CmaCh15G005470 (gene) Cucurbita maxima (Rimu)
The following sequences are available for this feature:
Legend: exonCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGGGGATTCAGACTATGGGGTCTCAGGCTGGAGGTGATCCGAATGGCAAACAATCACAGTTCCAGCCGTTGGTTCGTCAAAGCTCGCTTTATAATCTCACGTTGGATGAGGTCCAAAATCAGTTGGGAGATCTAGGAAAGCCGTTAATCAGTATGAATCTCGACGAGCTTCTTAAGAATGTGTGGACTGCTGAGGCGAACCAAACGGTTGGTAAGGAGAATGAGGATAATACCGTCTTGGATAATCAAACGTCCCTACAACGTCAGGCTAGCCTTTCGTTGAATGGTGCTCTGAGTAAAAAGACTGTTGATGAGGTGTGGAGAGATATTCAACAAAGCAAAAATAGTGAGGAGAAGAAGTCTCGTGAACAGCAACTGACGTTGGGAGAGATGACGTTGGAGGATTTTCTAGTGAAAGCAGGGGTGGTTGCTGAAACGTCGTCGAATAAAAAAGGAGCGGGTTCTGTTGTTGAAATTGATGCAAATATCACGCCACAGTTTCAACAAACGCAGTGGATGCAGTACCCGCAACCTCCGTATCAGTCTCAACAAGCAGCAATGATGGGGGTATATATGTCGGGCCAGCCTATTCCCCAGCCGCTGCATGTTGGGGCTGGTGCTGTGATGGATGTTCCATATGTAGACAACCAAATGGCATTACAGACTCCTTTAATGGGAACTTTATCAGATACACCCACATCTGGGAGAAAAAGAGGAGCGCCTGAAGACATGATTGAGAAAACTGTCGAGCGTAGACAGAAAAGGATGATAAAGAATCGGGAATCTGCCGCTCGTTCACGAGCAAGGAAGCAGGTGATTTTTAAAATCTTCGGGTTTGGTAAAGTTAGAAGTTCGTAGTACTTCGTTTCTCTCTATCTCTCGTTCCATTTTCCTCAATTGCCCACTTTGAACAGGCATATACCAATGAACTGGAGAATAAAGTTTCACGTTTGGAAGAGGAGAACGAAAGGCTCCGGAAACGGAAGGTTAGTTTTCTTTAAATATTGAACGTTGATGGATGTCGAATATTTTCCTTAATAGCTGAACTGATCGACTCGAGTTACCTCACATTAGGCACATATGCTTTTAAGTTTTTGTTTAACGAGTACAATAACGGAACTGAGTTCATCCGATCTGAGTTTGCCCACTTCACTTGTTTGTCTTTGTATGCTGCGGGTTGTCTATATTCTAGCCCACCTTTTGATTTACTAGATCTCCATAATGCTCGTAATGACGTACGAGAAAAAAGTACTGGCTGCATATCTGAGTTCATCCGATCTCACTAGTTTGCCATTATTAGATCGAACTTCGCTTCTTCAGCCCGTGCCACTAAATTGATGTATTTCATGCGCATCTAGAACAAGACCAGGAAGAGTGGGTCTCCTTGCCTTTCCTCGTTTATCAGCTCTAAAAGTAACTCCAGGCCTTGCGTCGGTAATAGTAAAGTTTTTAAAATGCATAAATGTTGGCTCGATTTGTCGATGAAGTTCGAAGTGCTTTACTTTGTCTATGTTTTCGATTCAAATACCCAACTAGTTTATGAAACTGAGATAAGGCTTGTTGGGTCTATAAGATTGCAAGCTTCAAAGCTTGAAAATTTCAAGTGTCGTTTCCTAGGATCTTTTCCGAGCATGAATCAACACACTTATCCTTTTCCTTCCGACTTTTAGTAGCCCAATATGTTGGCAAATGACACTTTTAACGTTCATCTCTGACCGAAAATCTTCTGACAGTATACCATCATGAGTAGAATAGTTCTTCGAAACGTTTGACCAGACCAAACCGAGTTGGTTATTTATGACCGATTCAACAACATTCAATGATGTTAGAGCCTGTAGTGTTTTTTTTTTGTTACGAACGATCATTCTAAAGAAATTTGTTTGCCTTTTAAGCATGTCATTGTAATTCTAGTTCAATAGCGTTACTTCCACTTCTTTGTTTTTTAATGAGGTTGTAACAGACTCACCGCTAGCAGATATTGTCTTTTTTGGGCTTTCCTTTTCAAGTTTCCTCTCAAGGTTTTACAACACGTCTATATGGAGAGGGTCTAGCCCTACTCCAACTAGTGCCTCGCACAGTTCAGTGTCTAGCTCTGATACCATTTGTAATAGCCCAAGCCCACCGTTAATAGATATTGTCCGTTTTGACCCATTACGTATCGTCGTCAGCCTCACGGTTTTAAAACACATTTATTATGGAGAGATTTTCACATCCTTATAAGAAATGTTTCGTTCTCCTCTCCAACTGATGTGAAACCTCAGCCTTGGTGACTAGGGGTTGAAAAATGAAGTCTGTCTAGCATCCTGCATTGAGATTAGCAGTTGTTGATATCTGGCTGTTGGCTGTGGATCTGCATTGCCATTAGGTTGTTTACCTCAATTCTTATCCTCAATTCTTATATACTATACTGCTGTTAACTCTGCTTGTTATTTTTGTAACATATTTTTCTTGTGCTGTCTTAAATCGTTATCGAGATTAGCTAGTGAGTCGACCTGATAGTTGAAATTAAAATTGGATGTTCCCGAGGTTAAAAACTCATGATGTAGCGTTTTTCAACTCCAAATGTTATAGGGTTGAACAGTTTTTATGGCCTAATCTAAGTGTAACCGTCCAAGCCCACCACTAGCAGATATTTTTGGACTTCCCCATCTCTCAGAGAGAGGTTTCCATACCCTTATAAGAAATGTTTCGTTCCCTTCTCCAACCGATATGATATCTCACAATCCACCCTTCTTGGGGGCTAGTGTCCTTGCTGGCACACCGCCCGATGTATGGCTCTAGTACCATTTGTAACACCCCAAGCCCACCACATGTGGTCTTCATTGGGCTTTCCTTTTCGAGTTTTCCCTCAAGGTTTTAAAACGCTTCTATTAGAGAGAGGTTCCTATACAAGGAACGTTTTGTTTTTGCTTCAAGGAGAGTTTGTTTTGCATGTTCAGGAGCTGGAAAAGATGCTACCATTGGCACCCTCACCCGAGCCGAAGTACCAGCTTCGAAGAACATCGTCAGCGCCGTTCTAACTTGGACATCGACTCTGTCTTCGTCCTCCTCACACTCGTAAAGAAGAAAGTGTACGTGGTGGGTTCGATAGTTTGTTTTTAACTATCTTCAGGTTTTGTCTGTACTTATTAGTGGGGTCTGTTATATTAATCAGTGGTAGAGAAGAGATTATAATGGGACCATTGTAACTTTGAGTGTCTCTGTGATTTGTCATATAAAGTTTTTAGTTCAGCTTCAAAAACAAACAAAAACAATGTTTCAATGTGAATAAGAAGGAAAAAAAAAAAGATATATAATATATATATGGTTATTGTTGTTTGTCAATTTTTTTTTACCTCATAATCTTGAAAACATTTCATTAAATTTGTATATATATGGTTGTTTGTTAGAGATATCAGACAATAGATTGTTCTATTTAAGGTCTAAATGGTTAGAAACGGACTAAATGTTTACCTGGGCCGATATTATTAACCATGCTAATCTTGGTATGGAAGTTATGCACGAACGTAATGCGACCTAGCTGCGGTTGAAGTTCCATCTATCACTACGATCATTGGAGGAACAATACCTAAACTTGAGGATACTCCAGAATCTTTTCAATGGCTCGTTCGAGAATTACGATCTTTGGCTTTGGAACTGAATCATTTCCTTGGATCTGAGAAGAACTTTCAGATTAATAGGAAGGAAGCTTAATCAAAATGAATTCATAAATTTTTTTCTAAATGTTTAGAAACGGACTAAATGGTTAGAAACTGAGGAATATTTAAGGACTAAATTGTTAGAAGGACTAAATTGTCATTAAAAAAAATTACTTTTCCAAGACTTTTTTTTAGTACTCATATCTAAAATTTAGGGACGCCGTTAATTTAAAGTTTATTTTTAATTAATCTTAAACTTTTATTTTTATTAGTCCTAAAAATTTGAGACTATGTGAAAGATGGTTTATTTTTTATTTTTTATTTTTTAGATTTAGTGACCAATTATAAGGTAATTAAAATTTAATTACTAATTTAATCCAATTAAATGCAAAAATTAAACAAGAGAAAAAGGGTATTTACGACACTGATGTTACTGGGCCGGTGGGCTGGGCCGGTGGTAATGGAAGCCCATCCAAGCCCAGCCCAAAGATTGGAACGCAGTTGATTTGGAGTGGGTTAATTCAATTCAGTTTTGCGCATTAAATTTTCAATTTTTCTCGATTCGGAAATCAAATTTTGCCACCATATTTGTCCTTTCTCCCTCCCAAATTTCTCGGCTTTTTTTCTCAGAAATTTCAAAATCTCAGTTTACACAGACATTCAATCTTTCTTGTATGTTTCTACGTTTTTCAAATTCGATCTTCAACTGTGTTAGGGCTTCTTGCATTTTTGGGGATTCTTTTGCTGTAAGAATTGTGACAATCTGCCACAGAAATGTCGGCTTCGACCGTCTCGATAACGGCGAATCCGGCAGCGCGGAGGAGGCCGGTCTTGGTTTCGGAGAAGAAGGGGACAAGTATTGAAATGTTGGCCGCTGATGGCGCCATCCCTCTTTCCAATACCGCTACTGCCGGGATTGTCGGTGTCGGCGAGGATAAGGTCGCCGGTGGAAATAGTAGGGATATGAGCCATCATTCGATTAGAGGTGAGGCTGTTCTCGAGCGGTCCTCTAGGGATCAACTTCAGATCAAGAAAGTTGTTGCGAATTCCACCATCTCCCCTCGGCGGAGCAGGAAAGTACTTGCGAAGCCGGAGAAGCCTCGATGGGTAACTATTCTTAGCGTATTCACGAAGAATTTTGTGCTATTGATTGTTCTTTTAGGGTTGGTTCAAATGATTAGGAAATTAGCCCTAAAGTCCGGCGAAGGAACGGTGGAAAATCAGATGGGATTTTCAGAAGTCGAGGGGCGGATTGCGGAAGTTGAAACGTCCTTGAAGACCACCACGAAGATGTTTCAGGTGCAGGTGGAGGTCGTGGATCGGAAGATTGAGAATGAGATCGGAGGGTTGAGAAGGGAAGTTGACAAGAAGATTGAGGAGAAAACTGCTGATCTTGAGAGCGGTTTGAAGATGCTGCAGAACAAGGGGGAAGATCTGGAAAGGTCTTTGAGTGAATTAAGGGCGGCGGATTGGTTGTCGAAGCAAGAATTTGATCAAATTTATGAGGAATTGAAGAAGGCCAAGAACAGTGAATTTGATGAGCGATTTACGAATTTGGATGATATAAGGGCGTATGCAAGGGAGATGATTGAGAGGGAGATTCAGAAGCATGCGGCTGATGGGCTTGGTAGGGTGGATTATGCTCTTTCTTCTGGTGGGGCAATGGTTGTAAAGCATTCGGAGCCTTATATAGGAAGGACAAGTAATTGGTTCTCAAAAAGTGTGAGGAATGGGGTTCATAGTGATGCGGATAAGATGCTCAAACCGAGCTTTGGGGAGCCCGGGCAGTGCTTCCCCTTGAAAGGAAGTAGTGGCTTCGTTCAAATCAAGCTACGAACAGCCATTGTTCCAGAAGCTATTACTTTAGAGCATGTTGCCAAGGTGATACTTCTTTTTCTTCTTAGAATTGTTTATAGTTTTTGTTTTAATATCCAAATATGTGTTTCCATACAGTAGATATCTCATTTGAAACTCGCTGAAATATGAATGAGCATTTGTTGGCGGGTACTTGTAACAACTCTAGCCTACCGCACCGCTAGTAAATATTGTTCTCTTTTAGGCTATCCCTTATGCTAGCGGTGGGCATGGACTGTTACAAATGGTATTAGAGTTAGTCATTGGATAGTGTGAGGCATTGGTCGGAGTAGGGTTAGACCCTCTCCCTAGTAAATGTGTTTTAAAACCTTGAGCGGAATCCCAAAAGGGAAAGTCCAAAGAGGGCAATATTTGCTTGTGGTGTGCTTGAGTTGTTAGGGTACTAGCGGGGCTATGATTGAGAAAGAACAAAAATTGTATTTTACCCCATGAGTTGTGAAGAGAACCATGGACATTCTTGGGAGATATGAACGCAACATTTGTTCCTTATGTACTTTGTTATGTTGGGGGCTGTTCTGTTTTAGTAGAAACGATTTATAGATACATAGATTGGTTAGGTGTTGCAGCATAATATAAGTTCCGGTTTCTTCATGATCGTCATTGTGAGATCCCACATTGGTTGGGGAGAAGAACAAAGCATTCTTTATAAAGGTGTGGAAACCTCTCCCTAGGAGTCGTATTTTAAAAACCTTGAGAGTAAGCCCGAAAGGGAAAGCCCAAAGAGGACAATGTCTGCTTGCGATGGGCTTGGGTTGTTACAAATGGTATCGAGCCAGACACTGGGCGATGTGCCAGTGAGGAGACTGAGTCCCGAAGGAGGTGGACACGAGGCAGTGTGCCAGCAAGGACGCTGGCTCTCAAATGGGGATGGATTGGGGGGTCTCACATTGATTGGAAAAGGAAACAAACGCCAGTGAGGATGCTGGACCCTGAAGGAGGTTGAATTGTGAGATCTCACGTCGGTTGGGGAGGAGAACGAAAGATTCTTTATAAGGGTGTGAAAAACTCTCTCTAGTAGACACGTTTTAAAAACCTTGAGGGTAAGCTCAAAAGGGAAAGCCCAAAGAGGACAATATCTGCTAGTGGTGGGCTTGAGTCGTTTTGATCAAGGAAATTTGATTTTTTTTTCTTCTTTTTTCTGATAGATATGTGGTCTTGCTCGTCCCCTTCCATTTCTGTTACCTTTTTCTTTACTGAAACAAGTTCTATCATACAGGCCCGCGCATAGTTAAAATGAAGGCAGAATATAGTCATTGGATATGTTTTTTCAAACATGGGACATATCTTATATCTTATCTTTTTTGTCATATGTTCCAATTTTGATGGATAAATTCTTTAATATTGCGATCTTAGTTTAAGTGATACGTACCCACTAGAGAGCATTACCGTGCTCTCCCGAAGTGTTTTCTAGTCATTGTGCTTGGAACAAGTCAGGTTGCATGTTCTTATACTAATCTTTTATGATCCTCTTCATAACCCCCAAGTCATGGCATACCTAAAAGACTTTCACTAGTCCCTCAATGTGTAGCCAAAATGAAACTGTAACTGATTATCTTGTGCAGTCTATTGGTTGCACCAATTCTCGGTCCCACTTACTTACTCTTCGTTCTTTAATCGATATACAAAAAGCTTTGTAATTTGGAGATAAGGCTCAAAGGTTTCCACGCCTTTATAAATAATGTTTTGTTCTCTCCCTCTGATGTGGGATCACATAATCCACCCCCTTTCGAGGCCCACCGTCTTTGCTGGCACAATGCCTCATGTCCACCCCCTTTCGAGGCTCAGCCTCCTCGCTTGTTTGATGTTTGGCTCTGATACTATTTGTAACAACCCAAGCCTACCGCTAGCAAATATTGTTCTCTTTGGACTTTCTCTTTTGGGCTTCCCCTCAAAGTTTTTAACTGTGTCTGCTAGGAGAGGTTTTCACACCCTTATAAAGAATGTTTTGTTCTCCTCCCCAACCAATGTAGGATCTCAACAAACCGTTCAATAATTATTTGGTTGAGTTAGCTCTAAGTTGCTTCATTGTTGTATTGTTTACTGTGGATCGAAAATGGAATTGTGAAGAGGTATTATTCTATCAATAAATAGGCCACCTTATGTTTGTCATGTAGATTAGTACTAATAAACGAATGTGTCTGGATGGAGTTATTCTATTATCAAACATCACCCCGAATATAACAATTTGGGCGACTACTTTAATTTGGAGAAAATAGAACCTTCATTGGTCAGTTTTCATGTCAAATAAGTATATCCTCCACACTCCCATGAGTTTATCCGAGTGCTTTTAAAAAATTCGTTGTTTTAGGATTTTCTTTTAAGTCTAGAAGTGTTCTCTTACTTGCTCCTAGTGGCTGGCAAACGCCAACCGAGAGGGGAGAATGAATGGCTTAGGAATTGACTGGTTCTGAGCGGACTCATGAAGCTGCTGCTTGGATTATTGTAGAAGATGAGGGTTTTGCTTGCTTAGCTTAGGAAATGGCTGAACTTTAAAGATCGGAGGCGAAGGAGTCACTTGTCTGGTCTTGCGGTGATCTAGTGAAACCGAGCAATAGTTTGTGAGATCAAGTGAGGTCAGAAGATTTCTAGCTACAAAAGGAGGAAAAGTATTGGGTTGAATTGGGGTTCTTCCTATATTATGTATCACTAGTTCTGTTTCCCCACTGTGCAATTTCTTGCTCTTTTCCATTATGGCCTTGGTTTACCTTTCACTAATTTGACTTCACAATTGACTCTTCTGGACAGAGTGTAGCGTACGATCGATCGAGTGCGCCTAAGGATTGCAGGGTATCTGGATGGTTTCGTGGCGATGATGCTAATTCAGCTGTCAATGCCGAAAATATGTTCCTCTTGGCTGACTTTACATACGACCTCGAGAAGAGCAATGCCCAGACATTCGACGTGGTGGAGACAACAAGCTCTGGTCTCATTGACACGATCCGATTAGATTTCTCATCTAACCATGGAAGCCCGTCCCATACGTGCATCTATCGTGTGAGAGTTCACGGTCATGAACCGTACTCGGTTTCTATGATGGCAAAGTCATGATAGATGGGCTGCAGCTAGGCTGCTTGTATTGGGGGGTTCCCTGTGTGTATTATCCTTGTAACTGTTACACTCCCGGTTCTTATTCATTATTTAGAACCATAGCCCTCACACTTTGAATCTTTTGGTTAGTGGGCACAAGTGTTGTTTTCTCCTTTTAGCTTCATCTTCTTTGTTGTTCTTCAAGGCATTGTAAACAAATGGAATTTGTGGGGTTATGATTTTTTTTAGGACACGTTGTCCAGTTATTGTAAGAGTGCGATTATGACACAGTGCATGCTTGTTGGGTTCGAGTTTTTTCACTTAATGCTTCACATTCCTCATAAGA ATGGGGATTCAGACTATGGGGTCTCAGGCTGGAGGTGATCCGAATGGCAAACAATCACAGTTCCAGCCGTTGGTTCGTCAAAGCTCGCTTTATAATCTCACGTTGGATGAGGTCCAAAATCAGTTGGGAGATCTAGGAAAGCCGTTAATCAGTATGAATCTCGACGAGCTTCTTAAGAATGTGTGGACTGCTGAGGCGAACCAAACGGTTGGTAAGGAGAATGAGGATAATACCGTCTTGGATAATCAAACGTCCCTACAACGTCAGGCTAGCCTTTCGTTGAATGGTGCTCTGAGTAAAAAGACTGTTGATGAGGTGTGGAGAGATATTCAACAAAGCAAAAATAGTGAGGAGAAGAAGTCTCGTGAACAGCAACTGACGTTGGGAGAGATGACGTTGGAGGATTTTCTAGTGAAAGCAGGGGTGGTTGCTGAAACGTCGTCGAATAAAAAAGGAGCGGGTTCTGTTGTTGAAATTGATGCAAATATCACGCCACAGTTTCAACAAACGCAGTGGATGCAGTACCCGCAACCTCCGTATCAGTCTCAACAAGCAGCAATGATGGGGGTATATATGTCGGGCCAGCCTATTCCCCAGCCGCTGCATGTTGGGGCTGGTGCTGTGATGGATGTTCCATATGTAGACAACCAAATGGCATTACAGACTCCTTTAATGGGAACTTTATCAGATACACCCACATCTGGGAGAAAAAGAGGAGCGCCTGAAGACATGATTGAGAAAACTGTCGAGCGTAGACAGAAAAGGATGATAAAGAATCGGGAATCTGCCGCTCGTTCACGAGCAAGGAAGCAGGCATATACCAATGAACTGGAGAATAAAGTTTCACGTTTGGAAGAGGAGAACGAAAGGCTCCGGAAACGGAAGAACAAGACCAGGAAGAGTGGGTCTCCTTGCCTTTCCTCGTTTATCAGCTCTAAAAGTAACTCCAGGCCTTGCGTCGAAATGTCGGCTTCGACCGTCTCGATAACGGCGAATCCGGCAGCGCGGAGGAGGCCGGTCTTGGTTTCGGAGAAGAAGGGGACAAGTATTGAAATGTTGGCCGCTGATGGCGCCATCCCTCTTTCCAATACCGCTACTGCCGGGATTGTCGGTGTCGGCGAGGATAAGGTCGCCGGTGGAAATAGTAGGGATATGAGCCATCATTCGATTAGAGGTGAGGCTGTTCTCGAGCGGTCCTCTAGGGATCAACTTCAGATCAAGAAAGTTGTTGCGAATTCCACCATCTCCCCTCGGCGGAGCAGGAAAGTACTTGCGAAGCCGGAGAAGCCTCGATGGGTAACTATTCTTAGCGTATTCACGAAGAATTTTGTGCTATTGATTGTTCTTTTAGGGTTGGTTCAAATGATTAGGAAATTAGCCCTAAAGTCCGGCGAAGGAACGGTGGAAAATCAGATGGGATTTTCAGAAGTCGAGGGGCGGATTGCGGAAGTTGAAACGTCCTTGAAGACCACCACGAAGATGTTTCAGGTGCAGGTGGAGGTCGTGGATCGGAAGATTGAGAATGAGATCGGAGGGTTGAGAAGGGAAGTTGACAAGAAGATTGAGGAGAAAACTGCTGATCTTGAGAGCGGTTTGAAGATGCTGCAGAACAAGGGGGAAGATCTGGAAAGGTCTTTGAGTGAATTAAGGGCGGCGGATTGGTTGTCGAAGCAAGAATTTGATCAAATTTATGAGGAATTGAAGAAGGCCAAGAACAGTGAATTTGATGAGCGATTTACGAATTTGGATGATATAAGGGCGTATGCAAGGGAGATGATTGAGAGGGAGATTCAGAAGCATGCGGCTGATGGGCTTGGTAGGGTGGATTATGCTCTTTCTTCTGGTGGGGCAATGGTTGTAAAGCATTCGGAGCCTTATATAGGAAGGACAAGTAATTGGTTCTCAAAAAGTGTGAGGAATGGGGTTCATAGTGATGCGGATAAGATGCTCAAACCGAGCTTTGGGGAGCCCGGGCAGTGCTTCCCCTTGAAAGGAAGTAGTGGCTTCGTTCAAATCAAGCTACGAACAGCCATTGTTCCAGAAGCTATTACTTTAGAGCATGTTGCCAAGAGTGTAGCGTACGATCGATCGAGTGCGCCTAAGGATTGCAGGGTATCTGGATGGTTTCGTGGCGATGATGCTAATTCAGCTGTCAATGCCGAAAATATGTTCCTCTTGGCTGACTTTACATACGACCTCGAGAAGAGCAATGCCCAGACATTCGACGTGGTGGAGACAACAAGCTCTGGTCTCATTGACACGATCCGATTAGATTTCTCATCTAACCATGGAAGCCCGTCCCATACGTGCATCTATCGTGTGAGAGTTCACGGTCATGAACCGTACTCGGTTTCTATGATGGCAAAGTCATGATAGATGGGCTGCAGCTAGGCTGCTTGTATTGGGGGGTTCCCTGTGTGTATTATCCTTGTAACTGTTACACTCCCGGTTCTTATTCATTATTTAGAACCATAGCCCTCACACTTTGAATCTTTTGGTTAGTGGGCACAAGTGTTGTTTTCTCCTTTTAGCTTCATCTTCTTTGTTGTTCTTCAAGGCATTGTAAACAAATGGAATTTGTGGGGTTATGATTTTTTTTAGGACACGTTGTCCAGTTATTGTAAGAGTGCGATTATGACACAGTGCATGCTTGTTGGGTTCGAGTTTTTTCACTTAATGCTTCACATTCCTCATAAGA ATGGGGATTCAGACTATGGGGTCTCAGGCTGGAGGTGATCCGAATGGCAAACAATCACAGTTCCAGCCGTTGGTTCGTCAAAGCTCGCTTTATAATCTCACGTTGGATGAGGTCCAAAATCAGTTGGGAGATCTAGGAAAGCCGTTAATCAGTATGAATCTCGACGAGCTTCTTAAGAATGTGTGGACTGCTGAGGCGAACCAAACGGTTGGTAAGGAGAATGAGGATAATACCGTCTTGGATAATCAAACGTCCCTACAACGTCAGGCTAGCCTTTCGTTGAATGGTGCTCTGAGTAAAAAGACTGTTGATGAGGTGTGGAGAGATATTCAACAAAGCAAAAATAGTGAGGAGAAGAAGTCTCGTGAACAGCAACTGACGTTGGGAGAGATGACGTTGGAGGATTTTCTAGTGAAAGCAGGGGTGGTTGCTGAAACGTCGTCGAATAAAAAAGGAGCGGGTTCTGTTGTTGAAATTGATGCAAATATCACGCCACAGTTTCAACAAACGCAGTGGATGCAGTACCCGCAACCTCCGTATCAGTCTCAACAAGCAGCAATGATGGGGGTATATATGTCGGGCCAGCCTATTCCCCAGCCGCTGCATGTTGGGGCTGGTGCTGTGATGGATGTTCCATATGTAGACAACCAAATGGCATTACAGACTCCTTTAATGGGAACTTTATCAGATACACCCACATCTGGGAGAAAAAGAGGAGCGCCTGAAGACATGATTGAGAAAACTGTCGAGCGTAGACAGAAAAGGATGATAAAGAATCGGGAATCTGCCGCTCGTTCACGAGCAAGGAAGCAGGCATATACCAATGAACTGGAGAATAAAGTTTCACGTTTGGAAGAGGAGAACGAAAGGCTCCGGAAACGGAAGAACAAGACCAGGAAGAGTGGGTCTCCTTGCCTTTCCTCGTTTATCAGCTCTAAAAGTAACTCCAGGCCTTGCGTCGAAATGTCGGCTTCGACCGTCTCGATAACGGCGAATCCGGCAGCGCGGAGGAGGCCGGTCTTGGTTTCGGAGAAGAAGGGGACAAGTATTGAAATGTTGGCCGCTGATGGCGCCATCCCTCTTTCCAATACCGCTACTGCCGGGATTGTCGGTGTCGGCGAGGATAAGGTCGCCGGTGGAAATAGTAGGGATATGAGCCATCATTCGATTAGAGGTGAGGCTGTTCTCGAGCGGTCCTCTAGGGATCAACTTCAGATCAAGAAAGTTGTTGCGAATTCCACCATCTCCCCTCGGCGGAGCAGGAAAGTACTTGCGAAGCCGGAGAAGCCTCGATGGGTAACTATTCTTAGCGTATTCACGAAGAATTTTGTGCTATTGATTGTTCTTTTAGGGTTGGTTCAAATGATTAGGAAATTAGCCCTAAAGTCCGGCGAAGGAACGGTGGAAAATCAGATGGGATTTTCAGAAGTCGAGGGGCGGATTGCGGAAGTTGAAACGTCCTTGAAGACCACCACGAAGATGTTTCAGGTGCAGGTGGAGGTCGTGGATCGGAAGATTGAGAATGAGATCGGAGGGTTGAGAAGGGAAGTTGACAAGAAGATTGAGGAGAAAACTGCTGATCTTGAGAGCGGTTTGAAGATGCTGCAGAACAAGGGGGAAGATCTGGAAAGGTCTTTGAGTGAATTAAGGGCGGCGGATTGGTTGTCGAAGCAAGAATTTGATCAAATTTATGAGGAATTGAAGAAGGCCAAGAACAGTGAATTTGATGAGCGATTTACGAATTTGGATGATATAAGGGCGTATGCAAGGGAGATGATTGAGAGGGAGATTCAGAAGCATGCGGCTGATGGGCTTGGTAGGGTGGATTATGCTCTTTCTTCTGGTGGGGCAATGGTTGTAAAGCATTCGGAGCCTTATATAGGAAGGACAAGTAATTGGTTCTCAAAAAGTGTGAGGAATGGGGTTCATAGTGATGCGGATAAGATGCTCAAACCGAGCTTTGGGGAGCCCGGGCAGTGCTTCCCCTTGAAAGGAAGTAGTGGCTTCGTTCAAATCAAGCTACGAACAGCCATTGTTCCAGAAGCTATTACTTTAGAGCATGTTGCCAAGAGTGTAGCGTACGATCGATCGAGTGCGCCTAAGGATTGCAGGGTATCTGGATGGTTTCGTGGCGATGATGCTAATTCAGCTGTCAATGCCGAAAATATGTTCCTCTTGGCTGACTTTACATACGACCTCGAGAAGAGCAATGCCCAGACATTCGACGTGGTGGAGACAACAAGCTCTGGTCTCATTGACACGATCCGATTAGATTTCTCATCTAACCATGGAAGCCCGTCCCATACGTGCATCTATCGTGTGAGAGTTCACGGTCATGAACCGTACTCGGTTTCTATGATGGCAAAGTCATGA MGIQTMGSQAGGDPNGKQSQFQPLVRQSSLYNLTLDEVQNQLGDLGKPLISMNLDELLKNVWTAEANQTVGKENEDNTVLDNQTSLQRQASLSLNGALSKKTVDEVWRDIQQSKNSEEKKSREQQLTLGEMTLEDFLVKAGVVAETSSNKKGAGSVVEIDANITPQFQQTQWMQYPQPPYQSQQAAMMGVYMSGQPIPQPLHVGAGAVMDVPYVDNQMALQTPLMGTLSDTPTSGRKRGAPEDMIEKTVERRQKRMIKNRESAARSRARKQAYTNELENKVSRLEEENERLRKRKNKTRKSGSPCLSSFISSKSNSRPCVEMSASTVSITANPAARRRPVLVSEKKGTSIEMLAADGAIPLSNTATAGIVGVGEDKVAGGNSRDMSHHSIRGEAVLERSSRDQLQIKKVVANSTISPRRSRKVLAKPEKPRWVTILSVFTKNFVLLIVLLGLVQMIRKLALKSGEGTVENQMGFSEVEGRIAEVETSLKTTTKMFQVQVEVVDRKIENEIGGLRREVDKKIEEKTADLESGLKMLQNKGEDLERSLSELRAADWLSKQEFDQIYEELKKAKNSEFDERFTNLDDIRAYAREMIEREIQKHAADGLGRVDYALSSGGAMVVKHSEPYIGRTSNWFSKSVRNGVHSDADKMLKPSFGEPGQCFPLKGSSGFVQIKLRTAIVPEAITLEHVAKSVAYDRSSAPKDCRVSGWFRGDDANSAVNAENMFLLADFTYDLEKSNAQTFDVVETTSSGLIDTIRLDFSSNHGSPSHTCIYRVRVHGHEPYSVSMMAKS
BLAST of CmaCh15G005470 vs. Swiss-Prot
Match: SUN1_ARATH (Protein SAD1/UNC-84 domain protein 1 OS=Arabidopsis thaliana GN=SUN1 PE=1 SV=1) HSP 1 Score: 432.2 bits (1110), Expect = 1.2e-119 Identity = 255/484 (52.69%), Postives = 341/484 (70.45%), Query Frame = 1
