CmaCh09G000270 (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.ATGGCGCTGCCTCCTGCAGTTCCCTCTGCCGTCGCAACTCAGTCCAGTGGAGGTTTTTCTCCTCCTCCCACCTCTGGGCCAAATTGTTTGAAGAAAGCCAGAGGGAGACCCCCTGGCTCTACCAACAAGAAGCAACTTACTTATTCCGCATCCCTTTGGCATTAATTGGCGTCTAGTGTTGGTAGTTAACTGATTCTGGTTCTTGATATCTAAGATAGTTGCATTGTGTTCGTCCCCATTGCTTTCTCTATCTCTTTGGTCATCCATATCACTTTCATCATTGATTTGCATGAAGAAAACTTTCAAAATCTTTAGCCTCTGCTGCAAATGTGGTCAAAATTGGGTGTTTTCCCTTCAAATGCAGAGTTTCTATTCTTGGGGGCTCGATTTGGACTCTGATATTGTGATTACAGCTTGAAATATTGTATAATTGTAATTGTAGGGTCATCAGGAGTTGGATTTACCCCACATGTCATCACCGTGGAAGCTGGAGAGGTTCATATTTTTGTGTGTTTTACTTTTCTGAAATTGAATAGTTGAGTGAGAATAAGGAGACGTAAATGTTTTCCAGGATGTCTGTTCGAAAATAATGTCATTTTCCCAGAATGGGCCTAGAGCTCTTTGTATCCTTACAGCAAATGGTGCAATATCCAATGTGACTCTACGTCAACCAGCCATGTGTGCTGGAACCGTCACTTACCAGGTTTGATAATTTCTACTTCTCTTTTGAATGTTCAACGTATGCCTGCCTGGATCATAATTTCGTAGTGTCCCCATCTTCATGCCTGTAAATAGACCTTCTTCTTTCCTTTTCTTAAACCAGATGGAATTTATGTGTTATACAGGGGCGATTCGAGATTTTGTCTCTATCTGGATCATATCTCTTCTCCGAGAATGGCACTCAGCGGAGTCGAACTGGAGGTCTAAGTGTTTCATTATCTGGACATAGGTGGTGGGGTGGCTGGTCTTCTAACGGCTGCAACTCCTGTTCAGATACATTAACTTTCCCCATGAGAGCGTTCATATACATCTTTTATAGCCCTATGTATGGTGTTATTAGAATGCTTTTCATTGTCACTATCGGATTACCAGGTAGTCATGGGGAGCTTCATCACTGATGGGGGGCACAAGGAGTTGAGGCAAGCAGACCAAATAGAACAGCCGCCTTTTACTGCACCCCATAAACTTGCTCCCATCCGTGCTGGAATGACGGGAACTAGCAGCAGCCCGCCATCAGTCGGTACTCTCAGTGAATCCTCGGGAGGGCCTGGGAGTCCATTTAACCACAGTGCTGGAGCCTGCAATAATAACACTGTATCTTGGATGTGAAACTCGAGGTTGCTTCGTTAACTCACTTGATTTGTTAACATGGCGGGGGCTAACATGGAATCTGGTGTTCTGTTGTCTAATGTTACTCTAGTTCCAGTTTGAGTTGGCTTGGAAAGAACAGACGTGAAATAGTTGTGTTTTGTTTTGATAGTGATGGCATTACAAATCAAATGATGTGTTCATTTCAATTATTGCGCTACTACTTTGAAGCTAAATAGTCTCAAAGAGAGAGTATTATTACAAACGGGACTTTTCTTCTTCAGCTATCTCTCGTTTGCTAACAACACATAGGGACTGCCCCTTTAACTCCTTGCTCTTTTCAACAATAAGCGCAAGGAGAAGAAGCCTAAAGCAAAAGTCTGCCAAAACCATCCCCTTGAGTTAGCAGGATCCACCTTTCTGGCTAAGAACCATGCATAAGTACCCTCACCAACATGCAGTAGAAAGGCTATAAGAAACACCATTCTCACCACTTGAATTGACCTAAAGAAGAAAAGGCTGATGCCTTTGAAAAATGGAACAGGTCCTACGTCTGGAAGGAACGCAGCACAAAACATGATGCTCATTCCGACAACACAGAACAGCCACGCATATATTGTTGGCCCATCGAGACTCTTCCTTTTTCTCTTCTGCCAATATGAGATGGTCGCAGCCATGCCCTCCTTTGGTGTCACCATTGGTACATACCCCAGCTCCTCCCTGGCTTTAAGATACGAGAAATAATTACTCACGCCAACCTGCACGATATATGCAAACTAATTAGGATTCAGAGGAGTTCATTAGGAATTCAGCATGGAAGCATTCTCTACATTATTAAGGAGCATTATAGAGATGGTGAAGGAAAGAACGATTTGACCGTGTAATTGTTCCTCAAAATTTGGTTGCAATTAGATATCCAAACATCAGCAAGACCATTTGCATGTTTGCAGGTGCAACATTAAACAAAAATAATAGTAATAACCTTATAAATCTCAGGAGGAAGCATCAGGGGATGTGGAAGCCACCATCTATCCAGCCATGGATATAATATTGTGTACAATACAGCAAAAAATTTCCCCAAGAGAAGAGCTTTAGGAACAGGCAGGTAAGAATTTGGCAAGTCATAACCTAAGCTATTGAGCAGAGGCTTAATAAATTCGTAAGAATTAACTGGACAACCTGATGCAAATAGAGAGATTGTCAGCAAAGCCCCATCGTCTAGTGATGGAAACAAAACAGCACCATATTGAAGCAAACTACATAGTGTGGAGGGGAGGGTTGTGAAAAGTAAGGAAGGGTGCAGAGCTACCATCTGATACATAATATGGCTGGCCAGCAGCTACTGGGGCTCCTCCTTTAACGGGAATGTCGTCCAAAAGCCCCACGCATGCCAATATCAAAGCCAGCACGAGATTATCCACATAGATCCAGTCAGTTTTAGCACTTGGCTTCCCAACCCTAAAGTGTAGCAAGCCTAACTTTGCCAAGGAGACCAACCTAGGAAAATGCCTCTCTTCCCCTGGTCCGTAGATAGCACAAGAACGTATAGCACAGGTGTAAAGACATTTGCCATTCCTGTTCCTACAAATGAAAAGCACGAGCAAGAAAATAATGGCATGGGCATTGTAAAAATGCAATGACAACTTGGATGGATGCTATAAGTTTTATTTAATCAAATTTCATTTTTCCTTTCACAAATCCTCAGTCACATCAGAAGATATCCTAATGACTGCACCAAGAGCAATCCCAATACCATGGAAGTTACGAAGATAGCTATATATCTATATATATCCTAGAAAATTGACTTACTTTAAGGGGCGTCCGTTGGTCTTCAAAACTAACTGTTCTGCAATGGATTTACTTCGAGCATATGCATCAACATGATCATCAATTGGGAAATAAGGTAATCCCTCATTGCCATTAACAATCTCTTGACCTCCAAACACTACATTATACGTGCTCATATAAACAAGCCGCCTAACGCCGTACTCCAGGCAAGCATCCAAGACATGGCATGTTCCATTAATATTAACCTCATCGATGCGACCAACTTGAAGCATTTCTTTCCCTGACAATCCATATGCCGCCAGGTGGAATACACAATCAGCACCACGAACAGCTCTTTCCACATCCTTTTTACAGGTAACATCCCCTACATGACTGCAAGAGTTAACATCGAGAGAAGCCTAGTGTGTTGTACTCAAGTTTACTTTTAATTACTAGAGAGATTGCAGCAGATACGCATTACTGAATATGCAAATCATCGAAAATTCCGACAAGACCGTTCTAGGGGAAAGGAATGAAAGCCATAAAAAGATTTCAATGGAGGCAAGTAGCGCCAGGATGATCGAAGTGCATGCGTACAGATGAAAGATTATAGTCGCGCCTCTAAGGCTAATCGCAAAACAAACAGTAAAAGGGGGACCTAATTGCAGAAAGGAATGAACCTTGGATGATTTTGACTCCGTGAATCTTGAGGTCGTCGGACCAAGGAGAAGCTGGTCGGAGGTCAAAGGCTCGGACCTGGAGAGCACCTCTGCGGACAAGCTCTAAGCAGAGGGCGGAGCCGACGAAGCCCAGTGCGCCGGTAACAACGAAGGTGTTGGCTTCAATGCCTTCATTGGCGCTCAAATGCATCTGGTGAGATCGAAATTGGGAGTAATTACAGACAGTATCAGCGACTTCGACGAAAACTCAGAGAAAACCAAGTCTTCCAGAGAATTTAAGATCCAGCCTATTTCGTTTTTAACTCAAAAGTGGTATTGCGTTAAAAATTAAGTTTTTTTAAAGTATCCATAGAATTTTTGGACTTTAAAAATTTTCATTTTAAGTAATGATTATTTATTTATTTATATATGATATTTGTAGATTTGTTCATATAACTCTAGGCAACCATTGACGCTGGCCGACTCCAAAGTGGACTGGTCTAACTCAATTCGACCCAACTAAATCGAACTTTTTTTTTCTTTTATTTTCTTTTTAATGTAGGGCCTATGGGAGGAGGGTCCCAAGGACCCAAACTCGAATAAAAAAGTATCGAATTTTAGTGTTGGTAGTACCTTATAAGTAAAGTATCGAGGTTGTGCCTCAAAGACTTGGAGCGATGATGATGAAAGATATTAGCAAGACGTAAAAGAAGTTTAGAAAAATTGGAGAGGGGAAGGTCACATAGGCCTAAGAATCCAAGAAATGGAAATATATGATATATTAAAGAAGAAGAGATAATTAGAAGGCTGTTTGGTGTGATGCTGCTACAACCAAAAAATGAATTAGAAAGAGAGGCAAAACAGAGCCTGAAGGGTCCATAAGTGGCGGCGTAAGCATTAAGGAGCTCGTTTTGGGCGGACCAGAAGTCGGCTTTCAGCCCACCCCTCCTAATCGCTTTCAGTATCTTGTTCCGGTGAATGTAGCTCCTCACCGCCACACCTTGAAAATGCCAAACTTGCGAACAGGGGGAGTCCGTTTGAAAAAGTCAAATTAAACTAAATAATTTAATTTATTATTATACCCAACAGTCTGAGGGATGGAGGCAGGGAAGAAATGCTCCCCGATTCGCATATTCAAGGTATCTGGAAACCCTTCAAAAAGCTTCGTCGTCTTCCTCAATAGTCCACGCTCCCATCCAATCAAATCAAACACAACCTTCCGCCATTGAAATCTCAATCCTAACCATGGGCCTCAAAGTGCTCTCCGCTCTCGACACTGCCAAAACCCAATTGTACCATTTCAAGGCCATCGTCATCGCCGGGATGGGCCTCTTCACCGACGCCTACGATCTCTTCAGCATCACTCCCGTTACGACCCTCGTAGGACGTGTGTACTACCAGGACAAACAATACGAGATTCCCGCCGCCGTCAAATCCGCCATGCTGGCCGTCGCCCTTCTCGGCACCGCCACGGGTCAAGTGGTGTTCGGCATACTCGGAGATCGAGTGGGACGACGGCGCGTGTACGGACTCGCATTGGCGCTGATGGTGCTGAGTTCCATCGGATGCGGGTTCTCAATCTGCACCACAAGGAGCTGCGTCCTTGTCAGCCTAGGGTTCTTCAGGTTCCTTCTGGGACTGGGAATTGGGGGAGATTACCCATTGTCGGCGACCATAATGTCGGAGTTCGCCAACAAGAAGACACGTGGGGCGTTCATAGCGGCGGTGTTCTCGATGCAGGGATTCGGGATCTTGGCCAGCTCCACGGTGACCATGATCGTGTGCTCCATATTCGATCGGGCCTCCAATTACCCACCCAGTAATCATACCCCCATGGGGGCGGATATTGCTTGGAGGTTGATTCTCCTGCTCGGCGCTCTTCCGGCGGCGATGACTTATTACTGGCGAATGATGATGCCGGAAACCGCCAGGTCAATTCCTTTCTGTTTTCCTCTGGAGTTCGTGTGGAAATTATCGGACCAACCAAATTGAGCGGTTGACTTTCTTGGTCTTAAAAATAATTCTCAAGAGTAGATGTTTCTTGATGCAATCAATCATCATAATTTAGTATTTTAAATATCCTTTTCCACAAATTAAAAAATTTCAATTTAATTTCTTATTATTTTAATAACAACACTTTCTATTATTGGAGCAATTGAATTTTAGAACAAGAATTGAGCTTCTAAGAAATCAAAATGGCTGATTTTCAAAGAAATTCCATCTTCAAATGCCCAAATTTGATTTGATGGCAGATACACAGCTCTGGTTGAGCGGAATGTGGCACAAGCGGCGAAGGACATGGAGAAGGTGTTGGATGTGACGTTGGCTGATATCACCGAGGACAGCCCTGTTTCCCCTCCCCCTCCAAGTTTCCCCTTCTTTTCCAACGAATTTCTCCGTCGCCACGGCCGCGACCTTCTCTCCTGCGCCGCCGCTTGGTTCCTCGTCGACGTTGTGTTCTACAGCAGCAACCTCTTCCAATCCAGAATCTACACCCAATTCCTTCCCCCAAAACTCACCCGCAACGTCTACCAAGACGCCTTCAACGAAGCCAAACTCCAAGCCATCGTGGCCGTCTGTTCCACCATTCCTGGCTACTGGGTCTCCGTCTATTTCATCGACCGACTCGGCCGAGTCAAAATCCAAATCATGGGGTTTCTCTTCATGGGCATTGGCTATTTCGCCATCGCCATTCCCTACAACAGATACTGGGACTCCGATCACAAATTTGGCTTCATGGTAATCTACTGCCTCACATTCTTCTTCTCAAACTTCGGCCCCAACACCACCACTTTCATTCTCCCTGCCGAGCTCTTTCCCGCCAGGTTCAGATCCACCTGCCATGGAATCTCCGGCGCGGCTGGCAAAATCGGGGCCATCATCGGGGCCGTGGGGTTCCTTTGGGCTTCGCACGACCGGTGGGATAATGGAATTGGGATGCAGGCGTCGCTGATAATACTTGGTGGGGCGAGTCTGGTGGGAGTGGCGGTGACGTATTTGTTCACCAGAGAGACCACCGGAAGGTCGTTGGAAGAGAACGAGAAGGAAGATGAGTACGCTGGAGTCTGGTTTATAAGGTTTTCCTCCTGTCTGTCTGTTGGTGAACATGAGGACATGTCGTCACGTTCAACCGCCAACTCCATTCGAAGTAGTACACCAATTCATTAGAGATGAGTTTCGTTTGATGTAAACGAGTGGTGTGCAGCTTTTGGTTTTGGATTCCATGCATTTCATTTGTAACCCAAAATGGAAGTATAATAGATAGAGGGTAAAGTACAAAAGGATTATTAATGCTCATTTTTGTGAAGGCAGCTCTAAGCTTGGCTTTCAG ATGGCGCTGCCTCCTGCAGTTCCCTCTGCCGTCGCAACTCAGTCCAGTGGAGGGTCATCAGGAGTTGGATTTACCCCACATGTCATCACCGTGGAAGCTGGAGAGAATGGGCCTAGAGCTCTTTGTATCCTTACAGCAAATGGTGCAATATCCAATGTGACTCTACGTCAACCAGCCATGTGTGCTGGAACCGTCACTTACCAGGGGCGATTCGAGATTTTGTCTCTATCTGGATCATATCTCTTCTCCGAGAATGGCACTCAGCGGAGTCGAACTGGAGGTCTAAGTGTTTCATTATCTGGACATAGGTGGTGGGGTGGCTGGTCTTCTAACGGCTGCAACTCCTGTTCAGATACATTAACTTTCCCCATGAGAGCGTTCATATACATCTTTTATAGCCCTATGTATGGTGTAGTCATGGGGAGCTTCATCACTGATGGGGGGCACAAGGAGTTGAGGCAAGCAGACCAAATAGAACAGCCGCCTTTTACTGCACCCCATAAACTTGCTCCCATCCGTGCTGGAATGACGGGAACTAGCAGCAGCCCGCCATCAGTCGGTACTCTCAGTGAATCCTCGGGAGGGCCTGGGAGTCCATTTAACCACAGTGCTGGAGCCTGCAATAATAACACTAAGAAAAGGCTGATGCCTTTGAAAAATGGAACAGGTCCTACGTCTGGAAGGAACGCAGCACAAAACATGATGCTCATTCCGACAACACAGAACAGCCACGCATATATTGTTGGCCCATCGAGACTCTTCCTTTTTCTCTTCTGCCAATATGAGATGGTCGCAGCCATGCCCTCCTTTGGTGTCACCATTGGAGGAAGCATCAGGGGATGTGGAAGCCACCATCTATCCAGCCATGGATATAATATTGTGTACAATACAGCAAAAAATTTCCCCAAGAGAAGAGCTTTAGGAACAGGCAGGGGCGTCCGTTGGTCTTCAAAACTAACTGTTCTGCAATGGATTTACTTCGAGCATATGCATCAACATGATCATCAATTGGGAAATAAGAGAGATTGCAGCAGATACGCATTACTGAATATGCAAATCATCGAAAATTCCGACAAGACCGTTCTAGGGGAAAGGAATGAAAGCCATAAAAAGATTTCAATGGAGGCAAGTAGCGCCAGGATGATCGAAGTGCATGCGTCGTCGGACCAAGGAGAAGCTGGTCGGAGGTCAAAGGCTCGGACCTGGAGAGCACCTCTGCGGACAAGCTCTAAGCAGAGGGCGGAGCCGACGAAGCCCAGTGCGCCGATTTGTTCATATAACTCTAGGCAACCATTGACGCTGGCCGACTCCAAAAGAGGCAAAACAGAGCCTGAAGGGTCCATAAGTGGCGGCGTAAGCATTAAGGAGCTCGTTTTGGGCGGACCAGAAGTCGGCTTTCAGCCCACCCCTCCTAATCGCTTTCAGTATCTTGTTCCGTCTGAGGGATGGAGGCAGGGAAGAAATGCTCCCCGATTCGCATATTCAAGGTATCTGGAAACCCTTCAAAAAGCTTCGTCGTCTTCCTCAATAGTCCACGCTCCCATCCAATCAAATCAAACACAACCTTCCGCCATTGAAATCTCAATCCTAACCATGGGCCTCAAAGTGCTCTCCGCTCTCGACACTGCCAAAACCCAATTGTACCATTTCAAGGCCATCGTCATCGCCGGGATGGGCCTCTTCACCGACGCCTACGATCTCTTCAGCATCACTCCCGTTACGACCCTCGTAGGACGTGTGTACTACCAGGACAAACAATACGAGATTCCCGCCGCCGTCAAATCCGCCATGCTGGCCGTCGCCCTTCTCGGCACCGCCACGGGTCAAGTGGTGTTCGGCATACTCGGAGATCGAGTGGGACGACGGCGCGTGTACGGACTCGCATTGGCGCTGATGGTGCTGAGTTCCATCGGATGCGGGTTCTCAATCTGCACCACAAGGAGCTGCGTCCTTGTCAGCCTAGGGTTCTTCAGGTTCCTTCTGGGACTGGGAATTGGGGGAGATTACCCATTGTCGGCGACCATAATGTCGGAGTTCGCCAACAAGAAGACACGTGGGGCGTTCATAGCGGCGGTGTTCTCGATGCAGGGATTCGGGATCTTGGCCAGCTCCACGGTGACCATGATCGTGTGCTCCATATTCGATCGGGCCTCCAATTACCCACCCAGTAATCATACCCCCATGGGGGCGGATATTGCTTGGAGGTTGATTCTCCTGCTCGGCGCTCTTCCGGCGGCGATGACTTATTACTGGCGAATGATGATGCCGGAAACCGCCAGATACACAGCTCTGGTTGAGCGGAATGTGGCACAAGCGGCGAAGGACATGGAGAAGGTGTTGGATGTGACGTTGGCTGATATCACCGAGGACAGCCCTGTTTCCCCTCCCCCTCCAAGTTTCCCCTTCTTTTCCAACGAATTTCTCCGTCGCCACGGCCGCGACCTTCTCTCCTGCGCCGCCGCTTGGTTCCTCGTCGACGTTGTGTTCTACAGCAGCAACCTCTTCCAATCCAGAATCTACACCCAATTCCTTCCCCCAAAACTCACCCGCAACGTCTACCAAGACGCCTTCAACGAAGCCAAACTCCAAGCCATCGTGGCCGTCTGTTCCACCATTCCTGGCTACTGGGTCTCCGTCTATTTCATCGACCGACTCGGCCGAGTCAAAATCCAAATCATGGGGTTTCTCTTCATGGGCATTGGCTATTTCGCCATCGCCATTCCCTACAACAGATACTGGGACTCCGATCACAAATTTGGCTTCATGGTAATCTACTGCCTCACATTCTTCTTCTCAAACTTCGGCCCCAACACCACCACTTTCATTCTCCCTGCCGAGCTCTTTCCCGCCAGGTTCAGATCCACCTGCCATGGAATCTCCGGCGCGGCTGGCAAAATCGGGGCCATCATCGGGGCCGTGGGGTTCCTTTGGGCTTCGCACGACCGGTGGGATAATGGAATTGGGATGCAGGCGTCGCTGATAATACTTGGTGGGGCGAGTCTGGTGGGAGTGGCGGTGACGTATTTGTTCACCAGAGAGACCACCGGAAGGTCGTTGGAAGAGAACGAGAAGGAAGATGAGTACGCTGGAGTCTGGTTTATAAGGTTTTCCTCCTGTCTGTCTGTTGGTGAACATGAGGACATGTCGTCACGTTCAACCGCCAACTCCATTCGAAGTAGTACACCAATTCATTAGAGATGAGTTTCGTTTGATGTAAACGAGTGGTGTGCAGCTTTTGGTTTTGGATTCCATGCATTTCATTTGTAACCCAAAATGGAAGTATAATAGATAGAGGGTAAAGTACAAAAGGATTATTAATGCTCATTTTTGTGAAGGCAGCTCTAAGCTTGGCTTTCAG ATGGCGCTGCCTCCTGCAGTTCCCTCTGCCGTCGCAACTCAGTCCAGTGGAGGGTCATCAGGAGTTGGATTTACCCCACATGTCATCACCGTGGAAGCTGGAGAGAATGGGCCTAGAGCTCTTTGTATCCTTACAGCAAATGGTGCAATATCCAATGTGACTCTACGTCAACCAGCCATGTGTGCTGGAACCGTCACTTACCAGGGGCGATTCGAGATTTTGTCTCTATCTGGATCATATCTCTTCTCCGAGAATGGCACTCAGCGGAGTCGAACTGGAGGTCTAAGTGTTTCATTATCTGGACATAGGTGGTGGGGTGGCTGGTCTTCTAACGGCTGCAACTCCTGTTCAGATACATTAACTTTCCCCATGAGAGCGTTCATATACATCTTTTATAGCCCTATGTATGGTGTAGTCATGGGGAGCTTCATCACTGATGGGGGGCACAAGGAGTTGAGGCAAGCAGACCAAATAGAACAGCCGCCTTTTACTGCACCCCATAAACTTGCTCCCATCCGTGCTGGAATGACGGGAACTAGCAGCAGCCCGCCATCAGTCGGTACTCTCAGTGAATCCTCGGGAGGGCCTGGGAGTCCATTTAACCACAGTGCTGGAGCCTGCAATAATAACACTAAGAAAAGGCTGATGCCTTTGAAAAATGGAACAGGTCCTACGTCTGGAAGGAACGCAGCACAAAACATGATGCTCATTCCGACAACACAGAACAGCCACGCATATATTGTTGGCCCATCGAGACTCTTCCTTTTTCTCTTCTGCCAATATGAGATGGTCGCAGCCATGCCCTCCTTTGGTGTCACCATTGGAGGAAGCATCAGGGGATGTGGAAGCCACCATCTATCCAGCCATGGATATAATATTGTGTACAATACAGCAAAAAATTTCCCCAAGAGAAGAGCTTTAGGAACAGGCAGGGGCGTCCGTTGGTCTTCAAAACTAACTGTTCTGCAATGGATTTACTTCGAGCATATGCATCAACATGATCATCAATTGGGAAATAAGAGAGATTGCAGCAGATACGCATTACTGAATATGCAAATCATCGAAAATTCCGACAAGACCGTTCTAGGGGAAAGGAATGAAAGCCATAAAAAGATTTCAATGGAGGCAAGTAGCGCCAGGATGATCGAAGTGCATGCGTCGTCGGACCAAGGAGAAGCTGGTCGGAGGTCAAAGGCTCGGACCTGGAGAGCACCTCTGCGGACAAGCTCTAAGCAGAGGGCGGAGCCGACGAAGCCCAGTGCGCCGATTTGTTCATATAACTCTAGGCAACCATTGACGCTGGCCGACTCCAAAAGAGGCAAAACAGAGCCTGAAGGGTCCATAAGTGGCGGCGTAAGCATTAAGGAGCTCGTTTTGGGCGGACCAGAAGTCGGCTTTCAGCCCACCCCTCCTAATCGCTTTCAGTATCTTGTTCCGTCTGAGGGATGGAGGCAGGGAAGAAATGCTCCCCGATTCGCATATTCAAGGTATCTGGAAACCCTTCAAAAAGCTTCGTCGTCTTCCTCAATAGTCCACGCTCCCATCCAATCAAATCAAACACAACCTTCCGCCATTGAAATCTCAATCCTAACCATGGGCCTCAAAGTGCTCTCCGCTCTCGACACTGCCAAAACCCAATTGTACCATTTCAAGGCCATCGTCATCGCCGGGATGGGCCTCTTCACCGACGCCTACGATCTCTTCAGCATCACTCCCGTTACGACCCTCGTAGGACGTGTGTACTACCAGGACAAACAATACGAGATTCCCGCCGCCGTCAAATCCGCCATGCTGGCCGTCGCCCTTCTCGGCACCGCCACGGGTCAAGTGGTGTTCGGCATACTCGGAGATCGAGTGGGACGACGGCGCGTGTACGGACTCGCATTGGCGCTGATGGTGCTGAGTTCCATCGGATGCGGGTTCTCAATCTGCACCACAAGGAGCTGCGTCCTTGTCAGCCTAGGGTTCTTCAGGTTCCTTCTGGGACTGGGAATTGGGGGAGATTACCCATTGTCGGCGACCATAATGTCGGAGTTCGCCAACAAGAAGACACGTGGGGCGTTCATAGCGGCGGTGTTCTCGATGCAGGGATTCGGGATCTTGGCCAGCTCCACGGTGACCATGATCGTGTGCTCCATATTCGATCGGGCCTCCAATTACCCACCCAGTAATCATACCCCCATGGGGGCGGATATTGCTTGGAGGTTGATTCTCCTGCTCGGCGCTCTTCCGGCGGCGATGACTTATTACTGGCGAATGATGATGCCGGAAACCGCCAGATACACAGCTCTGGTTGAGCGGAATGTGGCACAAGCGGCGAAGGACATGGAGAAGGTGTTGGATGTGACGTTGGCTGATATCACCGAGGACAGCCCTGTTTCCCCTCCCCCTCCAAGTTTCCCCTTCTTTTCCAACGAATTTCTCCGTCGCCACGGCCGCGACCTTCTCTCCTGCGCCGCCGCTTGGTTCCTCGTCGACGTTGTGTTCTACAGCAGCAACCTCTTCCAATCCAGAATCTACACCCAATTCCTTCCCCCAAAACTCACCCGCAACGTCTACCAAGACGCCTTCAACGAAGCCAAACTCCAAGCCATCGTGGCCGTCTGTTCCACCATTCCTGGCTACTGGGTCTCCGTCTATTTCATCGACCGACTCGGCCGAGTCAAAATCCAAATCATGGGGTTTCTCTTCATGGGCATTGGCTATTTCGCCATCGCCATTCCCTACAACAGATACTGGGACTCCGATCACAAATTTGGCTTCATGGTAATCTACTGCCTCACATTCTTCTTCTCAAACTTCGGCCCCAACACCACCACTTTCATTCTCCCTGCCGAGCTCTTTCCCGCCAGGTTCAGATCCACCTGCCATGGAATCTCCGGCGCGGCTGGCAAAATCGGGGCCATCATCGGGGCCGTGGGGTTCCTTTGGGCTTCGCACGACCGGTGGGATAATGGAATTGGGATGCAGGCGTCGCTGATAATACTTGGTGGGGCGAGTCTGGTGGGAGTGGCGGTGACGTATTTGTTCACCAGAGAGACCACCGGAAGGTCGTTGGAAGAGAACGAGAAGGAAGATGAGTACGCTGGAGTCTGGTTTATAAGGTTTTCCTCCTGTCTGTCTGTTGGTGAACATGAGGACATGTCGTCACGTTCAACCGCCAACTCCATTCGAAGTAGTACACCAATTCATTAG MALPPAVPSAVATQSSGGSSGVGFTPHVITVEAGENGPRALCILTANGAISNVTLRQPAMCAGTVTYQGRFEILSLSGSYLFSENGTQRSRTGGLSVSLSGHRWWGGWSSNGCNSCSDTLTFPMRAFIYIFYSPMYGVVMGSFITDGGHKELRQADQIEQPPFTAPHKLAPIRAGMTGTSSSPPSVGTLSESSGGPGSPFNHSAGACNNNTKKRLMPLKNGTGPTSGRNAAQNMMLIPTTQNSHAYIVGPSRLFLFLFCQYEMVAAMPSFGVTIGGSIRGCGSHHLSSHGYNIVYNTAKNFPKRRALGTGRGVRWSSKLTVLQWIYFEHMHQHDHQLGNKRDCSRYALLNMQIIENSDKTVLGERNESHKKISMEASSARMIEVHASSDQGEAGRRSKARTWRAPLRTSSKQRAEPTKPSAPICSYNSRQPLTLADSKRGKTEPEGSISGGVSIKELVLGGPEVGFQPTPPNRFQYLVPSEGWRQGRNAPRFAYSRYLETLQKASSSSSIVHAPIQSNQTQPSAIEISILTMGLKVLSALDTAKTQLYHFKAIVIAGMGLFTDAYDLFSITPVTTLVGRVYYQDKQYEIPAAVKSAMLAVALLGTATGQVVFGILGDRVGRRRVYGLALALMVLSSIGCGFSICTTRSCVLVSLGFFRFLLGLGIGGDYPLSATIMSEFANKKTRGAFIAAVFSMQGFGILASSTVTMIVCSIFDRASNYPPSNHTPMGADIAWRLILLLGALPAAMTYYWRMMMPETARYTALVERNVAQAAKDMEKVLDVTLADITEDSPVSPPPPSFPFFSNEFLRRHGRDLLSCAAAWFLVDVVFYSSNLFQSRIYTQFLPPKLTRNVYQDAFNEAKLQAIVAVCSTIPGYWVSVYFIDRLGRVKIQIMGFLFMGIGYFAIAIPYNRYWDSDHKFGFMVIYCLTFFFSNFGPNTTTFILPAELFPARFRSTCHGISGAAGKIGAIIGAVGFLWASHDRWDNGIGMQASLIILGGASLVGVAVTYLFTRETTGRSLEENEKEDEYAGVWFIRFSSCLSVGEHEDMSSRSTANSIRSSTPIH
BLAST of CmaCh09G000270 vs. Swiss-Prot
Match: PHT18_ARATH (Probable inorganic phosphate transporter 1-8 OS=Arabidopsis thaliana GN=PHT1-8 PE=2 SV=2) HSP 1 Score: 620.2 bits (1598), Expect = 4.3e-176 Identity = 325/512 (63.48%), Postives = 382/512 (74.61%), Query Frame = 1
