGGATACAAAATAATATTCCAGGATCAGCAGACTTTAGTCTAAGACCTAATATGTACCAACCTGTCAGCAACGACAATTCTCCAGACCCTTTCTTCAATGCTGGCAGGTATGACATTCTAAATTCTGGTGTGGATGCCTTGAGTTAGACTAACACTAGCGGTACGCAATCAACCCAATCAAACTCTGAATTGGGTTTGATCTATATAAATAAAAATTTCATGGGTTGGGTTAGTTTATGGATTCACCTTAAATTAGTTTTGTTGAATGAAACCATTTGGGCTTATTGTTAACTAATTTTTTTTTTTTTTTTTTTTACTAAGAATAAAATTATGTATGTATATTATTTTAATTTCATTGAACGAATATTTTTGGAGATTGGCATTTTATGTTTTTTTTTACAACAAAGGTATTAGTTAATAACCAAAATAATCCGAATCTAACCCAACTGAATTATTTTATGATTGGGTTGGATTGGGTTCATAATTCGCTAATAGTTCTTTGAGTTGAAGGAATATAAATCCCAAACAATTAGGTTTGGTCTAAAAGGCATTTCAACCTTCCTAGCCTATCCATGGACACTCGTGCAATTATGCAACTGACAACCAATCATAAATTTAGTGTCTTAAAATTAAGTCAAAAATGCACCTAGGGTACTCGAGCAACATATCTTAAAGTGAGCATCATAATGGTATGACAATCACTTGGCCAGCTAACGTGAAATATAGTGCCTCTCGGCTCCATGCTAAAACACTCATTGTTATGGAAGTGTTACAAAAATTTGTGGTCACTTTTTTAATGTATACAAAATGTTTTATTTTTTAAAAGTACCTATTGAAATTTATGCCAAACAATTTTCACGTGGAACAACTATAAGCCTGCCTATAAGACTTGAAGAGTTTTCTTGAACTCATTTTGTTTTTTCTTCTTTCTTTCTTTTTCTTTTCCTTGCCCATTTTCATTGAACCGTTCATTTTATTTATCCTAGATTTAGAGTATCCTTTTTTCTTTTTTTTTTTACTATGCAGCCATGTTTGTTTGATTTCAACTGAAAACCTGTTGTTACAAAACTATATTACCTTTCAGTTTGAATTTAGTTGTTAGCATAGAAGTATGATGCAATGTACAAACACCTTTATAAAAAAGTTGTGATTCCTGCACTACCTTATGGACGTCCTCCTTTATCTCTCAACTATAAAAACATATTATCTTAGGGAGATGCCTGGTGCTTTTCCCACTCCAGTTGATGACGATGCTGTAGACTTGCAATTTTATACAACTGATGAGAGATATAACCACCCTGTAATGGTTGGTGAGTTCTCCATTTCTCTTAGAAGGTGATCAATGCACGACACATTAATCAGTACTTAGACATGAATACTCACATGAAGTTTTAATTAGAGGGACCTAGCATTGAGAATTTTCAAATAGTTGGCGAGGCCACACCAGGGAGCAAACTTCTTGCATGCGGATATCCTACTCGAGGCACTTCTCTCTGTATATTTCAGGTGACATGATCTGCTATCATTTAAATAAAGGTCAACATATATTTTAGAATACATATGGAATGTTCATGAATCAACGATATGAATTTGTGTCAGTGGATTTGGCATCTTGAGGATGGCACAAGGCAGTATGTTGAAGGTAATGGAAATGAGTTCAGCTTTGCAGGATTCATCTGATGACCTTTTTACGTTTATTTCTTCTTTTTTTCCCCTTTTTCTTTTTGGATAGGAAGAAAACTTTATTATTGAACTGAAAAATATTCAACATAATATGAGTAGGGTAAGACACCACAAAATAAATGAAAAACAATGATAAAAGATAGCTCCAGCTACCTTGTAAAAAAAATTTAGAACTCAAGGATATAATTTTACAACCTATAGAACAGATAATGTTTGAGTAGGTTGTATCTACCACGTAAAATCTGAACAAATAAAATGTTCATATTCTAATAATTAAGCATATGATTTGACTTTATTGTAAACTGAAAAATATCTTCTTGTTCTTATCATCTGAAGTCCTGAAACACAGTTGAATCACATAGTTCCAGAACAGCACTCTAGTCTTTCTGTCCTTTTTATTGACACTCTTTGTTACTAGTTACTTCTAGAAAAATTTCTGATCTTTGAATGGTATTTTTGATTTAGGAGCTACAAATCCAGAATATGTTGTTGGAGCTGGATGTTGATAAACTACTTGCTGTTGAGTGCATACCAATGGATGAAAAAGGCCATCAGGTTAAAACTTCGAATTGTGAAGAAATTTTATTTTTACATGCTATTAATATTTGAAATTAAGAAAGGCCATCCAGTTTTCTTCTAGGATCGTGCATTTATTTTTGACTTCTTATCTTATCGTATTTAACTTGAAGTAGTTCTCTTTCAAGTTTCCTCCTTTCCTGATCCCTATCACTTTCTGTGAAAACCTTTGTGATTTATTATGATTAGACGGTCTTCCTGTTCTTTACTCTAAATTCTTTTCCAATCATCAGGGGGAGCTGGTCAAGCTTTTTGCTAATGATCAGCACAAAATAAAATGTGGTAAGTTGATTAAAATTTTAAAAACATCAATCTAAGTTGTGACCCTGCATGTATCTACTTGAGGTTGCTAAATTAATTGCTTCCCTGGACTATAGTGCCTGCGTATTTTAGCAAAATCATGCTTAATGAGATGTTTGCTATGTGGTTGCCTCGAGTCTGAATTGAATTTTACAACAGTGTGTTTATCTGCACCTCCGAGAGAAGAATGTGATGGAAGGTTGGAACAAGTTCTTCGTGGGCCGAAAGATCATTACTCTAAGATAAATATATACATTTTTCTTAAAAGCCTTGCCTTTGGATAACAACAAATGTTTAAACTATCACGTTATCTTGTATAAATTATTTTGATTCGTTGGTTGGTTAACGTTGTTATATTTCAGCTATTTTATTGTGCATCCCGAGCTTTCTAATTAGTTATGTTATAGATCCGGACATGCAACTGGAGATTGACACGTATCTTTCAAAGGGTCAAGCCACGTTTACTGTTCTTTTACTGGTAGGTTTATCTGATATAAGTAAATCTTCTAGAAAATTTCATTCCTTGTGGTTGTACTTATTTCTTAGTCCTATACTGAGTAAATCAAATCTAACTTCAAATTTATCATTTTGTCAGATTGAGCCCTTTACTAAAAACTCTGTGTGAAATTAATATCATCCATTTTCTGGTTTCCATTTTCTAGAAGATTTGTAACTAGTTGTTGACATTCTAGTGGTTTTATGAGTTAGTTTTTCTTTTTTGTTTATTTTGCATAGTCCTTTTCTAGTTACCTTGTATGCTTTTTGGTAGATTTGGACATATTGAAGTTGAATGTAGATGGTTCTTTTACCTACTTGATTTTGTGCCTTCTTTTTTTCTTTTTGTTGGTTTGGCCATTTTTGTGACTTGAGAAGTGTTTTTTTTAGTTAAGTTTGTATGGGTATCTATTGGTTTTTGGACGATTATCTAATTTGATTGTGTCCATTTTTCCTGCAAATCTTTGAAAAGTACTCACCTAGCATCTAAAATTTTGGTCTAATATGTTAGCCATCAGCTAACTTCGTATTAAAATGCAAGCTTTTTAGGAATATGATGTTTGGTGAATTCAATACTTGAAAAGAAAGCATTATGGGTACATATATACATTCTTGAGTAGTTTACCTATTATGCCTCCTCAGTTTAGTTGCTTACCCACTCTGCCACTTCAGTTTTAGAACATCCAAAAAAGTGAATTTTTTTTTTTATCTTTATAGGATTTATTTTCATTTGAACTGTAATTTTCTTTTATATTTATCTCCCATGTTGTCTTGAAAACATTTTCTAGCTTACTATTCAACCAGGTTTCAATTTTAATATAGAGAGATCCGTAAAAGGTCATAACTCACAAACTGTGTTTTCATTTTTATCTGGATGAAAAAAAAAAAAAAAAATCTTAGCCAACAGAGGGAAGCTCCGCTCACGCACTGAAAAGATAAATAAAAGAAAATTCATAACCTGTAGATCAATCATCAATGATGTTATTTGTTATAGGGTCAGCCTCTTGGCTGGTAAGGAAGTAGAAAGAAATAAAGCTTGACTATCAAATAGAATATAAAACACATGGTACTATTAAGGATATGGCCTTCACTGACTCATATATACTAAATATTTGCATCTTGCTTTTCCCACGAATTTCATACAGATTGATTTGTCTGAAAATTGGGAGCCAGCATCTATTTCTTTGAGGAGGTCTGGTTACCAAATTAAGATGGGAAATACAGAAGTGGTTGTAATTGCTGAGAAATATTCAAGGGAGTTATCGGTATGTTTTTATTAGTAGTCTATTCACTGATGATGGTGTCTACAAGTTTAAATTACATTTTCGAATAAACCAAAGATTTGCTTTTTTTTTCTATTATATATTTGTGGATGCAGTTGAAAATTCCTCCTGGGATTTCTACACAATTTGTTTTGACATGTTCTGATGGATCATCTTTTCCTTTTAATGCTTATGATGTTAGGTAATGTTCCCATTCTACTTACAGATTCATTTGTATTTTGTGAAGTTCTCAGACTAACCATAGACCTTAGGCTTAATATCATATGACCTTTTTATTTCTTTAGCATTGTCTATAACCAACAAGAAGCATATTATACCCGCTCATGTCTTTAGTTTCAGAATAATAGCTTATTTCTATTTTCTTTAATAGTTATTCAGTCTAGGATGCTGATTTTTCTTGTAGGATGCGGGATACACTTGTGTTGACCATGAGAATGTTCCAAAGCAAGGTATTCTCTCTTCCCAAAATCTATTAGTTAAGGATCAATTTGTGGACACCATTAATGACGGTTAAGAAGTTATCATATTTGATATATTTCTTAATGTATATCGATGCGGACTATGACTAGTATGCATCTCTTTTCTTTTCTTTGATAGTATTTTTTTTTCTTCAAATCTGTGCCATTGATCCCTAATCGATTAACCTGCAAGAGATTTCACACTTAATACTATCTCTGGAGGCCAAAGGCTCAAACAATGGAGCTTGGGTGATAATCCTGCCTAAAGCCTCCTCTCGTAGATGTTGGGAGGCTTAGTGTTCTTTCATGCGATTGTTTTCCAAAGAGTTTTCTGTTTTTTTTTTTTTTTCAAATTATTTTTCGAGAATCAGGACCAACCAACTTATAAAAAGGTGTTAAACCCACGATTTTGGATAAAGAATAACTTTTGAGATTTTAAAAAACATCATCTTTGAGAACAACAAACTAAAGGAACAGGAGAAAATCTTTAAAGAAAAGTTGTCAAAACATGCTTTTATGAAGGTTTTGTTCTGTTGTAACATTCTCCTAAACAATATGCCTTTATGCATGCATGGGTTTTAGGCAATTTTTGTTGTTTTGTGAAGGGGATGTTATTTTGTTCTGAAAGTTACTTAGATAATTCATGCCTTTTTGTCTCTTTTTTTTTTTTTCTTGAGTTCAACACGTGTGGAGAGTATCTGCTTTAACTAGTTAAACTATGCTCTGTCACTCTGCACAATTGTTTTTTGGGGGGCCATGCTAGGAAATTGTTGTCTGATTATTTCTTTAACTAGTTGAACTATGCTCTGTCACTCTGCATAATTTTTTTTTTTTTTTGGAGGGGTGCTAGAAAATTGTTGTCTGATTATTCCTCTTGCTCATAATAAGTACCAAAAAGGAAAGGAAAAAAGAAATGCACACGTGTGCATACACGCATCATTATCTATATGCTTTGAGTTCTTTTACTAAATTCTACATATTTTTGAAGCAGGCAATGGATGATAGAAGGAAAGGAAAAGCATAGAAAAGACTCGTTCGCCATTCAAATATTGTGTCGATATTCATCATTCATTCATTATGCAAAGTAGATGTAATTGAAATTGTTTCATCATAGTCTGAACTAATAAATCAAATAAATCCTGAAGGTTGATTTTGTACCTCTTAACCTCTCATAGACATAAATGCATATATAGTCCCTTCCCTGTTAGTTTCTTCCTCTTAATCATATTGAACCTTCTAGTAGATGAAGGCCTCAGTTTTATTTTGGTGTAATTGTACTTGGAAGGAATGAGAATAACAGTTACAATAGGACTGTTATTTACTGTACAAACATTATTTATAGGTACATGAAATGATGAAATGGCCCCTTTTTTTTTTTTTTTACTGTGGAAGAGGTACGTCTCTTGA TTATAATTTTTCGTTCCATTTTTCTCTATAATATTCGAGAAATTTCGAAGGAATTGAAGTTCGTTTTCCTTAAGAAACTCGTCAATCATTTGACTTCCACAACTTTCCTCTTCCGCCATTCTTACTGTTTTTGGCGCTTAAGCGGCTCGATTTGGCATTGTTTTTTTTTTTTTCTCTCGCACCTGCAAAAGAATTGGAGCACGAGATCGCTACTTTTTTATTGGACAACATTGGTTGTATGAATAAATCGTGGAATGTTTCCATCTACGGTGAATGGACATCAAATGATGTAGAGTGCAAGATTCTATCATGATGGACAATGTTAGTGCTGATGCAATCAGAAGTTGCCGAAGTGAAGAACTTGAATTTCCAAGCTGATGTCGACTACTCATAGCTCTTTGCAGGGGCATAATGATAATGGGGTTCACACTGCAAGATCCCATCTAAAAAAAGGCACCTTTGAAAGATCTCTTGCTTCAAATGATCTGAGAAGAGTTGTGAATGCCAATAGTCATCAAGACCAAGAAGCTATGGAACTGTCGTCAAGGGTAAGAGCACAGGAAGGGGAGATCCAGCTTCTTCGTCAACAAATTTCAGTTGCTTGTTTGAAGGAATTACGACTGTTGAATGAGAAATATGCACTGGAGAGGAAATTTTCAGATATAAGAATGGCAGTTGATGAGAAGCAAACTGAAGCTATTAATTCTGCCTTCAATGAGTTGGGATACAGAAAAGGGGATCTGGAAGTGAACTTAAAATTGACTAATGAAGTGAAGGCTGTGGATGATGAGAGATATCACTACACGTCATCATTGCTTGGGCTTTTGGAAGAGTACGGTATTTGGCCTCATGTCATAAATGCCTCTGTTATAACTAACAGTGTGAAGCTTCTTCATGATCAGTTGCAGTGGAAGATCAGAACTTCTTATGAAAAAATTGGAGAACAATCATCGCTTGCTGATAATCATTTGAAGAGGGGGTTTAATCCATACCAAAAAAGAGAGAGTACTGATTTTAAGTTCGTTGAAAGTGGATATCAATATCAAAAGAGAGAGATTACTGATATGGGGACTTCAAAATACCAACTTCATCCGAAAGCTGAGCATTTGAGAACAACTGAAGATGTGTTTACATCTAGGATACAAAATAATATTCCAGGATCAGCAGACTTTAGTCTAAGACCTAATATGTACCAACCTGTCAGCAACGACAATTCTCCAGACCCTTTCTTCAATGCTGGCAGGGAGATGCCTGGTGCTTTTCCCACTCCAGTTGATGACGATGCTGTAGACTTGCAATTTTATACAACTGATGAGAGATATAACCACCCTGTAATGGTTGAGGGACCTAGCATTGAGAATTTTCAAATAGTTGGCGAGGCCACACCAGGGAGCAAACTTCTTGCATGCGGATATCCTACTCGAGGCACTTCTCTCTGTATATTTCAGGAGCTACAAATCCAGAATATGTTGTTGGAGCTGGATGTTGATAAACTACTTGCTGTTGAGTGCATACCAATGGATGAAAAAGGCCATCAGGGGGAGCTGGTCAAGCTTTTTGCTAATGATCAGCACAAAATAAAATGTGATCCGGACATGCAACTGGAGATTGACACGTATCTTTCAAAGGGTCAAGCCACGTTTACTGTTCTTTTACTGATTGATTTGTCTGAAAATTGGGAGCCAGCATCTATTTCTTTGAGGAGGTCTGGTTACCAAATTAAGATGGGAAATACAGAAGTGGTTGTAATTGCTGAGAAATATTCAAGGGAGTTATCGTTGAAAATTCCTCCTGGGATTTCTACACAATTTGTTTTGACATGTTCTGATGGATCATCTTTTCCTTTTAATGCTTATGATGTTAGGATGCGGGATACACTTGTGTTGACCATGAGAATGTTCCAAAGCAAGAGGTACGTCTCTTGA ATGTCGACTACTCATAGCTCTTTGCAGGGGCATAATGATAATGGGGTTCACACTGCAAGATCCCATCTAAAAAAAGGCACCTTTGAAAGATCTCTTGCTTCAAATGATCTGAGAAGAGTTGTGAATGCCAATAGTCATCAAGACCAAGAAGCTATGGAACTGTCGTCAAGGGTAAGAGCACAGGAAGGGGAGATCCAGCTTCTTCGTCAACAAATTTCAGTTGCTTGTTTGAAGGAATTACGACTGTTGAATGAGAAATATGCACTGGAGAGGAAATTTTCAGATATAAGAATGGCAGTTGATGAGAAGCAAACTGAAGCTATTAATTCTGCCTTCAATGAGTTGGGATACAGAAAAGGGGATCTGGAAGTGAACTTAAAATTGACTAATGAAGTGAAGGCTGTGGATGATGAGAGATATCACTACACGTCATCATTGCTTGGGCTTTTGGAAGAGTACGGTATTTGGCCTCATGTCATAAATGCCTCTGTTATAACTAACAGTGTGAAGCTTCTTCATGATCAGTTGCAGTGGAAGATCAGAACTTCTTATGAAAAAATTGGAGAACAATCATCGCTTGCTGATAATCATTTGAAGAGGGGGTTTAATCCATACCAAAAAAGAGAGAGTACTGATTTTAAGTTCGTTGAAAGTGGATATCAATATCAAAAGAGAGAGATTACTGATATGGGGACTTCAAAATACCAACTTCATCCGAAAGCTGAGCATTTGAGAACAACTGAAGATGTGTTTACATCTAGGATACAAAATAATATTCCAGGATCAGCAGACTTTAGTCTAAGACCTAATATGTACCAACCTGTCAGCAACGACAATTCTCCAGACCCTTTCTTCAATGCTGGCAGGGAGATGCCTGGTGCTTTTCCCACTCCAGTTGATGACGATGCTGTAGACTTGCAATTTTATACAACTGATGAGAGATATAACCACCCTGTAATGGTTGAGGGACCTAGCATTGAGAATTTTCAAATAGTTGGCGAGGCCACACCAGGGAGCAAACTTCTTGCATGCGGATATCCTACTCGAGGCACTTCTCTCTGTATATTTCAGGAGCTACAAATCCAGAATATGTTGTTGGAGCTGGATGTTGATAAACTACTTGCTGTTGAGTGCATACCAATGGATGAAAAAGGCCATCAGGGGGAGCTGGTCAAGCTTTTTGCTAATGATCAGCACAAAATAAAATGTGATCCGGACATGCAACTGGAGATTGACACGTATCTTTCAAAGGGTCAAGCCACGTTTACTGTTCTTTTACTGATTGATTTGTCTGAAAATTGGGAGCCAGCATCTATTTCTTTGAGGAGGTCTGGTTACCAAATTAAGATGGGAAATACAGAAGTGGTTGTAATTGCTGAGAAATATTCAAGGGAGTTATCGTTGAAAATTCCTCCTGGGATTTCTACACAATTTGTTTTGACATGTTCTGATGGATCATCTTTTCCTTTTAATGCTTATGATGTTAGGATGCGGGATACACTTGTGTTGACCATGAGAATGTTCCAAAGCAAGAGGTACGTCTCTTGA MSTTHSSLQGHNDNGVHTARSHLKKGTFERSLASNDLRRVVNANSHQDQEAMELSSRVRAQEGEIQLLRQQISVACLKELRLLNEKYALERKFSDIRMAVDEKQTEAINSAFNELGYRKGDLEVNLKLTNEVKAVDDERYHYTSSLLGLLEEYGIWPHVINASVITNSVKLLHDQLQWKIRTSYEKIGEQSSLADNHLKRGFNPYQKRESTDFKFVESGYQYQKREITDMGTSKYQLHPKAEHLRTTEDVFTSRIQNNIPGSADFSLRPNMYQPVSNDNSPDPFFNAGREMPGAFPTPVDDDAVDLQFYTTDERYNHPVMVEGPSIENFQIVGEATPGSKLLACGYPTRGTSLCIFQELQIQNMLLELDVDKLLAVECIPMDEKGHQGELVKLFANDQHKIKCDPDMQLEIDTYLSKGQATFTVLLLIDLSENWEPASISLRRSGYQIKMGNTEVVVIAEKYSRELSLKIPPGISTQFVLTCSDGSSFPFNAYDVRMRDTLVLTMRMFQSKRYVS Homology
BLAST of CmaCh14G019250 vs. ExPASy TrEMBL
Match: A0A6J1EAD4 (uncharacterized protein LOC111432218 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111432218 PE=4 SV=1) HSP 1 Score: 966.1 bits (2496), Expect = 5.9e-278 Identity = 490/527 (92.98%), Postives = 498/527 (94.50%), Query Frame = 0
BLAST of CmaCh14G019250 vs. ExPASy TrEMBL
Match: A0A6J1EA65 (uncharacterized protein LOC111432218 isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111432218 PE=4 SV=1) HSP 1 Score: 966.1 bits (2496), Expect = 5.9e-278 Identity = 490/526 (93.16%), Postives = 497/526 (94.49%), Query Frame = 0
BLAST of CmaCh14G019250 vs. ExPASy TrEMBL
