CSPI06G02550 (gene) Cucumber (PI 183967) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: CDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGGGGTCCAAACAAGCCCTCAAATTTACTATTTTTCTAGTCATCCTTTTGGATGTCTTTTGCAATTTGAGTTTATTTTTATTTTTTATAGTTTGGAAGGAAATAAAATAATATTGAAAGCTGAAAGGACAAAATTCGATAAAAAGAAGAAAAAAAAAAACTAACGCGACTCTCTCTCCCCTACACATTCCCTCATTCACGCAAACCACCTAACCTTCGCGCACTCTCTCTCTCAGTTGCACACGTCTACCGCCGCTCCCAGCTCCGATTACCGCGCGTCCGCCGCCCAGTCCTACCGGCATTTCTGTTGCCACTCGCTAGGGTTGTCGCCGCTAGTAAGTCTCCTCGGATTTCCTTCTCTATCTCTAAGTTTTGTTTACTGCCAACACCTGAGCATCGCGGCCGCACTACCCAACTGCCGCGCTGCAGTCACGACCGCCATTCAGCTCTCTGCCACTGCCGTCGCCGTTCGTTAATTCTTAGTTTTTGGGGGATAATTTGAAGTTTTTTCTGGAATGATTTTGTGTATTCATTAAGTTTTGGCCTTTTGGATATTTTTATATTTTATATACTCTTTTTAGTTGATTTGCTGTATACTTTCTTAATAGTTTGATTCTATCACTTATGAGCAGTGTTTTATAAAAAAGCAAGACATCCTTTAGCATCGCAACATTTTAGGGGATAAAACAATTATCTTTCCTTTTTTTTTTTTTGTGTGAAGTTTATAACAGAAAAGTACAATTTTTTTTTTTTTAAATATGGTATCGGTGATAAATGATATAATAAAAAGTTTAAGAGTGAAGGTTTTTGTTAAAGTTGCTTGAAGAAAAAAATATGTTTCTCTGAGAAATATTCTGATTTCTGTTTAAATAATAATAATAAAAATTCTTATTTCTGTTGAATTTCTATGTGTGTGTGTGTTTTAAGAAAACCATTGAGGCCCATGAAGGCGTGTGGAGACATTGGGGGTTGGGCTATAATTCACTATGTAAAAAGTCAAAACACAACAGAAGGAAAAGCATCGTTGAAATTAAATTAAGGCTTCCTTGACTCACATTTACTCTTTACACTCTTCGACAGGAATTCCATTTAGTGTACCGGGAGAGACCTATGAGCATTTCAGGTTCACACGAGGAGGAAGATGATCACGGTGAGGTCTTCCTTGATGAAGCTGACATAATCCATGAAGTTCCGGTTGATGAGGAAGGTCTGTCATTCCTCTGTTGATTTTGCATTTATGTTCTTGTGAAGTTTGCTTACTAATTATTAATTATTACATTTTATGTGTTGATTTAAGATCTTCCTGATGCTGTTGATGAAGAAGGCTCTGATGACGAATATTTTGGTATGATATTTTACATACCAGTAATCTTTGCTTGCTTAATGTTTCATATTCTCGAAGAACATTTCTATTGTATTGGTTTCTTATTTTCTAAATTATGTTTTAAGGTTTCAGAAATTTATCTGAGTATTCTGCTCTGAAAATTGTTGGTTTTCAGATGAGGCTGATGATTCAGTTCACACTTTTACTGGCCATACTGGTAAGAGTATTTTAATTGTTTCTAATTTTTGTGTGCCACTACCAATTAGTTATATAGATTCTACATGGCTTTCTTTTTCTTCTTTCACTGTCTTTTTAAAGTTCATATATTAAGTTAATGAATCAACTGAGGACTATAATTACCTATGTCACGAAGGTTTAAATCTAAATGTAGTAATAGCTCTAAGAAATTTTCCTAATGGAAGTGAAACTAGCCCTTATTCATATTTATGAATGCAGGTGTCTTTTCATGCATATAAGTTAATGTGACTATTTAAATTTGTTCTTCATGTTAATGGAAGTTTATATTGGGGTATCCATTTTCAGGTGAGGTTTACACGGTGGTTTGTAGTCCATTAGATGCCACATTGGTTGCAACAGGTGGTGGAGATGACAAAGGATTTATGTGGAAGATCGGTCGAGGAGATTTTGCACAGGAGCTTAGTGGTGTGTGCATGATACTCCAAATAGTTATACATATTTTTTGTTTTACCTTTCACTTCCAAAACCAAAAGTGTGCTTCCTATGTGTGTTCCACCTTTGCATTGGCTGAATCTATGAATTATCATAGATCTTCTATCAGTTTATCTTTTACTAACTTATTTAAGGAAAACTGCTGCAGGTCACAAGGATTCCGTGTCTAGCTTAGCGTTTAGTGCAGATGGGCAACTACTTGCATCAGGGAGTTTTGATGGAATTATTCAAATTTGGGATACTTCATCTGGGAATCTTAAATGCACACTTGAAGGTCCTGGAGGGGGAATTGAGGTAAAGCTATGATTATTTTTTATAAAACTAGTAATTTGATCAAGTCATTAGTCTTTTGGATGTGATGGTTTAGATACATGAATAATAAGTATTTGGGAGATGGTTGGAAAGCCAATGAATATTAGGAATATAGAATTAGGGAATCCCTATGATATAGGATTATAGCAAGCTAATACCGTTCTCATCGGTTGAGTGGGTATCAAGTGAGGTCAAAGGTACTTGTAGGAAACCTTGGGAAAAGAATTCTATTAATCTCCATTCTTACTCTCATTTGATCTTATTAGAATTTGTGGGCTTGGCCCTTTGGGTGTTCATGGAAAAAAGTATTTATGGAAAGCTTACCATAAATCTTTCTTTTCCTTTTTTCTTTTCCCTTGTGTATCCTATTTAAGTTCCCTCATTGTACCTTTGTAAATCATCAGAAAATAATAATATTAACAATATCGTGGTTTTTCTCTCGGTTCTCGGGTTTCCATGTAAAGTTTCATGTTTGTGTTTATTGCTTTCAATATGGTATCAAAGACGAGCAATAACGAAACCCTAGAAACCAACCTAGGAGAAACCCAGACTGAACTTAAAGCTGCCGTCGTTGCCGTGGAAGAACTATTCCAAAGGATTCAGACGCCACCAATCTATCCAATGGGCCAACCCTCACTATCGTCTGCGCACCCCTCCAGCTAGAAACCACCTCATGCGCCGTTGCCTTTTCATCTCACTGCCCAACCCAGCCTCCTCTACGTGTTGTCGTCTGTTCAACCAGCCTACCCTTCCAGTCATCTGCCGCCGAACAACAACCTGCAAAACTGTCAAATCTGTACAGCAATGCAAATCTGTCCATCGACTCTTTACAGCAACCTTTTCTCTATGGGAACGGGGCTGACCAACTCCATAACAGATCAAGGGTTGTAGCGGGTGAGTTTTGGCGCATTCCAAACAAATCGAGTTGTCGATGTATTCCAAGAATCCGGTAACTTTGTTCTCTAACTTATCGTCAAATTATATAACTGGCTCTTGGGTTTGTTTACAGGGAATTTTTCGGATGAAAAATTAAATTGGCAAAATTATTTTCTTGGTCCCAAGTAGTAAAGATGTTTCTCGAAGGTCGCCACCAGTTTGGCTTCTTAACTGGAGAGACTATACGTCCTCCACTGGGTGACGCCTTAGAACAACTATGGAAAGGGGAGGATTCACTCATTCAGTCCATGCTGATTAATAGTATGGAACCTCAAATTGACAAACCTTTAATGTATGCAGCCACAACAAAAGATTTGTGGGATACAACTTAGACCCTTTACTTGAAACAACAGAATGCCTCTCGGTTGTATACCCTGAGAAAATAGGTCCATGATTGCAAACAAAGGACCCTAGACATGACTACCTTTTTCAACAAGCTCTCTCTTCTCTGACAAGACTCAAGAGATGGATTTGTGCAAAGAGACGGTGTGGGACACACCAAATGTCGGTATACAATATGCTAAACTTGAAGAGGTTGGCCATATTTATGACTTCCTTGTAGGGCTTAAACCCAAATTTGCTATTGTTTGTGGTCGTATACTCGACAAAGACCTCTTCCCTCCCTAATGGAAGTGTGTTTTGAAGTCCGTCTTGAAGAAGACTGTACTAGTGCCGTGAGTGTATTGATTACCTCTACCACTGCTCTGCTGCCTTTAGTGCTCGGTCCTCGAATCATGATAGTGACAAGAATAATGGGAAACCAATCTCTGTTTGTGAGCACTGCAAGAAACAATGACACACCAAGGATCAGTGTTAGAAACTCCGCGGTCGTCCCCCAGGAGGTAAGAAACGGTCCTCCAACAAGAAACATAACTTAGGATATGCCCACGTTAGTGAGACTACCACTGCCAACACTTCTCAATCAACTGACCTTACTACAAGCCAGACCAAGACTCCTACTTTGGGTGTCATTGCTCAGTTAGGTATGCTTCAGTCCCTTGGGCTTATTAGCGTTGATGGGAAGAATTCCTTGAATCTAGACTCGGGGGCTACAGATCACTGGACAAGTTTTTTGGAGCACTTTATCTTTTATGCCCCATGTGTCGGTAATGAAAAAGTTCAAGTAGTCAATGACCCTCTAGCCCCAATTACTAGCAAAGGACAAATAGCTCCCTTTTATGATTTTGCTCTCCATAATGTTTTGCATGTGCCTAAATTGTCTTACAATTTGCTATCTATAAGCAAGATCACTCGTGAGCTGCATTGTAAAGTTATCTTCTTACCTGAATCTGTCTGTTTTCAGGACATGAGCTCGAGGAGGACGATTGTGATTGCCCAGCATAGCGGAGGACTTTACATTCTTGATGATGATACCTTCGGTAGTAGTTTCTCTAGGGCTAGTTTACTGCCTTGCTTTAGCACTTCTAAACATGATTGTATGTTGTGGCATTTTCGGTTGAGCCACCCAAACTTTAGGTATATGCAATATTTGTTTCTCCATCCTTTTTCTAAACGTGATGTCTCCTCTCTATCTCGTGATGTGTGTATTCGGGTTAAACAACATTGGGTTTCATTTTCCTTACAACCATATAAACATATACAACTGTTTACCCTTATCCATAATAACGTTTGAGGTCCTTCCAAGGTCACCACCTCATTTGGGAAACGGTGGTTTGTAACTTTCATTGATGATCATACTCGTTTTATGATAGAACACTAATATAGTGTTTCTATTTTATTGATATCTCAAACACAAATTACAATATGAAAGACTAGTGATCCTCATGAGATGAATCACGTTAACCAAAAGTCACATTCAACAAACAATTACCTCTCCTAAACAGAAAACTTAAGAACAAAGCAATACAAAATCACAAAATGAACTTAGAACAAAAGAACCTTGCCCTCTGCTTTTCCTCTTTCTCAAGGAGTAATCCAATCATATTCCTTCACCATAATCTTCATGCCTTTCTTCCCTCCCCAACTTCCTATTTATAACCATCTAACTGCCAACAAATCTAATTACCCTTATACCTCTGCCCTATACTAATCTAGGTATCTAACATCTTACTTAGGTCTATTACCGATAAATCCGAGGTTTCATCTATTTTCCAAAACTTCTACCACACCATTGAAACACAATTCCATACAAAAATTGCAATTATTGGAAGTGATAATTTATGGTCTGGAATTTCAAAACCATAACCTTAGTGAATTCTTAGCCTCCAAGTCCCTTATGCTATCTACTTCCCTTCCTTCGTACCTGTAAGGAGATGTTATTCTTACAGCAGCCTATTTAATCAATAGAATGTCTTCTCGTATCCTCCACCTTCATACTCCCTTAGATTGTCTTAAGCAGTCGCTGCAGTCCTACCCTTCTACTCTTCTAATTTCTGAGGTTTCCCTCCTTGTGTTTAGGTGTACCACTTGTGTCCATAATTTTGGCCCTAATCAACCATGTGTGTTCGTTGGGTATCCCCTTCATCAATGCAGTTATAAATGTTTTCATCCGTCGTGTAGGAAATACTTCGATACTATGGATGTTACCTTCTGTGAGGACAAACCCTACTTTCTTGTTAGCCATCTTCAAGGGGAGAGTGAGTGAAAAGTCTAACAACACCATAGAACTTATCAAACCTGCTCCTAGTACTGTGTTTGACTTCGATCCTCATCCTATTATCCTACCTACAAACCAAGCTCCCTGGAAAACGTATTACATGAGGAATCTCATAAAGGAAGTTATGTCCCCTACTAGTCAGTCGTTGACTCCTGTTCAAGATTTTGAACCTCCTCGAGATCAAGGTATGGAAAACCCTACTGAATCTTGTACTAATAATAAGATGAGTGAGAATGTCAGGTTTGATTTGCCGTTCTTAAAAAATTGGAAGAGAAGAACAATGGTGATGAGACTGAGGTCAGAGCAGGAACCAGTAATAGTGAAGATGAACAGGCTTGCCCCTTAGGGTGTTTATGGAAAAAAGTATTTATGGAAAGCTTACCATAAATTTTTCTTTTCCTTTTTTTTCTTTGCCCTTGTATATCCTATTTAAGTTCCCTCATTGTACCTTTGTAAATCATCATAAAATAATAAAACTAACAATATCGTGGTTTTTCTCTCGATTCTCGGGTTTTCACGTAAAGTGTCGTGTTTGAGTTTATTGCTTTCAATAGGTCTATTGTTTTGTGGGGATGAGAAAGCAATGTACTTTTAGGGGATAGATCCTCTGCTCTGTGTTTTCTTGTTTATGACTTATGTTTTATTAAAAATTGCTGGATGGTTAATGTCAATGTTCGTGTAAGGAGCTGTTTATCTCTTGGGCCAACTCTCATTTGTTTGATAGACAACAGATATCGTGGCTCTCTTATCTTGAGGAGACTGAGTTTAGATGATGGAGAAGATATTTTAGTCTTTGGACACTTGATCCCTCTAGGGGTTTTTCTTGTAGCTCTTTGTTTTGTTATTTGTTGAACCTTTCTTTGTCTAGTAAGTCTGTATTGTCCTCTCTAGATGTTGAAAATCTTAAAGAAGGTTAAGTTCTTCAGTTGGGAGCTATACATGGAAATGTTAATATACTTGATGGGCTTTTGAGGCAGTTGCTCTTATTGATGGGTCCATTTTGTTGTATCCTTCCTCGGAAAAGTGGGGGAAGATTTGGATCATAACATTTGAAGTTGCAAGTTTACTCAATCTACTTGGATTTGCTTTGTTGTTACATTTATTGTCGCATATTTGAAGACACATGGATTACATGGAGATTTGCATGGAGTTCCTCCGTTGCCCTTCTTGGGATAAAGGGAGTTTTTTTTTTTGGTAAGCTGGGTATGTGTTATTTTGTAGGGCCCTTTGGGTAAAAAAAAAAACATTGAGCAATTGTATCTTTTGTGGTTTAGAGGGGCGTCCTTGTGATGTTTAGTTCATTGTTAGATTTTATGTTTCTCTCTAGCTTTTAGGCATCGATGATGTCATAATTATACTTCAGGTCTTATTGATTTTTATTGGAATCTCTTCCTTTAGGGGACTTCTTTCTGTGGACTTGGTTTTTTTTTAAAAAAAAAATTATTTTTCTTTCCTTTGTTATGCTTTTTATACTTTTTTTCTCATTGATTGTTTTGTTCTTTATAAAATAAATAAATAATTAGCATTGTGTATTTCAGTGGGTAAGGTGGCATCCAAGAGGACATTTGGTTTTGGCTGGTTCTGAAGATTCCACCGCTTGGATGTGGAATGCTGATAGAGGCATCTATCTTAATATATTTTCTGGTCACGGTGCTAGTGTTACATGTGGTGATTTTACTCCGGATGGTATTGAACTAATTTTCTTCTTTTATTTCTTCCTATCCCAAGTAATTAACTAATAGATTCTGTGATCTATACAATATTCTAATAATTCTGCTAAGCAAATTACTTATAAAAAGAAAATATATTTAATAATTAATGAAAAGCTTCTCCTTTGGATCATTTTGAATTAGCTCGGTCGAAGCTTTTTGGTGCTTCCTATTTAAGCTGATCGTGAGTTTCTTTTAGCAGCATATTTGCTTCAATTGGAACCTTCTATTCACGCATAGATTTTTATTGTCTTTATTTTGGTCCTGTTGTGGTTATTGTACTTTATTTTTTTTTATTATGTTTTCTATTCTTTCGGGAGTTTGTATCTTTCAGCAGTAGTCTCTTTTATTTAATGAAATTTTTTGTTTCTTATTATAATAATAATAATAATAAATGAAAAGGATCAATATCTAATCTAAATTCAACAAGAATATATACAAATCTACCCTCTTCTTTCAAGGTGGATTGTATATGGACTATGGAGTACAATCCAATCTTGGATTTGAATTCATGCCTTTTTTTTCTTTCTAATGACCATGATGATATTAAGAGCTTTTGTTGCTTCAGGTAAAATTATATGCACAGGTTCTGATGATGCAACAATGAGGATATGGAATCCAAGAAGTGGTGAGAATATTCATGTCGTGAGGGGTATGTCAGAAACTTGTTCGTATGATTCATTTTAAATTAGTCCTTATAAGTCATAAATTTGTTGAAATTTTATACTCAGGAGAGGTTAAAGTGGAAATCCTTTGACTGATTTTGGATCTTGACCATCAATCTTTGTAGTTTACTATTTGGGAGTAAAATTTCAATTGGACAGATGATGTATTGGTTAGGAGGTTTCTAGAATTTAGTTTCCAATAATTGCCAATTTGTGAAAGTTAGGTGCAGCCTTATTCCAACTGCTTCTGAATATGTAAGCTCATAACGAGCTCTTATAAACATAAAGGATGAATTTGCTGGTACGAGAGACTGAAGTGCAAAAGATTAGGGGTGTTTGACAACTTGGGTAATTTGGGAGAGGTGGGTTGAGTGGGTAAAAAACCCAATTCATTGTTTGGTTCACCAATAATTAAAGAGGTTTATTACCTCGTTATTTGCATCAACTCACATTTCTTACTAAAACACTCATATTTCTCACTTCGTTATTCGTGTCAACTCCCCCTATGACTTCCCTGTAATTATTATTAACTCAACTCAACTCTTAGTTTTATCGCTAACCAAATGCCTCGTTAGTGATAGACTTGCTTGATTTTGAAATTGAATCATTCTTTCGAATTTTACAAATGATACTTTCTTGCTAACTTTCTTTTATAAGAAACAAATTTTATTGATGAATGAAATTACAAAAAACGGCCGAAGCTGGAACCAAAGGAGTTGCATAATATTCCTCCAATTGGTTATAAGGTTAGAAAGGGTGCAGGAAGTGAAGAATGAAGAAAATTTACATCAATCCATAGCATGAAGGATAATAATGTTGAAATAACTATCAAAATAGTTTCCTTTGTTTGGAAAAGTCACATGTTTCTCTTCCATGTGATCCATAAAAAGGCCCGGGTCAAATGCTTCCAAATGTCTTGGTGGGACCAACCCTAGTAGACTTTCAAATGGCGTGACATTGGACTTCCAATAACCGAAATGTGGCGTGACCCTCATTTGCCAGCCCACACATGCGCTTCCTTCGGTGTTCTTGCTCGCTACCCATGCTGGGAGGTTGGTGTGGCCACATTGATGCCGCCAGTTGCGATATCCCGAAATCTGGTGGCAAATCGACGGCTGATGATGGTGCTGTAATTCGTGAGCAGCCTTACAAATACTGCCAATGTGGAGACAAGACCATGCATGGAAAATTGCTTTTCTAATCTTTCTGTCCTATAAAAGAAATAAACTAGATTTTCTGATAGGATATAATTTTTTTTGTTAAGTTTTGTGATCTTGTATTTTTTACTCCATCTAGTTTGAGTGTTTGTCAAAAGTCAAAACCTTGTAACCTTCATACTTCTATAATCTATTTAAGGCTATTTGTTTGATTCCTCATCAGCCTTGGCCCTATGCCATTAGGTCAAACGATTAGAATAATATCTACATACTATTTTTGAATCATCCTCAAAGCAAGGAATTAAAGTAGTGGTACGCTTCTTTCAGAATTTTGAAGATGTGGCTGTGTAGTTGGAGTTTTTACTCAATATCTTGATCATTCAAGAAGGGAACTCAACTTCAAGGGTAGCCTACAATACCAACAAATACTTCAGCAGGGAGTAAATGTATCATGAGCTTGTTGAGGATTTACTTTGAGAATGTTAGCCAAGGTTTGGTGGAATGACGTAGGTTTTCTTATTAGTGCATGGTGATGTGTGATGTGAACTCGCTAAACCAGAAATGGAAATTGAGAGTTTCAAACCCATGGCTCAACCCTAATGTCTGGACTGCCTTCGTCCTGGCCTATTCATCTTGTTAGGTACTTAAGCACCTTGGAGAACCACACTCCAAAAGCCAGCTACTGGGGTGGGAGAGCCAAGCAACTTAAGTACCACATTGATCATCCCATTCTAACACATGTGGGACAAAGACATACCATACTATTTTGGTTCCTAACAGATATTTCTTTGAGCTTTATTGTTAACTCTCTCGTGGTTGATTTAATAGGTTCAGTTTCCTCCACCCTTGAATGATCTTTGAAGATCAAAAGTTTCCTTTGGGTGCTTAGTCCTAGTGCTATAAATACGGTTGATTGGGTTCAATGAGAAGTACCTTACGTGCATCTTTCTAGTTACTTGGTGTCTCATGTGTTGACATCATGCCGAATCTCCAGCTCACTTATTTGCTCATTTGCAAATCAATTCTAACATGTTTTGGAGGCTTTTGGTTAGTCCCTAGTATGTCCTAAGTCTATTTTTGACCTATTCCTTTATTGTGGGGCATCCTTTTGGTTTTTCTAAAAGGACATGTTGGTTGGCTATTGTGCGATTGTTCTTCTAGATCCTTTGGGGGGGGGGGCACATAACAGATGTCTTTTTTGGAATTCCTCTTTTGATTGTTTTATGGATTTAGTTGTATCAAATGCTTTTCGTTGTGCATATCTGTGCATCCTTTTGCTCATTATAGTTTATTCTTTTTCCTTTTCAGTTGGAGAGTTTTCTTGTAATCACCTCTAGGTGTGGGGTTTCCTTTTATTTCATTAATCAATAAAAATTCTCTTTTTTTTTAAAAAAAAAAAAGTGGCTCAGCATGGTTAGGCTTAAGATTCTTTATATCAATGGAAATCAAGCATAACTACCGTAGTTGTATCATCTTTTTCTACGGACCAAACATACTTGAAACTCCATCCTACAGGCTGCACCTCTTCTTTCCAGTATTGAGTATGCTTTGAATACATAACTTGATCTTTTTTGTTCTTGAGAGTGCCATGTGAAAAGAGCTTGCAAATTCTGGTTACAAAAATAACAATGAAGAATCAGTGGTTTGTTTATCTTGGCTTCTGTTTGTTTCCTTGCTTTTAGTCTTCAAATGGTGATGATTTTATATTTTTGCACTATTCAGGTCATCCCTATCACACTGAAGGATTGACTTCTCTAGCACTTACTTCTGATTCAACACTTGCTCTTACTGGTTCAAAAGATGGTTCTGTTCATATTGTGAACATAGCAACTGGAAAGGTTATTTCTACGATTTATTTAGATGAGCTTCTTTTGTCTAGTTAGCAGTTATGTAAATGGGGATGTTGGGGGGTTCTTTCCAATTAATATAACCCATCCCTTGATCTTTCTTGTCTCACAAAGTTGATTGCATTTGAATGAACAATTTATGCCACATTTTGGATTTCTTTTTGTTTGAAAGACATTGATTGAGCAACTAGATTGTATATTACATAACCATTGAGAAGAATAATTATAGTTTAGTTGAGTGAGAACTACATAGTTAACGGTTATGACATTAGTTTTTATATGTTATGGCATGGTGGGAACTAGTTTATATAGGAGCTGAAGCGACCTATCATCTTGATTTTTGAAAGCTTAAAAATTGTATCTTCTTGAAACATTGCACAACGATTTGTAAGAACTTTCTTGGGCTTCTGGCTCACTTTATGTGTCTGTTTTCTTTAAAAACTTGGGACAGATCTTCTGTCTTTTACCAGACTTTATTTAGTTATTTGTTCATGTCGAACTAGATATCAGATATGTGTAATGTGCAAGATATTTTGTATTTGTCTTAGTATTGGGGGAGTTGGACCAGAATTGTTGATAAATGCCAGCAGTTGTAGCTCTGTTGATTAGCCTTGCAGCAAAGTTTAGATCCTTACTTTCCAATTTCCATGCGTTAACCATTGTGGGTTGGGCTATTGCAATTGCTTGTAATGCTAAATGTTGTAGGGTCAATGAAAGTAATGTAAGATTACTTGAGGTCTGGATATCCACAATGATTAGGAAAAATAAAAATAAATTGACATTGCTTTCAACCGTGGATGCAAATTTCTGATTTTTTGATTACTTAATGATGCAATAGATAGATTGAAATGAAGACACATTATTTTAGGCGTTTTTTATATAGTTAGTTGCTTGGATCATGTGTGTTTTTTATGGCCGTGGACTTCTGTTTTGTATTACTGTTTCTCATGCAAAAAACTTGCTGCTTTTGACAGGTGGTGAATTCTCTTGTTTCCCATTCAGATTCAATTGAATGCATCGGTCTGGCACCAAGGTATTGTGATTTGTTTTTATATAATTTTCTATCACAAGTTAGAGTTTTCAGAAAAGAAATTATGATTTATGAAAGCATATACACTGTAAAACGAATAACCAAATGCCTTCGACGTGTCACTAAATTATTAAGGACGTTGAAGTTAGTGCAAAATGTTATAGACACTTTCTTTTCTGTAAGCCTAATAAATGTTCTGATTTTTGAAATCTTGAACTGCAGCTCCCCATGGGCTGCAACTGGAGGAATGGATCAAAAGCTCATTATCTGGGATCTTCAACAATCAACGCCACGCAGTACATGCCAGCACGAGGTCTATTGACTACTTGTTTGTGTTTACAAGTCCATAAAATACTATCTAGTTTATCACTGATCTCACTGATCTTCATAATTCTTCGTTAGTGTAGACTGTAAGTAGAATTGACTAGTAGGGTTTGGCTTGTTTAAGCATAAATATAGCTTCCTTTCATCTTGGACAGGATGGAGTAACATGTCTTACTTGGATTGGCACGTCGAGATACCTTGCTACTGGATGTGTCGATGGTCGAGTACGAATATGGGATAGCCTCTCTGGAGAATGTGTAAAAACCTTCTCCGGGCACTCTGATGCCATCCAAACTCTCGCGGTGTGTGCCAACCTTGAGTATCTTGTTTCTGTTGCTCTTGACAATACAGCTCGGATCTTTGAGATTGCAGAGTATCATTAAGTAGGATGTTCGTATTTGAATGTCACAAGTTTTGGTTCCTAATTGTACAAGTTTATACTATTCTATGAGTTTGTCTATACAAGCAATTGTATGCTTATTCTCGTCAGTGTGGTTGCGTATTTTCTCGTCTCTTTTAGATATTTAGTCTTTAAGTTAAAGAACCTATGATTTTTAAGTATTGGATAATGTAAAATTTTGAATAGAAACATTGAAAATTATTAAGTTTGAAATTTGG ATGGGGTCCAAACAAGCCCTCAAATTTACTATTTTTCTAGTCATCCTTTTGGATTTGCACACGTCTACCGCCGCTCCCAGCTCCGATTACCGCGCGTCCGCCGCCCAGTCCTACCGGCATTTCTGTTGCCACTCGCTAGGGTTGTCGCCGCTAGTAAGTCTCCTCGGATTTCCTTCTCTATCTCTAAGTTTTGTTTACTGCCAACACCTGAGCATCGCGGCCGCACTACCCAACTGCCGCGCTGCAGTCACGACCGCCATTCAGCTCTCTGCCACTGCCGTCGCCGAATTCCATTTAGTGTACCGGGAGAGACCTATGAGCATTTCAGGTTCACACGAGGAGGAAGATGATCACGGTGAGGTCTTCCTTGATGAAGCTGACATAATCCATGAAGTTCCGGTTGATGAGGAAGATCTTCCTGATGCTGTTGATGAAGAAGGCTCTGATGACGAATATTTTGATGAGGCTGATGATTCAGTTCACACTTTTACTGGCCATACTGGTGAGGTTTACACGGTGGTTTGTAGTCCATTAGATGCCACATTGGTTGCAACAGGTGGTGGAGATGACAAAGGATTTATGTGGAAGATCGGTCGAGGAGATTTTGCACAGGAGCTTAGTGGTCACAAGGATTCCGTGTCTAGCTTAGCGTTTAGTGCAGATGGGCAACTACTTGCATCAGGGAGTTTTGATGGAATTATTCAAATTTGGGATACTTCATCTGGGAATCTTAAATGCACACTTGAAGGTCCTGGAGGGGGAATTGAGGACATGAGCTCGAGGAGGACGATTGTGATTGCCCAGCATAGCGGAGGACTTTACATTCTTGATGATGATACCTTCGGTAGTAGTTTCTCTAGGGCTAGTTTACTGCCTTGCTTTAGCACTTCTAAACATGATTGTGTACCACTTGTGTCCATAATTTTGGCCCTAATCAACCATGTGTGTTCGTTGGGTATCCCCTTCATCAATGCAGTTATAAATGTTTTCATCCGTCGTGTAGGAAATACTTCGATACTATGGATGTTACCTTCTGTGAGGACAAACCCTACTTTCTTGTTAGCCATCTTCAAGGGGAGAGTGAGTGAAAAGTCTAACAACACCATAGAACTTATCAAACCTGCTCCTAGTACTGTGTTTGACTTCGATCCTCATCCTATTATCCTACCTACAAACCAAGCTCCCTGGAAAACGTATTACATGAGGAATCTCATAAAGGAAGTTATGTCCCCTACTAGTCAGTCGTTGACTCCTGTTCAAGATTTTGAACCTCCTCGAGATCAAGAGAAGAACAATGGTGATGAGACTGAGGTCAGAGCAGGAACCAGTAATAGTGAAGATGAACAGGCTTGCCCCTTAGGGTGTTTATGGAAAAAACTTTTAGGCATCGATGATGTCATAATTATACTTCAGGTCTTATTGATTTTTATTGGAATCTCTTCCTTTAGGGGACTTCTTTCTGTGGACTTGTGGGTAAGGTGGCATCCAAGAGGACATTTGGTTTTGGCTGGTTCTGAAGATTCCACCGCTTGGATGTGGAATGCTGATAGAGGCATCTATCTTAATATATTTTCTGGTCACGGTGCTAGTGTTACATGTGGTGATTTTACTCCGGATGGTAAAATTATATGCACAGGTTCTGATGATGCAACAATGAGGATATGGAATCCAAGAAGTGGTGAGAATATTCATGTCGTGAGGGGTCATCCCTATCACACTGAAGGATTGACTTCTCTAGCACTTACTTCTGATTCAACACTTGCTCTTACTGGTTCAAAAGATGGTTCTGTTCATATTGTGAACATAGCAACTGGAAAGGTGGTGAATTCTCTTGTTTCCCATTCAGATTCAATTGAATGCATCGGTCTGGCACCAAGCTCCCCATGGGCTGCAACTGGAGGAATGGATCAAAAGCTCATTATCTGGGATCTTCAACAATCAACGCCACGCAGTACATGCCAGCACGAGGATGGAGTAACATGTCTTACTTGGATTGGCACGTCGAGATACCTTGCTACTGGATGTGTCGATGGTCGAGTACGAATATGGGATAGCCTCTCTGGAGAATGTGTAAAAACCTTCTCCGGGCACTCTGATGCCATCCAAACTCTCGCGGTGTGTGCCAACCTTGAGTATCTTGTTTCTGTTGCTCTTGACAATACAGCTCGGATCTTTGAGATTGCAGAGTATCATTAAGTAGGATGTTCGTATTTGAATGTCACAAGTTTTGGTTCCTAATTGTACAAGTTTATACTATTCTATGAGTTTGTCTATACAAGCAATTGTATGCTTATTCTCGTCAGTGTGGTTGCGTATTTTCTCGTCTCTTTTAGATATTTAGTCTTTAAGTTAAAGAACCTATGATTTTTAAGTATTGGATAATGTAAAATTTTGAATAGAAACATTGAAAATTATTAAGTTTGAAATTTGG