Csor.00g302980 (gene) Silver-seed gourd (wild; sororia) v1
|
Overview
Sequences
The following sequences are available for this feature:
Legend: CDSstart_codoninitialpolypeptideintroninternalterminalstop_codon Hold the cursor over a type above to highlight its positions in the sequence below.ATGGCAGGAAAATATGGATCAATCCGGCAGAGTTTTCTGGATCAGAACAGGGAGAAAGCATATTCTCGTAAGGGATATTCCGATTTCGGCCTGAACAGCTACGACGGCGCCGGCGACAACGTGAAATGTCGATGTTTCCGTACACTTACCGATTCAATCGCCAACTTCTGGAAAGGCTTACGAGATACTACCGTCAAGTTGTACGAAATGGGCCGCACCGATCCCCGCAAGATCTTCTTCGCTGCCAAGATGGGGCTGTCGCTTGCGTTCGTTTCGCTCGTCATTTTCTTTCGCGAGGCTTTGAAAGAAGTTGGCCAATATACAATCTGGGCTATTCTCACTGTTGTCGTCGTTTTCGAGTTCAGCGTTGGTATGCCTAATGATTTTCACTCCCCTAATTTCAATCCAGTTGCGGATTCTTGAGGTTTTGTGAGTCAATTTCTTCGTTCAAGGGAATAATTCTGTTCATTTCTGCAGGGGCAACACTTAGTAAAGGGTTTAATCGTGCATTGGGGACATTTTCAGCCGGTGGACTTGCTATTGGTATTGCGGAACTATCCGTCTTAGCCGGACCATTTAAGGAAGTTATAATCGTAATCAGTATATTCCTTGCAGGTACGAGTTCTTAGTAGGGATAATGAATCTGTGTATCTGAGATGCAATTGGATACTCAAATTAACAATTCCAATTCACTATTTTAGGGTTTTTTGCAAGCTATTGTAAATTGTATCCGCCGATGAAGTCGTATGAATACGGGTTCCGGGTATTTCTGTTGACATTTTGCATCGTGTTGATATCTGGAAGTACATCGTCGTTTTTCCGAACGGCTTTTTATCGATTACTATTCATTGGCGTCGGTGCTATCATGTGCTTGGTGGTGAATATATTTATCTTCCCCATTTGGGCAGGGGAGGATCTGCACAAATTGGTTGTGAAAAATTTCAAAAACGTTGCTACTTCATTGGAAGGCAAGATCAATTCTATTATCCATTTTGTTAAGATGCTTTTGTGCACTTTCTTATACTTTTGATCTGTAAAAACATGTTTAAATCATTAGCTTCCTTGTAATCTTGTTCAGGTGTCGTTAATGAATACCTTCAGTGTGTGGAATATGAGAGAATCTCCTCGAAGATTCTTACATATCAAGCCTCTGATGACCCTGTATATAGTGCTTATAGATCTGCTGTGCAGTCCTCGAGTCAAGAGGACACTTTGGTATTGGTTCTTGTTTACTCTTTGATTAGATGACATGTTACAAGAAGGTTTTACTTAAGGCTCGTTGTTTTTGTAGTTGGACTTTGCCTGTTGGGAGCCACCGCATGGCCCTTACAAGACATTCAATTATCCATGGTACAATTATGTCAGAGTGAGTGGTGCTCTTAGGCATTGTGCTTTCATGGTCATGGCAATGCACGGATGTATTCTTTCAGAAATCCAGGTGATTTGACCCTTTTTTCTTTTGTAGTTATTCTTTGTTTCACTGATTTCTGTGAAGGTTACGATCATTAACATCGATAATCTTCATGTTTTGTAAAAGAAAGAAGAGCGTCCACTTGGAGATATTAATACATAAACCGCCCTATTGTAGGTGTTCTTGGTCGCCCCGTTGTTGTATAGTTTTGTTGAATTTGACTGTAACAGCCCAGCGAGGACGGTGAGCCACAAAGGAGGGTGGACACCGAGCGGTGTGCCAGCGAAGACGCTGGGCCCCAAAGGGGGGTGGATTGTGAGATCTCACATCGATTAGAGAGAGGAACAATTGCCAGCGAGGATGTTGGGCCCTGAAGGGGGGTGGATTGTGAGATCCACATCGGTTGAGGAGGAGAACGAAACACCCTTTATAGGGGCGTGGAAATCTCTCCCTTGTAGACACGTTTTAAAAACCATGAGGGAAAACCCGAAAAGGAAAGTCCAAAGAGGACAATATCTGCTAGCGGTGGACTTGAGCTGCTACATTGACATTTGTTATGACTTGCTTATTCAATTATCGATATCCCTTAGCCTGTAGCTGAAGTCACCCATATGCTCAAACTTCTATGGAATGGGTGAGTGAGTGGCCCTTCTAGATGGGCTGCTTTTTTTTTATCATTTAAATGTCAGACCAATGTCCAAATTTGATTATCCCTCTTTAGAAGAGATGACCACTGACCTGAATTAAGCTGGAAGAAGGAATCAATCTAGCTAGCTTGGTGATAACTGTCAATTCTTGGGCAGGAAAAAATGATCTGGTTAATTGTGGTCCTTAAGAAAGGCGAGGGTGGTAACAAGTTGCTGGTTTTAAATTATAGGCGTATTAAAAAAAAATTATGTCGGAATAAATTGGTGAAGTTCAAAAAGCATTTGAATTCCTTCCCCTGTATATTATAGCAGCTTTCTTTGATTTGGAAGATGGGGGAGGTAAACGATATACTAGCTTCTTTCTGTATGTACATAACTGTCATCTTTACTTGTTTTATAGCTGAGTACACGATGATTTAGATTTGAAATTTTAAACAGAACTATTTTGATGATTCTTGGCTGTTCATTTGCTAGCTGGGTGTTAAATTGGTGATAATAACGAATGTACATAGATGACTAGATCTTGCAAGTTTGTATTACAGGCTCCACCAGAGAAAAGAAAGGTTTTTGCAAAGGAGCTTCAGAGGGTTGGCACTGAGGGGGCTAAGTTCTTACGTGAGCTTGGGAGCAAAGTAGAAAAGATGGAGAAGTTAAGCTCAGTCGACATGCTATTCGAAGTTCATGATGCTGCAGAAGCTTTACAAATGAAGATTGATGAGAAATCTGATATACTGGTGAATTCAGCTAATTGGAGACCCGGAAAACAGCACAGGGAACATGAAGATCTTCATCATCTTATTGATACCAAAGATGATCATGGCCGACAGTTGGTAATCGAATCCCTGAACGATTCGTTGGATGCTCAACACTCGAGCATCGGCTTCAACCCTTCCATTACAGAATGGGTATCTACAGAAAGTGTCTTCAACAAACACCTGGTTTCATGGCCACGCCTTTCATTTTTGAACGATACCGTGCCGAATGAAAGAGAGTCAAAAGTATATGAAAGTGCAAGCTCCTTATCTTTGGCAACGTTTACTTCGCTTCTCATCGAGTTTGTTGCAAGGCTGCAAAATCTCTTGAACGCATTTGAAGAACTCAGTGAGAAGGCAAATTTCAAGTCACCAGCGGAGATTAAAATTGAAAAGGAGAAAGTTGGGTGTTGGACTAGATTTTTAAGACTCGTTGGCATCAAGAATTGAGGCTACATAGGATGCCATGCCATGCCATGCCATGCCACAGTTGTTGATTCCACTGAATTATCTGATACCATTCATCTCTGGAGTTGGCTCATTAGTGCACCTTTCATACAGTGATGGTTGAATTTGATATCTGAGTTTGGTTAACCTATGCCCTCATATATTTTTCTGGCAGGTAACGTAAACGGACCTGTCCTGTGTATAAGCTCGATCCGGGTCATCCGAAATGTCGTAGATGTGTCTTGGATGGACACTACAATCTGTTCATCAAAGCTGTTAGCTTGAATGTGCCTGTGGTATGATAGTACATTGATTTTGGCTGTAGATGTGATGTTAAAGAGAGGGATTGTGTAGTACGTTTTCGATGCGCAGCAGCAGCAGCAGCAGCAGCAGCACTCGGTGTTCTTCATATACTTTTGCATGCTCAAGCTTGTCAGATTTGATTGTATATTATTCTATTTATGTCTTATCCTTATTAAAGATACATATAGAAGTGCAAGCCAAAACCGAACGTAGGAGGAAACCTCCATCAGATTGGTCAGTTTGAACCTTAAATGTTGGCTTCTTTGGATTTGTACAATCTATTTTGGTTGGTTTCTTTTGATTAGTTCACTTAGTTTTTGAGTCGGTTCAGTTCGTTTCAATTCGATTGCCATACTTAAGCAAATGGATTTGTGGAGATACGTCCAAACAAGGCTTGCTGCTAGTAGATATTGTCTCCCTTTTAATTTTTGTGATTTTTACACCTTTATAAAAAAAATGTTTTATTTCATTCTCCAACTGAAATCTCACAATCCACCCCTTTCAAGGCCCAACATCCTTGTTGACACAGTGCCCGGTGTCCACCCCACTTTAGGGCTCACTGTCCTCACTAGAGCGAGGTTTGTAACAGTCCAATCCCACGGTTAGCAGATATTGTTCTCTTTGGGCTTCCCGTTCCGGGCTTAGGTTTTAAAACACGTATACTAATGAGAGGTTTTCACACTTATTCGTTCCTCTTTCCAATCGACCACACAAATAGTATGCAATAATGCACTAAGCTGACCTTCCGATGGGAAAGTTGTGACTTAGATTTGCGCAGACAGGAAGATCTTTTCCTTGTACACCTAACTACTACTTTATCATTTAGGAGAATGGAGCTATCTCGTGAATGTGTTTATATATATATATATATATATATATATATATATATTTTGCAAATTTGTTGAAGATAGGATGTTGTTGAAAAAACAGGCTGATATGTACGGAGGCCCATGAACAGTGAACTCCACGTATTTGGGCTTGATTCCTTTTCTCGGACCAGGCTTTCTGCTAAGCCCAAAAAGAAAAACCAAGCCCAAGATGAACGGATATGAAGAGTGAATGCATATTTGGGCTCTCTTTTGAAAAGCCCAATATAGTGGGATTTTTGCTGTGGATTACTTGTTGATGGGCCGGCCCATAATGGTTACAGTTCTGTTATTATGGAATTCTCAGATCGGAGAGTGTCTTCACAAAAAGCCTCGTTTGTCCTGGCTCTCTTCTTCTTGTAGTCTCTCTCTGTCTCTGTCTCTGTCTCTGTCTCTCTCTCTCTCTCTTTCTCCGACGACAGGTTCCTGAAGCTCAGCCAGGCAAGGGCATTGATCTTGGTGAGTCCGCTTTCACTTTTCCTCCCCCCCTTTTTCTTTTACTTTCAAATTTGAGGAAGAAAGGAACTATTTCCATTTTGTTTTAGTCGATCGCCGTCCGAGCAGCGTTTTGTTTAATCTGGATTTCACTACTTTACTTCGTCGTTGACAGAAAGGGAATAGTTAGATTGAATTTCCTGTGTTGCTTACCTTAAGTTTCAAGGAACAAGAAAATAATTCTGCCGCACCGTCGTCGTTCTGGATGGAGAATCTTCGATTCTAGCTGCATATCACCGAACTTAGGGCTCGGACCTTCGAATCTGTGTTATTTCTTTCAACATTTAGGCTTTTTCTATGGTTCTTTAGCCTTGTCCTTTCTTGCCCTTGGATCTTTGATTGCGGATCTGATTTGTCCATTTCTACGTGTTGCCTTTTCGTTGAAGTCGAGGATTCATATATCAATAACAAAGCCTTCAATCTCTAGTGTAATTAATGTTTTCCATCTAGTTATTAGAGATCATTCGGAGCATTGATTTTATCCACTTTTATTCTGCACGTCCGGAAGGTGCGAGTTTATCGTAAGCGGGTAAAGTTGCGCTTGGCATTTTTCTTTTATGTCTGAGTTTTTAGTCCGTTTCCGGTCGTTTTTTCGTTCTTATGCCACGTGTTTCGTGATAAGAAATTAGTTTTTTTTTTTGATATCTTTGTTTTTGTTTTCCCATCAACCTGCAAGTGACTGTTATTTGGAAACCGTCTTTTTGAGCTGTGAACCGATTTCTTTTTCTCTCTCTCGTCTTTAGTTTTACAGGAAATCACTGTATAAGATGTCTATGGTCCACGAGCCTCTATATCCAATAGCTGTTCTTATTGACGAGCTGAAAAATGATGACATTCAGCTACGGTTGAACTCAATTCGTAGACTTTCTACGATTGCACGTGCTCTTGGAGAGGAGCGAACGCGTAAAGAATTGATCCCATTTCTGAGTGAAAACAATGATGATGATGATGAGGTGCTTCTTGCTATGGCTGAGGAGTTGGGAGTGTTCATCCCATATGTTGGTGGTGTTGAGCATGCCCATGTTTTGCTTCCACCTCTGGAAACTCTGTGCACTGTTGAGGAAACCTGTGTGAGGGACAAAGCTGTGGAGTCTTTGTGCAGAATTGGTTCCCAAATGAGAGAGAGTGATTTAGTTGATTGGTTTATTCCTCTCGTTAAGGTTAGTATTTCCCACTACATTTTTCTTTTTCCTTCTTTTCTTCGATATGCATTCCTCTCTTTTTAAAATCATTCCCTATCTGACACTTGCAATAGGTGGCGCATTGAAAAGTATCCATAAATTTAAGATGTTTTATGCTAAATATGCTTCCAATGATATATTGAATGTTCTGGGATATGTTATTTAAGTCTTGCTTATGAGCCTATACTTTTGACGTCCTTCCAATGACAATAGGTTTTTCTAGGGAATACAGCTCAAATTGATTAACTTTGATAACATCAAACCAATTCTGAGACCCTATTAGGTCTCCCTGCCATTTTGTTCATTCTGTCCTAAAAATCTGAGAACTGCTAGCTTCTCCCCTCTTTCTTTTATTTTTCTTCTAAAACACTCTTTGCATATTCAACATCGATAGCTTTAAATCCAACGTTTCTGAGGGTCTGTGTGTCTGTTTGTGGTTGCACATATGTCCAGAGATTGGCAGCTGGTGAATGGTTTACGGCTAGAGTATCCGCATGTGGGCTATTTCATATTGCCTACCCTAGTGCTCCAGAGATGTTGAAGACCGAGTTGCGGTCAATGTATGGCCAATTGTGTCAAGATGATATGCCCATGGTTAGGAGGTCTGCTGCAACAAATCTAGGAAAGTTTGCTGCAACAATTGAACCTGCTCATCTGAAAACTGATACCATGACAATTTTTGAGGATCTTACTCAAGATGGTAATTATCTGTATCTGTTACCTGAGTGTGATTTACTTTTCTGGTTTCTTGCGGATATTGGATTCATGTGAATAGAAAATGTGTTTTCTAGTGGGTGCATCACATCGGTTGTGTGTTGCTGGTTAAAGTTTAGACTTCTTGTTTAAGTTTTCAAATTATTTTAGTGTATGTGCAGTGTGCATAATATGTTGAGATCAGTGCTGTTATAAGTCTAACTATTCTTCATTTGGACTTTTTAGTTGAGATATTAACAGGGAATAAACATGGATCTTTCTCAAGTTACAAAAGCATGGGAATTATTCTTTAGAATTCTCTTAGTCAGTTGTTTGGTTTAGTACATTTTATGTTCTTACACTAAGTCTTTAACAGATCAGGACTCTGTGAGGTTGCTGGCCGTTGAGGGTTGTGCAGCTTTGGGCAAGTTATTGGAACCCCAGGATTGTGTATCGCATATTCTTCCAGTTATCGTTAACTTCTCCCAGGTATAGTTTTGCACAATTTATTGGATTTCACAGTTTGATTTGTATGCCTGACAATTTGTTAGAATGATTATATGCACTGTTGAGAAATATCTTTATTGGAAGATCAGATCAAGCATTATCTTTCTTTGGAACAAGGATCAAGGATTATTTTACAATAACATTTTGTAATCTAGTGGTTTCCAGGTCTTTGTAATGAACGTCTGGATGTATTGTTTTATGTTTCCTTTGTGCTTCTGTTGTTTAGTTATTAGCAATGGTAAGAATGCCATAGATGTACAAACATCCAAAATTCTTTTTAAGTTGCTACTAAAACTTTTTGAGCTGTCCATAGGATTATTAAATCAACTTTAAAGAAAGCATAGCATATTATAAATACCTTTGTTCTCGGACTTTTTCATTCCTAGATAAGCTATAATATCAATGAAATTATAATGTATAATCTATATATCTGCATTTTATTTAGTTATTTCTTAGTTTGAGTACCTCTATTGTGTATAGCAGAAGGTAAAAATGGTATTTACATGCTTTATACCCTCATGGCCTTGACACAATTTATCCAAGCGCTAATTTCTTTCTTGTTCCTTGCCTACCTTTCCTTCTATGTAGGATAAGTCTTGGCGTGTCCGTTACATGGTTGCCAACCAGTTATACGAGTTGTGTGAAGCTGTAGGACCTGAACCTACTAGGTAATTTCTTATTAATCTATGAAGCAAAGTTGGTTATTGATCAATGTGGAAAGATGAGAATGTATTTTTTTTTTGTTTGACCTATTGTATTATGGAAACCCATGAAATGTAGTTCTGTATGACCTTCTTTTATCATTTGGTTTATTTGGCTATGTAGATAGGAGCCCTTTCCTTGGTTAGTGGGGGGTTCTTGGGAGGAAGGTTCTTCTTCTTATTCTGGTTTTCTAGCTTTGAGTTTCCTTTCTCTTTATTCTAAAACATTGGAGATACTTTAGTTTATTCTCTTGGGTGGCTCCTAGCCTGTCCTTGGTTAGCCTATATGCTCATGTGGCCTTGTTATTTTAATTTCATTTATCATAATTATCAAAATTTCTATTAATTAAAAAAAAAAAAAATGAATGCACATGTATTTTTGTACTAATACTATGTAAATATGGAAAATAATTCTTATATTAGAAAGAGTTGTGAACATTGTGCCAAGTGTACTACATATTGAGTTTTTATATTGTTCATAATGCATGCACTTGTTTTTGGGTGGTAAGGACGGACTTGGTACCTGCTTATGTGCGCTTGCTTCGAGACAATGAAGCTGAAGTTCGTATAGCAGCTGCTGGCAAAGTGACCAAGTTTTGCCGGATTTTAAGTCCAGAACTAGCAATTCAGCATATCCTTCCCTGCGTTAAGGTGCATATGCTATTTCAGAGTTAAAATTTCCTTTTCACTTATCTACTGTTACATGTCATGCCTCAATTTTTTTTTTCTCATACTTTCACTGAGTGCTAAGCAAATAACGACCACAGGAATTGTCATCAGATTCCTCTCAGCATGTCCGTTCAGCTTTAGCCTCAGTTATCATGGGAATGGCTCCTGTGTTGGGAAAGGTATGAAGTCTTTATTTTGGTCTTCACAAATGTGTTGCTTGCTATAAACTGCATATTAAATGTTTTTTTATTATTTTATTGAGAACCTTAATCCGCTTCTTTCTTCAATAAGTCTGCTTAGAAGCCATATCTAAGTTTTTTTTCCATTGGGGGAAGGGGTGAGTACACTGTGGAGAGAGAGGAAATCCTGGATGCTGGTTAATATTTCTGAATTTTGACGCTACTAAGGGATGTGAAATTAAAACATTTATGTAAACAGTGAGGAATTGAGAACTGGGTGCTGCGTAATGTTTCTAAGTGAAGTGGTTAAAGTAGTTTGCTGATTAATACTTCTGTTAGCATATTGATTAGTTTGCTAATTTCGGAGTGTACTTATATATCTGAAATTTTATGAAAAATGGCGAGGAATTGGTAGCTGGATTCTGTTTTGTATATCTGAATTTTGAAGGCCAAGAAGTGATATGAATTACAAATTGAAATAATTTGGGGATTGTAGCGATGACTCATAACTCCGTACACAGGCTCTTGGAAGACTACTTCACACTTGTTTTTCTAGGAACATTCTTGTGGGGGTTCTGTAGTGGAATTCATTAACTTTCATCTTTCTATCCAGGTTATCCACCCTTCCACCCGGGGGTAAAATTACCTTTTTCTGAATGATAAATAAATAATCAGTCAAGTTTTTGTGCTCATAAAAAAATATGTTGTCTTTTGTGTGTGGTTGAGTGATGAGGACGTGTACATATAGTGATAAGGATGAATGGTAGACTCGTTATTTCCTCGGAGGCTTTTTTACATCATATCCATGCAACTTGAAGTGGTTACTGGGAAAGATTCCGTATTACATAATTGTCTTGTCTCCATTTTTCTTTTCAGGGTCGATGGTTTAACCAGGCTCCCAGTCTTGTTTAATAGCATATTGTTGTTTGTATTGGGACATAAAAAATCTCACTTCGATGGCTTGTGCAGGATGCTACCATCGAACAACTGCTTCCGATATTCCTTTCTCTGCTTAAGGATGAATTCCCTGATGTGCGCCTCAATATCATTAGCAAGCTTGATCAAGTAAATCAGGTTTGTTGTAATTCACCTTGAAACTGAAGGGGGAGGGTTGTTGACCAACATCACAATAAGAGATGCTGTTTTATACTCTGCAAACATGCTTTAACTCTCTCACTCTCCCTCTCTCCAAAAATATTTTACTGCCGTCTCACCAAAAACCTGTTATGCAGGTTATTGGAATTGATCTCTTGTCTCAATCACTGTTACCTGCCATTGTTGAACTTGCTGAGGATAGACACTGGAGAGTTAGGTTAGCAATTATAGAATACATTCCTTTATTGGCAAGTCAGCTGGGTGTAGGGTTTTTTGACGATAAGCTTGGTGCTCTTTGCATGCAGTGGTTACAGGATAAGGTTTGTGTTTCCTGAGCTTCATTAAGTCTTACTATAGTTTAAGAACGCATGAAAAAAGTAAATTTTAGTGTGAATAACATGCTTCTGAGTGAATGTTGCTTCAGTTTATGAGAATATTCTTTTTGTTGAATAAGGTACGTTGCTGTTCATGAGATCATTTGATTGGTTTCTGATGGGGATGTCCATTATACGGAATTCGTCGATTCTAGTTTCTGTGCACTGAATCATAATGAAAGTAGCAACTGAACTATTTACACTGGATTATTAGTTATAGAGAGAAAATGATCAGTCTTTGGTCATTGTTAGTTAAGAAATTAAAAGGATACAAATGTGTTTTAGTACCGCTAGCTTTCCATCTCCTGCCAAGTCCTCCATTTCTCTCTAGCCACGACAAATATGTAAGTTTTTGAAACATTTCTGCATAGGATTCTAGTTTTATCAGAGGACCAGAATCCCGAAATTGTACGGGGGAGGATATCCAAACCCAAGCCGGAGGCCAATGGAAAAATGTCTAGTTTATATCTGGGGTCAGAAAGCCAACTTTGGTTGCTTCTTTGACGGCGATCTTGTTAATTCTCGTCCTAGCTAAGGTAGCAGACAAAATTTCACTGCCTTGGGAAATTAACTCTTCCTAGTCAAGTTGGAGAGGCCATATATGGTTTGTTTTTATTGCAGTGGGTTCTTCTTGCATGTTTCCTCATATCTGATCTTGCTATGATATTTAAAAAAAATGGAAACACTAAATAAATGTACACTGTACAAGAGTGGAAGAGGATGAGATACCAAAGGCATCCTCTTTGAGACACCCAAGACATTCTCTTTTTCTTTCTTCCTCATTGTTCTTCTGCTGCTCTCCCTAATGCACAAAAAGCTATAAAAGAATTTGACCATCTAAAGTGAAAGGAGGTCATTTCAATAGTCAACAAAGTACCGAAAGTGCACATGTTAAGAAAGAATTATTTTAAAGGACAATTTGAAAGATATCATTGACTTGTTATATGTTGTGCAGTTTTTTTTAAGAAATTTCTATTGCAATGGTTACTTCTTGCAGGTTTACTCAATCCGTGATGCAGCTGCTAACAATTTGAAGCGCCTTGCAGAAGAATTTGGTCCTGAGTGGGCAATGCAGCATATTGTCCCACAGGTTTGTTTCAAATGAATTTCACAATCACATTTAGCCTGACCTTGGTGATAGCCTAACATTGTCTTTAGATAAAGAAGTTTTTAGATAAAAAATACCATCCAGAGGTCATGAAAGAATTATAACGCTAATCATTATTACAAAAATCCTTCACCCTGCCTGCTGCACACAATCCATGCACTTTGTTCTCTTCTTCTAACTGATGGCGTTTCTCAAACAGGTTCTTGACATGATTAACAACCCACATTATTTGTATCGAATGACTGTTCTTCGTGCGGTCTCCCTTCTTGCCCCAGTTATGGGCTCAGAAATCACATGCACAAAGCTTTTGCCGGTGGTTATCAGTTCTTCCAAGGACAGGTACAGGACATAAATTATTTTCTTGTTTTAGTTAGATAGATTAGTTGCTGGCCCAAAGCCGGACGGTGAAATCATCCCTAAAAAAAAAGAATCATGATGGGTGTTGTTATCAGTTGGCTTGCGCCCCTTGTTAATTGTTTTATCAGCCTTCTTTTCGCTCTTTTTTGGTGGTTAAGTTAAGTTTTTACAGGGTTCCAAATATCAAGTTTAATGTGGCGAAAGTATTGCAGTCTCTCATTCCCATAGTTGACCAACCTGTAAGTAGTCACAGAGGATGCTTAACTGATATCTTGATTGTTTATATTAATATTAGATAACACTTGCGATGCAGGTGGTGGAAAAAACTATCCGCCCTAGCCTAGTTGAACTCAGTGAAGATCCAGATGTAGATGTCCGGTTCTTTGCTAACCAAGCTCTTCAATCAATCGATCACGTGATGATGTCCAGTTAGATGGCAGGAAAATATGGATCAATCCGGCAGAGTTTTCTGGATCAGAACAGGGAGAAAGCATATTCTCGTAAGGGATATTCCGATTTCGGCCTGAACAGCTACGACGGCGCCGGCGACAACGTGAAATGTCGATGTTTCCGTACACTTACCGATTCAATCGCCAACTTCTGGAAAGGCTTACGAGATACTACCGTCAAGTTGTACGAAATGGGCCGCACCGATCCCCGCAAGATCTTCTTCGCTGCCAAGATGGGGCTGTCGCTTGCGTTCGTTTCGCTCGTCATTTTCTTTCGCGAGGCTTTGAAAGAAGTTGGCCAATATACAATCTGGGCTATTCTCACTGTTGTCGTCGTTTTCGAGTTCAGCGTTGGGGCAACACTTAGTAAAGGGTTTAATCGTGCATTGGGGACATTTTCAGCCGGTGGACTTGCTATTGGTATTGCGGAACTATCCGTCTTAGCCGGACCATTTAAGGAAGTTATAATCGTAATCAGTATATTCCTTGCAGGGTTTTTTGCAAGCTATTGTAAATTGTATCCGCCGATGAAGTCGTATGAATACGGGTTCCGGGTATTTCTGTTGACATTTTGCATCGTGTTGATATCTGGAAGTACATCGTCGTTTTTCCGAACGGCTTTTTATCGATTACTATTCATTGGCGTCGGTGCTATCATGTGCTTGGTGGTGAATATATTTATCTTCCCCATTTGGGCAGGGGAGGATCTGCACAAATTGGTTGTGAAAAATTTCAAAAACGTTGCTACTTCATTGGAAGGTGTCGTTAATGAATACCTTCAGTGTGTGGAATATGAGAGAATCTCCTCGAAGATTCTTACATATCAAGCCTCTGATGACCCTGTATATAGTGCTTATAGATCTGCTGTGCAGTCCTCGAGTCAAGAGGACACTTTGTTGGACTTTGCCTGTTGGGAGCCACCGCATGGCCCTTACAAGACATTCAATTATCCATGGTACAATTATGTCAGAGTGAGTGGTGCTCTTAGGCATTGTGCTTTCATGGTCATGGCAATGCACGGATGTATTCTTTCAGAAATCCAGGCTCCACCAGAGAAAAGAAAGGTTTTTGCAAAGGAGCTTCAGAGGGTTGGCACTGAGGGGGCTAAGTTCTTACGTGAGCTTGGGAGCAAAGTAGAAAAGATGGAGAAGTTAAGCTCAGTCGACATGCTATTCGAAGTTCATGATGCTGCAGAAGCTTTACAAATGAAGATTGATGAGAAATCTGATATACTGGTGAATTCAGCTAATTGGAGACCCGGAAAACAGCACAGGGAACATGAAGATCTTCATCATCTTATTGATACCAAAGATGATCATGGCCGACAGTTGGTAATCGAATCCCTGAACGATTCGTTGGATGCTCAACACTCGAGCATCGGCTTCAACCCTTCCATTACAGAATGGGTATCTACAGAAAGTGTCTTCAACAAACACCTGGTTTCATGGCCACGCCTTTCATTTTTGAACGATACCGTGCCGAATGAAAGAGAGTCAAAAGTATATGAAAGTGCAAGCTCCTTATCTTTGGCAACGTTTACTTCGCTTCTCATCGAGTTTGTTGCAAGGCTGCAAAATCTCTTGAACGCATTTGAAGAACTCAGTGAGAAGGCAAATTTCAAGTCACCAGCGGAGATTAAAATTGAAAAGGAGAAACTCGATCCGGGTCATCCGAAATGTCGTAGATGTGTCTTGGATGGACACTACAATCTGTTCATCAAAGCTGTTAGCTTGAATGTGCCTGTGTCTCTCTCTGTCTCTGTCTCTGTCTCTGTCTCTCTCTCTCTCTCTTTCTCCGACGACAGGTTCCTGAAGCTCAGCCAGGCAAGGGCATTGATCTTGTTTTACAGGAAATCACTGTATAAGATGTCTATGGTCCACGAGCCTCTATATCCAATAGCTGTTCTTATTGACGAGCTGAAAAATGATGACATTCAGCTACGGTTGAACTCAATTCGTAGACTTTCTACGATTGCACGTGCTCTTGGAGAGGAGCGAACGCGTAAAGAATTGATCCCATTTCTGAGTGAAAACAATGATGATGATGATGAGGTGCTTCTTGCTATGGCTGAGGAGTTGGGAGTGTTCATCCCATATGTTGGTGGTGTTGAGCATGCCCATGTTTTGCTTCCACCTCTGGAAACTCTGTGCACTGTTGAGGAAACCTGTGTGAGGGACAAAGCTGTGGAGTCTTTGTGCAGAATTGGTTCCCAAATGAGAGAGAGTGATTTAGTTGATTGGTTTATTCCTCTCGTTAAGAGATTGGCAGCTGGTGAATGGTTTACGGCTAGAGTATCCGCATGTGGGCTATTTCATATTGCCTACCCTAGTGCTCCAGAGATGTTGAAGACCGAGTTGCGGTCAATGTATGGCCAATTGTGTCAAGATGATATGCCCATGGTTAGGAGGTCTGCTGCAACAAATCTAGGAAAGTTTGCTGCAACAATTGAACCTGCTCATCTGAAAACTGATACCATGACAATTTTTGAGGATCTTACTCAAGATGATCAGGACTCTGTGAGGTTGCTGGCCGTTGAGGGTTGTGCAGCTTTGGGCAAGTTATTGGAACCCCAGGATTGTGTATCGCATATTCTTCCAGTTATCGTTAACTTCTCCCAGGATAAGTCTTGGCGTGTCCGTTACATGGTTGCCAACCAGTTATACGAGTTGTGTGAAGCTGTAGGACCTGAACCTACTAGGACGGACTTGGTACCTGCTTATGTGCGCTTGCTTCGAGACAATGAAGCTGAAGTTCGTATAGCAGCTGCTGGCAAAGTGACCAAGTTTTGCCGGATTTTAAGTCCAGAACTAGCAATTCAGCATATCCTTCCCTGCGTTAAGGAATTGTCATCAGATTCCTCTCAGCATGTCCGTTCAGCTTTAGCCTCAGTTATCATGGGAATGGCTCCTGTGTTGGGAAAGGATGCTACCATCGAACAACTGCTTCCGATATTCCTTTCTCTGCTTAAGGATGAATTCCCTGATGTGCGCCTCAATATCATTAGCAAGCTTGATCAAGTAAATCAGGTTATTGGAATTGATCTCTTGTCTCAATCACTGTTACCTGCCATTGTTGAACTTGCTGAGGATAGACACTGGAGAGTTAGGTTAGCAATTATAGAATACATTCCTTTATTGGCAAGTCAGCTGGGTGTAGGGTTTTTTGACGATAAGCTTGGTGCTCTTTGCATGCAGTGGTTACAGGATAAGGTTTACTCAATCCGTGATGCAGCTGCTAACAATTTGAAGCGCCTTGCAGAAGAATTTGGTCCTGAGTGGGCAATGCAGCATATTGTCCCACAGGTTCTTGACATGATTAACAACCCACATTATTTGTATCGAATGACTGTTCTTCGTGCGGTCTCCCTTCTTGCCCCAGTTATGGGCTCAGAAATCACATGCACAAAGCTTTTGCCGGTGGTTATCAGTTCTTCCAAGGACAGGGTTCCAAATATCAAGTTTAATGTGGCGAAAGTATTGCAGTCTCTCATTCCCATAGTTGACCAACCTGTGGTGGAAAAAACTATCCGCCCTAGCCTAGTTGAACTCAGTGAAGATCCAGATGTAGATGTCCGGTTCTTTGCTAACCAAGCTCTTCAATCAATCGATCACGTGATGATGTCCAGTTAG ATGGCAGGAAAATATGGATCAATCCGGCAGAGTTTTCTGGATCAGAACAGGGAGAAAGCATATTCTCGTAAGGGATATTCCGATTTCGGCCTGAACAGCTACGACGGCGCCGGCGACAACGTGAAATGTCGATGTTTCCGTACACTTACCGATTCAATCGCCAACTTCTGGAAAGGCTTACGAGATACTACCGTCAAGTTGTACGAAATGGGCCGCACCGATCCCCGCAAGATCTTCTTCGCTGCCAAGATGGGGCTGTCGCTTGCGTTCGTTTCGCTCGTCATTTTCTTTCGCGAGGCTTTGAAAGAAGTTGGCCAATATACAATCTGGGCTATTCTCACTGTTGTCGTCGTTTTCGAGTTCAGCGTTGGGGCAACACTTAGTAAAGGGTTTAATCGTGCATTGGGGACATTTTCAGCCGGTGGACTTGCTATTGGTATTGCGGAACTATCCGTCTTAGCCGGACCATTTAAGGAAGTTATAATCGTAATCAGTATATTCCTTGCAGGGTTTTTTGCAAGCTATTGTAAATTGTATCCGCCGATGAAGTCGTATGAATACGGGTTCCGGGTATTTCTGTTGACATTTTGCATCGTGTTGATATCTGGAAGTACATCGTCGTTTTTCCGAACGGCTTTTTATCGATTACTATTCATTGGCGTCGGTGCTATCATGTGCTTGGTGGTGAATATATTTATCTTCCCCATTTGGGCAGGGGAGGATCTGCACAAATTGGTTGTGAAAAATTTCAAAAACGTTGCTACTTCATTGGAAGGTGTCGTTAATGAATACCTTCAGTGTGTGGAATATGAGAGAATCTCCTCGAAGATTCTTACATATCAAGCCTCTGATGACCCTGTATATAGTGCTTATAGATCTGCTGTGCAGTCCTCGAGTCAAGAGGACACTTTGTTGGACTTTGCCTGTTGGGAGCCACCGCATGGCCCTTACAAGACATTCAATTATCCATGGTACAATTATGTCAGAGTGAGTGGTGCTCTTAGGCATTGTGCTTTCATGGTCATGGCAATGCACGGATGTATTCTTTCAGAAATCCAGGCTCCACCAGAGAAAAGAAAGGTTTTTGCAAAGGAGCTTCAGAGGGTTGGCACTGAGGGGGCTAAGTTCTTACGTGAGCTTGGGAGCAAAGTAGAAAAGATGGAGAAGTTAAGCTCAGTCGACATGCTATTCGAAGTTCATGATGCTGCAGAAGCTTTACAAATGAAGATTGATGAGAAATCTGATATACTGGTGAATTCAGCTAATTGGAGACCCGGAAAACAGCACAGGGAACATGAAGATCTTCATCATCTTATTGATACCAAAGATGATCATGGCCGACAGTTGGTAATCGAATCCCTGAACGATTCGTTGGATGCTCAACACTCGAGCATCGGCTTCAACCCTTCCATTACAGAATGGGTATCTACAGAAAGTGTCTTCAACAAACACCTGGTTTCATGGCCACGCCTTTCATTTTTGAACGATACCGTGCCGAATGAAAGAGAGTCAAAAGTATATGAAAGTGCAAGCTCCTTATCTTTGGCAACGTTTACTTCGCTTCTCATCGAGTTTGTTGCAAGGCTGCAAAATCTCTTGAACGCATTTGAAGAACTCAGTGAGAAGGCAAATTTCAAGTCACCAGCGGAGATTAAAATTGAAAAGGAGAAACTCGATCCGGGTCATCCGAAATGTCGTAGATGTGTCTTGGATGGACACTACAATCTGTTCATCAAAGCTGTTAGCTTGAATGTGCCTGTGTCTCTCTCTGTCTCTGTCTCTGTCTCTGTCTCTCTCTCTCTCTCTTTCTCCGACGACAGGTTCCTGAAGCTCAGCCAGGCAAGGGCATTGATCTTGTTTTACAGGAAATCACTGTATAAGATGTCTATGGTCCACGAGCCTCTATATCCAATAGCTGTTCTTATTGACGAGCTGAAAAATGATGACATTCAGCTACGGTTGAACTCAATTCGTAGACTTTCTACGATTGCACGTGCTCTTGGAGAGGAGCGAACGCGTAAAGAATTGATCCCATTTCTGAGTGAAAACAATGATGATGATGATGAGGTGCTTCTTGCTATGGCTGAGGAGTTGGGAGTGTTCATCCCATATGTTGGTGGTGTTGAGCATGCCCATGTTTTGCTTCCACCTCTGGAAACTCTGTGCACTGTTGAGGAAACCTGTGTGAGGGACAAAGCTGTGGAGTCTTTGTGCAGAATTGGTTCCCAAATGAGAGAGAGTGATTTAGTTGATTGGTTTATTCCTCTCGTTAAGAGATTGGCAGCTGGTGAATGGTTTACGGCTAGAGTATCCGCATGTGGGCTATTTCATATTGCCTACCCTAGTGCTCCAGAGATGTTGAAGACCGAGTTGCGGTCAATGTATGGCCAATTGTGTCAAGATGATATGCCCATGGTTAGGAGGTCTGCTGCAACAAATCTAGGAAAGTTTGCTGCAACAATTGAACCTGCTCATCTGAAAACTGATACCATGACAATTTTTGAGGATCTTACTCAAGATGATCAGGACTCTGTGAGGTTGCTGGCCGTTGAGGGTTGTGCAGCTTTGGGCAAGTTATTGGAACCCCAGGATTGTGTATCGCATATTCTTCCAGTTATCGTTAACTTCTCCCAGGATAAGTCTTGGCGTGTCCGTTACATGGTTGCCAACCAGTTATACGAGTTGTGTGAAGCTGTAGGACCTGAACCTACTAGGACGGACTTGGTACCTGCTTATGTGCGCTTGCTTCGAGACAATGAAGCTGAAGTTCGTATAGCAGCTGCTGGCAAAGTGACCAAGTTTTGCCGGATTTTAAGTCCAGAACTAGCAATTCAGCATATCCTTCCCTGCGTTAAGGAATTGTCATCAGATTCCTCTCAGCATGTCCGTTCAGCTTTAGCCTCAGTTATCATGGGAATGGCTCCTGTGTTGGGAAAGGATGCTACCATCGAACAACTGCTTCCGATATTCCTTTCTCTGCTTAAGGATGAATTCCCTGATGTGCGCCTCAATATCATTAGCAAGCTTGATCAAGTAAATCAGGTTATTGGAATTGATCTCTTGTCTCAATCACTGTTACCTGCCATTGTTGAACTTGCTGAGGATAGACACTGGAGAGTTAGGTTAGCAATTATAGAATACATTCCTTTATTGGCAAGTCAGCTGGGTGTAGGGTTTTTTGACGATAAGCTTGGTGCTCTTTGCATGCAGTGGTTACAGGATAAGGTTTACTCAATCCGTGATGCAGCTGCTAACAATTTGAAGCGCCTTGCAGAAGAATTTGGTCCTGAGTGGGCAATGCAGCATATTGTCCCACAGGTTCTTGACATGATTAACAACCCACATTATTTGTATCGAATGACTGTTCTTCGTGCGGTCTCCCTTCTTGCCCCAGTTATGGGCTCAGAAATCACATGCACAAAGCTTTTGCCGGTGGTTATCAGTTCTTCCAAGGACAGGGTTCCAAATATCAAGTTTAATGTGGCGAAAGTATTGCAGTCTCTCATTCCCATAGTTGACCAACCTGTGGTGGAAAAAACTATCCGCCCTAGCCTAGTTGAACTCAGTGAAGATCCAGATGTAGATGTCCGGTTCTTTGCTAACCAAGCTCTTCAATCAATCGATCACGTGATGATGTCCAGTTAG MAGKYGSIRQSFLDQNREKAYSRKGYSDFGLNSYDGAGDNVKCRCFRTLTDSIANFWKGLRDTTVKLYEMGRTDPRKIFFAAKMGLSLAFVSLVIFFREALKEVGQYTIWAILTVVVVFEFSVGATLSKGFNRALGTFSAGGLAIGIAELSVLAGPFKEVIIVISIFLAGFFASYCKLYPPMKSYEYGFRVFLLTFCIVLISGSTSSFFRTAFYRLLFIGVGAIMCLVVNIFIFPIWAGEDLHKLVVKNFKNVATSLEGVVNEYLQCVEYERISSKILTYQASDDPVYSAYRSAVQSSSQEDTLLDFACWEPPHGPYKTFNYPWYNYVRVSGALRHCAFMVMAMHGCILSEIQAPPEKRKVFAKELQRVGTEGAKFLRELGSKVEKMEKLSSVDMLFEVHDAAEALQMKIDEKSDILVNSANWRPGKQHREHEDLHHLIDTKDDHGRQLVIESLNDSLDAQHSSIGFNPSITEWVSTESVFNKHLVSWPRLSFLNDTVPNERESKVYESASSLSLATFTSLLIEFVARLQNLLNAFEELSEKANFKSPAEIKIEKEKLDPGHPKCRRCVLDGHYNLFIKAVSLNVPVSLSVSVSVSVSLSLSFSDDRFLKLSQARALILFYRKSLYKMSMVHEPLYPIAVLIDELKNDDIQLRLNSIRRLSTIARALGEERTRKELIPFLSENNDDDDEVLLAMAEELGVFIPYVGGVEHAHVLLPPLETLCTVEETCVRDKAVESLCRIGSQMRESDLVDWFIPLVKRLAAGEWFTARVSACGLFHIAYPSAPEMLKTELRSMYGQLCQDDMPMVRRSAATNLGKFAATIEPAHLKTDTMTIFEDLTQDDQDSVRLLAVEGCAALGKLLEPQDCVSHILPVIVNFSQDKSWRVRYMVANQLYELCEAVGPEPTRTDLVPAYVRLLRDNEAEVRIAAAGKVTKFCRILSPELAIQHILPCVKELSSDSSQHVRSALASVIMGMAPVLGKDATIEQLLPIFLSLLKDEFPDVRLNIISKLDQVNQVIGIDLLSQSLLPAIVELAEDRHWRVRLAIIEYIPLLASQLGVGFFDDKLGALCMQWLQDKVYSIRDAAANNLKRLAEEFGPEWAMQHIVPQVLDMINNPHYLYRMTVLRAVSLLAPVMGSEITCTKLLPVVISSSKDRVPNIKFNVAKVLQSLIPIVDQPVVEKTIRPSLVELSEDPDVDVRFFANQALQSIDHVMMSS Homology