BLAST of CmaCh15G005470 vs. Swiss-Prot
Match: SUN2_ARATH (Protein SAD1/UNC-84 domain protein 2 OS=Arabidopsis thaliana GN=SUN2 PE=1 SV=1) HSP 1 Score: 394.0 bits (1011), Expect = 3.7e-108 Identity = 236/480 (49.17%), Postives = 320/480 (66.67%), Query Frame = 1
BLAST of CmaCh15G005470 vs. Swiss-Prot
Match: AI5L2_ARATH (ABSCISIC ACID-INSENSITIVE 5-like protein 2 OS=Arabidopsis thaliana GN=DPBF3 PE=1 SV=1) HSP 1 Score: 225.7 bits (574), Expect = 1.8e-57 Identity = 163/289 (56.40%), Postives = 185/289 (64.01%), Query Frame = 1
BLAST of CmaCh15G005470 vs. Swiss-Prot
Match: AI5L3_ARATH (ABSCISIC ACID-INSENSITIVE 5-like protein 3 OS=Arabidopsis thaliana GN=DPBF4 PE=1 SV=1) HSP 1 Score: 179.1 bits (453), Expect = 1.9e-43 Identity = 143/293 (48.81%), Postives = 169/293 (57.68%), Query Frame = 1
BLAST of CmaCh15G005470 vs. Swiss-Prot
Match: AI5L6_ARATH (ABSCISIC ACID-INSENSITIVE 5-like protein 6 OS=Arabidopsis thaliana GN=ABF3 PE=1 SV=1) HSP 1 Score: 118.6 bits (296), Expect = 3.0e-25 Identity = 131/396 (33.08%), Postives = 176/396 (44.44%), Query Frame = 1
BLAST of CmaCh15G005470 vs. TrEMBL
Match: A0A0A0KCH3_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_6G051490 PE=4 SV=1) HSP 1 Score: 758.4 bits (1957), Expect = 8.4e-216 Identity = 390/468 (83.33%), Postives = 423/468 (90.38%), Query Frame = 1
BLAST of CmaCh15G005470 vs. TrEMBL
Match: A0A067J9Z6_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_04204 PE=4 SV=1) HSP 1 Score: 597.4 bits (1539), Expect = 2.5e-167 Identity = 315/473 (66.60%), Postives = 382/473 (80.76%), Query Frame = 1
BLAST of CmaCh15G005470 vs. TrEMBL
Match: W9R9S3_9ROSA (Uncharacterized protein OS=Morus notabilis GN=L484_012197 PE=4 SV=1) HSP 1 Score: 578.6 bits (1490), Expect = 1.2e-161 Identity = 306/472 (64.83%), Postives = 383/472 (81.14%), Query Frame = 1
BLAST of CmaCh15G005470 vs. TrEMBL
Match: M5X263_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa003932mg PE=4 SV=1) HSP 1 Score: 567.8 bits (1462), Expect = 2.1e-158 Identity = 308/475 (64.84%), Postives = 374/475 (78.74%), Query Frame = 1
BLAST of CmaCh15G005470 vs. TrEMBL
Match: A0A151QPL8_CAJCA (Protein unc-84 isogeny B OS=Cajanus cajan GN=KK1_047108 PE=4 SV=1) HSP 1 Score: 558.9 bits (1439), Expect = 9.8e-156 Identity = 299/471 (63.48%), Postives = 369/471 (78.34%), Query Frame = 1
BLAST of CmaCh15G005470 vs. TAIR10
Match: AT5G04990.1 (AT5G04990.1 SAD1/UNC-84 domain protein 1) HSP 1 Score: 432.2 bits (1110), Expect = 7.0e-121 Identity = 255/484 (52.69%), Postives = 341/484 (70.45%), Query Frame = 1