ATGGGGTCCAAACAAGCCCTCAAATTTACTATTTTTCTAGTCATCCTTTTGGATTTGCACACGTCTACCGCCGCTCCCAGCTCCGATTACCGCGCGTCCGCCGCCCAGTCCTACCGGCATTTCTGTTGCCACTCGCTAGGGTTGTCGCCGCTAGTAAGTCTCCTCGGATTTCCTTCTCTATCTCTAAGTTTTGTTTACTGCCAACACCTGAGCATCGCGGCCGCACTACCCAACTGCCGCGCTGCAGTCACGACCGCCATTCAGCTCTCTGCCACTGCCGTCGCCGAATTCCATTTAGTGTACCGGGAGAGACCTATGAGCATTTCAGGTTCACACGAGGAGGAAGATGATCACGGTGAGGTCTTCCTTGATGAAGCTGACATAATCCATGAAGTTCCGGTTGATGAGGAAGATCTTCCTGATGCTGTTGATGAAGAAGGCTCTGATGACGAATATTTTGATGAGGCTGATGATTCAGTTCACACTTTTACTGGCCATACTGGTGAGGTTTACACGGTGGTTTGTAGTCCATTAGATGCCACATTGGTTGCAACAGGTGGTGGAGATGACAAAGGATTTATGTGGAAGATCGGTCGAGGAGATTTTGCACAGGAGCTTAGTGGTCACAAGGATTCCGTGTCTAGCTTAGCGTTTAGTGCAGATGGGCAACTACTTGCATCAGGGAGTTTTGATGGAATTATTCAAATTTGGGATACTTCATCTGGGAATCTTAAATGCACACTTGAAGGTCCTGGAGGGGGAATTGAGGACATGAGCTCGAGGAGGACGATTGTGATTGCCCAGCATAGCGGAGGACTTTACATTCTTGATGATGATACCTTCGGTAGTAGTTTCTCTAGGGCTAGTTTACTGCCTTGCTTTAGCACTTCTAAACATGATTGTGTACCACTTGTGTCCATAATTTTGGCCCTAATCAACCATGTGTGTTCGTTGGGTATCCCCTTCATCAATGCAGTTATAAATGTTTTCATCCGTCGTGTAGGAAATACTTCGATACTATGGATGTTACCTTCTGTGAGGACAAACCCTACTTTCTTGTTAGCCATCTTCAAGGGGAGAGTGAGTGAAAAGTCTAACAACACCATAGAACTTATCAAACCTGCTCCTAGTACTGTGTTTGACTTCGATCCTCATCCTATTATCCTACCTACAAACCAAGCTCCCTGGAAAACGTATTACATGAGGAATCTCATAAAGGAAGTTATGTCCCCTACTAGTCAGTCGTTGACTCCTGTTCAAGATTTTGAACCTCCTCGAGATCAAGAGAAGAACAATGGTGATGAGACTGAGGTCAGAGCAGGAACCAGTAATAGTGAAGATGAACAGGCTTGCCCCTTAGGGTGTTTATGGAAAAAACTTTTAGGCATCGATGATGTCATAATTATACTTCAGGTCTTATTGATTTTTATTGGAATCTCTTCCTTTAGGGGACTTCTTTCTGTGGACTTGTGGGTAAGGTGGCATCCAAGAGGACATTTGGTTTTGGCTGGTTCTGAAGATTCCACCGCTTGGATGTGGAATGCTGATAGAGGCATCTATCTTAATATATTTTCTGGTCACGGTGCTAGTGTTACATGTGGTGATTTTACTCCGGATGGTAAAATTATATGCACAGGTTCTGATGATGCAACAATGAGGATATGGAATCCAAGAAGTGGTGAGAATATTCATGTCGTGAGGGGTCATCCCTATCACACTGAAGGATTGACTTCTCTAGCACTTACTTCTGATTCAACACTTGCTCTTACTGGTTCAAAAGATGGTTCTGTTCATATTGTGAACATAGCAACTGGAAAGGTGGTGAATTCTCTTGTTTCCCATTCAGATTCAATTGAATGCATCGGTCTGGCACCAAGCTCCCCATGGGCTGCAACTGGAGGAATGGATCAAAAGCTCATTATCTGGGATCTTCAACAATCAACGCCACGCAGTACATGCCAGCACGAGGATGGAGTAACATGTCTTACTTGGATTGGCACGTCGAGATACCTTGCTACTGGATGTGTCGATGGTCGAGTACGAATATGGGATAGCCTCTCTGGAGAATGTGTAAAAACCTTCTCCGGGCACTCTGATGCCATCCAAACTCTCGCGGTGTGTGCCAACCTTGAGTATCTTGTTTCTGTTGCTCTTGACAATACAGCTCGGATCTTTGAGATTGCAGAGTATCATTAA MGSKQALKFTIFLVILLDLHTSTAAPSSDYRASAAQSYRHFCCHSLGLSPLVSLLGFPSLSLSFVYCQHLSIAAALPNCRAAVTTAIQLSATAVAEFHLVYRERPMSISGSHEEEDDHGEVFLDEADIIHEVPVDEEDLPDAVDEEGSDDEYFDEADDSVHTFTGHTGEVYTVVCSPLDATLVATGGGDDKGFMWKIGRGDFAQELSGHKDSVSSLAFSADGQLLASGSFDGIIQIWDTSSGNLKCTLEGPGGGIEDMSSRRTIVIAQHSGGLYILDDDTFGSSFSRASLLPCFSTSKHDCVPLVSIILALINHVCSLGIPFINAVINVFIRRVGNTSILWMLPSVRTNPTFLLAIFKGRVSEKSNNTIELIKPAPSTVFDFDPHPIILPTNQAPWKTYYMRNLIKEVMSPTSQSLTPVQDFEPPRDQEKNNGDETEVRAGTSNSEDEQACPLGCLWKKLLGIDDVIIILQVLLIFIGISSFRGLLSVDLWVRWHPRGHLVLAGSEDSTAWMWNADRGIYLNIFSGHGASVTCGDFTPDGKIICTGSDDATMRIWNPRSGENIHVVRGHPYHTEGLTSLALTSDSTLALTGSKDGSVHIVNIATGKVVNSLVSHSDSIECIGLAPSSPWAATGGMDQKLIIWDLQQSTPRSTCQHEDGVTCLTWIGTSRYLATGCVDGRVRIWDSLSGECVKTFSGHSDAIQTLAVCANLEYLVSVALDNTARIFEIAEYH* Homology
