CSPI06G22370 (gene) Cucumber (PI 183967) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGATTTTTATGGTCAGCCGACTATCCTTTTACAATGCAAAATGGTAATCTGATATTTGAGCACATCAACAATGTCGTCTTCTTACTGCGGCTATGGATTCTTCGTCTCTGATTCTACAATTCCCTCTACCAGCAGAGCTTTCATCTCTAACTCATGGCATTCGAACCTTTCCATCTCTTCTTTTTCCCACCCTCATCGCCTTCACCTTCCTCCATTTCGACCTCCACACATTAAGAAACCACATATCAAAGCGAGCAGAACAACAACTTCCTTCTCTGCCCTGCCTTTCGATCTTTCTCCTCCTCCAATCGATGAGGACCTCCTTGTAAGTCTTTTCCTCTATGTAGTCCAATGATTTGTTGTTATACTGACCAAATTTATTGCTGAACTTCTTTATGCTGATTTGACTCTGGAGTAACTAAGTGAACTGAGATGTATTGTTAATTCATGAATTGAAGACATATGCATTCATTTACGAAAGAGGGAACAAAGGACATAAAGTGTGCTGGTAGGGTTGATTTAAGAGAGATGATTTTTTAAATTCTTGTTTGGTGATAACTTGCATTGTATTACTTTCGGAGACTGAGAACGGTCCCGCATTTTCCAAGACTGTATCATTAGCATTACTAAATACTTACAGTTGTATCACACGCTAAGTTCTAATACAATTTGGATATCTACGATGGGCAGGAGGCTGCGGCCGTTGAAGGTGCAAGGATTTCTGATGATGGGATTATTGAAACTTTTCATAATGATGAAGAAGCGCTGGATGCAGCCAATAATGGGGTTGCTGTATGTAGTCTTTCAATATTTTTCTTATTGGTGTTTTTTTTTTCTTTTTGCTTTGCTTAGTTTGGGAACTGTTTATATCTTCCTTTTGAAAGAAAACACTATTTGCATCTCTAAGTGTGTGTGTGCTGTAGAAGTCTAGATGGTAAGAATTTTGATAAGATGATCATCTGGAAGCTCACCCATGTGTCACCCTCCTGGAAAAGATTGCATGAGGTATCGGAGTTGGCCTTGGGCTGTTGGTGATAAAAAGTATGCTTTTGATAAGCTTTTTGATTCTGTTGTTTATCTTCTTATCTCACGGAGACGGAACTTATTTATTTATATTTTGTATGAGATAAAACATAGGAAAGTTACAACTTACAAAAGAGAGGGGAAGATAAACTCATCCAAATGAAATCACAAAAAACTTCAACGGGCTGTAAAGGAAGATGATCCGCAGTAACAAAATAAAGCGACAATTTACACCAATTCAAAGCCAAATAAGCAAAGGAATTAAAAATTATCAGTGAAATAGTTCTCCTTGTCTTTGAAATTTCTGAAATTCTTCCCGGACCGTACAGATAAAAAAGAAGCCCTAGAGAGTTTGATCAATGGGGAATTCTTTTGCATTGAGGAGGCTGAGGGAAAGTAGAGTGAAGGAATCCCCAGGAACTGCAAGGGACCATTCGAAAATAGAGGAAATAAAGCTCTAGTAGGAAGATGCAAAGCCACAAGTGGTGAGGATATTTCTCTATTTCTGAATCTAATCTTTTTTTGCAAAAATGACAGCAGTACTGTACAATCAAAGGATCTTCTCTCAAGTTTCTTATGAGTGCTGATGCAAGGGGGCTAACTTCCCATAGAAAGAATTTTATTTTCTTTCGGAATTTTTTTTTCCAAAGCAGCCATGCTCATGGTGTAAATTATCTCCACTTTTTCATTTTTATATAGCTTGTAGCTATTCTATACTTGTGTCAGTTAGGTCTCCGATTATTCATCAATACGTGAAGAAAGGCAAGAAGGGGAAATCACCCGAGATTTCAGTGGGTTGAGATTTGGGGTATTTGTTTTCTGTTATGGAGGTGGGGTCCACCGAAAGAAGGTTTAAGAAGGGTTTTGGAATAAGGAGAAAGTGGTGGATATTTTATGGTTGAATCAATAGTAAGAGGAGAGGGGCGCCCTCGAATATGCCATTACTGGTTCTTCATTTCTTTGTGCACCTTACTTTCTGTTTTGATATCATGGCTTGTTTAGTATTGCATTCTAATTGTTTGAAGACTTTTGTTAAATTCCAATATAATTTAGTATCAGGAAGTTGTTCACCTGTTTTTGTGCTATCTTGCTTGTTGGGACCTAACAATGTTCTATTGGAGAAGTTTCTTGTTCTGTTACTCACTTAGCTTGGGGTTTTTCTACCCCGTTTTTTAATTTCATAGATCAATAAAATTGTTTCTTACTGGAAAAAGAAAAGATATATATTGCAAATGAGTTGATGTTTTCATATTTTCTTGTTAATTTTTAGGTCGTGGATCTTTCTCATTTTGGCCGACTAAGGGGTAATTCTCTTCTTTCTGTCTACTTGTCTGTTCTATTATTTTTGACTCTGATCGTAATAGAATGCTTATAAAAGTTTTGCTACCATTCTTTAAAGCATTCGACATAATAATTGAGACTTATGGCTGCTTCATGGTGTACTTCTAGGCCTCCAATATTGCTGAAATACTCATGGAGGGTTTAAAAGTGTAACCCGGTGTGAAAGTTGGTTAGTTAGCATTGGGTGGATCACAAAGAGAATGTATGGGAGTGAGTGTGGTCAATATAAATAATATCATGTTATGTGTGGGGAAGTTCACGTTTTTTTCGGTAGAAAAGTAGTCATGATAGTGTGACACACCCAAGTATATTCATTGAGCTTAGAATGTTCAGTATGCTAAAACGGTCAAGAGAAAAAACTCAATTGGCATCCTTGACGTTGGTTTGGTGGAGAGAAAATGATGGGAGAATATCACGACCTTCTTCCTCATTGCTCTTCTCATCTTCTTTTATTTTTCCGAATCCTTCACATATTCATCCAAAGGCATCGAATGCCATTGCTGGCATTCAATCTAAGAAAAACTCAGCTGTATCTAAACAAGTTTTCTGGGAGTGCTTGGATGACGAGGTTTGCTCAAAAGCCAGTAGAGATGAAGAACTGGACTGCGCTATATGCTGGGAATCTTTTAGCATTGTGGAGAATGTACCTTATGTCTTATGATGTGGCCATTCCTTGTGCAAAAATTGTGTATTAGGCCTTCAAGGGTCTGCTGAAACTAGCTACTCGCTAAATCCGAATCCCAATCGTCATTTCGTGCCTTTGGTGTCATTAGCTATCACTAATGGACAGTTTTGATTGAGGGAATTGGGATGGGAATGGGTATGGGATAAACATGCTCTTGTTTGGTTCAAGGTTTTGTATTTTAGGCATGGGAATAAACTATTCCCATGCATCATTTATGCCCATGAACTATACCCATCCAAAATGATGGGTTTGCATGACTATACACTTGGAATCCAACTCGTCGCACTTAACTCTTAGTGATCCCAGACAGAATTAGTTTGAGATCACCCCGAGAACCTCAGCAAAACATTCTGTCTCCAGTCTTGGCCGAAAACAACTCTGGAATTGCCCGAGAGCCCTTAAATTTCCTCTTTTGGCCTTCAATCTCGACTGGAATCGTCCTCGAGATGGCCCAAGATCTTCGTAGACTTGCTTCTCTACGTTCAATCTTGGTCGAACTTGGCCTTGAGATTGCCCGAGTTCCCATCACCTTAAGCATCCTGTCCTTCACGTCATTCGAACAACGACCAAGATAGCCCTGAGATCAATATAATCTCATAGTTAGTTAATGATCATTATGATTAATATAATATGGACTTATTTCTTAATAATTGTATAATTAGGTTATCATTGATTAATTAGAATTGATTAATTATTTTATTGATTAGTACATCATAATTATATACATTCATCAAATTTACTCTATTGATATTTCTTTCAAATGGGAGCAAAACAATGATTTAATAGGGTAAATGAACAGCAGTCATGACCCCATTAAAAAGTAACACGCGTGAGCATCCTGTAGTGCTTGACGCCATCGTGCTGCACTCTTACAGTCCAGCAGATCTTTTCCTTTACATCTTTTTCTTAACCTCTAGCTTACTTCAATTTGTTTACCAGCATGAACTTTTGGCTATGCAACGCTGGAGATTGTATTCTCTTGGGTCAGTGGTTTATAGTTCGTTATGATCAGAGTGCCTTGAAATTCTTAAAAAGTGTGGTGCTCCCTAAGTATGAAAAATGGGTCCCAAAGCTTTTGCATGTGTGACAGATTATAGTTTATTTATTGAAAGAATAAATCTTTCTTCTTTGGCTTTTGTTAATTAAGAGAAAAATTGGCAGATAAAGTTATTTTCCCACCCACATTCTCCTGTTGTACGTGAAACTTATCTTCCGATGGACCTTGTCCAAGAAACAACAGCCCACATGATCTCAAGCCTTGACGATCACATCCCCCTCTTTGTTTGCAGTCAAGACTTTGTCGAGGATTTTTCCTCTAGAGTCCTAGACTTAATGTCCTTTTAATTTTCTAAAATAGTGTAATCCACAACTTCCTTATTATTGTTATTTTTATACAATCATCTTCTGCACTGAACTTATTATGCTTCTTTACTGGTATTTGAGATTTCCCCACAAATCTAGAATTCTACAGTATTTTTGTGCTTTACAACCAATTTTTTTTTGGGTAATTATTGAAAATGATGAATTTATGTGTTCAGTTAGTGGAGATGATCGTTGTCAGTTTCTTCATAACCAAAGCACAGCTAATTTTGAAAGCTTACGTCAAGGACAAGTAAGTCTTGACTAGACACACCATGATATCATATTCTAAACATGCTTGGTTAACTTTAAATTCTTTTAGAATGGAGTTGTACTAATAAAAGATTGATATTTTATGCAATTTTTTGTTAACTACAGGGATGCAGTACTGTATTTGTTACACCCACTGCTCGGACAATTGATATTGCACAAGCATGGATCATGGTAATGCTACGAGCTTGTATTCCTCTTTGGTTCATGGTTTCCTGTATCCTAACTTGTTTCGATTTCGTTTTAAAACCCATTTGTTATGCATGTTGCTAACAGAAAAATGCCATCACATTAATTGTGTCACCAGTTACACGTGAAAGCATAATTCGGATGCTCAACAAGTAGGTGTTCTTGTAAGTTTTTAATTGTCCTCTCGTGGGTTTAGTGCTTTGTTTTTCTTTTGCTTTTACTTCTTGATCTCATTATGTTATTTTGATAGTATCCTTGCACAAGAACCAACATGAGATTAGCTATAATGGTACATCATGATAGAACACCAATAAGATGTGTTCTTATTCAATTGATATAAACCTCACTATTACAGAGAAGAATTGATATTCATCAATTCTGAGATGAAAATGCAGAAAATAACTAAGAATAAGTAAAATACTACCCTCTCTGCCTATCCTCTCTCTCAAGGAAGAGTGCAGAAAAAACTACCCAGAAACTGATTTCCCCTTTCTTCCCTCACTAACTTCCTATTTATAACCATCTGACTGCCGACATATCTAATTACCCTTATACCCATGCCCTATACTAATATAGGTATCTAACACATCATACAAACTAAAAAAGCTGAGGGAAAGCCTCACAGTCAGATTTTATCTCAAAAGACGAGTAATTGGAAAAAAGCTTCTGATGTATTGAAATTGGGACAGTAATTTTCTGAATAGTACTTCTGAAATTGAATCAATTAAAAATTGAGGGAGGAGGAGGTTTCGTAGCTTCCTAACCAACACCAAAGGTCAAAAGATATAACCTGAGTACAAAAGGTTATAGCTAACCCTATTACAAACCACACTAAAGCCTAAGTATTATAGTGTAGTTATTCTAATTACATCAATTTCCCTCCCTCTAAGAAAACTCACCCTCGAGTTCATGTTGAAATTTGTAGTTGGTCTGGAGGAAAATATTCGGAGATATCAGCTATATTGAAGATAGGATTGACATGTAGATCGTCATGTAGTTCAATCTTGTAAGCGTTGTCACCAAATATTTTCAAGATTCTAAAAGGACCTATCGTTTTTGGCTGAAATTTACTGTATTTTCCAGCTGGTAGGCTAACTTTTCAAAGGAAGATCATGACTAAATCCCCTTGATTTGCTAACCGAGACAAGTATGTTGGGATGTCGTCCTGCTGACATTCCTATTGAATTCAACTGTAAACTAGGAAACTCCGATGATCAAGTTTCAGTTGATAAAGATCAATATCAGTGCCTTGTGGGTAAATTAATTTACTTATCCCATATTCATCCTGATATTTCCTTTGCTGTGAGTGTTGTCAGCCAGTTTATGCCGACTTTCATGCTCCCTATGAGGAACACATGAAAGTTGTCAACAGAATTTTGAGATAATTGAAAACAACACCTGATAAAAGGTTGATGTTTAGAAAGACCATTGAGGCATATACTCACTTGGATTGGGTAGGATCTGTTGTTGACAGAAAGTCTACTTCTGGTCAATGTACTTTTGTTGGGGCAATCTTGTAACTTGGAGGAGTAAGAAGCAAAGTGTTGTGGCTAGAAGCAACGCTGGGGCGAATATCGAGCCATGAGTTTGGGAATATGTAAGGAAATTTGGCTCCAGAAAGTCCTGTTTGATCTTCATCAAGAATGTGAGACACCATTGAAGCTTTTCTGTGATAATAAAGCTGCCACTAGTATTGCTAACAACCTGGTTCAATATAATAGAACTAAACATGTTAAGATCGAACGACATTTCATCAAAGAAAGACTTGACAGTGGAGCGAGTCAATAGGTTGCGGATGTTCTTACCAAGGGGCTTCTCAGACCAAACTTCGACTTTTGTGTTAGCAAGTTGGATCTTATTGATATTTACATCCTAGCATGAGGGGGAGTGCTAGAATTAGTGGGCTTTTGGGTATTTATGGAAAGATTATGGGAATATTTTCCCTATTCCTAAATCTTTTTCCTTTTATTATTCCCTCATGTATTCTATTTATTCTCCCCCATTGTAAATTCATTAGAAAATAATAACAAACTATCGTGGTTTTTCTCCCGGTACTCAGGTTTTCATGTAAATTGGTGTGTGCTTTTTGTCTCTACTTTCAATAATCTTTATAAAAGTTACCTAAAGAAAGGGGAATTCTGCAAGTGAAGGAAACTGAAAAATGTGGAAATGGATGCAAAGAAAGGTGATCTATGTGTGTAAGAAATGTCAAGAGCTGAATCATTGTTTTATTCAATTCAGGTCAGAAATGTCCCCTTGAAGGAAGGCCAGAGAAACAGGAACGTGTTGTAACTGCATGGAACTACAACTTAAATCCTGCTCTCCAAGTTTCAGCTTGGTTATAGCTGCCTGAATGTTGGCCACTACTCCCATGACATATGGATAATATTGGTCTCTGTAACTTAGAAGAAATGGTTCATCTCAAACTCCTATATACTCGATTCGAACACCGCCTGTACCACCGGAGAAATACCTAGTGACATTATCGCCGATCCAACTCTTGGTAGCTTTCAGGGAAGAGTTTAAGAGTTTGAGTGTCGGATTGGGAATGCTGATGGTGAGTTGAATATTGGAACCAGATAGGGTCTGGAGGATGAGGGGATTGGGATTGAGGATCTTGATTTTGGGAGATGTTTGAGTTTAAGAGTTCGACAACCTTGAGCGGCGGAAGTGGGTGGGGCACCGCCGTGCTTCAGTTGAAGACGATGACTGAGACAGAGAAAGGGTTAGAAGAGAACAAGAAGTGCCCTACTAGATGTCCAAACAACTATCCCTGATTAATATATTCACTATAAGACACTAATTCAAAAATTCATACAAGAGCAATAACCTGAAAGGTAGTAAGAAGAGAATAACATGAAAGTAACTAGATACTCCAGCAAATTATAGAGTGCTGGCTCTCTCCCGCAACCTATCATTCTTCAAATGATCAATCATAGAATTCCAGCAATTAAATGTGATATCTTTCTTTCACCTTGAACTTTCTGAAAAAAGTTACTCGTATGATTCTTTATTCCATCTGGACTTTACAGAAAGCGAAAGGTAAATTATAGTAATCTGGAAGTCTGGCTAACACTGCTTTGCATAGAATTTTTCATCTACTACCTCTGCATAATACATACATAAACTGAATACTGATTGCATGGGAAAGGGATTGCCACTTATCTTGATTTGCAGCATTATTCCTTGGAACACCAATGAGAAAAGGATTTGTTTATTTATTATTAATTGTTATTGCTTTTATTCTTTTGGTTTTAGAAGTTGATTTGATCCATTTATTAAACTCAAGATAGGCAAATAACATAAACTCAAGATATGAATGCATATTTGTTTTCTGGATATTCCATTTATGATTCATGACTTTATAAATGAATTTTAACCAGGTACATTTTTTTAGCTGACAAGGTAGAAATTCAAGATATTACCAATCAAACATCTTTGTTAGTGTTGGTGGGACCTAAAAGCAACCAAGTAAAAGAGCACTATGCAGTTCTCATGTACAAGCAAAATTGTTTTATTTCTTATTACTGGTTTACATGTACTAATTATTTTAACCCTCAAATGCAAGCGCAGATAATGGAGGATTTGAACCTTGGTAGTATAGCTGGAGAACCTTATGGAACGCACCAGCACTTTAGTGTAAGCTTTTGTTAACCACTTGAGTTTTCAGGCATTACTTGCTTTTCATAATGAGAATTGTTATAGTTCTGATATTAGAGATATTCTCTTATTGTAAATAACTTTGATAATTGTCTTTTCTACACTTTCCTTCTTTGGTCACTCTTGTCCTTGTATTTATATTTCTTTAGTGCATGGAGTAAGCAATTTTGATTCTCTCAAACCTAATTCTTTTACATGGTACCAGAGCATTCCAAAAATTTAGGTTTTTGAAAATTTAGAACTCTTATGTGGAGGAGGTGGATTTATACTTTTGCGCATCACCACCATCCTTGGATTGTTTTGCGTCGTCAGCTGCTGCTGCCAGAATTTCAGTCTCTTTTTTTTTAATTATTTTTCGACACCACCCAGTCCAACGAGGAGCTCAGACATCAATCTACAAAATTCCAAAATTTGAAGCCCATCTTAATTATGGTCATACTAATATTGAATGTTTCTCAGTCATCAATGCAGAATCTAAAGAAGAAAGAAGATTAACTTCAAGATATTGTGTCTTTGTTGATAGATTTCTTGAAAGAGTAAGAAGCAAAATGTGGTGTCACGTTCAAGTGTGGAATCAAAATATAGAGGAATGGCACAGTCCATGTGTGAATTGATTTGGATATATCAACTTCTTGTTGTGTTGGGATTTGAAATCACCACACTGACAAAAATTGTGGTGTGATAATCAAGCAACACTTCATATCACGTCTAATCCGGTGTTCCATGAGAGGACTAACATATTAAAGTTGATTATTATTTTGTACGTAAGAAAATTCAACAAGGTTTGCTATCTACAGGATATGTGAAGACTGGATATCATTAGAAGATATCTTCACGAAACCATTGAATTGAACACGTATTATTATCTAGGTAACAAGTTGGGCATGATTAACATATATGCTCCAACTTGAGGGGGAGTGTTATTGTTCTAAATTTCTAATATTAGGGATATTCCCTTATCTTTGTTGTATTTTCCTTTTATGCCTTTTTCTACACTTTCCTTCTTTGGTCACTCTTGTACCTTGTATAGATATTTCTTTAGTGAATTGTATAGGCAATTTTGGTTCTCCCAAACCTAAGTGTTTTACGAGAATCAACACTTTTATTGAATATTTAAGAAAAGCATTGTTGAAAGCATGACAGAAACTCTCCCCTTTCTCGTAAGGGCTGAACATATGAAAAATAAAAATTAATTTTGTTCTACCACTACCAATTTAGATTCAAATTCCAGTTTAGAAATGTATGGAGATTATTTGGAATATCACTGAATTTTGGACTTTGTTATGCAGGTCAATGGCATGCCAATTACTGTGGGGGTGGGAAATGTCATTTCCGAAGAAGGCTTTTCACTGTTGATATCACCTGCTGTGGCTGGACCAGTTTGGAAAGCTCTAGTTTCTCTAGGTGCTGTTCCAATGGGCTCAAGGGCTTGGGAAAAGCTGAGGATATCTCAAGGTGTTCATCTTTTAATGTTTTTCTGCTCTTTGATGTTCTGGTTCACTATTGTCTCATGCACTTGAAATTTCAATGCCATATATGATCATATTGATTCTTTACAATAGATGAAGTTAATGGTGGAATTTATGTCACATGACCTTGCAATCTTTGTATCATGATATCATGTTAAATATTCGGTTGAACCTGTCCTGTGTTTTGCAATATATTTTTTTTATTTATAATGTTTGAGAGAACAGATACATACATGGTCCAAGGTATTAGTATCTGGAACGAGCATGAAGTTTGAATTCTCAAGAAGGTTAAACTTTTGTGTGCTAAATCCTTCATGAAAGAGTCAAGACGTTGGATTTGGTTTTGAAGAAGTCAACTAGTTTGATAGGCTGTAGTATTGTATCCTTGGATGGGGCTTAGGATGTTGACCTCTTCCTATGGTAATGTGGTTATGATTTTCCGACAACGAGTTATTCTTTAATTTATTTTGATTTTTGATGTGGTTGGTTTCCTCTTAGATTAACCTAAAGAGTGTAGTTTTATGGTCATTTTCTTTAGCCTGTTGGCATTTATGACTTTGTGGTTCCCTCTGGAGGTTCGGGAGGTGTTTGGAACTTTGAGTTAGAAGTCTAGAGTTAATGGGTGGTAGTCTCTATTTGGAGTATAGAGTTGTTTAGTATGGAGTTAGGAGACATTAGAGGGAAGGAGAGAGAAAGAGAAAAATGGAGTTCTATGCAAACTTCAATAATGAACACTTTTGAAGTTAGTGGAGTTAAGTTGTTTAACACCAATTTATGGAGTCGGTGGGTCAAACACTCCCATAAAAAAATCTTTAGAGGGGTCAAGGGACACTTAGAAGATGTTAGTCCCCTGTTCAATTACAATTTACACCCTAAATTTTGATGTTCAAGGATTTTGTAGTTATTCGCTTGAACTTATTTTGCTTGATTGAACTTCCTTTTTGTTTTATTTTGCTCCTTTGTGTGGATTTTTATTTTATTTTATATTTTGTAGTTTTTCATCTCTCCCCTATCAAAGAAAAACCATTTTGAAACTTATAGTTAGAACGGAATGCTCAGATCTTCATTGGAAACAACAAAACAACAAGACATCTTTTGTAATAATTAAGAATTAATCCCCAAGCTGCCTCCTTTCTGTAGTTATAGTTTATCATCTATCTTCTATCATTTGGGGTATTGTTTATAATTATCCACATATAGAAACACCTTTTGTCTTCATTTTATGATAAAAAATTTAAAACAAAAGAAAAGAAAAAGTAAAACCATTTTATTTAATGCTGTTATTCCGGGAATCTTGGATGGCCCGATGACTGGCTCAAGTCTTGCAGGAATGCCAGCTCCCCAGAAAGAGCTTACCGACGAATTCAATGTACTTGAAGCTGGTCTTTGGAATTCAATTTCTCTCAACAAGGGTACTCGTTTCTTGCCTCTCTCCTTTTATTTATTTTATTTTATTTTATTATTATTATTGTAGACCTATGGTTGATCGAACACTCAAATTTTAATCTCTATAGGTTGTTACAAGGGACAAGAGACGATATCTCGATTAATAACTTATGATGGAGTAAAACAGAGATTGTGGGGGCTTCAGCTATCAGATTCGGTGGAACCTGGCAGCCCAATAACCATTGATGGAAAAAGGGTAGCTATTTCTTTCTATTTTAGATTTAATATTTTGTGGAAATTGAAATATTTTGTCAAATACGCCTCTAATCACGAACCTTCCTTTTCTTTGTGAAGAGACTGATTATATAGGATTTGAATGTTCTCCAGAACTTCTCTCTGGAGTATTAAAATCTGAAGAACTGTCACTGAAAAATTTCTCCTCACCTCAAACATCAAACTTCCAAACTATCACTAACAGAATCTCCCCTTACCAGTATGAGCATGTTTTAGGTTGAACGTGTATGCATTATGATCCATGCCAAGAAAATTTGTGTAGGTGGGAAAACTTACAAGCTATGCACCGGGAAGAAAAGAGTCGGAGCATTTTGGTCTTGGCTACATAAAGAAGAAAGCTGCTTCCGTTGGAGATAGTGTAATTGTTGGAGAAAACACCATTGGTAAGGTGGTGGAAGTTCCATTTTTAGCTCGACAACAACCTCTATCCAACAGCTCATCAAGTAACACTCCTGAAAGCAGTGTACAATAGTTATTTTTTATTACTATATCTATGAGGTTGAGTTGACCAACATCTCTATATTTTCTTTAATAATTTTAGATATATCCATGCTTAGGACATGGATTTTGAACCCTGTTTGTTCATATCATCAGGGGTTTGCTTTGTAGTTCAACAGTATTTATAATGCGAAATCACATTTGGAGTATATTATTGTAAGGTCTTCAAGGATTGTAGTATGGG ATGATTTTTATGGTCAGCCGACTATCCTTTTACAATGCAAAATGGTAATCTGATATTTGAGCACATCAACAATGTCGTCTTCTTACTGCGGCTATGGATTCTTCGTCTCTGATTCTACAATTCCCTCTACCAGCAGAGCTTTCATCTCTAACTCATGGCATTCGAACCTTTCCATCTCTTCTTTTTCCCACCCTCATCGCCTTCACCTTCCTCCATTTCGACCTCCACACATTAAGAAACCACATATCAAAGCGAGCAGAACAACAACTTCCTTCTCTGCCCTGCCTTTCGATCTTTCTCCTCCTCCAATCGATGAGGACCTCCTTGAGGCTGCGGCCGTTGAAGGTGCAAGGATTTCTGATGATGGGATTATTGAAACTTTTCATAATGATGAAGAAGCGCTGGATGCAGCCAATAATGGGGTTGCTGTCGTGGATCTTTCTCATTTTGGCCGACTAAGGGTTAGTGGAGATGATCGTTGTCAGTTTCTTCATAACCAAAGCACAGCTAATTTTGAAAGCTTACGTCAAGGACAAGGATGCAGTACTGTATTTGTTACACCCACTGCTCGGACAATTGATATTGCACAAGCATGGATCATGAAAAATGCCATCACATTAATTGTGTCACCAGTTACACGTGAAAGCATAATTCGGATGCTCAACAAGTACATTTTTTTAGCTGACAAGGTAGAAATTCAAGATATTACCAATCAAACATCTTTGTTAGTGTTGGTGGGACCTAAAAGCAACCAAATAATGGAGGATTTGAACCTTGGTAGTATAGCTGGAGAACCTTATGGAACGCACCAGCACTTTAGTGTCAATGGCATGCCAATTACTGTGGGGGTGGGAAATGTCATTTCCGAAGAAGGCTTTTCACTGTTGATATCACCTGCTGTGGCTGGACCAGTTTGGAAAGCTCTAGTTTCTCTAGGTGCTGTTCCAATGGGCTCAAGGGCTTGGGAAAAGCTGAGGATATCTCAAGGAATGCCAGCTCCCCAGAAAGAGCTTACCGACGAATTCAATGTACTTGAAGCTGGTCTTTGGAATTCAATTTCTCTCAACAAGGGTTGTTACAAGGGACAAGAGACGATATCTCGATTAATAACTTATGATGGAGTAAAACAGAGATTGTGGGGGCTTCAGCTATCAGATTCGGTGGAACCTGGCAGCCCAATAACCATTGATGGAAAAAGGGTGGGAAAACTTACAAGCTATGCACCGGGAAGAAAAGAGTCGGAGCATTTTGGTCTTGGCTACATAAAGAAGAAAGCTGCTTCCGTTGGAGATAGTGTAATTGTTGGAGAAAACACCATTGGTAAGGTGGTGGAAGTTCCATTTTTAGCTCGACAACAACCTCTATCCAACAGCTCATCAAGTAACACTCCTGAAAGCAGTGTACAATAGTTATTTTTTATTACTATATCTATGAGGTTGAGTTGACCAACATCTCTATATTTTCTTTAATAATTTTAGATATATCCATGCTTAGGACATGGATTTTGAACCCTGTTTGTTCATATCATCAGGGGTTTGCTTTGTAGTTCAACAGTATTTATAATGCGAAATCACATTTGGAGTATATTATTGTAAGGTCTTCAAGGATTGTAGTATGGG ATGTCGTCTTCTTACTGCGGCTATGGATTCTTCGTCTCTGATTCTACAATTCCCTCTACCAGCAGAGCTTTCATCTCTAACTCATGGCATTCGAACCTTTCCATCTCTTCTTTTTCCCACCCTCATCGCCTTCACCTTCCTCCATTTCGACCTCCACACATTAAGAAACCACATATCAAAGCGAGCAGAACAACAACTTCCTTCTCTGCCCTGCCTTTCGATCTTTCTCCTCCTCCAATCGATGAGGACCTCCTTGAGGCTGCGGCCGTTGAAGGTGCAAGGATTTCTGATGATGGGATTATTGAAACTTTTCATAATGATGAAGAAGCGCTGGATGCAGCCAATAATGGGGTTGCTGTCGTGGATCTTTCTCATTTTGGCCGACTAAGGGTTAGTGGAGATGATCGTTGTCAGTTTCTTCATAACCAAAGCACAGCTAATTTTGAAAGCTTACGTCAAGGACAAGGATGCAGTACTGTATTTGTTACACCCACTGCTCGGACAATTGATATTGCACAAGCATGGATCATGAAAAATGCCATCACATTAATTGTGTCACCAGTTACACGTGAAAGCATAATTCGGATGCTCAACAAGTACATTTTTTTAGCTGACAAGGTAGAAATTCAAGATATTACCAATCAAACATCTTTGTTAGTGTTGGTGGGACCTAAAAGCAACCAAATAATGGAGGATTTGAACCTTGGTAGTATAGCTGGAGAACCTTATGGAACGCACCAGCACTTTAGTGTCAATGGCATGCCAATTACTGTGGGGGTGGGAAATGTCATTTCCGAAGAAGGCTTTTCACTGTTGATATCACCTGCTGTGGCTGGACCAGTTTGGAAAGCTCTAGTTTCTCTAGGTGCTGTTCCAATGGGCTCAAGGGCTTGGGAAAAGCTGAGGATATCTCAAGGAATGCCAGCTCCCCAGAAAGAGCTTACCGACGAATTCAATGTACTTGAAGCTGGTCTTTGGAATTCAATTTCTCTCAACAAGGGTTGTTACAAGGGACAAGAGACGATATCTCGATTAATAACTTATGATGGAGTAAAACAGAGATTGTGGGGGCTTCAGCTATCAGATTCGGTGGAACCTGGCAGCCCAATAACCATTGATGGAAAAAGGGTGGGAAAACTTACAAGCTATGCACCGGGAAGAAAAGAGTCGGAGCATTTTGGTCTTGGCTACATAAAGAAGAAAGCTGCTTCCGTTGGAGATAGTGTAATTGTTGGAGAAAACACCATTGGTAAGGTGGTGGAAGTTCCATTTTTAGCTCGACAACAACCTCTATCCAACAGCTCATCAAGTAACACTCCTGAAAGCAGTGTACAATAG MSSSYCGYGFFVSDSTIPSTSRAFISNSWHSNLSISSFSHPHRLHLPPFRPPHIKKPHIKASRTTTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEEALDAANNGVAVVDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAITLIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQIMEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLRISQGMPAPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASVGDSVIVGENTIGKVVEVPFLARQQPLSNSSSSNTPESSVQ* Homology
BLAST of CSPI06G22370 vs. ExPASy Swiss-Prot
Match: Q681Y3 (Putative transferase At1g60990, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=At1g60990 PE=1 SV=1) HSP 1 Score: 535.4 bits (1378), Expect = 6.1e-151 Identity = 262/373 (70.24%), Postives = 309/373 (82.84%), Query Frame = 0
BLAST of CSPI06G22370 vs. ExPASy Swiss-Prot
Match: Q1AR89 (Aminomethyltransferase OS=Rubrobacter xylanophilus (strain DSM 9941 / NBRC 16129 / PRD-1) OX=266117 GN=gcvT PE=3 SV=1) HSP 1 Score: 109.8 bits (273), Expect = 8.2e-23 Identity = 84/322 (26.09%), Postives = 144/322 (44.72%), Query Frame = 0
BLAST of CSPI06G22370 vs. ExPASy Swiss-Prot
Match: Q5WF30 (Aminomethyltransferase OS=Bacillus clausii (strain KSM-K16) OX=66692 GN=gcvT PE=3 SV=1) HSP 1 Score: 104.0 bits (258), Expect = 4.5e-21 Identity = 87/351 (24.79%), Postives = 162/351 (46.15%), Query Frame = 0
BLAST of CSPI06G22370 vs. ExPASy Swiss-Prot
Match: Q9K934 (Aminomethyltransferase OS=Bacillus halodurans (strain ATCC BAA-125 / DSM 18197 / FERM 7344 / JCM 9153 / C-125) OX=272558 GN=gcvT PE=3 SV=1) HSP 1 Score: 102.4 bits (254), Expect = 1.3e-20 Identity = 80/335 (23.88%), Postives = 152/335 (45.37%), Query Frame = 0
BLAST of CSPI06G22370 vs. ExPASy Swiss-Prot
Match: Q65HF9 (Aminomethyltransferase OS=Bacillus licheniformis (strain ATCC 14580 / DSM 13 / JCM 2505 / NBRC 12200 / NCIMB 9375 / NRRL NRS-1264 / Gibson 46) OX=279010 GN=gcvT PE=3 SV=1) HSP 1 Score: 101.3 bits (251), Expect = 2.9e-20 Identity = 80/336 (23.81%), Postives = 151/336 (44.94%), Query Frame = 0
BLAST of CSPI06G22370 vs. ExPASy TrEMBL
Match: A0A0A0KJI9 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G417880 PE=3 SV=1) HSP 1 Score: 876.3 bits (2263), Expect = 5.4e-251 Identity = 443/445 (99.55%), Postives = 444/445 (99.78%), Query Frame = 0
BLAST of CSPI06G22370 vs. ExPASy TrEMBL
Match: A0A5D3CQT8 (Putative transferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold496G00010 PE=3 SV=1) HSP 1 Score: 835.5 bits (2157), Expect = 1.0e-238 Identity = 422/445 (94.83%), Postives = 435/445 (97.75%), Query Frame = 0
BLAST of CSPI06G22370 vs. ExPASy TrEMBL
Match: A0A6J1DYD6 (LOW QUALITY PROTEIN: putative transferase At1g60990, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111025359 PE=3 SV=1) HSP 1 Score: 748.8 bits (1932), Expect = 1.3e-212 Identity = 387/443 (87.36%), Postives = 401/443 (90.52%), Query Frame = 0
BLAST of CSPI06G22370 vs. ExPASy TrEMBL
