Cp4.1LG13g11020 (gene) Cucurbita pepo (MU‐CU‐16) v4.1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TACCGACAGCCAAAGCAGAACCCGAGCTCTGAAACTGCCCTGCCCCCCCCTCACCATTTACCCTCTTCGGTTCCCTGTATGTCCCCGGCCCCGCCATGAGATAGGAGGAAACGCAACGTCGTTTCTTGGAGCGCTCTCTTCTGGTGCACCCTCTTCCTCGTTCTCTCGTTTTCTCCACTTTCACATTATCCATTTTTTTGCCTTGTCTACGGTGGTATGTTTTTTTCTTCCTTCCAATTTTTGTTTCGATTTCCATCCCCCAATTGCTTCAACTGATTTCTCTTTAGATTTCTGCCTGATCGATCTCCAGTGCTGTTGTGCTTCCGGAATTTGCTTCTGTCTTTGTTTGGAATTTGATTTTTGAGATTCCATTGGATGTTCATAAATTGTGTAACAGATACGTTTCATCTTGAGCTGGTTCATACGCGGCGAACTCTGGTGAATAACGTTTCCAATATTTCTCTCTTGATTTTGGGTCGTCGGTTTAAGAAACAGTGACCCTCCTTGATCAGGCTCTCGTTTTTCTCAACCCACCCACCAACTGTTCGACCATTTGCCTAAGAGGATATCGACTGTGTTTATTTTGCGGGAAACGCGTCGGAGTTTCGGAGATGGCGGGAAGCGATCTACGTGGATGGGTGAGGATCATCTTCTGAAGCAAATGGTCCGGTGCCCACTCCTACCTCGTGGGTTTACAGTCTCAATTAGAGTGAGATCCAACGCTCATCTCCAAGGTGGAAACTCGCACCGGTGGAACTCTCTTGTGTACGAAGCACTAGTCGGCCGAGACAACACCACCGTGGTCTTCGTCAAAGGCCTCAATCTCCGCCCTGAACGGGTCTCCAACGCGTCGAGATTTAAGTGTGTTTACGGCTTGGGATTTTCGGAAGGTCGAGTTTTTGCTAAGATCCGATGTCATGTCGATTGCTCAAGAAATTGCGTGCTGTAGAACACCCTGAGTTTGCTCAGCAATCCCAATAGAACCCATGATTCCATTTAAGTATCCATTCGTAGGAACTTGGCATTCAGTAGCCCGCCCATTGCTCCCATCAGGATCCACAACACCTCACCGGAAGCCCCACGAGATGTGCGTATGCACAGTGGTGCGCAGTTTCTTAAGGAATGGATCATTTACCATGCCATCTCGATGTACGCCGCTGGTTCATCTGTGGAAACAACAGCGTTGACGACATAGAAGACGTGATTGCATCAATGTCCACTGTCAAACACAACATTTCTCGACATATCTGGCCCTGGATTAAGACCCAATAAGCTGGTTTTGCACATTGTGCATTACGGGCTCGCGATTCTTGCAAGTGGGTCGGATTCATTGATGTCGACTAGTTCTTCTACCTGCCAAATGGGCTATCTCTGCTCGACGTGCTCAGAAACCAAGCCAAAAACGTTACCGTTGTGGAGATACGCGTGTCCTGCCACAACTTCGGCCCATCCGGGCTGTCACGGATGCCGCCGCAGGGGGTGACGGTGGGGTACACTCGCAGGAAAGCGGTGGCGGAGAGGCACAAGAGCATCGTGAACCCGGAGGCTTTGAACTCCACATTGATCAACATGGTGCATCATTTCCACTTGAGAGATGGGTTTCTGTGTATGAATTTGGAGAGGTCTGAGATGGTTATAAACCATTACAAGTACCAAGTTTGTGAAGTGTTCAAGGAGAAGTTTCACAAGCGTGTGGCGACGGATTGGCAGGAGGAGCAGAATGTGGGCTCAGAGGACAGAGCACCAGGGCTGGGGACCAAGGCAGTGAAACCAGAGGACTGGTCGAGCCGTTTCAGTGAGGTCAATGACACTGGGCTACGGGAAATGATTGCATGCAGCTTTTAAACACAAAATAGAAAAGAATATGGCGTTGAAAAATTATGCATTTAAAAGAGGAAGAGAATTGTGAATCTAATCCTCCATGAAGAGGACCCAAGATTATTAGGTCAGGATCACAAAATTTAAAATTCAAGAATAATTTTGAAAAATTAAATTAATAAATAAGCATAACCACAAAAATGTGTAGAACTATTTATTTCCATTTTAAATACATTAGTTAGATACAAGTTGATGATTTAAGAATATTTTTATAAACTTCAAAGTTTTTTAAGAAATATATAATTTATTTATTTAAATATATAGCTGTCTTTTGAGACTCAAATATTTTTTAGAACAATAATTTAGAGAGAAATTCTTCAAGAGTTTAAGCCAATGAAATAAATAAATCTGAAAAGGAAATAAAAAGGGAATGTTTTTGAGTGAAAAAAAGAAAAAAAAAAAGAAAAAAAAAAAAAGAGGATGAAATTCCAAAGATAGTAGGAAGGGAAAGGGAGGAAGAAAATGGAAAAGGTGATTATAAAAAAAAACTGTTGTTTTGCTAAACAAAGCATTGGAACAACGATGAGAACAGCAGCTATGGATTGCTGTTCCCTAACCTAACCTTTTTTGCTACTCACTGGGTTGGGTTCCAATCTCCTTCTCGGCCCTCTTCTTTATCCTTCTCCTCTCTCTTTCTTCGCCTCTGTCTCTCTCTGTTCATTTCTTGTAATAACAGGCGCACCTGGTCTTTCTTTGACACCCTAAATCCACATCCATGTCTTCTATACATATGTAATTCCAATTTCCCTCTCCTCTTTAATTTTACTTCCTCACATGTAACTTACTTTTTCCCCTCTTCTCGCACCGCACCCTTTCTTCCTATTTTTGATTTTGAATCTAATTTGAATGTGGCTCAGTTTTGTCATCCCCTTGCTTTTTGGGAATTTTGCAGGCTGCTTTTGCTGGAGATTGGTGTGGGTCAATAGATCATGCCCAGATCTTGTTCCATCTTGATCCACTTGCTTATCTTCTCGACCTTAATAAAGTGAAGGAGAATAGAGGCGGAGGAGAGAGACGAATATAGCGAGGTGATTAGCTACTGCCCTTTTCTTCTTTTTGTGGTTCAAGATGGAAGTCAATGTTTCTTCAGCTTGCTCTTATGTTTCTGCTTTAAACGATCTTAAAATGTTTCATTTAATGTCATTTTCCTCTGCATCTGCCCATCTGGGCTTGTTGGTATAACCCCAGAGGAGAAAACCTGGTGTTATTTTCTTCATGGTAGAGTAGGCCTTTCCCCCCCCTTCTTCTTGAACTCAATAAATAAGGAAACGAAACTTTGAAGTGCTAAACATATTTAGTTTCTCAATCAGGAGGTTTTCCCCCACTTGATTGCACCATTTCCTGTAAGGCTATACGTTACTGGTATTGTCATTGAAATGATTTTAAATTTTATGCTCAATTTTCTCTCTTTTCTTTTTCAAGATGGAATTTGGTTGACTACATTCCGGAATTTCTTGTTTTTTTTTGTAGGTTGTTCATTGATCCATGTAAAAGAATCTGCATCTGCTTTAGCAACTAGAGAATTAGTGAGTGTTTTGAAGTGAACAAGGAAAATCTTTTGTTTTTCCATTGAAGTCATGATTAAACAAATACTTAATAGGCTTCCTCGAAAACCTTCCAAGTCAACCGAGCATCGTGAAGGAGCAGGGACAACCGTCTCTTCTTCGCATGCCTCTACAAGTTCAAGGAGCAATGATGTAGTAGCTAACCACCATGCCAACACTGGAACTGGATCTTTTTCTGGCCCCAATTCTGCTTTGAATGCTGGACTAAATCATGGGAGTAAGTCATCTCAAGGGCTCAATGCAAAATCAAATGGTAACTCACAAGCTTCTTATGAGGCACTGCCGGGTTTCAAGGATGTTCCAAATTCTGAGAAGCAAAGTTTGTTCATTAAAAAGCTAAACATGTGTTGTGTGGTGTTCGACTTCACCGACCCATCAAAAAACCTCAAAGAAAAGGATATCAAACGACAAACACTGATAGAGCTTGTTGATTATGTGGCATCTGCAAATGGAAAGCTATCAGAAAATGTTATACAAGAAATTGTAAAGATGGTGTCCTCAAATTTATTTAGAACACCTACCATTCCATCACGAGATAGCAAAGGTTTAGAAGCCTTTGATCTTGAAGAAGAGGAGCCCTCAATGGACCCTGCATGGCCACACTTACAAGTTGTCTATGAGTTTCTGCTCAGGTTTGTGGCATCACCTGAAACAGATGCAAAGTTGGCAAAGAGGTACATCGATCACTCTTTTGTTCTCAGGATGTTGGATCTTTTTGATTCTGAGGATCCTAGAGAGAGGGATTACTTGAAAACAGTTCTGCACCGCATATATGGGAAATTTATGGTACATAGACCATTCATCAGGAAATCAATCAATAACATTTTCTATCGGTTTATTTTTGAAACTGAGAAGCATAATGGGATTGCAGAGCTTTTAGAGATTTTGGGAAGTATAATCAATGGATTTGCTCTTCCTCTAAAGGAAGAGCATAAACTCTTTCTGGTTCGAGCACTTATCCCTCTTCACAAACCTAAATGCATACCCATGTATCACCAGCAGTTATCTTACTGTATAACACAATTTGTGGAGAAAGATTGCAAGCTAGCTGATACTATCATAAGGGGCTTACTGAAATATTGGCCAATTACAAATAGTTCGAAGGAGGTGATGTTCTTAGGTGAACTTGAAGAAGTGTTAGAAGCAACTCAGCCCGCTGAGTTCCAGCGTTGCATGGTACCCTTGTTTCGCCAGATTGGACGTTGCTTGAGCAGTTCACATTTTCAGGTAGACTATGTGGAGTTATTTTTCGTTTTTGCTCAATTTACTAGCTTCTACTCCTTTTTAGCTTCATGATGATTTTTACCAACATGTCCCTACCCTGGGAAGTAGAATAGGTATTAAATACTCAAAATTTGATGCTTACCATTTTTTGCCACACAACGTAGGTAGTGCACTAAAGATTTCTTTGCATGCTTTTAGTTTTTAACCAATATCTATCTGGGATTTAAGTATGACCTGTGAGTAGGTTCTTAGGTTGGTTAATTGATCTGTGAGATGATATTAAGGAAGGGAAATTGCTGAAACTAATCTAGAATCCAAAATTTTTATAGATGATTTTTCTAACCTTTTTGACAGGTGAATTATCCTTTTACCCTCAGGTTACATAAAACATCATTTGCCCAGAAAATTTCATCCTCCTCTATCATCTCTATCTTCTTTTATGCCTTCTCCTCCCTCTCTTCTCTCATTCCAACCTTTTCTTTTGAACTTTAATCCACGGCACTGTTCTTCTTCTTCTCTCTTTTTTTTCCTCACCTTTGTCTTCTCCCTCTCCCACCCTACTCCAATGTGACTTGGGTACCACAACTCAAAATGGTGAAGAAAAATATTATGTAATCCAGTTTGAGGTTCAAAACGATCATTTCTAGGATGAATGCTCTAATAAGTTGCCTTCTAGCGTGTATATATATATATAAAAGTTACTCGAAAAAATCAACTAAGCTCGAAGTTATGACTTATACTTAGATCATTTTGGCTTTTAAAGGCATTAAAAGCCGAGATGCTTTAAAATTTTCTTAGTTTATATGCTTGGTTGGAAGGAACAAGAAAAAAATGTATGAATACGAGTGGTCATTTATCTAAAATAGGCTTGGCAGGAGCAGCGGGCAAGTGCTTGGTAGAAGACAAAAAAGTGTTTCGTTTCATTGGAAATTAGGACCAAAATATGATCTTAATCTGCTTTCAATTGTACAATACGGTCTCGGGTCAATCCTAGATTGTATTGTACGATTTAGGATCGATTGTTGAGTGCACACTAAGATCATTAATGGTCATATCTCCCTCGATACAAGTTTATTTTAGCTAAATGACCACTCGTTCTCATATGTTTTTCATGTTTTTTCCAATCATGAATATAAGTTCTGAGCAAAATCTTAAATCATCTGGATTTTTTAATGCCCTGAAATTCGAAATGAAGGAAGTTTAAGTATAACTTTGAGCTCAATGGAACAAATTAATGAAGTTTTTTTTTAATAACCTTTTGAGACATACGTGGTAGTGGATAGCTTATTTGATCATTCATCCCAAAAATGGTAGTTTTTAATCCCAATTTAGATTATACAATGTTTTTCTACAACATTTTGAGTTTGCTCAAACTATAGTGGGAAGAGAGGAGAAAAAGAAGAGATGGAAAAAAAAAAATGTTGTGGATCGAAGTTGAAAAAGAAAAGGTTGGAATGAGAGAGAGAAGAAGATTAGAGTTTTGAATTTATATATGACTTAGTTTTTTCATATTTAATATTAACTAATGAAAACGGTGGGTCCTAGCCCTCATCTTTATCCGTTAGCACTGTTGTTTATTTTCTTTCATTCTGGCAATCTCTTTAAAGCATGAGACGGGCTGGGAACATTATCTCTTTGGAGCTTAAGTGCAAGGTGCTAGGAATATGTGAAAGGAAGAATAATATTAAGTTTTGCAGCATTCATGAATGGAAGTTCAAATCCTATTTTTGTCTTTGAACTTTCATGCTTGTTGTTTTGGCATTTAAACTTTAAACATGTCCCTAAACTTTAAAATGTTCTATTTTAGTCTCTAAACACTGTTGAGATATTTATCTACAATGACATCTACTCATCATTTTGGTAAACAAAAAATTTGCTAAAATGATTTTTTACTAAGAATTTAGGGTCTAAAAAGCTTGAAAGTTTAAGGCTTTAATATTAGTCAGAGAGTGACTGTCTTTACTACAGTCATCCTAACAGTTCTCTCCCGTGCTTCTTTTACGTCCTAAATGGCTGAAGCTTAGGCAGAAAGGTGCTTAGGGTGCATCAAACTAGCTCACTTCCCCTTGTGGTTGCATAGGTGCACTTTCTGAAACAGGGGATGTTACTGACAAATATTTTGATAACCTGTGGTCTCACAAGTTCTATTTAAATATAGCTGTTGTTGGAATTATTTTGGAGGATTATTTGTTTATTTATTCAAGTAGAAAGAAATGAATCTTCTAGATTCCTTGTCTCACGCTGTACCATGTTTATCTTGTTCATTTTCAGGTGGCTGAAAGGACTCTGTTTTTATGGAACAATAGTCACATCGAGAACCTAATCAAACAGAACCTCAAAGTCATTTTGCCGATTATATTTCCTGCGCTGGAGAGAAATTCAAGAAACCATTGGAACCAGGCCGTACAAAACTTGACCCAAAACGTCCGAAAGATCTTCTTGGATGCTGACCCTGAGCTGTTTGAGGAATGTTTGCTCAAATTTCAAGAAGAAGAGACACACGAGAAGGATACGAAATCTAAGCGCGAGGCTAAGTGGAAACGCTTAGAGGAGATAGCTGCTGTGAAATCTGCAAGTAATGAAGCAGTTCTCGTCTCTCCCAAAGTAGCCTTACGAGCACCATCTGGCTAGCTAGCTAACCACAGAACTTCAAATGGGGGTGTTCAGCAGATTTGGTTTTCCAATTGGTATGTGGGCATAAAAGTTTATCTAATCACTCACCTCTCACCATGTGATGAAAGCAGCAGCCGCAGTTAAATTGGTCGTCCCATTATGAACAAATTGGATTGAGGTGCAGTGAGAGAAATTGATATTGGTGCTCATAGCTGAGATTTCTATTTTGCATACATTTTCTGTGTATATGTGATTGGGAGGGGGGGTTGGATTCGGGTTGGAAAATTTCTGTTTTATTTTTGAATGGGTGAAAAGCAAGAACGAAATTCAATTTTTTTCATAATTGTGCTCATCAGTATCTGGATGATGGTCCCTTGTAGTTTACTGCTTCTGTAATTCAAGTTATTGGTTTCTTTTCTTCTGTCCCTTTCTGGTTACCTCTGGATTTCAATTTGTTTGAGCAAATGATATATACTCAGATATTTTGAAGTGACTCTAACGGCACGGCAATGGAGATTTTGTAGCTGTCATTTTGGATGCAGAAAGTATGAGTTTGGACCATCCATTGGCTAAAAATCTTTGCAGATCATTCAGGCAGCTTTGAATGTGTTGATCAATCTTGTTTGTCCTCCACCATCAATCACCAATAAACCACCTGTGTAAGTCATGCAAGACTGGCAAGAAATGCAGAACGCATGGTCCCAAATCTCCACTACTCTTGTTGCAGAGAGTTGTAAGTCATGCAAGACTGGCAAGAAATGCAGAACGCATGGTCCCAAATCTCCACTACTCTTGTTGCAGAGAGTAGAGATAGAAATGCAGAACGCATTAGACCAGATCTTCAAGGCCTTTCAAGGACTTAATTCTGCATTATGAGAGGCTACATCCATGTTTAACTAAGAGCACTTAATTCTGCATTATGAGAGGCTACATCCATGTTTAACTAAGAGCATAGTAATGCAGGACGCATAGGTAACAATTCTTTGGAGCACTTATGGTATCCACATGTCATGTGTGCTGTGTGTTTTGTCTCACTAAACTTGTGTGTTTTTAAATATTTATCTGTTAGGATGGAAACATAGTGCTTTACTATACGTGTACATGTGTACATATACCCATGTTAACAATAAAAGCGTAGTCTACATCAATATTTTAATGCATTTCTAAAGGATGCCGACTTGCCAAGTATGCATTTCTAGAGGAGTAGCGGTCGGGATACTCAGAAATCCCACTGCCATTCTTTTTGTAATACCCAGCAGTTGGCAGTTGTAATACTAATACCCAGCAGTCCAAAGGAGGTATCACTAAATAAAAAAAAAAAAAAGTAAAATAAAGAAGAAAAGAAAAAGAAAAAAAAAGAAAAAGAAAAGAAGGAATTGACAGGCGCAGTCACACTCCCAACGTCCCATCCCTCATTTGAGACCCGTGGGAATAAAAGGGGTGAGAGTGGGTGTTTGAGGAAGGAAGGACTAAAACTTGTCGAAAGGAGAAGGCACCGGAGGTAGGAGGCTGAAACCCACGCTCGCCGGAGAAACTTGAGCTCTAGATCCACGGGTGTTCGGCGGTCGACTTCGGATGGATACAAACCGAAGAGGGAAGTCGAACGAAGGGAGAACGCCAAGGTACGTTCATGGGTTTTTGAGAGCTTCTACCGTTAGATTCATCTCCTAACCTTCATGGGATTGACCCGATTTCAGTTGCTATGTGTTTTCGGGAGGACGATCCACGAGATTTGAGGAGGATTGTGGGCGTCGGAAACGAATCAGAGGGCGAGGCGACGGCGAGCATGGGGTGAGTGAAAGAGAAAGGGGCGTCGGGGGAAAACGAGGGTTCCGCGTCTTGCGCGGGCCTTCGCTACGCATGGCCCAGCGCGGGCCTGCGTGCGTCCCGCCTTGCCCACCACGGGTGCGCGAACCGGGGAGCAGCCGGCCCGACCCGACTTAATTGGGTCGGTTTGGCCCTTTTGATTTAATTTAACTCCGATCTTGGCACCATTTCATGGTATTTTCATTTTGCACTAGGAATTTTCGCAAATTTTGGAACACTCTAGAGACTCAAATCCGAACAAAAAGTGTCTCGTTCAGGTAAGTGTCACCTCGGAACCTTGGATTTTAGCTATGCTCATGGTATGCATTTCAAAAAAGTATGTTTTAGGAGTTTGAGCATAGGATGAGTTGAGATGACACATATTGAATCAGATATTGTATGTTTGCTTAAACATTACTCAAACGCGTATGCATTACCTTGTGAACTGAGATCATGACTAGTTTTCCATGATTAGATTATTATGTTATGCCTCTGTCACATATGTTACAGTATTAGCGGTTATCGGGGACGATTAGGGGTTCGTCAACTAACCCCGAACCGTAAACCTGACTCGATTGTCAGGGGTTCGCGTAGCCACAGAACTGGCCATTTTATTGTTGATGGTCACTTGTGGGGACTTATAGGAAGTTTACCAGTTAATTTTCTATTAGTGAACCTGTCACCAGTGACAGAAGTCCACGTTGGTACATTAGAGTTGGTCGAGAGATATTGCTCATGCATATGAGTTAGCGGTTATCTGGGGATAATTAGGGGTTCGCCAACTAACCTCTAGGGGTACGCGTAACTATAGAATTGGCCATTTTATTGTTGATGATACTTTGTAGGGACTTATAGGAAGATTGCCCATTAATTTCTTTTAAGTGAATCTGTCACGACTGACAGGGGTCTACAGTACACTTGAGAGTTGGTCGATTCCAAAAATGCATGAACCTTGAGTACCGAGGTTGCGCCTCGAGGACTTTGAGATTTGATGATGAAGAAGAGAGACCAGTAGAGACAATTAGCCTATAGATCTAGAGAAATTAAGAATATTCCAAGGGCTGGAGGTCCAGGACCAAGAATCAAGAGAGAGTAGAATGAGAAAATTTAGGGTATGGCCTAGGAAGAGCCTATACGAGGGGAACAAATTTCCAAAAGAGAATAAGATAGTGAACGATGAACAAGATCAATAAGACTTGACAACGAAATAAGAACTACCAGCAAGCTGCTTACTGAGTATATTTTATATACTCATTCTTGCTACTTCAACTTTCTCTTCAGGTGGAGTTTGACGTAGCAATCGAGACGGAGGCCCACGTGGGCTGTTGGCTATAGAGAATTCCATCACATTTGAGTTTGTAGTTCTCTTTGTGCTTTACCTTTAAATCCTGCATTTCATGTATTTTAAATCGTTTGATATCGTAGTAATGTATTTGAGTGATCTCTTCTCATCTCTCTATAAAAGTAAAATTTTCATTACTATATTTTAATTATATTTCAAATTGCATGCATGTGTTTAAATGTTTTAAATTCTAAGTATTTTATTATATATATATTTTTTTCCACTTCACTGAGTAACTGTCCGTTGCTCGAGTCCCTTGAAAATCGGGTCGTTACACTTCTACTCCAAACACTCCCTTAAAACTACCACACTACCACAGCCATCCTTTTACTCAGAAATCTCACTGCCCTTCTTCTACTCCAAACACTCTCTTGCCAATTGACGATGTCGAGTGAGCGTTGGTTCTCCGTAAGCTAGAGCACTCAACATCATAGTTGGAGTAGCCATCTCTACGGAGATCAAATAACAAGCTGCGTCCTGGCGAGACCGAGATAATCTTTAGAAAGTTCGGCGGATGGCAGAGTCAGATAGTAATCTATTACCAAAGGTTCATGTCAGACAAAAGGAAGTGGTATAATTTTAGAAAATTTATCTGTTGTTAAATTCAAATTTAGTACTCCGTTTTCAAACATGATAGAAGAATATCATGTTTACGAGCAACAAAATCAATTGACCTCTGCCGACGTCTGCCTCGGCTGGAAAGCCAAAAAGGCCGATGAAACAACACCGTGGGCTTGGTTGCTTGGGTGTATGAAACCCATGAAAAGGTTAGGGTTTACATGTGTACTGATATGTAGTTTTAACTGTGATTTTTTTTTTTATCAACCCACTAATTGACTGTGTATCAGTTTTTTGTAAACCCGTTTTTGTTATCTCAACTTTTTTTTTACTGTTGGCTTGGTATCAGTTTTTTTGTACAACCAGTTTTTCCTGTTAGCTTGGGTCTGAAACCCATTTTTCTACCGGATGTATTTTTTTCCTGTTAGCTTGGGTCTGAAACCCATTTTTCTATCGGATGTATTTTAAGGGGATAGTTTTAAAGTTATGGTTGGTTAGGCGTCAACAGAACTCTTGTTCCATATAATGAAATTTTATGTTTTAAAGTTATGGTTGGTGAGGCGTCAACAGAACTCTTGTTCCATATAATGAAATTTTATGTTTGAATGACTGGGAGTTCAGATAGTCATTCAAACATAAAATTTCATATATATGGAACAATTATAACATTGGTTGGCGTCAACAAACGACAGCTTTAAAACTACCTTTAATTACAGCCCAGTGTATAAATGGGTTTCATAGACCCAAGCTACAGGAAAAAAATGGGTTTACAAACAAACTGATACAGACACTAGTAAAAAATCGGTTGATGACAAATGCAAGAAAAAATGGGTTTACAAACAAAATTGATACCCAATCAACCTATCAGGGTTATACAACAAAAATCACAACTAAAACTATATTTGGGTACATATGTAATATACCCTCATTTTTCATCGGTTTCATAAACCCAACCAATCAAGACGTCTACAGTGTTGTCGGCCTTTTTGTCTTGAACATCATAGTCAGAAGTATCATGCAATTGATTTTGTTGCTCGTAAACATGATAATCTTCCATCATGTTCGAAAACTGAATACTAAATTTGAATTCAACGATATAGAATTTTTTTTAAAATTATACCACTCCCATGAGAGGGTTTCAGTGGCCGTTCGTTGATCGAGAGATTATGACATGAACCTTTTCAAACGTAATAGATTACATCTTCTTTACACGATCCGCCAAACTTTCTAAAGATTATCCCGGCCTCGCCGGAACGCAGCATGTAATTTGATCCCCGTAAGGACGGCTACTCCAGCTATGACGTTGAGTGGCCTAACTACGGAGAACCAACGCCCACCCGACATTGTCACTTGTCAAGTGAGTGTTTGGGTAGAAGAAGAGAGTGGCAGTGACATCTCTGAGTTTTTTATACTAATTGCCTCCCAACTACAACCAGAGTTTTTTAGATTAATTGCCTCCTAACTACAACCAGAGTTTTTTTAGATTAATTGCCTCCCAACTACAACCATTCTTCTACTCCTCCAAACACTCTCTTGCATCACAGCTGTAGTAGCGGTCCGTGCTAGAGCCAAACACTCTCTTGAGTACCCGTCCGTGCTAGGGCACTCAACATCATAGTTGAAGTAGCAGTCGTGCTGAGGCACTCAACATCATAGCCGTCCGGGCAGCTGGAGTAGCAGTCCGTGCTGGGGCATTCAACATCATAGCCGTCCGTGCAGCTGGAGTAGCAGTCCGTACTGGGGCACTCAACTATCATAGCCGTCGGTGCTGGCAATGAGGGTTATAGAGTTCAACGGGCAATGGGTTTCTCTATTCTCTTAACCATTTATAGATACAGCCGCCTCCACACTCTTCTCAAGCAATCAGAAGAACTACTTCACGTTTACCTTTCGCATTGGCTCAACTTGATGCTTCCAAACATTCTTTAGGATATCTATTCTTTCTGTAAGTTTTTCTTCTCTGCATTATTCTATCTAGGTGTTTTGGTGGTAAGGTTAATTAGAGCCCGCCTTCTTTATGTTACATTTCTTGAGGATTCACTCCTATCAGTGAGAGCTTTTGGTTAAAGTTCCAAGGGACGGAGTCCAAGATTGGTGTTCTTTATTGAGGAGTCTACGAAGGGACAACACCCGTCTTGTATACTACGACGTCTAACTATTTTAGTGTGTGATTGGAGGCCAAATGTATACAAAGGAGATTGATTCATGCTGTTTTCTTTAAATATATTGGCAGTGAGGCATGCTCATCTGTACCAATTTCACAAGATCAATCCAGCTCAATTGTTTCGACTATTTCAAGATTTATCTCTTCTTGCAACCAGGAGCAGATTCTTTTAGCGCCTGAAAAATGTAAAGTTGTCTATGAGTTTCTGCTCAGGTTTGTGGCGTCGCCTGAAACAGATGCAAAGTTGGCAAAGAACTTGGATTGAGGTGCAGTGAGAGAGTTGATATTGGTGCTGCTGAAAACCTCAAATTTCTATTTTGCATGCCTTTTCTGTGTATATGTGGTTGGGATGGGGTTGGATTCGGGTTGGAAAATTCTGTTTTATTGTTGAATGGGTGAAAAGGCAAGAACGAAATTCAATTTTTTCAGTATCTGGATGATAGTCCCTTGTAGTTTACTGCTTCTGTAATTCAAGTTATTGGTTTCTTTTTTGTCCCTTACTGACTACCTCTGGATTTCAATTTGTTTGAGCAAATGATAT