![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
CmUC02G043170 (gene) Watermelon (USVL531) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGGGCTGCATCTGTTCTAAGGTTTTAGCTGACGAGTGTAGTGACAATGAACATGATACCTCCAAAAGAGCTCATTCCCCAATTAAACGCCTCTCTGAATTAAAAACATCAAGATCTGGCTCTCCCACATCTGAGAAAATTTGGGAGAAAGATAGGCTGAATTGTAGTGATGTTACGGTTATGTTGTTCGATACAACGGCGAATGGTTCTCTACGCTCACACGGCAAGCTTTCTAATGAGAAGAAGAGCACAGACATCCCTGATGTCACCATTATCAACCATCCATTTATGGGAAAGATTCCGAAGGCTACTGAGGCCGAGCAAGTCGCTGCCGGGTGGCCGAGTTGGCTGGCTGTGGTGGCTGGTGAAGCTATCAAAGGCTGGTTGCCAAAACGTGCAAATAACTTCATCAAGTTCGAGAAAGTATGCTCACAAATCTGCAGCTGATTTAACTTACTAGCTAAATGAGGTTCTTGTTTCTTATATATATATCTCATTCTTGCAGATTGGCCAAGGAACTTATAGCAGTGTGTATAAAGCTCGGGATATCATTCAAGATAAAGTTGTGGCCTTGAAAAGGATCAGATTTGACAATCAAGATGCTGAGAGTATCAAGTTTATGGCAAGGGAAATCCTTGTTTTGAGAAGGCTTGATCATCCAAATATAGTTAAGTTGGAAGGTTTGATCACATCACAAACATCATGTACTATGTACCTTGTTTTTGAATATATGGAACATGATCTTACCGGACTCGCATCATGGCCTGGCGCGTCGTTCACCGAACCACAGGTAGCATATATAGCTTAAAATAGTAGTGATTCATCCATAATTATACATTACATAACCATTTTGATTATAAACTTTAAGCACTTTTCCTTCCTATTTCAGATGAAGTGTTACATGAAGCAACTTTTGAGTGGACTTGATCATTGTCACAGTAATGGGGTTCTTCATAGAGACATAAAGGGCTCAAATCTTCTTATTGACAACAATGGCATTTTGAAGATAGCAGATTTTGGGTTGGCTGTTTTCTTTGATTCTCATTCAACAGTTCCAATGACGAGCCGTGTAATAACTCTCTGGTATCGACCACCAGAACTTTTACTTGGAGCGTCTAAATATGGAGTTGAAGTTGATTTATGGAGTGCTGGCTGCATTCTAGGAGAGTTATATACTGGCAAGCCCATCTTACCAGGGAAAACAGAGGTAAAATATAGCTTATGAACTATTTAGATTGATCAAAAGTGGCTTTATTCAATGTTTTTATCTGTCAAAATAATGAAAGTTGATGCATCCACCTTTCAGGTTGAACAACTACATAAAATATTTAAGCTATGTGGTTCCCCTTCCAAGGACTATTGGAAAAAATTGCATTTGAAGCAATCAACAAGCATGAAACCTCCACAGTCATATGAAAGATGTCTTCGAGAAAGATATAACGATATTCCTCGTGCTGCTGTTGACCTTATGGACACTTTGTTATCTATAGATCCTACAGGGCGAGGAACTGCTGCTTCCGCACTCGACAGTGAGGTACACCACATTTTCTCTAGGAAGCACAAACTCTTTAGTTTGATTACCGTGTTTGTGCTCAACACGTGTCAGACACTTGTTACTGCAACATATATATTATCAAACACTAGTCGACCTGGTTACCAACAAGATTCAATTCAAAGTGAATATATTGATATCCTTACAAGGGGTTTCTTTTTAACAGTTCTTTACAACAAGGCCCTTACCAAGCGATCCTTCAAATTTGCCAAAATACCCTCCAAGCAAAGAGATCGATTCAAAACTGCGTGAAGAGGAAGCAAGAAGGTAAAATATAGAGAATTCCTTGAAGACCAAACGGGATTTCATTCATCTTTGCAGTTTCTTAGTTCTATATTTTAAACAGGCAACAAGGAGTAGGTGGTGGGAGAAGCCAAATAGTCTACCAAGAAGCAAAAGGACTGAAGCAATCTAGAGTAGTTCCTGCTGCAAAGGCTAATGCTGAGTTGGTTATTTCATTACTGGTAAGCTTCTATAAATGATCAGTTGCATTTTTGCTTCAAAAGATGTTATCTTGTCTCTTTATTTTCTAACCCCATTTGGTTCGGATTATAGAGAAAACAAAGTCGTTCGAGCGCGAAGTACCGGAATGAAACGTATTCTTATGGTTTGGTGTCGAAAAGAACCTCAAATTCAGGACCTATAACTCAGGGACCGAGATTTACAAACAACAAAAAGGAACCAAAACATGTTTCTATGGTTTCCAGTGAGTGTTTAATATCATCTGGTCCTATTGAATTTGTTTCTTACAAATATGTCAGAGAAAGAAATGAAGTTTCAAAGCCAGAATCAATGAGCCAAGACAAAAATCTTCCTCTTCTATCCAGTTCTGCTGAAGAGTCATCCATCAAAAAGCTAAACGAAGACAAAGTTGGTATGAAGAAAGTTACAAATTCTTGTCAGTTGGAAGATTCAAAGGCCTCAGCTCTAATAGTTGGCTAAATTTTTGGGTTTTATGATGGACGACCCATTTTGAATGGTCAAAATCAAATTTTATCTAGTTTTTAAAGGGTATGTTTTTTTGACCTTCTACTTGGGTCATATTAGTGTGGAATTACCAAAACGGATCATGGTACATGCGGAATAGAATCTCACTCTCACTTTTCATTTCTAGCTTCGTTCTTTTTCTTTCCGCTTTGGTGTCCCCTTTGTGATGATTAAATGTCAGTGTTTGTTCGTTCCTCTCACTCTTCGTTCTCTCTTCGCTCTTTGTCCTTGCTCCTTGAGAGGAGCGAGAGCAAAGAGTGAATAGCAGGCATTAAATCATCGCAAAGAGGGAACCAGAAAAAAACGAGAATCGAGAGTAAAATCCTCATGCATAATAGTCTGTTTTACTAATTTCATATGCCGATATGGTGTAAGTGAAATGTCACAAAACTTAAATTTTAAAAAGTGGGATAGATTCCATTTTGGTCCGAAATTTTGAGTCATCCATACAATTATCTCTAAATTATTTGGGTCACACTCACACCCGGAGGCTCTTGAATTAACTAAAAAAGAACCAATGAAAATCATTTAATGTTCGACATTGTCTAGAGTTGAAAGCGAATGAAAATTATGTCAGATGGTCATTCGTTGATTCATCCAGCAATGTAGACAGGAATAGGATGCGCTCAAAGAACAGAATTCGTAGGTGTTGGCTTCCTACAAGAAAAGGAAAGAAAAAAGAAACACAAGGCCACAACCATGTTTGTTCATTGAGCTGTGTATATAAGATGTCAATCTCGGCTTTGTATGTAATTAAGAACAAGAAGAAAGCCTTGGTGTATTACTGTATTATACATTTATACAATTATACTTAGGTTCAAATTATTTTCTTTTTTCTCAGTAATTTTCTTTTAATAATGTTGAAAAAAAATATAAAAAATGCGGTGAGCGTGGATCGAACACGCGACCTTCAGATCTTCAGTCTGACGCTCTCCCAACTGAGCTATCCCCGCTTCATATTTATGAATAAGAATATATAAAATATATATAAAAACAAAAGCTTGTCGTATAACGGTGCATGACATTTTAGGCAACAGGAATCCTGGAAAACCTTTATATAATTTTATTGGCAAAAGATTGTTTATATGTAAAAATTAAAAATAAAATAGTATTCCTTTTGAATTAAATAATAATAATAAAAAAAAAGTTTATTCCTTTTCTTTCCCTCTACCTATTAAAGATAGTTAAGATTGCATAAATTATAATTTCTTTTGGAAAGAAAACATGTATTCTGTGTTTTCGGTTTAGTTTTTCTTTTTACTCTAAATTTTAAAATATTACATTTTTAGTACTTAAATTTTAAGTTTAATTTTAATTTTACCTTTTAAGTTTCTTAAGTTTCAGAATGGTTTGAGTTTTGAGATTTATTTCACTTTAGTTCTTAAGTTTTAAGATTTACATTTTTAAATTGATTTTTCATTAAGTATTCATTTTAAACTTTCAGAATTATTGTTTATTAAATAATTTAAAAGAATTAAAAACATTATAATTAATTAAACTTCACTAGCTTTTCATCACTATTAAAATTGATTTAAAATTTCACTTCATAATTATTTAAAATTAATTCATAGACATTAACGTCAAGTACTAAAATGAATATTTAGTAAAAAGAAATTGGGGTTAAAAGGATAAATCTTGTAATCTAAGATGGAATTAAAACCAAAACTCAAATCCCAAACATAAAATTTTAACATTTTGACATCTCGGGATCAAAAAGGTATTTCTTCTCCCATTTTTATTTATTTATTTATTATTTTTTTTTTAACAAACACAAAAAAAGTTATTGCTATAGAAGAATTTTCATTTTATAAGTAGATAATTAGTTGAAAAATGATATAGATTCAAATGATGCAAGCAATAGGGGAAATTAGAGACTTTGGCTATTTGTTTACCTACTTACGTTTTAGGACTTGAAAATTCAAATTTTAGAATAGCTATAATTCAAAGATAAAGTTTTTGCTAAACTCCAAAAAAAAAAAAAAAAAAAAAAATTATTGATTAAAATGAAAACGATGGATACAAGTCTTAGTCAAAAGTACAGCGACTTCAATTTCAATTTTAAAATGTAAATCAACAATTACGGGGTTATTTAAAAAAAATATATATATATATATTTGTTTGATAATAATTTTCTGTAAGAGATAATATATACTTTATATTTATAATGGCTGTAAAAGAATTACATTAATTTAGTTTGACGAGGTCAATTTCATTCAATTCTGAGCCCTAGATTTGAACAAGTAATAAAATTATACTTCTAAAAATTTAATTAGAAAATTTCCTGTCTAATTATTATATACATGTCCATATTTGTCACACAATCTAAAAAAACATACAAACTTAAACTTGGTTGGATAATGATTTTGTTGCTTATTTTTTCTCTTTTTCAATTACATTGAATAATTGAATATTTAGTCAAATTATAGAAATAAAAACAAAATTTTGAAAGCTACTCTCTTAATTTCAAAATTTATCTTGATTTTTTAAAACATTAGTTTAGATAACGAGTCACAGAAATTTATTGGTATAATTAGTGTTTATAAGCTTAGTTTTCAAAAACAAAAAATTAATAAAAATAAGTGCAAATTGCAAAAACCATCCTTGAAGTATGTGATAGTTGTAATTAGACCCTCAAACTTTCAATCATAAAAATTGACCCATGTTATCTAAAAAGTTATTCACCATTATACGACAACCATTTGGTAACTATTTGATTTTTTAAAACTAAACTTACTTTTTCTCATTTTCTTACAAATTTTAGCATCTTTCTTAAGTAAAAAAAGTTAAATTTCTAGCTAAATTCCAAAAACAAGAAAACAAGTTGTTAAAAGCATAATTGTTTTAAATGACAAAACTGTTGGAAAAATTTTCAAATATAGCAAAATGTCACAGTCTATCAGTGCCTATCACTGTCTATGACAATGATATTTTTCTATATTTGTAAATAAGTTGACTCATTTTGTTATATTTGAAAACAACTCTATTTAAAAACTAATTTTTTTTAATTTCAAAAACATTAGTAAAAAGTAGAAGATAAAGAAAATCTAAGAACAAAAGGTCAAATTGTCACTAAATGAGGCCTAAATGATTATTAAACGGGGTTTTAACTTTTTGAAAATATTAATTTTACACTCAATCAAATTTAATATTCAATGTGATGAAATTATGAAATTTAAAACTAAACGTTTGAATCTGAGTCATTACAAACACGTAGGTAAAAAGAGAGAGTGTATTAACAATATTTTTGCTTCCCAAAAAATACAATTACAATTGAAAATATTTATGAGGAATGAATAAATTAGTAGAAATGAAATATTTGAAACAAAATAAAATGATGAGCAAGAGAATTAAAGCTATCTCTTCCAAGGAACCATAATACTAACATGTTAGCACAATACAAGTTGGTTATTATTTTTTCAAGTTAAAAGCTAAAGCAAACACTCACAACAAAACCCACTAATTTTGTTAACAGAATTATAGACAAAAGTTTGTGAACCTCTTCTTTTATTTGAAGAAATAATTCCTTAAAAAAAAAAAAAAAGAAAAAAAAAGCCTTGGTATCGAAGCTGCTTAACATTAAGGGAAAAAGTGGAATTAGTGGAAGTACTCAATTAGATTATGGAAAAAACAAAAAGCAGCAACAAACAAAAAGAAAAAAAAAAAAAAAATTAAAAGTTCAACATTTTTTTTTTTTTTTTTTTTTTTTAACAATTCTATTGACTGTTAGTTAATAACAATGCTTTTGAACAAAAACGTAGAATAATAATTCATTCCCATCTTTTCTCCTTCTTTTCTTCTCTTTGAATTCTTGAATTGTAGTTGTAGTCTTACATTTTAGTCCTTTATTTTCCAAATGTTCCTAAATTCAAAAGTAGTTCAACTTATGTGGCCAAAAAAATAAATAATAACAATAAACTTAGGTTTAAATATTATTTTAGACCTCGTTTAGTAACTATTTAGGTCCCGTTTGATAATCATTTTGTTTTTTCGTTTTGGTTTTTTAAAATTAAGCATATTTTCTCTACATTTTTTACATTGATTTGAATTGATTTGCATCTTTCTTCAGTACAATGATTGAATTCTTAGCTAAATTCCAAAAATAAAAACAAAATTAAAAGCTTACTTCTTTTAGTTTTCAAAATTTGGCTTTGTTTTTTAAACTATTGGTAAAAACAAAGGAACAAATTTGGAGGTGGAAATATGTATTTATAGGCTTAATTTTCAAAAACAAAAACAAAAAACAAAATGGTTACAAAATGGGCTGTTAATTTTTAATTTTTTGTTTTTTAATATTAAGCCTACAAAAATTACTTCCACCTCAAAATTTCTTTTTTGTTATCTACTTTTTAACAATGGTTGAAAAAACCAAGCCAAAATTTGAAAATTAAAAAACGTAGCTTTTAAAAACTTGTTTTTATTTTTGAAATTTGGCTACGAATTCAACCATGTATCTAAAAAAATGCAATTCATTATAAGAAACAGGGAAAAAATAAGTCTAATTTTCAAAAAACAAAAACAAAATGATTAGCAAATGAGGCTTTAGTTTTTGTGTTTTCAACTTTTGTTCATTTTGATCAATATACATTTGAGCTTTTGTTCATTTTAGTTGCTATACTTTAAAAAGTGATTATTTTAATATTATTTTTCTTCTAATCTAATAACATTATACCTCATCCACTAAACTTCTTAAAATGTAATACTAAATTTGGATAAAAGAGTTGCATTATGCATAAAATTTATGCTAAAATTTACACACATGAAACAAACATGGTCACTTTTTAAAGTTAGAGTACCAACATACATTTAAAAGACTACAAATAAATGTTTTAAAGATACATATACTAAAACAAAAGTAATATTTAAACGTTATTTTTCTTTTGTTGGAAGTATTAAGTTAATGCTATTCAAATAAAAATATGTAATACTTTGTATTAAATTAAACAACTCATATCATGCATAAATATCAATAACAACTAAAAAATGAAGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAGTGTTAAAAGGAAAATTAAATGAATACCTCACATTTTTTGCTACTGGATATAACTATTTGATGTATATTCGAAAGATATTGGTGTAATTTATCTTAAAATAACGAAAAACATTGCAACAACTTCCTCCCATAATTTCTCGTTTTTGAGGGAATTTGTTCAATCTTACAATATTTGTTTTATTAAAGTTAAAATTCACACTCATCTCCCATCATAAGTAGCTGTACATGGTTAAATTAAATATAGAAAAAGAAAATGAGATTTAAATAAACATAAAAGGGATGAAATTTGAGGGAAGGGAGGCCAAATTTCCACAACTTGGAACAACTCATGTTTAACTGGAAAAGAAAGATTGAAAGATGAAATGAAAAAACAAAACAGTTGAATTCAAACAAATCTTACTATTTCTGAGTGGTTCTTGCCATTTCATTATGGTTGACTTTGAATCCATTTGATTTGGAGAACTCAACCCCCAAAGCCACGTAACTAAACCCGTTTAAATTTCCCTAATTTAGCATTCAAATGCAAACCAAATCCTTAACTCCTTTTGTCTAATCAATTATGATTCTAGTCGTCGACATGAGTTGAAAGAGAAAGTGGGTATTTTTGACTCCTCAAACAGCCGGCACAGGCCGTCTGAATATCATAATCATTTTTTATCTATGCGAAAATACATATGAATTATGAATACGCGTTGGGACTTCAAAAGGCCAACCCAATGTTCTTTCTTGGTAACTAATCCTCTCTATCTCTGTGATTATCTATCTGGGTTTTCTTTTTTCTTCTTTTTTTCTTTTCTTCTTCTTCTTTTTCAAGGTATTGATCACTACTTTGTTATATTCGTCTGATTACTGAAAAGGGATTCGAAAACTTTCTGGGTTTTTGGGGTTTTGTTAAAAAGTCGCTGTTCTTATTCGTTTTTTTGTTTTCTCTTTTGATTGATTCTGTGATTTCTTTCTTGGGTCAGTTCAGATTCTGGAAGATTGGACTTTAGAAATTCGTTCCAGTGTTTTTTCTCAACGTCTGCGGTTTGTGGTTCAAAATCCCGTGTTTTGAAAGTCTTCTCTGAATTGGTTGGGTATATAGGAAGGTTTGGGTATGTTTAAACGAAATTTGATTGTATTGGATTGAATTTTGATTCGTTATTTATGGGCTTCGTGTGGAGAAGGAGGTTTTGTGGAATATCTAGCGTTGGCTTTAAGAGGGGATTGTAGTTTCTGAAGAAAGTTGCAGTTTCTTTATTAGTTTCTGGGCTGCAAAAATGGGTTGTCAGTGTTCCAAGCCTTCTATTGATGAAGATGGCAAAAACAGAGCCTCTGAGAAATTTCCTTCACGAAAGGGTTCACGAGATAATTTATTAAAAAAAGGAGAGGATATGCGATTGAATTCTGTGAAAAGAGACGAAGATGTTCGAATAAATTCCTCACAGAGAGCAGATAGTATTCGATCAAAGGTGAAAACGGATGGTGTTGACATGAAACTTGCTTATTTGGACAAGAGAGTCAACGGCTCTAACAGGGTACACGATGATCAAATTGAAAAAAAGAAGAGGGAGAGGTTGGGAGCTGCCATTTCTGCTAATTATCCTGGAAAAGGAAGCATTCCAAAGGCTATGGAAGCGGAGCAAGTTGCAGCTGGTTGGCCAAGCTGGCTCTCCTCTGTGGCCGGTGAAGCGCTCGAGGGATGGCTGCCACGGAGAGCCGAAACTTTTGAGAAACTTGACAAGGTATGTAGAAGTTGTGAATCTGACAGTTGAGAGAAGTTTGTTGATGTGATTGTGAGTCTGAAGATCGAAATTTGTTTTTTTAAGAGTTTTGCTGTTTTGTTTTGTTTTGTTTGGTGGTGGTTTCATTTTCACAGATAGGACAAGGCACATATAGTAGTGTTTACAAGGCTCGTGATATCATTCAAAATAAACTAGTCGCTCTAAAACGAGTTCGATTCGATAATCTCGATGTGGAGAGTGTCAAGTTTATGGCCCGGGAAATCCTTATCCTGCGTAGGCTTGATCATCCAAATGTTATAAAATTGGAAGGCTTGATTACATCACCGCGATCATGTAGCTTGTACCTCATTTTTGAGTATATGGAGCATGACCTTACAGGCCTTGCATCTCGGCCTGGGGTCAAGTTCAGCGAACCACAGGTAAATCATATTAACTACCTTTGGGATACCATCTTTTGCATCTCGTCTCGAGGTTTTTTTGAATATGGTGGCCTTGAGGGATGTGAGTATGCAATTTTGATAAGAATTCATTACTAATAAATGACGTTTATCCAATCCTCAAGAACCTAACTTTATGCTCATCGCCATGCTTAGGTTAAATGCTATATGCAACAACTTCTAAGGGGGCTTGATTATTGCCACAGTCGTGGTGTCCTCCACCGCGATATAAAGGGTTCAAATCTCCTAATTGACGACAATGGCATCTTGAAGATTGCAGATTTTGGATTAGCAAGCCCTTTTGACCCCCATAATCAAGTTCCCTTAACAAGCCGTGTAGTGACTCTATGGTACCGACCACCTGAACTTCTGCTTGGAGCTTCTTATTATGGGGTTGCAGTGGACCTGTGGAGTACGGGTTGCATACTAGCGGAGCTATATTCTGGGAAGCCTATCTTACCTGGAAAAACTGAGGTAGAACATCTTTATATGTACTCTGCTGCAGCGGTTAATGATCCATAGAAGAGATTCGACTTCTTATTTGTGATCTAGCCAAGGCTACTAGTGATATAACGAACAAGATTAAAAATGGAAAAACCACAATCTTTCAATATATATGAAACCTTTGAAGCTATTTTCTGCAGGTCGAACAGTTGCACAAGATATTTAAACTTTGTGGGTCGCCGCCTGAGAATTATTGGAAGAAATTGCAATTACCTCATTCAACTGGATTTAAGACGGCTCAGCCATACCGACGTTGTATCGGGGGAATGCTCAAGGATTTCCCACCATCTGCGGTGGCTCTTGTGGATAAGTTGCTTTCTATAGATCCTGCTCATCGAGGAACAGCAGCTGCTGCTCTAAAGAGCGAGGTATTACAGCCTTTCCTTGGAATCATTTGAAAGTTACTCCGATGCTTCATTTCTTATAGTTATGATAATATTAACATACGTTGTACATTCTTAATTTTTCAGTTTTTTACGACTAAACCTCTTGCTTGCGAGCCTACGAGTCTGCCCAAATATCCTCCCAGCAAAGAGATTGATGCAAAATTCCCTGGCTGCAGAAGGTAAGTTGTCATGAATCATTAATTATTGTGAGGGTGAAAGGTATAATCAAGAACTTAGTTATATTCTTATTGTAAAGGGAAAAACAAGTATTTGGGGCTAAAAAGATGTTCAGTTAGGAAATGCTCTCTTGGATATATATAGCTTCTTAAACTGTTCATCTCCCATTGCAGGCAGTCAAGAGCTGAGGGCAAAGACCCTAAAGATTATGTGGAAGGGAGGCGACCTAAAGAAGCTCACATTAATCTTTCTCTGAATGCTAAGGATGAAGTAAACATGTCAATGCAGGTATTGAAATTTTACATATCGTTAAAACTTTTTTGGTTTTACAGTTCTTTCTGAAAGCTTTTCTGAACTAATTCCGCTTTTTGCATTTTGTTACAGAAAAGGCAAGGTTATTCAAGTTTTAAGGGCCGGGGCGGAGTGTTGAATCCGCATGGGGATGAGACAGTTTCTGGGTTTTTGATTCCTCCGCCCAAACAAAATCAATCTGTCACAGAAATTTGCTCAGATACAGGCCGGATTTCGCATTCAGGACCGCTAATTAGCAAACCAGATTGGATGAAATCTAGGAAGCAACTCGATGACCATTCGATGGCGCTTGATGGATCCAATCTCTCAGTATTATCCCGTTTAGTAGCAACGAGGTCTAATATATCTGATCATCCCTATGATAGACCGGGTCCATCACAATCAGAAGTAGGCAGATTGCCTGACTTCGTCAGGGATTCAGAGTCAACGAGAAAGCAGGACCGAATATTTTATACACACCGAGTTGCGGATTCATATCGAATAGAGAACGAAAAAGTTTGTGCTAAAGAACAGTCCCTGGTTCGTTCATTCTTTCCTCTTGCTATGTAGTTACATTAATAAAAATACAAATTTTAGTGCTATGTTTAGCTGTTTTCTAGTCAATTAATGAATGATGTTCTGCTACCTGAGATGCTGATCTTTGTTCATTATGTGGTTCAGCTTGCTTATGGGACAGACATGAACAAGCTTTATACTTCTGGTCCAATCCTTGGTCCATCAAACAACTTAGATAAAATTCTGAAAGAGCGAGACCGTCAGATTCAAGAATACGCTCGACAAGCACGACACGGTAAAGCTGCTAACAGTCAGTTAAAGAATTCAAGAGCAACAACTGGAAAACATCTGATGTCGAGCCATGGAATGTGATATAGATTACGAAGATCGCTTGCACCCAGCAACAGAAGGGACAGTTGGGAGAGACCTAAGGTCTAAGATGGCTTGAGTTGTGTAATCAAAAGTGATTTGGTTGTGTAGAATTTTGGTTAAAATGTTGTATAAAAGGTGGTTGTGAAGCACTACTACTTTCCGAGTGCACCCGTTACTGCTGTGGTGTTTGACGATTGTTCATCATTCTTCTTGTTCTTAGATCCTGATAAAATGTGT ATGGGCTGCATCTGTTCTAAGGTTTTAGCTGACGAGTGTAGTGACAATGAACATGATACCTCCAAAAGAGCTCATTCCCCAATTAAACGCCTCTCTGAATTAAAAACATCAAGATCTGGCTCTCCCACATCTGAGAAAATTTGGGAGAAAGATAGGCTGAATTGTAGTGATGTTACGGTTATGTTGTTCGATACAACGGCGAATGGTTCTCTACGCTCACACGGCAAGCTTTCTAATGAGAAGAAGAGCACAGACATCCCTGATGTCACCATTATCAACCATCCATTTATGGGAAAGATTCCGAAGGCTACTGAGGCCGAGCAAGTCGCTGCCGGGTGGCCGAGTTGGCTGGCTGTGGTGGCTGGTGAAGCTATCAAAGGCTGGTTGCCAAAACGTGCAAATAACTTCATCAAGTTCGAGAAAATTGGCCAAGGAACTTATAGCAGTGTGTATAAAGCTCGGGATATCATTCAAGATAAAGTTGTGGCCTTGAAAAGGATCAGATTTGACAATCAAGATGCTGAGAGTATCAAGTTTATGGCAAGGGAAATCCTTGTTTTGAGAAGGCTTGATCATCCAAATATAGTTAAGTTGGAAGGTTTGATCACATCACAAACATCATGTACTATGTACCTTGTTTTTGAATATATGGAACATGATCTTACCGGACTCGCATCATGGCCTGGCGCGTCGTTCACCGAACCACAGATGAAGTGTTACATGAAGCAACTTTTGAGTGGACTTGATCATTGTCACAGTAATGGGGTTCTTCATAGAGACATAAAGGGCTCAAATCTTCTTATTGACAACAATGGCATTTTGAAGATAGCAGATTTTGGGTTGGCTGTTTTCTTTGATTCTCATTCAACAGTTCCAATGACGAGCCGTGTAATAACTCTCTGGTATCGACCACCAGAACTTTTACTTGGAGCGTCTAAATATGGAGTTGAAGTTGATTTATGGAGTGCTGGCTGCATTCTAGGAGAGTTATATACTGGCAAGCCCATCTTACCAGGGAAAACAGAGGTTGAACAACTACATAAAATATTTAAGCTATGTGGTTCCCCTTCCAAGGACTATTGGAAAAAATTGCATTTGAAGCAATCAACAAGCATGAAACCTCCACAGTCATATGAAAGATGTCTTCGAGAAAGATATAACGATATTCCTCGTGCTGCTGTTGACCTTATGGACACTTTGTTATCTATAGATCCTACAGGGCGAGGAACTGCTGCTTCCGCACTCGACAGTGAGTTCTTTACAACAAGGCCCTTACCAAGCGATCCTTCAAATTTGCCAAAATACCCTCCAAGCAAAGAGATCGATTCAAAACTGCGTGAAGAGGAAGCAAGAAGGCAACAAGGAGTAGGTGGTGGGAGAAGCCAAATAGTCTACCAAGAAGCAAAAGGACTGAAGCAATCTAGAGTAGTTCCTGCTGCAAAGGCTAATGCTGAGTTGGTTATTTCATTACTGAGAAAACAAAGTCGTTCGAGCGCGAAGTACCGGAATGAAACGTATTCTTATGGTTTGGTGTCGAAAAGAACCTCAAATTCAGGACCTATAACTCAGGGACCGAGATTTACAAACAACAAAAAGGAACCAAAACATGTTTCTATGGTTTCCAGTGAGTGTTTAATATCATCTGGTCCTATTGAATTTGTTTCTTACAAATATGTCAGAGAAAGAAATGAAGTTTCAAAGCCAGAATCAATGAGCCAAGACAAAAATCTTCCTCTTCTATCCAGTTCTGCTGAAGAGTCATCCATCAAAAAGCTAAACGAAGACAAAGTTGATTCTGGAAGATTGGACTTTAGAAATTCGTTCCAGTGTTTTTTCTCAACGTCTGCGGTTTGTGGTTCAAAATCCCGTGTTTTGAAAGTCTTCTCTGAATTGGTTGGGTATATAGGAAGTTTCTGGGCTGCAAAAATGGGTTGTCAGTGTTCCAAGCCTTCTATTGATGAAGATGGCAAAAACAGAGCCTCTGAGAAATTTCCTTCACGAAAGGGTTCACGAGATAATTTATTAAAAAAAGGAGAGGATATGCGATTGAATTCTGTGAAAAGAGACGAAGATGTTCGAATAAATTCCTCACAGAGAGCAGATAGTATTCGATCAAAGGTGAAAACGGATGGTGTTGACATGAAACTTGCTTATTTGGACAAGAGAGTCAACGGCTCTAACAGGGTACACGATGATCAAATTGAAAAAAAGAAGAGGGAGAGGTTGGGAGCTGCCATTTCTGCTAATTATCCTGGAAAAGGAAGCATTCCAAAGGCTATGGAAGCGGAGCAAGTTGCAGCTGGTTGGCCAAGCTGGCTCTCCTCTGTGGCCGGTGAAGCGCTCGAGGGATGGCTGCCACGGAGAGCCGAAACTTTTGAGAAACTTGACAAGATAGGACAAGGCACATATAGTAGTGTTTACAAGGCTCGTGATATCATTCAAAATAAACTAGTCGCTCTAAAACGAGTTCGATTCGATAATCTCGATGTGGAGAGTGTCAAGTTTATGGCCCGGGAAATCCTTATCCTGCGTAGGCTTGATCATCCAAATGTTATAAAATTGGAAGGCTTGATTACATCACCGCGATCATGTAGCTTGTACCTCATTTTTGAGTATATGGAGCATGACCTTACAGGCCTTGCATCTCGGCCTGGGGTCAAGTTCAGCGAACCACAGGTTAAATGCTATATGCAACAACTTCTAAGGGGGCTTGATTATTGCCACAGTCGTGGTGTCCTCCACCGCGATATAAAGGGTTCAAATCTCCTAATTGACGACAATGGCATCTTGAAGATTGCAGATTTTGGATTAGCAAGCCCTTTTGACCCCCATAATCAAGTTCCCTTAACAAGCCGTGTAGTGACTCTATGGTACCGACCACCTGAACTTCTGCTTGGAGCTTCTTATTATGGGGTTGCAGTGGACCTGTGGAGTACGGGTTGCATACTAGCGGAGCTATATTCTGGGAAGCCTATCTTACCTGGAAAAACTGAGGTCGAACAGTTGCACAAGATATTTAAACTTTGTGGGTCGCCGCCTGAGAATTATTGGAAGAAATTGCAATTACCTCATTCAACTGGATTTAAGACGGCTCAGCCATACCGACGTTGTATCGGGGGAATGCTCAAGGATTTCCCACCATCTGCGGTGGCTCTTGTGGATAAGTTGCTTTCTATAGATCCTGCTCATCGAGGAACAGCAGCTGCTGCTCTAAAGAGCGAGTTTTTTACGACTAAACCTCTTGCTTGCGAGCCTACGAGTCTGCCCAAATATCCTCCCAGCAAAGAGATTGATGCAAAATTCCCTGGCTGCAGAAGGCAGTCAAGAGCTGAGGGCAAAGACCCTAAAGATTATGTGGAAGGGAGGCGACCTAAAGAAGCTCACATTAATCTTTCTCTGAATGCTAAGGATGAAGTAAACATGTCAATGCAGAAAAGGCAAGGTTATTCAAGTTTTAAGGGCCGGGGCGGAGTGTTGAATCCGCATGGGGATGAGACAGTTTCTGGGTTTTTGATTCCTCCGCCCAAACAAAATCAATCTGTCACAGAAATTTGCTCAGATACAGGCCGGATTTCGCATTCAGGACCGCTAATTAGCAAACCAGATTGGATGAAATCTAGGAAGCAACTCGATGACCATTCGATGGCGCTTGATGGATCCAATCTCTCAGTATTATCCCGTTTAGTAGCAACGAGGTCTAATATATCTGATCATCCCTATGATAGACCGGGTCCATCACAATCAGAAGTAGGCAGATTGCCTGACTTCGTCAGGGATTCAGAGTCAACGAGAAAGCAGGACCGAATATTTTATACACACCGAGTTGCGGATTCATATCGAATAGAGAACGAAAAAGTTTGTGCTAAAGAACAGTCCCTGCTTGCTTATGGGACAGACATGAACAAGCTTTATACTTCTGGTCCAATCCTTGGTCCATCAAACAACTTAGATAAAATTCTGAAAGAGCGAGACCGTCAGATTCAAGAATACGCTCGACAAGCACGACACGGTAAAGCTGCTAACAGTCAGTTAAAGAATTCAAGAGCAACAACTGGAAAACATCTGATGTCGAGCCATGGAATGTGATATAGATTACGAAGATCGCTTGCACCCAGCAACAGAAGGGACAGTTGGGAGAGACCTAAGGTCTAAGATGGCTTGAGTTGTGTAATCAAAAGTGATTTGGTTGTGTAGAATTTTGGTTAAAATGTTGTATAAAAGGTGGTTGTGAAGCACTACTACTTTCCGAGTGCACCCGTTACTGCTGTGGTGTTTGACGATTGTTCATCATTCTTCTTGTTCTTAGATCCTGATAAAATGTGT