BLAST of Csor.00g302980 vs. ExPASy Swiss-Prot
Match: Q38950 (Serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform OS=Arabidopsis thaliana OX=3702 GN=PP2AA2 PE=1 SV=2) HSP 1 Score: 1093.2 bits (2826), Expect = 0.0e+00 Identity = 553/587 (94.21%), Postives = 576/587 (98.13%), Query Frame = 0
BLAST of Csor.00g302980 vs. ExPASy Swiss-Prot
Match: Q38951 (Serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A gamma isoform OS=Arabidopsis thaliana OX=3702 GN=PP2AA3 PE=1 SV=2) HSP 1 Score: 1062.8 bits (2747), Expect = 3.0e-309 Identity = 539/587 (91.82%), Postives = 568/587 (96.76%), Query Frame = 0
BLAST of Csor.00g302980 vs. ExPASy Swiss-Prot
Match: Q38845 (Serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A alpha isoform OS=Arabidopsis thaliana OX=3702 GN=PP2AA1 PE=1 SV=1) HSP 1 Score: 1021.5 bits (2640), Expect = 7.6e-297 Identity = 508/581 (87.44%), Postives = 553/581 (95.18%), Query Frame = 0
BLAST of Csor.00g302980 vs. ExPASy Swiss-Prot
Match: P36875 (Protein phosphatase PP2A regulatory subunit A (Fragment) OS=Pisum sativum OX=3888 PE=2 SV=1) HSP 1 Score: 689.5 bits (1778), Expect = 6.8e-197 Identity = 351/395 (88.86%), Postives = 376/395 (95.19%), Query Frame = 0
BLAST of Csor.00g302980 vs. ExPASy Swiss-Prot
Match: Q32PI5 (Serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A alpha isoform OS=Bos taurus OX=9913 GN=PPP2R1A PE=1 SV=1) HSP 1 Score: 665.6 bits (1716), Expect = 1.1e-189 Identity = 338/576 (58.68%), Postives = 439/576 (76.22%), Query Frame = 0
BLAST of Csor.00g302980 vs. NCBI nr
Match: KAG6573981.1 (Serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 2369 bits (6140), Expect = 0.0 Identity = 1214/1214 (100.00%), Postives = 1214/1214 (100.00%), Query Frame = 0
BLAST of Csor.00g302980 vs. NCBI nr
Match: KAA8529188.1 (hypothetical protein F0562_034013 [Nyssa sinensis]) HSP 1 Score: 1625 bits (4208), Expect = 0.0 Identity = 856/1188 (72.05%), Postives = 959/1188 (80.72%), Query Frame = 0
BLAST of Csor.00g302980 vs. NCBI nr
Match: XP_022945367.1 (serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform-like [Cucurbita moschata] >XP_023542366.1 serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform-like [Cucurbita pepo subsp. pepo] >KAG7013039.1 Serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 1145 bits (2963), Expect = 0.0 Identity = 587/587 (100.00%), Postives = 587/587 (100.00%), Query Frame = 0
BLAST of Csor.00g302980 vs. NCBI nr
Match: XP_022968238.1 (serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform-like [Cucurbita maxima]) HSP 1 Score: 1142 bits (2955), Expect = 0.0 Identity = 585/587 (99.66%), Postives = 586/587 (99.83%), Query Frame = 0
BLAST of Csor.00g302980 vs. NCBI nr
