CmaCh18G012680 (gene) Cucurbita maxima (Rimu) v1.1
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.ACGCTGAATCAAAAAGTATCGGCGGGAGTAGAAGAGTTGGAGACGGATCTCCTCCAATGGATTATCCGTATTCCATTTTCAACTCCAAACTCAGCGTTGCTTCTTCTGCCTTCCAGTCTCCATAATCTAAGCGTCTTCCTAATTAAACCATGCCGATTGGATCATTTCTCTGCCTTCTTTGCTATTAATTAATAATCTGCCATCCAATGGCAGCTGGATCATGGAAGAGGAGGCAGTCTAAGCGGTCGAATTTCAAGACCTCTGCAGCCATGGCTTCTCGGCCTTCTTCTCGACCTTTCCGTATCCCTAGAAGTACTGCCCTGCTGGTTTCGATTTGCCTGATCTTCTTTATTGTTCTGGTCTCCGGCCTTTCTTTGAATGCATTGCGTAGATCGGCCAAATATGGAGTTCAATCGCCAATAATTTACTCTATTGAGGTGGTCAACGAATTTCCTCACGATCCTAGAGCCTTCACTCAGGTATCTCAATTTTCGAGCCATTTCCAGTCTCTTCATTATTTTTGCTCGGGAGAACTTTTCTCCGAAGCTAGGGTCATTATATTGTTGTTGTGATTGAACTTGGTTGAAATTCATCAATACTGTTCATCGCCACATACTGATACAAATGCATGGAGACCATTTCCGAAGTGTTATCTTGTAATTTTCCGTCTAAGCATTTTTCTTCAATTCACGAGTTGATTTGTGTACCTATTCCTAGTGAGGCGTTGTTGTCGTGTTCTTGTCTGCTTTTAGCTGACTATTGGATAATCGGATGTTCATATTATGAGCAGGGCACACTGTTTTCTGTTGGAATTTTATATTACAAAGCTCATTCATGAGTATTGTTTTTGATAACTCTTGTCTCTTGCTTCTCCAGGGACTGGTTTATGTAGAAAATGACACACTGTTTGAGTCAACTGGCCTCTATGGACAGGTGAATTTACATTTTGTTCAGATTCGTGTAATTAAAAGCAGACAATTTCTATAGCTTCTTTACAATTTTTGCCAATCATGTCCAAGAACAATTCATTGTATCATCCTTTCTGATCAGCATGTCCTTGTTTTGTAGCTTTGTCTCGGATGGGCACAATGACCTGATCTCCGTTTCTTCTCTTCCAAAAAAATACTGTGATTAGAATTTGAGCAGGGATTTAAAACTTTCATTATGTAGTTTCTTCTCATCCGTCAATTATGTGAGATCCCACGTCGGTTGGAGAGGGGAACAAAGCATTCCTTGTAAGGGTGTGGAAACCTCTCCCTAGCAGATGCGTTTTAAAACCTTGAGGAGAAACCCGAAAGGGAAAGCCCAAAAAGGGTAATCTGTTAGCAGTGAGTTTGGACCATTACAAATGGTATCAAAGGCAAACTCCAGGCAGTGTGCCAATGAGGACGCTGGCCCCCAAATGGGTGGATTGTGAAATCCCACATCGGTTGGAGAGGGGAACGATTGGGAGCGGTTTGTGAAATGTGTCAGTGAAGACACTAGGCCTCTAAGGAGGGTGGATTGTGAAATTCCACATTGGTTGGAGAGAGGAACGAAGCATTACTTATAAGGGTGTGGAAACCTCTTCCTAGCAGACGCGTTTTAAAACCTTGAGGAGAAGCCTAAAAATGACAATATCTGTTAGTAGTGGGGTTCGGCTGTTAGCTAATTTGTGTTGGGGAAATTATTACATTTTTTTAGCTATGTGAATTTTAATATCACTTGTCTATCAATTAACTTGGTGAATATTGGATTACTCTGGTTTTGACTTTATACTACATTTTCTGTTCCAGTCGTCAGTTCGAAAAGTCGCTCTCTCTACTGGGAAGGTAATTTTCATTTTCATATTTCTCGTATGCAATAAAAGAAGCGACACAATTTTACCCGTTACATTCATTCTTTTGATCACGTTATGTATCGTTAAATTTTGATAATTTTCATTATGTTTTGAGTTTTCATGTCGTCCAGAGATGAAAAACATGTAATACCTTAGAGTCTTTAACTGTCTATTCATGCTGATCAATCATATAATACTAACAAAACAGAGTTCAACGGATGACTAGAGAAACTTTTTGAGGGGAACACATTTCAGCATTGCATTCCAATTTCTTTGCTGGTTTTTATTTATTTATTTTACTTACTTTCCTCTACAGACCGAGGCTCTTCACGAGATGGATGCCTCTTACTTTGGGGAAGGCTTAACACTTCTTGGGGAAAGGTCTGTGATGGTTTAAATAATAACTGCACTGTTTTTGTTGCCCATTCAGCCATTGAAAGAATGGCAGTTCTTTCCTAATAAGTTATCGTTGCAAATATCTATGAAGAAAATATGACGAATTTCTTGTTTTGGAAATTAACGATTGAAGTATGAACTCAAATGGTCACTTCTTTCATTGAATTGTGATGGAGGCATTTATGATTTCATTGTACCATAAAAACTAGGAATTTAATCTGGTGTTTTGTCTCGGGAACTCAAACCAATTTTATGTATTTATATGAGATTCCACATCGGTTGGAGAGGGAAACAAAGCATTCATTGTAACAAGGGTGTGGAAACTTTGAGGGGAATCCCGGAAGGGAAAGTCCAAAAAGGATAATAAGGGTGTTAAAGTTTATATGCCACCTAACCTTTGTTCTTACTTCACTTCGTCATATGTATCTCTATTCATTATAGCAGTTAGAAATGTATCCTAGTAGAGTCTTCAGTATTGCTAATTTAGCACTTTCTATATTCTTTTGTAGGCTGTTTCAAGTAACTTGGTTGAAGAAAACTGGTTTCATATATGACCGAAACAATTTAAGCAAAGTTTGTACTTCATCTTTATTCATTGTTCTTCAATTTTTATGTGACCTCTTGGCTGCTTGATTCATGACTAGGTTGTTCAAGTTAAGAGGAAATTTAGTAATATTGAAGTAGATTATATTTTGGGAATTATTTTTTTTTTTAAATTGAATTAAATGTTACTTATGTTGTGTGTGCAGGTTAAGGAATTCACTCATCAAATGACTGATGGTTGGGGGTTGGCAACAGATGGAAAAATTTTGTTTGGAAGTGATGGGACATCAACATTATATCAGATTGATCCACAGACATTTACAGGTTTCTCTGTTGTTTTACTCTAAATTAAATTTCATGACCCTAAAAAATGGGTTCCGAGTTACTAATAAATAATATACCATTTTCCCAATTAATGCAGTTACAAATAAATGGGTTGTGAGTTATGAAGGAGATGAGGTGTATAACCTCAATGAGCTGGAATTCGTCAATGGAGAAATCTGGGCAAATGTTTTTATGGTATATTCTCCGAGATATTTATTCACTTTTTTTCGGGTCGATTTCTGATTGTCGTTCTAAAGTTTCTAGAGTCTTAAAATGATTACACTCTTAGGTGCCCATTCATAATTGTTATTTATTTCTTGCATCTCTGTAAAGATCTAATTGAAGGTTCCATTTTGTAGACTGATTGCATCGTCAGAATCTCAATAGAAGATGGAAGTGTGCTTGGATGGATTCTCCTCCCATCTTTAAGGTTTTTCTTTGATTACTGTTTATTATGTTAAGCAGCATAATTGTAATGAAGTTTCTCATCATCAGTAGAATTTGAATTTCCACATTAATCTTACTTTTCTTACATTTCATGATACAGAAGGGAATTGTTGCAAAGGGGGAAACGAGTAAGCGCTTCAATCCATTGATTTTATATTTATTGGATGATTCAATTCTGATTATTCAATTCTTACTCACAGATTGATGTTCTAAATGGCATTGCATGGGATAGCGGCAAAGATCGCCTTTTTGGTAAGGAATCAAAATCTTAGGCATAATGGTATTGATATTGTCCACTTTGAGCATAAGCTCTCATGACTTTGCTTTAGCCAATGTGGGACTTACTCTTAACCATCCTCAACACAAAATTATTAATTGTTCATCGATCATTATTTGATGTCTTAATTATGTCCCCACTTCGTCCTTCAGTGACAGGAAAGCTATGGCCAAAGCTCTTCGAAATCAAACTGCAGCCATCAAAGGAGCATTATGCTATTGAAGAGATAAAGCAGCTTTGCTTGCGTGAGCCAATTACATTTTGACTAGCTTTGCTCGGGATAGCTATCTATGTCCAACAATTGAAGCATGAATATAAATGTGAAACTTAGGCTAAAACACACTTTGAAATTTATTTTATTTTAGTTCATGTAAAATATTTTAATTTAGACTTTAAAATTACTCTTTTTAATGTAATTTAACATATAATAATTTACAAACAAGAATGATAAAAGAATATGCTTTCGTAGTTTATAGAATTGCCTAATGAAGCTATTATTATTATTATTATTATTATTATTATTTGTAAAAGCTAATCATAAATTTATGAACTAATTTTAAAATTCACCGTGATTAAATATTTGAATTCACAAATTAATATAGAAAATATCTCAATATTGTTTCACGGGTTGATATAAGGAGTAGCTGCACAATTAAAAACTAAATAACAGATATAATGCATTTTAAAAGTATTTGTAAATATAGTACAATATTAATCAAATTTTGATTATTTTATATAATATTATAAAATGTGTTAAATATCAGAAAATATTAAAACAAAATCTTTTTCCTAAAAAAATAATGAATATAGAAAAATGTGACGTGGCTAACATTTTCATGAAACGTGTCGAAGAACTACTTGAGTTATCAGCGACCAAAGGATTCGAACGATGCGAAGAGATCAGATTAGTGACTTCCTTAATCCTTCTGCCTCAAAAACTACATCGTCTTCTTCATTAATGACTTCTAAATTTCACAGGTCCATTTCCCTCTCCCGCCATGGCATTCAACTTAGTTTCTATTGAGACGTGGCTATCTAGTCCCACAGCATCGGGAGTGAAACTATGGGTTCTGATTGTGATTTGTGTATTTCTTCTTCTAATTCTTATTCTTACCTTCATTTGTCAACTCTATTGTCATCGTCGTAAGCGGAATCGGAACTGTCAAAGCGAAGATCGTGAAACGGCGATTTCAGGAGAAGTTTCTACGGAGATTGACGAAAAGAAGGGTTCCGATGATGAGTTTTCACGGCAAGGTAGTACGAATATTGATCAGTATAGTATTTTCACAGATTGGGAGTATTCGGCCGGTCGGTACTCGATAGCGGCGGTCAAGGATGGGCATAGAAGGAGCACATTTGCGCTCGATGAGATTGAGCTAGCGACGGATGGATTCAGCGCAAAGAATGTCATTAGTATCGAAGATTACAATGTTGATTATCTTGGAATTTTGGCTGATGATACAAAAGTGATTGTCAAGATATTCAATGCAAATAACAGGTATGTTCTGAATCTCATAAATTCAACATATATGCAACCAAATCCCGTTAGTGATTCAATATCTCTTGATTCATTTTATTGTGATCTAACATCGCACAGCATGAAATCAATGATTCATAAAATCTTTGTTAGAGAGAATTTTCTCCATTTAAATCTTCATTTATCAGTATTGAAGACGATGAATTCATCCGAGAAGCGGAGAGAATTCAACATATTAACCATAAAAATCTGGTCAAGTTGCTTGGATACCGCACTCGAGGAATTGAGAAAAATAGGTAATGTTCATGCCCATCTTTCACCTTTCTTTACGAAAAATTGGTTTATAAATACAGAATATGAGATTGAAAAGCTTCGTATCTTTGCTGTTCAGGATTTTTGTCTATGAAAATGTAGATAACGGGAATCTGCATCAATGGCTTCATGGATGTCCACTGAAACCGTTTAGCCCTCTGTCATGGTCCAATAGGATGAACATTATTCAAGGCATTGCAAAAGGGTAAGATGCACGTATGCACAAATATATGCTATGCTGTGTTTTGATTCATGAAAAGATTGATGCAAAATTGTTTCCTTCACTACTCAGAACATTGGGAGCTGCGTGTGTTTCTGCAGATTAGCGTATCTTCATGAAGATGTGGAACCACAAATTCTCCATGGCAGGCTAAGATCAAGCTGCATATTACTTGATCAGAATTTGAATCCCAAGATTTTCAATTTCGGTATACTTGCCCTTTTTCCTCCACAGAACTTGCAGGGACCTTTGGTTGGAGAAGCGTCAGTGGTCTCTATCCTTTTCCCTTTTCCCTTTTCCTTGTTCTGATGCTATTCTCACTCACTTCTTCAAATGCTCTCAGATATGAATCCCTTAACAATGGATCATCTAGTCCATTCACAGAAAAGGAGGATGTTTACAGCTTTGGTATACTTCTTTTGGAGATGATAACTGGTAGAGCTCCCGTGGACTCCAATGAATCCCAGGTAAGTATGTGTGAGACCTCACATCGGTTAGAAAAGAGAACGAAATATTCTTTATAAGGGTGTGGAAGCTTCTCCCTAGTAGCTAGTAGATGCGTTTTTAGTATGTGTGCGATCTCACATCGGTTGGAGAGGAGAACGGAACATTGTTTATAAGGGTGTGTAAACCTCTTCCTAGCAAATGTGTTTTAAAAACCTTGAGCGGAAGTCCGAAAGTGGAAATCTCTCCCTAGCATATGAGTTTTAAAAACCAGTTAAAAAATGACATTATTTGATAGCGGTGAGCTTGAGCTATCACAGTATGCTACGTTTTTTCTCCGACTAAAACAAGCTCAAATCTAAGTGAGTGGATAGTAGAATGATGATTTTATATCGAAAAAATGCAGGCACATTTGATAGAATGGGTACAATCATTGATTGGGAGTGAAGATGAAGTGGAAATGGTGGATTCCAAATTGGAAGAAAGGCCAACTTCAAAGCAACTCAAACGAATGCTTTTAATTGCCCTTCGTTGCGTTGATCCAGACATGCAGCATAGGCCGAGTATGGGCCAAATCCTTGTCATGCTTCTGCCTCAGGACCTCACCTTTTACTCCCTCATGTACGTATTTCCATGCCCACTCCTTCATACATATTTACATGCATGCATTCATTTTTTTTTTTTTTTATAAAAAAAAAAACTCCTTTATTGTAGGGCTGTCGGATCGGAATGAGTGAGTCCTTGTGAAAATGTGCTGATTAACATTGCACTTAGAAAAGAATTATACATTTAATTAATTTGAGGTATTGTTTATTATTATTTATATATTTCCATTTTTGAAGAATAAGATTGCATACATATATAATTTGTTTTAAAGAATCCTAATTCTATTTAATTAAAAAAAAAAAAGTACATATTTTGCAATATTCAGTTAGTTTAAAGAATTATAGTTTTGTTCTAAAACAAAAACTAAGTTGTTTAATACGTTTAATAGAGGTTTTATATTTTATTTATAAAGTTGCTTTTGAAGTTTCGGGTTTTTTTTATTATTATAAATTAAATTAATTTCTATTTTAAATTTGCGGACAAATATTAAATAAATAAAGCATAATTTTCTTTAGAGATAATTTTAAATTTAAAATTATGTAAACAAAAATAGGTATAATTGTATATGCTCTGAAAAAATATATAGAAACCTAAAATATTATGGGATATAAAATTACTATCCTATTGTCCGGCATTTTTTATTGAATTTAATTCTCTCACTAAAATCGATAGTTTTGAGATTTGAAAAATTACATACCATTTCTTTCTGCTTCAAAATTACCGATAAAACTTTAAAAATTAAAAAATATTTTTGGAAATAGAATTTGTGTGTGTGTGTGTGTTTTTTTATTTATTTATTTTGATTTTGTGAAAAATCTTAAAATTATTTTTAAGACGTAAAAAATGAATGGATGACTAAACAAAAGAAAATTAAAAAAAAAAAAAAAAAAAAAAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACAATTTTAGCACTAAATTCGAATATTTGTTTTTCAGTAGGGCCCTAAAATCTTCCAAACGTTTAACTAAAAGTAGTAGCTGGGAGATGCGTGACATCCTAGCAACACCGCTCGACTGTCTCGTGTCACAGGAGATAACATAACGGCCACGTGTCACATGAGATAACATAACGGCCACGTGTCACATGAGATAACAAAATGGCCACGTGTCAACTGGAGAACCAAATTTGAAATTCGGAGAGATCCACGTAGGAGACAATAATAGAGTGAACCCCCTAGAGAAGGGGTGTGGAAGAGGCGGGCATGCCACGTGTCAAGATGTGATTGCATGGGGAAAATGAAGGAAATGGTTTTGTCGTTTTAAGTGATTAGCTGTCAGTGTCGTCTTCTGTTCCCAGTCCACTGTTCTTTTTTGCTCAGCCCTTGGCCCCTTGGTCCACACACATCAATTTTAGCCTTTCACCAACTTCCTTAATTTTCAACAACCTTATTCTATTTTTTCCACTCCTGTTTGGTCTGTCGTGATTCAAATTTACTAAATTTTAATAATAAGATATAACAGAAAATGGTTAACTAAAGAGGACAAAGGTTGAGGATAATATGAATAAAAATGAAAATTTGTTAAGTTAAAAGGGTATTTTTGAAATAAATTAGTAAGAAGGGTGAAAAAATAAAAATAAAGAGGGTGAAAATGACAATTTTGTATATAAAGGAAAGAAGGGCAGCCAAATACTCCAACCAAGTTGCCCAATTTTTTATTGTTATGAAAATAAAATAAAGAACTTGTGGTCTCTGTTCCTTCAACCTCCATTTTTAGCTCTCTCTCGCCGCTGTCGTTCTCTCCGAGAAGCTTCCCTTTCTTCCACCGTATTTTCACCTTTATCTCTCCCATGGCGGCCAGCCTCTCTGCCGTCTTAGGGCCCAAACCATTCCATGTCTTCCTTACTTCCTCCAATCTCTCCCCTAAACCTCGAACTCCGTTGCTGTTTCCATCTTCGGTCTTCCGGAACAGTAGAATCCAATGGAAGATGCGGAGAAAAACGCTGCTCACCGTCTGCGTGCTCGTTGAGGATCAGAGTAGTTCCAGCGAGGTGGAAAATCTCGCAGATGAAAAATTACTGATTATAGTCCCGCAGATCCCATCGCCTCATGTTGCAGAGAAATTAGCGAGGAAGAAATCGGAGCGCTTCACTTATCTTGTTGCTGCAGTTATGTCTAGTTTTGGAATTACTTCCATGGCTGTCATGGCAGTTTACTACCGATTTCACTGGCAAATGGAGGTCCTCTCCCTCTCTCTCTCTCTCTCCATAGAAACTTGATTTGTTTTTGTTTTCATCGCGCCGAATCCTTTCGACTAAATACTGAATTGCGACTGTTCAATTTGGCGGTGTGTAGGGCGGAGAGATTCCTTTCTCTGAAATGTTTGGTACATTTGCTCTCTCCGTTGGTGCCGCTGTACGTTTTAAATCTCATTTCATCTCTGTATTCTCTACTTTTCTCGAAGAGTTCGATTTTCACAATCAATTTGGGAATATCAGGTCGGCATGGAGTTTTGGGCAAGATGGGCACATAGGGCTCTCTGGCACGCTTCCTTGTGGCATATGCACGAGGTATAGGTTTCTAATCCTTCTTATCTACAGAATATCGTATTTCTGAGTTCATTTCTGCTGTGAAAATTTCTATCAACAATAATCCACGATGAACCTCAGTTTCATAGCGAACAATCAATATTCAAAAGGATAGAAGAATCGTTGAGGCTTGGACTTGTTAATTGCAGCACAGTCGCACTACGTTGAGGCTTGGACTTGTTAATTGCAGCACAGTCGCACTAATCACTTCTCTATAGTTTTTTTTTTTTTTTTTTTATGTTTTGGCTGTTGAGAAGATTTGATTAACAATAACAGATCGTCCACTGTGGACCTTTCTCTCATTTTCCATGTTCACTTTCCTAGCAAACAAACAACATTGAATTAAAAATGAAAATTGTTGACGCTTGGACTTCGTTGATCTTGAATATTACAGTCTCACCACAAACCAAGAGAAGGACCGTTCGAATTGAACGATGTTTTCGCTATAACCAACGCCGTGCCCGCCATAGCTCTCCTCTCTTACGGCTTCTTCCATAAAGGCCTCGTCCCTGGTCTCTGCTTCGGCGCTGTAAATCTCTCTCTCTCTCTCGCAATCTTTCCGAATCTGAGTCTGTTTCATATCCTAACTAATCACTTGGGGATTAGCGCTAATTACGGTATTAAATGACGAAAATAGCCCTAGCAAAAGTGTTGTTAATTGATAAAGGGTTTGACACGCTGGCGGGTTGTGGCAGGGCCTTGGAATTACTGTGTTTGGGATGGCCTACATGTTCGTCCACGACGGTCTCGTTCACAAAAGATTCCCTGTGGGTCCCATTGCCAACGTGCCCTACTTCAGAAAGGTCGCTGCTGCTCACCAGGTAAATTCATTTATCTAAATATTGATTTTTTTTTTTTTAAAAAAAGCATATTTGTTATAATTTAAATCTTAATTAACTTAGAAACAAAAATATAATTTTAAATAAACTGTCCAATAATGTATCATCTTAATTAATTTTAAATATAACAATATTCTTAGAGTTTGAACAACTTTTAATAATATCATATTAAATTATGTTTTTTACAGTTAAATTAATAACATTTGTTATTAACTTGCATATAGAAAATTAATTGCACGTGTCTAAATGTAATTCTAGATTTAAAATATTATCTCCAATTTAAATTTCCAATATTATTTTCCTAATGAATTTTATGAATTTTATGTTTCTTGAATGTAGCTTCATCATTCGGAAAAGTTAAACGGTGTTCCGTACGGGCTGTTTTTGGGTCCAAAGGTTAGTTTCGGGTCTATTTATTTTTATTTTTATTTTTATGTTTATTTATTTATTTTAATAAATTATTTTCGCAAAAATGTTGTGGTTCAGGAATTAGAGGAAGTGGGAGGCCTAGAAGAATTGGAGAAGGAAATCAACAGAAGAATAAAATCCACGGCCAAAAAACCAATCAACGGTTCTTGATTAACCAGTCACCAGAGGGCCCCACTATTGATGTGAAGTAAAAATGAGAAGGAAAAAAGAAGAAAAAAAAGAAACCCTCCTCTAGCAGTAACTTTGATAATTAAAAAGTGAAAGTTTAGATCACTGCCTCCTTTTCCCCCCTATTTTTTACTGTACGAGGCAAAAGGGTAGAATAATGAGATGGTAAATTTGGTAGGAAGGATTTGCTTTTACCCAGGACTTACCCTCTACTTTTTACTCTCTAATGCTACCGTGAAAAAAATAAATCAGCCAAAAGTAAATAATTCACTCATAAATTTGTGTAATTTTTGATATTTCATAATTTAATAAAGTATGTAAATATTCGAGCTGGTTAAATGTCAAAG ACGCTGAATCAAAAAGTATCGGCGGGAGTAGAAGAGTTGGAGACGGATCTCCTCCAATGGATTATCCGTATTCCATTTTCAACTCCAAACTCAGCGTTGCTTCTTCTGCCTTCCAGTCTCCATAATCTAAGCGTCTTCCTAATTAAACCATGCCGATTGGATCATTTCTCTGCCTTCTTTGCTATTAATTAATAATCTGCCATCCAATGGCAGCTGGATCATGGAAGAGGAGGCAGTCTAAGCGGTCGAATTTCAAGACCTCTGCAGCCATGGCTTCTCGGCCTTCTTCTCGACCTTTCCGTATCCCTAGAAGTACTGCCCTGCTGGTTTCGATTTGCCTGATCTTCTTTATTGTTCTGGTCTCCGGCCTTTCTTTGAATGCATTGCGTAGATCGGCCAAATATGGAGTTCAATCGCCAATAATTTACTCTATTGAGGTGGTCAACGAATTTCCTCACGATCCTAGAGCCTTCACTCAGGGACTGGTTTATGTAGAAAATGACACACTGTTTGAGTCAACTGGCCTCTATGGACAGTCGTCAGTTCGAAAAGTCGCTCTCTCTACTGGGAAGACCGAGGCTCTTCACGAGATGGATGCCTCTTACTTTGGGGAAGGCTTAACACTTCTTGGGGAAAGGCTGTTTCAAGTAACTTGGTTGAAGAAAACTGGTTTCATATATGACCGAAACAATTTAAGCAAAGTTAAGGAATTCACTCATCAAATGACTGATGGTTGGGGGTTGGCAACAGATGGAAAAATTTTGTTTGGAAGTGATGGGACATCAACATTATATCAGATTGATCCACAGACATTTACAGTTACAAATAAATGGGTTGTGAGTTATGAAGGAGATGAGGTGTATAACCTCAATGAGCTGGAATTCGTCAATGGAGAAATCTGGGCAAATGTTTTTATGAAGGGAATTGTTGCAAAGGGGGAAACGATGACAGGAAAGCTATGGCCAAAGCTCTTCGAAATCAAACTGCAGCCATCAAAGGAGCATTATGCTATTGAAGAGATAAAGCAGCTTTGCTTGCGTCCATTTCCCTCTCCCGCCATGGCATTCAACTTAGTTTCTATTGAGACGTGGCTATCTAGTCCCACAGCATCGGGAGTGAAACTATGGGTTCTGATTGTGATTTGTGTATTTCTTCTTCTAATTCTTATTCTTACCTTCATTTGTCAACTCTATTGTCATCGTCGTAAGCGGAATCGGAACTGTCAAAGCGAAGATCGTGAAACGGCGATTTCAGGAGAAGTTTCTACGGAGATTGACGAAAAGAAGGGTTCCGATGATGAGTTTTCACGGCAAGGTAGTACGAATATTGATCAGTATAGTATTTTCACAGATTGGGAGTATTCGGCCGGTCGGTACTCGATAGCGGCGGTCAAGGATGGGCATAGAAGGAGCACATTTGCGCTCGATGAGATTGAGCTAGCGACGGATGGATTCAGCGCAAAGAATGTCATTAGTATCGAAGATTACAATGTTGATTATCTTGGAATTTTGGCTGATGATACAAAAGTGATTGTCAAGATATTCAATGCAAATAACAGTATTGAAGACGATGAATTCATCCGAGAAGCGGAGAGAATTCAACATATTAACCATAAAAATCTGGTCAAGTTGCTTGGATACCGCACTCGAGGAATTGAGAAAAATAGGATTTTTGTCTATGAAAATGTAGATAACGGGAATCTGCATCAATGGCTTCATGGATGTCCACTGAAACCGTTTAGCCCTCTGTCATGGTCCAATAGGATGAACATTATTCAAGGCATTGCAAAAGGATTAGCGTATCTTCATGAAGATGTGGAACCACAAATTCTCCATGGCAGGCTAAGATCAAGCTGCATATTACTTGATCAGAATTTGAATCCCAAGATTTTCAATTTCGGTATACTTGCCCTTTTTCCTCCACAGAACTTGCAGGGACCTTTGGTTGGAGAAGCGTCAGTGGCACATTTGATAGAATGGGTACAATCATTGATTGGGAGTGAAGATGAAGTGGAAATGGTGGATTCCAAATTGGAAGAAAGGCCAACTTCAAAGCAACTCAAACGAATGCTTTTAATTGCCCTTCGTTGCGTTGATCCAGACATGCAGCATAGGCCGAGTATGGGCCAAATCCTTGTCATGCTTCTGCCTCAGGACCTCACCTTTTACTCCCTCATCTCTCTCTCGCCGCTGTCGTTCTCTCCGAGAAGCTTCCCTTTCTTCCACCGTATTTTCACCTTTATCTCTCCCATGGCGGCCAGCCTCTCTGCCGTCTTAGGGCCCAAACCATTCCATGTCTTCCTTACTTCCTCCAATCTCTCCCCTAAACCTCGAACTCCGTTGCTGTTTCCATCTTCGGTCTTCCGGAACAGTAGAATCCAATGGAAGATGCGGAGAAAAACGCTGCTCACCGTCTGCGTGCTCGTTGAGGATCAGAGTAGTTCCAGCGAGGTGGAAAATCTCGCAGATGAAAAATTACTGATTATAGTCCCGCAGATCCCATCGCCTCATGTTGCAGAGAAATTAGCGAGGAAGAAATCGGAGCGCTTCACTTATCTTGTTGCTGCAGTTATGTCTAGTTTTGGAATTACTTCCATGGCTGTCATGGCAGTTTACTACCGATTTCACTGGCAAATGGAGGGCGGAGAGATTCCTTTCTCTGAAATGTTTGGTACATTTGCTCTCTCCGTTGGTGCCGCTGTCGGCATGGAGTTTTGGGCAAGATGGGCACATAGGGCTCTCTGGCACGCTTCCTTGTGGCATATGCACGAGTCTCACCACAAACCAAGAGAAGGACCGTTCGAATTGAACGATGTTTTCGCTATAACCAACGCCGTGCCCGCCATAGCTCTCCTCTCTTACGGCTTCTTCCATAAAGGCCTCGTCCCTGGTCTCTGCTTCGGCGCTGGCCTTGGAATTACTGTGTTTGGGATGGCCTACATGTTCGTCCACGACGGTCTCGTTCACAAAAGATTCCCTGTGGGTCCCATTGCCAACGTGCCCTACTTCAGAAAGGTCGCTGCTGCTCACCAGCTTCATCATTCGGAAAAGTTAAACGGTGTTCCGTACGGGCTGTTTTTGGGTCCAAAGGAATTAGAGGAAGTGGGAGGCCTAGAAGAATTGGAGAAGGAAATCAACAGAAGAATAAAATCCACGGCCAAAAAACCAATCAACGGTTCTTGATTAACCAGTCACCAGAGGGCCCCACTATTGATGTGAAGTAAAAATGAGAAGGAAAAAAGAAGAAAAAAAAGAAACCCTCCTCTAGCAGTAACTTTGATAATTAAAAAGTGAAAGTTTAGATCACTGCCTCCTTTTCCCCCCTATTTTTTACTGTACGAGGCAAAAGGGTAGAATAATGAGATGGTAAATTTGGTAGGAAGGATTTGCTTTTACCCAGGACTTACCCTCTACTTTTTACTCTCTAATGCTACCGTGAAAAAAATAAATCAGCCAAAAGTAAATAATTCACTCATAAATTTGTGTAATTTTTGATATTTCATAATTTAATAAAGTATGTAAATATTCGAGCTGGTTAAATGTCAAAG ATGGCAGCTGGATCATGGAAGAGGAGGCAGTCTAAGCGGTCGAATTTCAAGACCTCTGCAGCCATGGCTTCTCGGCCTTCTTCTCGACCTTTCCGTATCCCTAGAAGTACTGCCCTGCTGGTTTCGATTTGCCTGATCTTCTTTATTGTTCTGGTCTCCGGCCTTTCTTTGAATGCATTGCGTAGATCGGCCAAATATGGAGTTCAATCGCCAATAATTTACTCTATTGAGGTGGTCAACGAATTTCCTCACGATCCTAGAGCCTTCACTCAGGGACTGGTTTATGTAGAAAATGACACACTGTTTGAGTCAACTGGCCTCTATGGACAGTCGTCAGTTCGAAAAGTCGCTCTCTCTACTGGGAAGACCGAGGCTCTTCACGAGATGGATGCCTCTTACTTTGGGGAAGGCTTAACACTTCTTGGGGAAAGGCTGTTTCAAGTAACTTGGTTGAAGAAAACTGGTTTCATATATGACCGAAACAATTTAAGCAAAGTTAAGGAATTCACTCATCAAATGACTGATGGTTGGGGGTTGGCAACAGATGGAAAAATTTTGTTTGGAAGTGATGGGACATCAACATTATATCAGATTGATCCACAGACATTTACAGTTACAAATAAATGGGTTGTGAGTTATGAAGGAGATGAGGTGTATAACCTCAATGAGCTGGAATTCGTCAATGGAGAAATCTGGGCAAATGTTTTTATGAAGGGAATTGTTGCAAAGGGGGAAACGATGACAGGAAAGCTATGGCCAAAGCTCTTCGAAATCAAACTGCAGCCATCAAAGGAGCATTATGCTATTGAAGAGATAAAGCAGCTTTGCTTGCGTCCATTTCCCTCTCCCGCCATGGCATTCAACTTAGTTTCTATTGAGACGTGGCTATCTAGTCCCACAGCATCGGGAGTGAAACTATGGGTTCTGATTGTGATTTGTGTATTTCTTCTTCTAATTCTTATTCTTACCTTCATTTGTCAACTCTATTGTCATCGTCGTAAGCGGAATCGGAACTGTCAAAGCGAAGATCGTGAAACGGCGATTTCAGGAGAAGTTTCTACGGAGATTGACGAAAAGAAGGGTTCCGATGATGAGTTTTCACGGCAAGGTAGTACGAATATTGATCAGTATAGTATTTTCACAGATTGGGAGTATTCGGCCGGTCGGTACTCGATAGCGGCGGTCAAGGATGGGCATAGAAGGAGCACATTTGCGCTCGATGAGATTGAGCTAGCGACGGATGGATTCAGCGCAAAGAATGTCATTAGTATCGAAGATTACAATGTTGATTATCTTGGAATTTTGGCTGATGATACAAAAGTGATTGTCAAGATATTCAATGCAAATAACAGTATTGAAGACGATGAATTCATCCGAGAAGCGGAGAGAATTCAACATATTAACCATAAAAATCTGGTCAAGTTGCTTGGATACCGCACTCGAGGAATTGAGAAAAATAGGATTTTTGTCTATGAAAATGTAGATAACGGGAATCTGCATCAATGGCTTCATGGATGTCCACTGAAACCGTTTAGCCCTCTGTCATGGTCCAATAGGATGAACATTATTCAAGGCATTGCAAAAGGATTAGCGTATCTTCATGAAGATGTGGAACCACAAATTCTCCATGGCAGGCTAAGATCAAGCTGCATATTACTTGATCAGAATTTGAATCCCAAGATTTTCAATTTCGGTATACTTGCCCTTTTTCCTCCACAGAACTTGCAGGGACCTTTGGTTGGAGAAGCGTCAGTGGCACATTTGATAGAATGGGTACAATCATTGATTGGGAGTGAAGATGAAGTGGAAATGGTGGATTCCAAATTGGAAGAAAGGCCAACTTCAAAGCAACTCAAACGAATGCTTTTAATTGCCCTTCGTTGCGTTGATCCAGACATGCAGCATAGGCCGAGTATGGGCCAAATCCTTGTCATGCTTCTGCCTCAGGACCTCACCTTTTACTCCCTCATCTCTCTCTCGCCGCTGTCGTTCTCTCCGAGAAGCTTCCCTTTCTTCCACCGTATTTTCACCTTTATCTCTCCCATGGCGGCCAGCCTCTCTGCCGTCTTAGGGCCCAAACCATTCCATGTCTTCCTTACTTCCTCCAATCTCTCCCCTAAACCTCGAACTCCGTTGCTGTTTCCATCTTCGGTCTTCCGGAACAGTAGAATCCAATGGAAGATGCGGAGAAAAACGCTGCTCACCGTCTGCGTGCTCGTTGAGGATCAGAGTAGTTCCAGCGAGGTGGAAAATCTCGCAGATGAAAAATTACTGATTATAGTCCCGCAGATCCCATCGCCTCATGTTGCAGAGAAATTAGCGAGGAAGAAATCGGAGCGCTTCACTTATCTTGTTGCTGCAGTTATGTCTAGTTTTGGAATTACTTCCATGGCTGTCATGGCAGTTTACTACCGATTTCACTGGCAAATGGAGGGCGGAGAGATTCCTTTCTCTGAAATGTTTGGTACATTTGCTCTCTCCGTTGGTGCCGCTGTCGGCATGGAGTTTTGGGCAAGATGGGCACATAGGGCTCTCTGGCACGCTTCCTTGTGGCATATGCACGAGTCTCACCACAAACCAAGAGAAGGACCGTTCGAATTGAACGATGTTTTCGCTATAACCAACGCCGTGCCCGCCATAGCTCTCCTCTCTTACGGCTTCTTCCATAAAGGCCTCGTCCCTGGTCTCTGCTTCGGCGCTGGCCTTGGAATTACTGTGTTTGGGATGGCCTACATGTTCGTCCACGACGGTCTCGTTCACAAAAGATTCCCTGTGGGTCCCATTGCCAACGTGCCCTACTTCAGAAAGGTCGCTGCTGCTCACCAGCTTCATCATTCGGAAAAGTTAAACGGTGTTCCGTACGGGCTGTTTTTGGGTCCAAAGGAATTAGAGGAAGTGGGAGGCCTAGAAGAATTGGAGAAGGAAATCAACAGAAGAATAAAATCCACGGCCAAAAAACCAATCAACGGTTCTTGA