BLAST of CmaCh09G000270 vs. Swiss-Prot
Match: PHT19_ARATH (Probable inorganic phosphate transporter 1-9 OS=Arabidopsis thaliana GN=PHT1-9 PE=2 SV=1) HSP 1 Score: 615.9 bits (1587), Expect = 8.2e-175 Identity = 322/512 (62.89%), Postives = 380/512 (74.22%), Query Frame = 1
BLAST of CmaCh09G000270 vs. Swiss-Prot
Match: PT110_ORYSJ (Probable inorganic phosphate transporter 1-10 OS=Oryza sativa subsp. japonica GN=PHT1-10 PE=2 SV=1) HSP 1 Score: 605.5 bits (1560), Expect = 1.1e-171 Identity = 315/508 (62.01%), Postives = 379/508 (74.61%), Query Frame = 1
BLAST of CmaCh09G000270 vs. Swiss-Prot
Match: PHT19_ORYSJ (Probable inorganic phosphate transporter 1-9 OS=Oryza sativa subsp. japonica GN=PHT1-9 PE=2 SV=2) HSP 1 Score: 597.8 bits (1540), Expect = 2.3e-169 Identity = 312/519 (60.12%), Postives = 381/519 (73.41%), Query Frame = 1
BLAST of CmaCh09G000270 vs. Swiss-Prot
Match: PHT15_ARATH (Probable inorganic phosphate transporter 1-5 OS=Arabidopsis thaliana GN=PHT1-5 PE=2 SV=2) HSP 1 Score: 527.7 bits (1358), Expect = 2.9e-148 Identity = 281/517 (54.35%), Postives = 357/517 (69.05%), Query Frame = 1
BLAST of CmaCh09G000270 vs. TrEMBL
Match: A0A0A0L4P2_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_4G664440 PE=4 SV=1) HSP 1 Score: 906.7 bits (2342), Expect = 2.6e-260 Identity = 459/545 (84.22%), Postives = 494/545 (90.64%), Query Frame = 1
BLAST of CmaCh09G000270 vs. TrEMBL
Match: A0A059BW54_EUCGR (Uncharacterized protein OS=Eucalyptus grandis GN=EUGRSUZ_F03590 PE=4 SV=1) HSP 1 Score: 732.3 bits (1889), Expect = 8.7e-208 Identity = 369/508 (72.64%), Postives = 419/508 (82.48%), Query Frame = 1
BLAST of CmaCh09G000270 vs. TrEMBL
Match: A0A061FF02_THECC (Phosphate transporter 1,9 OS=Theobroma cacao GN=TCM_034833 PE=4 SV=1) HSP 1 Score: 710.7 bits (1833), Expect = 2.7e-201 Identity = 362/543 (66.67%), Postives = 425/543 (78.27%), Query Frame = 1
BLAST of CmaCh09G000270 vs. TrEMBL
Match: F6I6V6_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_18s0122g00780 PE=4 SV=1) HSP 1 Score: 709.5 bits (1830), Expect = 6.0e-201 Identity = 362/510 (70.98%), Postives = 412/510 (80.78%), Query Frame = 1
BLAST of CmaCh09G000270 vs. TrEMBL
Match: W9RJ08_9ROSA (Putative inorganic phosphate transporter 1-9 OS=Morus notabilis GN=L484_024813 PE=4 SV=1) HSP 1 Score: 707.6 bits (1825), Expect = 2.3e-200 Identity = 356/517 (68.86%), Postives = 421/517 (81.43%), Query Frame = 1
BLAST of CmaCh09G000270 vs. TAIR10