TACCGACAGCCAAAGCAGAACCCGAGCTCTGAAACTGCCCTGCCCCCCCCTCACCATTTACCCTCTTCGGTTCCCTGTATGTCCCCGGCCCCGCCATGAGATAGGAGGAAACGCAACGTCGTTTCTTGGAGCGCTCTCTTCTGGTGCACCCTCTTCCTCGTTCTCTCGTTTTCTCCACTTTCACATTATCCATTTTTTTGCCTTGTCTACGGTGGTATGTTTTTTTCTTCCTTCCAATTTTTGTTTCGATTTCCATCCCCCAATTGCTTCAACTGATTTCTCTTTAGATTTCTGCCTGATCGATCTCCAGTGCTGTTGTGCTTCCGGAATTTGCTTCTGTCTTTGTTTGGAATTTGATTTTTGAGATTCCATTGGATGTTCATAAATTGTGTAACAGATACGTTTCATCTTGAGCTGGTTCATACGCGGCGAACTCTGGTGAATAACGTTTCCAATATTTCTCTCTTGATTTTGGGTCGTCGGTTTAAGAAACAGTGACCCTCCTTGATCAGGCTCTCGTTTTTCTCAACCCACCCACCAACTGTTCGACCATTTGCCTAAGAGGATATCGACTGTGTTTATTTTGCGGGAAACGCGTCGGAGTTTCGGAGATGGCGGGAAGCGATCTACGTGGATGGGTGAGGATCATCTTCTGAAGCAAATGGTCCGGTGCCCACTCCTACCTCGTGGGTTTACAGTCTCAATTAGAGTGAGATCCAACGCTCATCTCCAAGGTGGAAACTCGCACCGGTGGAACTCTCTTGTGTACGAAGCACTAGTCGGCCGAGACAACACCACCGTGGTCTTCGTCAAAGGCCTCAATCTCCGCCCTGAACGGGTCTCCAACGCGTCGAGATTTAAGTGTGTTTACGGCTTGGGATTTTCGGAAGGTCGAGTTTTTGCTAAGATCCGATGTCATGTCGATTGCTCAAGAAATTGCGTGCTGTAGAACACCCTGAGTTTGCTCAGCAATCCCAATAGAACCCATGATTCCATTTAAGTATCCATTCGTAGGAACTTGGCATTCAGTAGCCCGCCCATTGCTCCCATCAGGATCCACAACACCTCACCGGAAGCCCCACGAGATGTGCGTATGCACAGTGGTGCGCAGTTTCTTAAGGAATGGATCATTTACCATGCCATCTCGATGTACGCCGCTGGTTCATCTGTGGAAACAACAGCGTTGACGACATAGAAGACGTGATTGCATCAATGTCCACTGTCAAACACAACATTTCTCGACATATCTGGCCCTGGATTAAGACCCAATAAGCTGGTTTTGCACATTGTGCATTACGGGCTCGCGATTCTTGCAAGTGGGTCGGATTCATTGATGTCGACTAGTTCTTCTACCTGCCAAATGGGCTATCTCTGCTCGACGTGCTCAGAAACCAAGCCAAAAACGTTACCGTTGTGGAGATACGCGTGTCCTGCCACAACTTCGGCCCATCCGGGCTGTCACGGATGCCGCCGCAGGGGGTGACGGTGGGGTACACTCGCAGGAAAGCGGTGGCGGAGAGGCACAAGAGCATCGTGAACCCGGAGGCTTTGAACTCCACATTGATCAACATGGTGCATCATTTCCACTTGAGAGATGGGTTTCTGTGTATGAATTTGGAGAGGTCTGAGATGGTTATAAACCATTACAAGTACCAAGTTTGTGAAGTGTTCAAGGAGAAGTTTCACAAGCGTGTGGCGACGGATTGGCAGGAGGAGCAGAATGTGGGCTCAGAGGACAGAGCACCAGGGCTGGGGACCAAGGCAGTGAAACCAGAGGACTGGTCGAGCCGTTTCAGTGAGGTCAATGACACTGGGCTACGGGAAATGATTGCATGCAGCTTTTAAACACAAAATAGAAAAGAATATGGCGTTGAAAAATTATGCATTTAAAAGAGGAAGAGAATTGTGAATCTAATCCTCCATGAAGAGGACCCAAGATTATTAGGTCAGGATCACAAAATTTAAAATTCAAGAATAATTTTGAAAAATTAAATTAATAAATAAGCATAACCACAAAAATGTGTAGAACTATTTATTTCCATTTTAAATACATTAGTTAGATACAAGTTGATGATTTAAGAATATTTTTATAAACTTCAAAGTTTTTTAAGAAATATATAATTTATTTATTTAAATATATAGCTGTCTTTTGAGACTCAAATATTTTTTAGAACAATAATTTAGAGAGAAATTCTTCAAGAGTTTAAGCCAATGAAATAAATAAATCTGAAAAGGAAATAAAAAGGGAATGTTTTTGAGTGAAAAAAAGAAAAAAAAAAAGAAAAAAAAAAAAAGAGGATGAAATTCCAAAGATAGTAGGAAGGGAAAGGGAGGAAGAAAATGGAAAAGGTGATTATAAAAAAAAACTGTTGTTTTGCTAAACAAAGCATTGGAACAACGATGAGAACAGCAGCTATGGATTGCTGTTCCCTAACCTAACCTTTTTTGCTACTCACTGGGTTGGGTTCCAATCTCCTTCTCGGCCCTCTTCTTTATCCTTCTCCTCTCTCTTTCTTCGCCTCTGTCTCTCTCTGTTCATTTCTTGTAATAACAGGCGCACCTGGTCTTTCTTTGACACCCTAAATCCACATCCATGTCTTCTATACATATGCTGCTTTTGCTGGAGATTGGTGTGGGTCAATAGATCATGCCCAGATCTTGTTCCATCTTGATCCACTTGCTTATCTTCTCGACCTTAATAAAGTGAAGGAGAATAGAGGCGGAGGAGAGAGACGAATATAGCGAGGTTGTTCATTGATCCATGTAAAAGAATCTGCATCTGCTTTAGCAACTAGAGAATTAGTGAGTGTTTTGAAGTGAACAAGGAAAATCTTTTGTTTTTCCATTGAAGTCATGATTAAACAAATACTTAATAGGCTTCCTCGAAAACCTTCCAAGTCAACCGAGCATCGTGAAGGAGCAGGGACAACCGTCTCTTCTTCGCATGCCTCTACAAGTTCAAGGAGCAATGATGTAGTAGCTAACCACCATGCCAACACTGGAACTGGATCTTTTTCTGGCCCCAATTCTGCTTTGAATGCTGGACTAAATCATGGGAGTAAGTCATCTCAAGGGCTCAATGCAAAATCAAATGGTAACTCACAAGCTTCTTATGAGGCACTGCCGGGTTTCAAGGATGTTCCAAATTCTGAGAAGCAAAGTTTGTTCATTAAAAAGCTAAACATGTGTTGTGTGGTGTTCGACTTCACCGACCCATCAAAAAACCTCAAAGAAAAGGATATCAAACGACAAACACTGATAGAGCTTGTTGATTATGTGGCATCTGCAAATGGAAAGCTATCAGAAAATGTTATACAAGAAATTGTAAAGATGGTGTCCTCAAATTTATTTAGAACACCTACCATTCCATCACGAGATAGCAAAGGTTTAGAAGCCTTTGATCTTGAAGAAGAGGAGCCCTCAATGGACCCTGCATGGCCACACTTACAAGTTGTCTATGAGTTTCTGCTCAGGTTTGTGGCATCACCTGAAACAGATGCAAAGTTGGCAAAGAGGTACATCGATCACTCTTTTGTTCTCAGGATGTTGGATCTTTTTGATTCTGAGGATCCTAGAGAGAGGGATTACTTGAAAACAGTTCTGCACCGCATATATGGGAAATTTATGGTACATAGACCATTCATCAGGAAATCAATCAATAACATTTTCTATCGGTTTATTTTTGAAACTGAGAAGCATAATGGGATTGCAGAGCTTTTAGAGATTTTGGGAAGTATAATCAATGGATTTGCTCTTCCTCTAAAGGAAGAGCATAAACTCTTTCTGGTTCGAGCACTTATCCCTCTTCACAAACCTAAATGCATACCCATGTATCACCAGCAGTTATCTTACTGTATAACACAATTTGTGGAGAAAGATTGCAAGCTAGCTGATACTATCATAAGGGGCTTACTGAAATATTGGCCAATTACAAATAGTTCGAAGGAGGTGATGTTCTTAGGTGAACTTGAAGAAGTGTTAGAAGCAACTCAGCCCGCTGAGTTCCAGCGTTGCATGGTACCCTTGTTTCGCCAGATTGGACGTTGCTTGAGCAGTTCACATTTTCAGGTGGCTGAAAGGACTCTGTTTTTATGGAACAATAGTCACATCGAGAACCTAATCAAACAGAACCTCAAAGTCATTTTGCCGATTATATTTCCTGCGCTGGAGAGAAATTCAAGAAACCATTGGAACCAGGCCGTACAAAACTTGACCCAAAACGTCCGAAAGATCTTCTTGGATGCTGACCCTGAGCTGTTTGAGGAATGTTTGCTCAAATTTCAAGAAGAAGAGACACACGAGAAGGATACGAAATCTAAGCGCGAGGCTAAGTGGAAACGCTTAGAGGAGATAGCTGCTGTGAAATCTGCAAGTAATGAAGCAGTTCTCGTCTCTCCCAAAGTAGCCTTACGAGCACCATCTGGCTAGCTAGCTAACCACAGAACTTCAAATGGGGGTGTTCAGCAGATTTGGTTTTCCAATTGGTATGTGGGCATAAAAGTTTATCTAATCACTCACCTCTCACCATGTGATGAAAGCAGCAGCCGCAGTTAAATTGGTCGTCCCATTATGAACAAATTGGATTGAGGTGCAGTGAGAGAAATTGATATTGGTGCTCATAGCTGAGATTTCTATTTTGCATACATTTTCTGTGTATATGTGATTGGGAGGGGGGGTTGGATTCGGGTGGTTGGGATGGGGTTGGATTCGGGTTGGAAAATTCTGTTTTATTGTTGAATGGGTGAAAAGGCAAGAACGAAATTCAATTTTTTCAGTATCTGGATGATAGTCCCTTGTAGTTTACTGCTTCTGTAATTCAAGTTATTGGTTTCTTTTTTGTCCCTTACTGACTACCTCTGGATTTCAATTTGTTTGAGCAAATGATAT ATGATTAAACAAATACTTAATAGGCTTCCTCGAAAACCTTCCAAGTCAACCGAGCATCGTGAAGGAGCAGGGACAACCGTCTCTTCTTCGCATGCCTCTACAAGTTCAAGGAGCAATGATGTAGTAGCTAACCACCATGCCAACACTGGAACTGGATCTTTTTCTGGCCCCAATTCTGCTTTGAATGCTGGACTAAATCATGGGAGTAAGTCATCTCAAGGGCTCAATGCAAAATCAAATGGTAACTCACAAGCTTCTTATGAGGCACTGCCGGGTTTCAAGGATGTTCCAAATTCTGAGAAGCAAAGTTTGTTCATTAAAAAGCTAAACATGTGTTGTGTGGTGTTCGACTTCACCGACCCATCAAAAAACCTCAAAGAAAAGGATATCAAACGACAAACACTGATAGAGCTTGTTGATTATGTGGCATCTGCAAATGGAAAGCTATCAGAAAATGTTATACAAGAAATTGTAAAGATGGTGTCCTCAAATTTATTTAGAACACCTACCATTCCATCACGAGATAGCAAAGGTTTAGAAGCCTTTGATCTTGAAGAAGAGGAGCCCTCAATGGACCCTGCATGGCCACACTTACAAGTTGTCTATGAGTTTCTGCTCAGGTTTGTGGCATCACCTGAAACAGATGCAAAGTTGGCAAAGAGGTACATCGATCACTCTTTTGTTCTCAGGATGTTGGATCTTTTTGATTCTGAGGATCCTAGAGAGAGGGATTACTTGAAAACAGTTCTGCACCGCATATATGGGAAATTTATGGTACATAGACCATTCATCAGGAAATCAATCAATAACATTTTCTATCGGTTTATTTTTGAAACTGAGAAGCATAATGGGATTGCAGAGCTTTTAGAGATTTTGGGAAGTATAATCAATGGATTTGCTCTTCCTCTAAAGGAAGAGCATAAACTCTTTCTGGTTCGAGCACTTATCCCTCTTCACAAACCTAAATGCATACCCATGTATCACCAGCAGTTATCTTACTGTATAACACAATTTGTGGAGAAAGATTGCAAGCTAGCTGATACTATCATAAGGGGCTTACTGAAATATTGGCCAATTACAAATAGTTCGAAGGAGGTGATGTTCTTAGGTGAACTTGAAGAAGTGTTAGAAGCAACTCAGCCCGCTGAGTTCCAGCGTTGCATGGTACCCTTGTTTCGCCAGATTGGACGTTGCTTGAGCAGTTCACATTTTCAGGTGGCTGAAAGGACTCTGTTTTTATGGAACAATAGTCACATCGAGAACCTAATCAAACAGAACCTCAAAGTCATTTTGCCGATTATATTTCCTGCGCTGGAGAGAAATTCAAGAAACCATTGGAACCAGGCCGTACAAAACTTGACCCAAAACGTCCGAAAGATCTTCTTGGATGCTGACCCTGAGCTGTTTGAGGAATGTTTGCTCAAATTTCAAGAAGAAGAGACACACGAGAAGGATACGAAATCTAAGCGCGAGGCTAAGTGGAAACGCTTAGAGGAGATAGCTGCTGTGAAATCTGCAAGTAATGAAGCAGTTCTCGTCTCTCCCAAAGTAGCCTTACGAGCACCATCTGGCTAG MIKQILNRLPRKPSKSTEHREGAGTTVSSSHASTSSRSNDVVANHHANTGTGSFSGPNSALNAGLNHGSKSSQGLNAKSNGNSQASYEALPGFKDVPNSEKQSLFIKKLNMCCVVFDFTDPSKNLKEKDIKRQTLIELVDYVASANGKLSENVIQEIVKMVSSNLFRTPTIPSRDSKGLEAFDLEEEEPSMDPAWPHLQVVYEFLLRFVASPETDAKLAKRYIDHSFVLRMLDLFDSEDPRERDYLKTVLHRIYGKFMVHRPFIRKSINNIFYRFIFETEKHNGIAELLEILGSIINGFALPLKEEHKLFLVRALIPLHKPKCIPMYHQQLSYCITQFVEKDCKLADTIIRGLLKYWPITNSSKEVMFLGELEEVLEATQPAEFQRCMVPLFRQIGRCLSSSHFQVAERTLFLWNNSHIENLIKQNLKVILPIIFPALERNSRNHWNQAVQNLTQNVRKIFLDADPELFEECLLKFQEEETHEKDTKSKREAKWKRLEEIAAVKSASNEAVLVSPKVALRAPSG Homology
BLAST of Cp4.1LG13g11020 vs. ExPASy Swiss-Prot
Match: Q9LU89 (Serine/threonine protein phosphatase 2A 59 kDa regulatory subunit B' eta isoform OS=Arabidopsis thaliana OX=3702 GN=B'ETA PE=1 SV=1) HSP 1 Score: 724.2 bits (1868), Expect = 1.1e-207 Identity = 374/512 (73.05%), Postives = 425/512 (83.01%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. ExPASy Swiss-Prot
Match: Q8LF36 (Serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform OS=Arabidopsis thaliana OX=3702 GN=B'THETA PE=1 SV=2) HSP 1 Score: 705.3 bits (1819), Expect = 5.2e-202 Identity = 360/508 (70.87%), Postives = 416/508 (81.89%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. ExPASy Swiss-Prot
Match: Q8RW96 (Serine/threonine protein phosphatase 2A 59 kDa regulatory subunit B' gamma isoform OS=Arabidopsis thaliana OX=3702 GN=B'GAMMA PE=1 SV=2) HSP 1 Score: 697.6 bits (1799), Expect = 1.1e-199 Identity = 360/517 (69.63%), Postives = 418/517 (80.85%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. ExPASy Swiss-Prot
Match: Q9LVE2 (Serine/threonine protein phosphatase 2A 59 kDa regulatory subunit B' zeta isoform OS=Arabidopsis thaliana OX=3702 GN=B'ZETA PE=2 SV=2) HSP 1 Score: 681.8 bits (1758), Expect = 6.2e-195 Identity = 358/530 (67.55%), Postives = 419/530 (79.06%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. ExPASy Swiss-Prot
Match: Q9ZQY6 (Serine/threonine protein phosphatase 2A 55 kDa regulatory subunit B' delta isoform OS=Arabidopsis thaliana OX=3702 GN=B'DELTA PE=1 SV=1) HSP 1 Score: 609.8 bits (1571), Expect = 3.0e-173 Identity = 298/455 (65.49%), Postives = 367/455 (80.66%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. NCBI nr
Match: XP_022938653.1 (serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform-like [Cucurbita moschata] >XP_022938654.1 serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform-like [Cucurbita moschata] >XP_022938655.1 serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform-like [Cucurbita moschata] >XP_022938656.1 serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform-like [Cucurbita moschata] >XP_023551030.1 serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform-like [Cucurbita pepo subsp. pepo] >XP_023551031.1 serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform-like [Cucurbita pepo subsp. pepo] >XP_023551032.1 serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform-like [Cucurbita pepo subsp. pepo] >XP_023551033.1 serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1030 bits (2664), Expect = 0.0 Identity = 524/524 (100.00%), Postives = 524/524 (100.00%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. NCBI nr
Match: XP_022992604.1 (serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform-like [Cucurbita maxima] >XP_022992605.1 serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform-like [Cucurbita maxima] >XP_022992606.1 serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform-like [Cucurbita maxima]) HSP 1 Score: 1028 bits (2658), Expect = 0.0 Identity = 522/524 (99.62%), Postives = 524/524 (100.00%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. NCBI nr
Match: KAG6578408.1 (Serine/threonine protein phosphatase 2A 59 kDa regulatory subunit B' eta isoform, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 999 bits (2582), Expect = 0.0 Identity = 506/506 (100.00%), Postives = 506/506 (100.00%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. NCBI nr