MAAGSWKRRQSKRSNFKTSAAMASRPSSRPFRIPRSTALLVSICLIFFIVLVSGLSLNALRRSAKYGVQSPIIYSIEVVNEFPHDPRAFTQGLVYVENDTLFESTGLYGQSSVRKVALSTGKTEALHEMDASYFGEGLTLLGERLFQVTWLKKTGFIYDRNNLSKVKEFTHQMTDGWGLATDGKILFGSDGTSTLYQIDPQTFTVTNKWVVSYEGDEVYNLNELEFVNGEIWANVFMKGIVAKGETMTGKLWPKLFEIKLQPSKEHYAIEEIKQLCLRPFPSPAMAFNLVSIETWLSSPTASGVKLWVLIVICVFLLLILILTFICQLYCHRRKRNRNCQSEDRETAISGEVSTEIDEKKGSDDEFSRQGSTNIDQYSIFTDWEYSAGRYSIAAVKDGHRRSTFALDEIELATDGFSAKNVISIEDYNVDYLGILADDTKVIVKIFNANNSIEDDEFIREAERIQHINHKNLVKLLGYRTRGIEKNRIFVYENVDNGNLHQWLHGCPLKPFSPLSWSNRMNIIQGIAKGLAYLHEDVEPQILHGRLRSSCILLDQNLNPKIFNFGILALFPPQNLQGPLVGEASVAHLIEWVQSLIGSEDEVEMVDSKLEERPTSKQLKRMLLIALRCVDPDMQHRPSMGQILVMLLPQDLTFYSLISLSPLSFSPRSFPFFHRIFTFISPMAASLSAVLGPKPFHVFLTSSNLSPKPRTPLLFPSSVFRNSRIQWKMRRKTLLTVCVLVEDQSSSSEVENLADEKLLIIVPQIPSPHVAEKLARKKSERFTYLVAAVMSSFGITSMAVMAVYYRFHWQMEGGEIPFSEMFGTFALSVGAAVGMEFWARWAHRALWHASLWHMHESHHKPREGPFELNDVFAITNAVPAIALLSYGFFHKGLVPGLCFGAGLGITVFGMAYMFVHDGLVHKRFPVGPIANVPYFRKVAAAHQLHHSEKLNGVPYGLFLGPKELEEVGGLEELEKEINRRIKSTAKKPINGS Homology
BLAST of CmaCh18G012680 vs. ExPASy Swiss-Prot
Match: O49814 (Beta-carotene hydroxylase 2, chloroplastic OS=Capsicum annuum OX=4072 GN=CA2 PE=1 SV=2) HSP 1 Score: 444.5 bits (1142), Expect = 3.1e-123 Identity = 222/296 (75.00%), Postives = 243/296 (82.09%), Query Frame = 0
BLAST of CmaCh18G012680 vs. ExPASy Swiss-Prot
Match: B3SGL0 (Beta-carotene 3-hydroxylase, chloroplastic OS=Gentiana lutea OX=38851 GN=BHY PE=2 SV=1) HSP 1 Score: 417.5 bits (1072), Expect = 4.1e-115 Identity = 213/302 (70.53%), Postives = 238/302 (78.81%), Query Frame = 0
BLAST of CmaCh18G012680 vs. ExPASy Swiss-Prot
Match: O49815 (Beta-carotene hydroxylase 1, chloroplastic OS=Capsicum annuum OX=4072 GN=CA1 PE=1 SV=2) HSP 1 Score: 410.2 bits (1053), Expect = 6.5e-113 Identity = 205/283 (72.44%), Postives = 234/283 (82.69%), Query Frame = 0
BLAST of CmaCh18G012680 vs. ExPASy Swiss-Prot
Match: Q9SZZ8 (Beta-carotene 3-hydroxylase 1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=BETA-OHASE 1 PE=1 SV=1) HSP 1 Score: 409.5 bits (1051), Expect = 1.1e-112 Identity = 218/316 (68.99%), Postives = 245/316 (77.53%), Query Frame = 0
BLAST of CmaCh18G012680 vs. ExPASy Swiss-Prot
Match: Q9LTG0 (Beta-carotene 3-hydroxylase 2, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=BETA-OHASE 2 PE=2 SV=1) HSP 1 Score: 401.0 bits (1029), Expect = 4.0e-110 Identity = 208/302 (68.87%), Postives = 239/302 (79.14%), Query Frame = 0
BLAST of CmaCh18G012680 vs. ExPASy TrEMBL
Match: A0A6J1HXQ6 (probable serine/threonine-protein kinase At1g01540 OS=Cucurbita maxima OX=3661 GN=LOC111467598 PE=4 SV=1) HSP 1 Score: 717.2 bits (1850), Expect = 9.2e-203 Identity = 371/414 (89.61%), Postives = 374/414 (90.34%), Query Frame = 0
BLAST of CmaCh18G012680 vs. ExPASy TrEMBL
Match: A0A6J1FZ81 (probable serine/threonine-protein kinase At1g01540 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111449263 PE=4 SV=1) HSP 1 Score: 691.0 bits (1782), Expect = 7.1e-195 Identity = 356/414 (85.99%), Postives = 366/414 (88.41%), Query Frame = 0
BLAST of CmaCh18G012680 vs. ExPASy TrEMBL
Match: A0A6J1HX82 (beta-carotene hydroxylase 2, chloroplastic-like isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111467695 PE=3 SV=1) HSP 1 Score: 626.7 bits (1615), Expect = 1.6e-175 Identity = 310/310 (100.00%), Postives = 310/310 (100.00%), Query Frame = 0