Match: A0A6J1EAE0 (uncharacterized protein LOC111432218 isoform X4 OS=Cucurbita moschata OX=3662 GN=LOC111432218 PE=4 SV=1) HSP 1 Score: 936.0 bits (2418), Expect = 6.6e-269 Identity = 474/510 (92.94%), Postives = 481/510 (94.31%), Query Frame = 0
BLAST of CmaCh14G019250 vs. ExPASy TrEMBL
Match: A0A6J1EDN3 (uncharacterized protein LOC111432218 isoform X3 OS=Cucurbita moschata OX=3662 GN=LOC111432218 PE=4 SV=1) HSP 1 Score: 917.5 bits (2370), Expect = 2.4e-263 Identity = 470/527 (89.18%), Postives = 478/527 (90.70%), Query Frame = 0
BLAST of CmaCh14G019250 vs. ExPASy TrEMBL
Match: A0A6J1EG96 (uncharacterized protein LOC111432218 isoform X5 OS=Cucurbita moschata OX=3662 GN=LOC111432218 PE=4 SV=1) HSP 1 Score: 872.8 bits (2254), Expect = 6.8e-250 Identity = 441/476 (92.65%), Postives = 449/476 (94.33%), Query Frame = 0
BLAST of CmaCh14G019250 vs. NCBI nr
Match: KAG7018891.1 (hypothetical protein SDJN02_20764 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 973.8 bits (2516), Expect = 5.9e-280 Identity = 493/526 (93.73%), Postives = 499/526 (94.87%), Query Frame = 0
BLAST of CmaCh14G019250 vs. NCBI nr
Match: KAG6582504.1 (hypothetical protein SDJN03_22506, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 971.5 bits (2510), Expect = 2.9e-279 Identity = 492/526 (93.54%), Postives = 499/526 (94.87%), Query Frame = 0
BLAST of CmaCh14G019250 vs. NCBI nr
Match: XP_022924857.1 (uncharacterized protein LOC111432218 isoform X2 [Cucurbita moschata]) HSP 1 Score: 966.1 bits (2496), Expect = 1.2e-277 Identity = 490/526 (93.16%), Postives = 497/526 (94.49%), Query Frame = 0
BLAST of CmaCh14G019250 vs. NCBI nr
Match: XP_022924854.1 (uncharacterized protein LOC111432218 isoform X1 [Cucurbita moschata] >XP_022924855.1 uncharacterized protein LOC111432218 isoform X1 [Cucurbita moschata]) HSP 1 Score: 966.1 bits (2496), Expect = 1.2e-277 Identity = 490/527 (92.98%), Postives = 498/527 (94.50%), Query Frame = 0
BLAST of CmaCh14G019250 vs. NCBI nr
Match: XP_023526136.1 (uncharacterized protein LOC111789703 isoform X5 [Cucurbita pepo subsp. pepo] >XP_023526137.1 uncharacterized protein LOC111789703 isoform X5 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 964.5 bits (2492), Expect = 3.6e-277 Identity = 490/527 (92.98%), Postives = 497/527 (94.31%), Query Frame = 0