Match: A0A6J1JI89 (putative transferase At1g60990, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111486027 PE=3 SV=1) HSP 1 Score: 739.6 bits (1908), Expect = 7.8e-210 Identity = 384/443 (86.68%), Postives = 399/443 (90.07%), Query Frame = 0
BLAST of CSPI06G22370 vs. ExPASy TrEMBL
Match: A0A6J1EI20 (putative transferase At1g60990, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111434553 PE=3 SV=1) HSP 1 Score: 736.5 bits (1900), Expect = 6.6e-209 Identity = 383/443 (86.46%), Postives = 398/443 (89.84%), Query Frame = 0
BLAST of CSPI06G22370 vs. NCBI nr
Match: XP_004140110.1 (putative transferase At1g60990, chloroplastic isoform X1 [Cucumis sativus] >KGN47936.1 hypothetical protein Csa_003267 [Cucumis sativus]) HSP 1 Score: 876.3 bits (2263), Expect = 1.1e-250 Identity = 443/445 (99.55%), Postives = 444/445 (99.78%), Query Frame = 0
BLAST of CSPI06G22370 vs. NCBI nr
Match: TYK13394.1 (putative transferase [Cucumis melo var. makuwa]) HSP 1 Score: 835.5 bits (2157), Expect = 2.2e-238 Identity = 422/445 (94.83%), Postives = 435/445 (97.75%), Query Frame = 0
BLAST of CSPI06G22370 vs. NCBI nr
Match: XP_038887599.1 (putative transferase At1g60990, chloroplastic [Benincasa hispida]) HSP 1 Score: 813.1 bits (2099), Expect = 1.2e-231 Identity = 413/443 (93.23%), Postives = 425/443 (95.94%), Query Frame = 0
BLAST of CSPI06G22370 vs. NCBI nr
Match: XP_022158902.1 (LOW QUALITY PROTEIN: putative transferase At1g60990, chloroplastic [Momordica charantia]) HSP 1 Score: 748.8 bits (1932), Expect = 2.7e-212 Identity = 387/443 (87.36%), Postives = 401/443 (90.52%), Query Frame = 0
BLAST of CSPI06G22370 vs. NCBI nr
Match: XP_031743503.1 (putative transferase At1g60990, chloroplastic isoform X2 [Cucumis sativus]) HSP 1 Score: 747.7 bits (1929), Expect = 5.9e-212 Identity = 375/380 (98.68%), Postives = 378/380 (99.47%), Query Frame = 0
BLAST of CSPI06G22370 vs. TAIR 10
Match: AT1G60990.1 (Glycine cleavage T-protein family ) HSP 1 Score: 535.4 bits (1378), Expect = 4.3e-152 Identity = 262/373 (70.24%), Postives = 309/373 (82.84%), Query Frame = 0
BLAST of CSPI06G22370 vs. TAIR 10
Match: AT1G60990.2 (Glycine cleavage T-protein family ) HSP 1 Score: 535.4 bits (1378), Expect = 4.3e-152 Identity = 262/373 (70.24%), Postives = 309/373 (82.84%), Query Frame = 0
BLAST of CSPI06G22370 vs. TAIR 10
Match: AT1G60990.3 (Glycine cleavage T-protein family ) HSP 1 Score: 535.4 bits (1378), Expect = 4.3e-152 Identity = 262/373 (70.24%), Postives = 309/373 (82.84%), 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
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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