Match: XP_022133865.1 (serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform-like [Momordica charantia]) HSP 1 Score: 995 bits (2573), Expect = 0.0 Identity = 503/524 (95.99%), Postives = 515/524 (98.28%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. NCBI nr
Match: XP_004138464.2 (serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform [Cucumis sativus] >XP_031743464.1 serine/threonine protein phosphatase 2A 57 kDa regulatory subunit B' theta isoform [Cucumis sativus] >KGN45729.1 hypothetical protein Csa_004955 [Cucumis sativus]) HSP 1 Score: 993 bits (2567), Expect = 0.0 Identity = 501/524 (95.61%), Postives = 513/524 (97.90%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. ExPASy TrEMBL
Match: A0A6J1FKD6 (Serine/threonine protein phosphatase 2A regulatory subunit OS=Cucurbita moschata OX=3662 GN=LOC111444815 PE=3 SV=1) HSP 1 Score: 1030 bits (2664), Expect = 0.0 Identity = 524/524 (100.00%), Postives = 524/524 (100.00%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. ExPASy TrEMBL
Match: A0A6J1JW62 (Serine/threonine protein phosphatase 2A regulatory subunit OS=Cucurbita maxima OX=3661 GN=LOC111488901 PE=3 SV=1) HSP 1 Score: 1028 bits (2658), Expect = 0.0 Identity = 522/524 (99.62%), Postives = 524/524 (100.00%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. ExPASy TrEMBL
Match: A0A6J1BWG1 (Serine/threonine protein phosphatase 2A regulatory subunit OS=Momordica charantia OX=3673 GN=LOC111006311 PE=3 SV=1) HSP 1 Score: 995 bits (2573), Expect = 0.0 Identity = 503/524 (95.99%), Postives = 515/524 (98.28%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. ExPASy TrEMBL
Match: A0A0A0KA61 (Serine/threonine protein phosphatase 2A regulatory subunit OS=Cucumis sativus OX=3659 GN=Csa_6G008600 PE=3 SV=1) HSP 1 Score: 993 bits (2567), Expect = 0.0 Identity = 501/524 (95.61%), Postives = 513/524 (97.90%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. ExPASy TrEMBL
Match: A0A5D3DKZ2 (Serine/threonine protein phosphatase 2A regulatory subunit OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold205G00630 PE=3 SV=1) HSP 1 Score: 987 bits (2551), Expect = 0.0 Identity = 499/524 (95.23%), Postives = 511/524 (97.52%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. TAIR 10
Match: AT3G26020.1 (Protein phosphatase 2A regulatory B subunit family protein ) HSP 1 Score: 724.2 bits (1868), Expect = 7.7e-209 Identity = 374/512 (73.05%), Postives = 425/512 (83.01%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. TAIR 10
Match: AT3G26020.2 (Protein phosphatase 2A regulatory B subunit family protein ) HSP 1 Score: 724.2 bits (1868), Expect = 7.7e-209 Identity = 374/512 (73.05%), Postives = 425/512 (83.01%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. TAIR 10
Match: AT1G13460.1 (Protein phosphatase 2A regulatory B subunit family protein ) HSP 1 Score: 705.3 bits (1819), Expect = 3.7e-203 Identity = 360/508 (70.87%), Postives = 416/508 (81.89%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. TAIR 10
Match: AT1G13460.2 (Protein phosphatase 2A regulatory B subunit family protein ) HSP 1 Score: 705.3 bits (1819), Expect = 3.7e-203 Identity = 360/508 (70.87%), Postives = 416/508 (81.89%), Query Frame = 0
BLAST of Cp4.1LG13g11020 vs. TAIR 10
Match: AT4G15415.2 (Protein phosphatase 2A regulatory B subunit family protein ) HSP 1 Score: 697.6 bits (1799), Expect = 7.7e-201 Identity = 360/517 (69.63%), Postives = 418/517 (80.85%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucurbita pepo (Zucchini) v1
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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