BLAST of CmaCh14G019250 vs. TAIR 10
Match: AT3G03560.1 (unknown protein; LOCATED IN: plasma membrane; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G23490.1); Has 157 Blast hits to 146 proteins in 38 species: Archae - 3; Bacteria - 14; Metazoa - 8; Fungi - 0; Plants - 120; Viruses - 0; Other Eukaryotes - 12 (source: NCBI BLink). ) HSP 1 Score: 422.9 bits (1086), Expect = 3.6e-118 Identity = 231/511 (45.21%), Postives = 321/511 (62.82%), Query Frame = 0
BLAST of CmaCh14G019250 vs. TAIR 10
Match: AT5G23490.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G08440.1); Has 202 Blast hits to 197 proteins in 48 species: Archae - 0; Bacteria - 13; Metazoa - 25; Fungi - 9; Plants - 109; Viruses - 0; Other Eukaryotes - 46 (source: NCBI BLink). ) HSP 1 Score: 199.9 bits (507), Expect = 5.0e-51 Identity = 152/513 (29.63%), Postives = 251/513 (48.93%), Query Frame = 0
BLAST of CmaCh14G019250 vs. TAIR 10
Match: AT5G08440.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: plasma membrane; EXPRESSED IN: 21 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G23490.1); Has 141 Blast hits to 139 proteins in 35 species: Archae - 0; Bacteria - 9; Metazoa - 21; Fungi - 6; Plants - 94; Viruses - 0; Other Eukaryotes - 11 (source: NCBI BLink). ) HSP 1 Score: 184.5 bits (467), Expect = 2.2e-46 Identity = 158/533 (29.64%), Postives = 250/533 (46.90%), Query Frame = 0
BLAST of CmaCh14G019250 vs. TAIR 10
Match: AT5G08440.2 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; EXPRESSED IN: 21 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G23490.1). ) HSP 1 Score: 162.2 bits (409), Expect = 1.1e-39 Identity = 155/566 (27.39%), Postives = 254/566 (44.88%), Query Frame = 0
BLAST of CmaCh14G019250 vs. TAIR 10
Match: AT5G23510.2 (unknown protein; LOCATED IN: cellular_component unknown; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G23490.1); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). ) HSP 1 Score: 137.9 bits (346), Expect = 2.3e-32 Identity = 99/285 (34.74%), Postives = 139/285 (48.77%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
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