BLAST of CSPI06G02550 vs. ExPASy Swiss-Prot
Match: Q3SZK1 (Angio-associated migratory cell protein OS=Bos taurus OX=9913 GN=AAMP PE=2 SV=1) HSP 1 Score: 169.5 bits (428), Expect = 1.4e-40 Identity = 88/250 (35.20%), Postives = 127/250 (50.80%), Query Frame = 0
HSP 2 Score: 74.7 bits (182), Expect = 4.8e-12 Identity = 42/129 (32.56%), Postives = 69/129 (53.49%), Query Frame = 0
BLAST of CSPI06G02550 vs. ExPASy Swiss-Prot
Match: Q7YR70 (Angio-associated migratory cell protein OS=Canis lupus familiaris OX=9615 GN=AAMP PE=3 SV=1) HSP 1 Score: 169.1 bits (427), Expect = 1.9e-40 Identity = 88/250 (35.20%), Postives = 126/250 (50.40%), Query Frame = 0
HSP 2 Score: 72.8 bits (177), Expect = 1.8e-11 Identity = 44/125 (35.20%), Postives = 66/125 (52.80%), Query Frame = 0
BLAST of CSPI06G02550 vs. ExPASy Swiss-Prot
Match: Q13685 (Angio-associated migratory cell protein OS=Homo sapiens OX=9606 GN=AAMP PE=1 SV=2) HSP 1 Score: 168.3 bits (425), Expect = 3.2e-40 Identity = 88/250 (35.20%), Postives = 126/250 (50.40%), Query Frame = 0
HSP 2 Score: 73.2 bits (178), Expect = 1.4e-11 Identity = 42/129 (32.56%), Postives = 68/129 (52.71%), Query Frame = 0
BLAST of CSPI06G02550 vs. ExPASy Swiss-Prot
Match: Q5RCG7 (Angio-associated migratory cell protein OS=Pongo abelii OX=9601 GN=AAMP PE=2 SV=2) HSP 1 Score: 168.3 bits (425), Expect = 3.2e-40 Identity = 88/250 (35.20%), Postives = 126/250 (50.40%), Query Frame = 0
HSP 2 Score: 73.2 bits (178), Expect = 1.4e-11 Identity = 42/129 (32.56%), Postives = 68/129 (52.71%), Query Frame = 0
BLAST of CSPI06G02550 vs. ExPASy Swiss-Prot
Match: Q8YRI1 (Uncharacterized WD repeat-containing protein alr3466 OS=Nostoc sp. (strain PCC 7120 / SAG 25.82 / UTEX 2576) OX=103690 GN=alr3466 PE=4 SV=1) HSP 1 Score: 159.8 bits (403), Expect = 1.1e-37 Identity = 142/576 (24.65%), Postives = 256/576 (44.44%), Query Frame = 0
BLAST of CSPI06G02550 vs. ExPASy TrEMBL
Match: A0A0A0KBX7 (WD_REPEATS_REGION domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_6G016980 PE=4 SV=1) HSP 1 Score: 912.5 bits (2357), Expect = 1.1e-261 Identity = 495/731 (67.72%), Postives = 497/731 (67.99%), Query Frame = 0
BLAST of CSPI06G02550 vs. ExPASy TrEMBL
Match: A0A1S3CIC4 (angio-associated migratory cell protein isoform X1 OS=Cucumis melo OX=3656 GN=LOC103501304 PE=4 SV=1) HSP 1 Score: 708.8 bits (1828), Expect = 2.4e-200 Identity = 386/626 (61.66%), Postives = 392/626 (62.62%), Query Frame = 0
BLAST of CSPI06G02550 vs. ExPASy TrEMBL
Match: A0A6J1DN15 (angio-associated migratory cell protein-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111022602 PE=4 SV=1) HSP 1 Score: 651.4 bits (1679), Expect = 4.6e-183 Identity = 355/626 (56.71%), Postives = 373/626 (59.58%), Query Frame = 0
BLAST of CSPI06G02550 vs. ExPASy TrEMBL
Match: A0A6J1EQW6 (angio-associated migratory cell protein OS=Cucurbita moschata OX=3662 GN=LOC111436976 PE=4 SV=1) HSP 1 Score: 645.2 bits (1663), Expect = 3.3e-181 Identity = 349/626 (55.75%), Postives = 375/626 (59.90%), Query Frame = 0