Match: XP_008446576.1 (PREDICTED: serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform [Cucumis melo] >XP_011655767.1 serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform [Cucumis sativus] >XP_038892456.1 serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform [Benincasa hispida] >XP_038892457.1 serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform [Benincasa hispida] >XP_038892458.1 serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform [Benincasa hispida] >XP_038892459.1 serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform [Benincasa hispida] >XP_038892460.1 serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform [Benincasa hispida] >KAA0034539.1 serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform [Cucumis melo var. makuwa] >KGN52591.2 hypothetical protein Csa_009119 [Cucumis sativus] >TYK09093.1 serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform [Cucumis melo var. makuwa]) HSP 1 Score: 1136 bits (2938), Expect = 0.0 Identity = 583/587 (99.32%), Postives = 584/587 (99.49%), Query Frame = 0
BLAST of Csor.00g302980 vs. ExPASy TrEMBL
Match: A0A5J5AG47 (Uncharacterized protein OS=Nyssa sinensis OX=561372 GN=F0562_034013 PE=3 SV=1) HSP 1 Score: 1625 bits (4208), Expect = 0.0 Identity = 856/1188 (72.05%), Postives = 959/1188 (80.72%), Query Frame = 0
BLAST of Csor.00g302980 vs. ExPASy TrEMBL
Match: A0A6J1G0Q5 (serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform-like OS=Cucurbita moschata OX=3662 GN=LOC111449622 PE=4 SV=1) HSP 1 Score: 1145 bits (2963), Expect = 0.0 Identity = 587/587 (100.00%), Postives = 587/587 (100.00%), Query Frame = 0
BLAST of Csor.00g302980 vs. ExPASy TrEMBL
Match: A0A6J1HXG3 (serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform-like OS=Cucurbita maxima OX=3661 GN=LOC111467536 PE=4 SV=1) HSP 1 Score: 1142 bits (2955), Expect = 0.0 Identity = 585/587 (99.66%), Postives = 586/587 (99.83%), Query Frame = 0
BLAST of Csor.00g302980 vs. ExPASy TrEMBL
Match: A0A0A0KT59 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G608520 PE=4 SV=1) HSP 1 Score: 1141 bits (2951), Expect = 0.0 Identity = 586/593 (98.82%), Postives = 589/593 (99.33%), Query Frame = 0
BLAST of Csor.00g302980 vs. ExPASy TrEMBL
Match: A0A5A7SZM8 (Serine/threonine-protein phosphatase 2A 65 kDa regulatory subunit A beta isoform OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold475G00830 PE=4 SV=1) HSP 1 Score: 1136 bits (2938), Expect = 0.0 Identity = 583/587 (99.32%), Postives = 584/587 (99.49%), Query Frame = 0
BLAST of Csor.00g302980 vs. TAIR 10
Match: AT3G25800.1 (protein phosphatase 2A subunit A2 ) HSP 1 Score: 1093.2 bits (2826), Expect = 0.0e+00 Identity = 553/587 (94.21%), Postives = 576/587 (98.13%), Query Frame = 0
BLAST of Csor.00g302980 vs. TAIR 10
Match: AT1G13320.1 (protein phosphatase 2A subunit A3 ) HSP 1 Score: 1062.8 bits (2747), Expect = 2.1e-310 Identity = 539/587 (91.82%), Postives = 568/587 (96.76%), Query Frame = 0
BLAST of Csor.00g302980 vs. TAIR 10
Match: AT1G13320.3 (protein phosphatase 2A subunit A3 ) HSP 1 Score: 1062.8 bits (2747), Expect = 2.1e-310 Identity = 539/587 (91.82%), Postives = 568/587 (96.76%), Query Frame = 0
BLAST of Csor.00g302980 vs. TAIR 10
Match: AT1G25490.1 (ARM repeat superfamily protein ) HSP 1 Score: 1021.5 bits (2640), Expect = 5.4e-298 Identity = 508/581 (87.44%), Postives = 553/581 (95.18%), Query Frame = 0
BLAST of Csor.00g302980 vs. TAIR 10
Match: AT3G25800.2 (protein phosphatase 2A subunit A2 ) HSP 1 Score: 987.3 bits (2551), Expect = 1.1e-287 Identity = 495/526 (94.11%), Postives = 517/526 (98.29%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Silver-seed gourd (sororia) 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.
|