Match: AT1G20860.1 (AT1G20860.1 phosphate transporter 1;8) HSP 1 Score: 620.2 bits (1598), Expect = 2.4e-177 Identity = 325/512 (63.48%), Postives = 382/512 (74.61%), Query Frame = 1
BLAST of CmaCh09G000270 vs. TAIR10
Match: AT1G76430.1 (AT1G76430.1 phosphate transporter 1;9) HSP 1 Score: 615.9 bits (1587), Expect = 4.6e-176 Identity = 322/512 (62.89%), Postives = 380/512 (74.22%), Query Frame = 1
BLAST of CmaCh09G000270 vs. TAIR10
Match: AT2G32830.1 (AT2G32830.1 phosphate transporter 1;5) HSP 1 Score: 527.7 bits (1358), Expect = 1.6e-149 Identity = 281/517 (54.35%), Postives = 357/517 (69.05%), Query Frame = 1
BLAST of CmaCh09G000270 vs. TAIR10
Match: AT5G43370.1 (AT5G43370.1 phosphate transporter 2) HSP 1 Score: 520.8 bits (1340), Expect = 2.0e-147 Identity = 281/515 (54.56%), Postives = 354/515 (68.74%), Query Frame = 1
BLAST of CmaCh09G000270 vs. TAIR10
Match: AT5G43360.1 (AT5G43360.1 phosphate transporter 1;3) HSP 1 Score: 519.2 bits (1336), Expect = 5.9e-147 Identity = 281/515 (54.56%), Postives = 353/515 (68.54%), Query Frame = 1
BLAST of CmaCh09G000270 vs. NCBI nr
Match: gi|449455730|ref|XP_004145604.1| (PREDICTED: probable inorganic phosphate transporter 1-9 [Cucumis sativus]) HSP 1 Score: 906.7 bits (2342), Expect = 3.7e-260 Identity = 459/545 (84.22%), Postives = 494/545 (90.64%), Query Frame = 1
BLAST of CmaCh09G000270 vs. NCBI nr
Match: gi|659105093|ref|XP_008453014.1| (PREDICTED: probable inorganic phosphate transporter 1-9 [Cucumis melo]) HSP 1 Score: 892.9 bits (2306), Expect = 5.5e-256 Identity = 455/552 (82.43%), Postives = 495/552 (89.67%), Query Frame = 1
BLAST of CmaCh09G000270 vs. NCBI nr
Match: gi|702379058|ref|XP_010063151.1| (PREDICTED: probable inorganic phosphate transporter 1-9 [Eucalyptus grandis]) HSP 1 Score: 732.3 bits (1889), Expect = 1.2e-207 Identity = 369/508 (72.64%), Postives = 419/508 (82.48%), Query Frame = 1
BLAST of CmaCh09G000270 vs. NCBI nr
Match: gi|225457638|ref|XP_002274930.1| (PREDICTED: probable inorganic phosphate transporter 1-9 [Vitis vinifera]) HSP 1 Score: 730.7 bits (1885), Expect = 3.6e-207 Identity = 368/510 (72.16%), Postives = 422/510 (82.75%), Query Frame = 1
BLAST of CmaCh09G000270 vs. NCBI nr
Match: gi|747046705|ref|XP_011100885.1| (PREDICTED: probable inorganic phosphate transporter 1-9 [Sesamum indicum]) HSP 1 Score: 724.9 bits (1870), Expect = 2.0e-205 Identity = 367/534 (68.73%), Postives = 435/534 (81.46%), 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: None The following block(s) are covering this gene:
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