BLAST of CmaCh18G012680 vs. ExPASy TrEMBL
Match: G1FQR0 (Chloroplast beta-carotene hydroxylase OS=Cucurbita moschata OX=3662 GN=CHYB PE=2 SV=1) HSP 1 Score: 626.7 bits (1615), Expect = 1.6e-175 Identity = 310/310 (100.00%), Postives = 310/310 (100.00%), Query Frame = 0
BLAST of CmaCh18G012680 vs. ExPASy TrEMBL
Match: A0A6J1FZ94 (beta-carotene hydroxylase 2, chloroplastic-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111449265 PE=3 SV=1) HSP 1 Score: 616.3 bits (1588), Expect = 2.2e-172 Identity = 304/310 (98.06%), Postives = 305/310 (98.39%), Query Frame = 0
BLAST of CmaCh18G012680 vs. NCBI nr
Match: KAG6574200.1 (Glutaminyl-peptide cyclotransferase, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1202.6 bits (3110), Expect = 0.0e+00 Identity = 624/740 (84.32%), Postives = 642/740 (86.76%), Query Frame = 0
BLAST of CmaCh18G012680 vs. NCBI nr
Match: XP_022968333.1 (probable serine/threonine-protein kinase At1g01540 [Cucurbita maxima]) HSP 1 Score: 717.2 bits (1850), Expect = 1.9e-202 Identity = 371/414 (89.61%), Postives = 374/414 (90.34%), Query Frame = 0
BLAST of CmaCh18G012680 vs. NCBI nr
Match: KAG7013259.1 (putative serine/threonine-protein kinase, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 691.8 bits (1784), Expect = 8.6e-195 Identity = 357/415 (86.02%), Postives = 366/415 (88.19%), Query Frame = 0
BLAST of CmaCh18G012680 vs. NCBI nr
Match: XP_022944861.1 (probable serine/threonine-protein kinase At1g01540 isoform X1 [Cucurbita moschata]) HSP 1 Score: 691.0 bits (1782), Expect = 1.5e-194 Identity = 356/414 (85.99%), Postives = 366/414 (88.41%), Query Frame = 0
BLAST of CmaCh18G012680 vs. NCBI nr
Match: XP_023541481.1 (probable serine/threonine-protein kinase At1g01540 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 685.3 bits (1767), Expect = 8.0e-193 Identity = 352/415 (84.82%), Postives = 365/415 (87.95%), Query Frame = 0
BLAST of CmaCh18G012680 vs. TAIR 10
Match: AT4G25700.1 (beta-hydroxylase 1 ) HSP 1 Score: 409.5 bits (1051), Expect = 7.9e-114 Identity = 218/316 (68.99%), Postives = 245/316 (77.53%), Query Frame = 0
BLAST of CmaCh18G012680 vs. TAIR 10
Match: AT5G52570.1 (beta-carotene hydroxylase 2 ) HSP 1 Score: 401.0 bits (1029), Expect = 2.8e-111 Identity = 208/302 (68.87%), Postives = 239/302 (79.14%), Query Frame = 0
BLAST of CmaCh18G012680 vs. TAIR 10
Match: AT4G25720.1 (glutaminyl cyclase ) HSP 1 Score: 268.5 bits (685), Expect = 2.2e-71 Identity = 156/320 (48.75%), Postives = 194/320 (60.62%), Query Frame = 0
BLAST of CmaCh18G012680 vs. TAIR 10
Match: AT4G25720.2 (glutaminyl cyclase ) HSP 1 Score: 264.6 bits (675), Expect = 3.2e-70 Identity = 142/252 (56.35%), Postives = 173/252 (68.65%), Query Frame = 0
BLAST of CmaCh18G012680 vs. TAIR 10
Match: AT4G25700.2 (beta-hydroxylase 1 ) HSP 1 Score: 255.0 bits (650), Expect = 2.5e-67 Identity = 142/225 (63.11%), Postives = 162/225 (72.00%), 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
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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