BLAST of CmaCh15G005470 vs. TAIR10
Match: AT3G10730.1 (AT3G10730.1 SAD1/UNC-84 domain protein 2) HSP 1 Score: 394.0 bits (1011), Expect = 2.1e-109 Identity = 236/480 (49.17%), Postives = 320/480 (66.67%), Query Frame = 1
BLAST of CmaCh15G005470 vs. TAIR10
Match: AT3G56850.1 (AT3G56850.1 ABA-responsive element binding protein 3) HSP 1 Score: 225.7 bits (574), Expect = 9.9e-59 Identity = 163/289 (56.40%), Postives = 185/289 (64.01%), Query Frame = 1
BLAST of CmaCh15G005470 vs. TAIR10
Match: AT2G41070.1 (AT2G41070.1 Basic-leucine zipper (bZIP) transcription factor family protein) HSP 1 Score: 179.1 bits (453), Expect = 1.1e-44 Identity = 143/293 (48.81%), Postives = 169/293 (57.68%), Query Frame = 1
BLAST of CmaCh15G005470 vs. TAIR10
Match: AT4G34000.1 (AT4G34000.1 abscisic acid responsive elements-binding factor 3) HSP 1 Score: 118.6 bits (296), Expect = 1.7e-26 Identity = 131/396 (33.08%), Postives = 176/396 (44.44%), Query Frame = 1
BLAST of CmaCh15G005470 vs. NCBI nr
Match: gi|659113576|ref|XP_008456648.1| (PREDICTED: SUN domain-containing protein 2 [Cucumis melo]) HSP 1 Score: 777.7 bits (2007), Expect = 1.9e-221 Identity = 400/467 (85.65%), Postives = 427/467 (91.43%), Query Frame = 1
BLAST of CmaCh15G005470 vs. NCBI nr
Match: gi|449446333|ref|XP_004140926.1| (PREDICTED: SUN domain-containing protein 2 [Cucumis sativus]) HSP 1 Score: 758.4 bits (1957), Expect = 1.2e-215 Identity = 390/468 (83.33%), Postives = 423/468 (90.38%), Query Frame = 1
BLAST of CmaCh15G005470 vs. NCBI nr
Match: gi|802795470|ref|XP_012092514.1| (PREDICTED: SUN domain-containing protein 3-like [Jatropha curcas]) HSP 1 Score: 597.4 bits (1539), Expect = 3.6e-167 Identity = 315/473 (66.60%), Postives = 382/473 (80.76%), Query Frame = 1
BLAST of CmaCh15G005470 vs. NCBI nr
Match: gi|568834331|ref|XP_006471288.1| (PREDICTED: protein SAD1/UNC-84 domain protein 1 [Citrus sinensis]) HSP 1 Score: 589.3 bits (1518), Expect = 9.7e-165 Identity = 308/470 (65.53%), Postives = 382/470 (81.28%), Query Frame = 1
BLAST of CmaCh15G005470 vs. NCBI nr
Match: gi|703079999|ref|XP_010091304.1| (hypothetical protein L484_012197 [Morus notabilis]) HSP 1 Score: 578.6 bits (1490), Expect = 1.7e-161 Identity = 306/472 (64.83%), Postives = 383/472 (81.14%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of Cucurbita maxima
Date Performed: 2017-05-20
The following gene(s) are orthologous to this gene: The following gene(s) are paralogous to this gene:
The following block(s) are covering this gene: None |