BLAST of CSPI06G02550 vs. ExPASy TrEMBL
Match: A0A6J1DZJ2 (angio-associated migratory cell protein-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111024531 PE=4 SV=1) HSP 1 Score: 643.3 bits (1658), Expect = 1.3e-180 Identity = 351/630 (55.71%), Postives = 375/630 (59.52%), Query Frame = 0
BLAST of CSPI06G02550 vs. NCBI nr
Match: XP_038884723.1 (angio-associated migratory cell protein [Benincasa hispida]) HSP 1 Score: 728.4 bits (1879), Expect = 6.1e-206 Identity = 408/699 (58.37%), Postives = 425/699 (60.80%), Query Frame = 0
BLAST of CSPI06G02550 vs. NCBI nr
Match: XP_004138371.1 (angio-associated migratory cell protein [Cucumis sativus] >KAE8646588.1 hypothetical protein Csa_005442 [Cucumis sativus]) HSP 1 Score: 712.6 bits (1838), Expect = 3.5e-201 Identity = 390/626 (62.30%), Postives = 392/626 (62.62%), Query Frame = 0
BLAST of CSPI06G02550 vs. NCBI nr
Match: XP_008463066.1 (PREDICTED: angio-associated migratory cell protein isoform X1 [Cucumis melo]) HSP 1 Score: 708.8 bits (1828), Expect = 5.0e-200 Identity = 386/626 (61.66%), Postives = 392/626 (62.62%), Query Frame = 0
BLAST of CSPI06G02550 vs. NCBI nr
Match: XP_023535004.1 (angio-associated migratory cell protein-like [Cucurbita pepo subsp. pepo] >XP_023535005.1 angio-associated migratory cell protein-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 664.8 bits (1714), Expect = 8.3e-187 Identity = 364/626 (58.15%), Postives = 379/626 (60.54%), Query Frame = 0
BLAST of CSPI06G02550 vs. NCBI nr
Match: XP_022155468.1 (angio-associated migratory cell protein-like isoform X1 [Momordica charantia]) HSP 1 Score: 651.4 bits (1679), Expect = 9.5e-183 Identity = 355/626 (56.71%), Postives = 373/626 (59.58%), Query Frame = 0
BLAST of CSPI06G02550 vs. TAIR 10
Match: AT1G71840.1 (transducin family protein / WD-40 repeat family protein ) HSP 1 Score: 485.0 bits (1247), Expect = 1.1e-136 Identity = 267/621 (43.00%), Postives = 325/621 (52.33%), Query Frame = 0
BLAST of CSPI06G02550 vs. TAIR 10
Match: AT3G49660.1 (Transducin/WD40 repeat-like superfamily protein ) HSP 1 Score: 98.2 bits (243), Expect = 2.9e-20 Identity = 53/214 (24.77%), Postives = 105/214 (49.07%), Query Frame = 0
BLAST of CSPI06G02550 vs. TAIR 10
Match: AT5G25150.1 (TBP-associated factor 5 ) HSP 1 Score: 96.3 bits (238), Expect = 1.1e-19 Identity = 47/166 (28.31%), Postives = 89/166 (53.61%), Query Frame = 0
BLAST of CSPI06G02550 vs. TAIR 10
Match: AT4G02730.1 (Transducin/WD40 repeat-like superfamily protein ) HSP 1 Score: 95.9 bits (237), Expect = 1.4e-19 Identity = 59/242 (24.38%), Postives = 117/242 (48.35%), Query Frame = 0
BLAST of CSPI06G02550 vs. TAIR 10
Match: AT2G43770.1 (Transducin/WD40 repeat-like superfamily protein ) HSP 1 Score: 94.7 bits (234), Expect = 3.2e-19 Identity = 56/229 (24.45%), Postives = 101/229 (44.10%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (PI 183967) 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.
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