ATGGGCTGCATCTGTTCTAAGGTTTTAGCTGACGAGTGTAGTGACAATGAACATGATACCTCCAAAAGAGCTCATTCCCCAATTAAACGCCTCTCTGAATTAAAAACATCAAGATCTGGCTCTCCCACATCTGAGAAAATTTGGGAGAAAGATAGGCTGAATTGTAGTGATGTTACGGTTATGTTGTTCGATACAACGGCGAATGGTTCTCTACGCTCACACGGCAAGCTTTCTAATGAGAAGAAGAGCACAGACATCCCTGATGTCACCATTATCAACCATCCATTTATGGGAAAGATTCCGAAGGCTACTGAGGCCGAGCAAGTCGCTGCCGGGTGGCCGAGTTGGCTGGCTGTGGTGGCTGGTGAAGCTATCAAAGGCTGGTTGCCAAAACGTGCAAATAACTTCATCAAGTTCGAGAAAATTGGCCAAGGAACTTATAGCAGTGTGTATAAAGCTCGGGATATCATTCAAGATAAAGTTGTGGCCTTGAAAAGGATCAGATTTGACAATCAAGATGCTGAGAGTATCAAGTTTATGGCAAGGGAAATCCTTGTTTTGAGAAGGCTTGATCATCCAAATATAGTTAAGTTGGAAGGTTTGATCACATCACAAACATCATGTACTATGTACCTTGTTTTTGAATATATGGAACATGATCTTACCGGACTCGCATCATGGCCTGGCGCGTCGTTCACCGAACCACAGATGAAGTGTTACATGAAGCAACTTTTGAGTGGACTTGATCATTGTCACAGTAATGGGGTTCTTCATAGAGACATAAAGGGCTCAAATCTTCTTATTGACAACAATGGCATTTTGAAGATAGCAGATTTTGGGTTGGCTGTTTTCTTTGATTCTCATTCAACAGTTCCAATGACGAGCCGTGTAATAACTCTCTGGTATCGACCACCAGAACTTTTACTTGGAGCGTCTAAATATGGAGTTGAAGTTGATTTATGGAGTGCTGGCTGCATTCTAGGAGAGTTATATACTGGCAAGCCCATCTTACCAGGGAAAACAGAGGTTGAACAACTACATAAAATATTTAAGCTATGTGGTTCCCCTTCCAAGGACTATTGGAAAAAATTGCATTTGAAGCAATCAACAAGCATGAAACCTCCACAGTCATATGAAAGATGTCTTCGAGAAAGATATAACGATATTCCTCGTGCTGCTGTTGACCTTATGGACACTTTGTTATCTATAGATCCTACAGGGCGAGGAACTGCTGCTTCCGCACTCGACAGTGAGTTCTTTACAACAAGGCCCTTACCAAGCGATCCTTCAAATTTGCCAAAATACCCTCCAAGCAAAGAGATCGATTCAAAACTGCGTGAAGAGGAAGCAAGAAGGCAACAAGGAGTAGGTGGTGGGAGAAGCCAAATAGTCTACCAAGAAGCAAAAGGACTGAAGCAATCTAGAGTAGTTCCTGCTGCAAAGGCTAATGCTGAGTTGGTTATTTCATTACTGAGAAAACAAAGTCGTTCGAGCGCGAAGTACCGGAATGAAACGTATTCTTATGGTTTGGTGTCGAAAAGAACCTCAAATTCAGGACCTATAACTCAGGGACCGAGATTTACAAACAACAAAAAGGAACCAAAACATGTTTCTATGGTTTCCAGTGAGTGTTTAATATCATCTGGTCCTATTGAATTTGTTTCTTACAAATATGTCAGAGAAAGAAATGAAGTTTCAAAGCCAGAATCAATGAGCCAAGACAAAAATCTTCCTCTTCTATCCAGTTCTGCTGAAGAGTCATCCATCAAAAAGCTAAACGAAGACAAAGTTGATTCTGGAAGATTGGACTTTAGAAATTCGTTCCAGTGTTTTTTCTCAACGTCTGCGGTTTGTGGTTCAAAATCCCGTGTTTTGAAAGTCTTCTCTGAATTGGTTGGGTATATAGGAAGTTTCTGGGCTGCAAAAATGGGTTGTCAGTGTTCCAAGCCTTCTATTGATGAAGATGGCAAAAACAGAGCCTCTGAGAAATTTCCTTCACGAAAGGGTTCACGAGATAATTTATTAAAAAAAGGAGAGGATATGCGATTGAATTCTGTGAAAAGAGACGAAGATGTTCGAATAAATTCCTCACAGAGAGCAGATAGTATTCGATCAAAGGTGAAAACGGATGGTGTTGACATGAAACTTGCTTATTTGGACAAGAGAGTCAACGGCTCTAACAGGGTACACGATGATCAAATTGAAAAAAAGAAGAGGGAGAGGTTGGGAGCTGCCATTTCTGCTAATTATCCTGGAAAAGGAAGCATTCCAAAGGCTATGGAAGCGGAGCAAGTTGCAGCTGGTTGGCCAAGCTGGCTCTCCTCTGTGGCCGGTGAAGCGCTCGAGGGATGGCTGCCACGGAGAGCCGAAACTTTTGAGAAACTTGACAAGATAGGACAAGGCACATATAGTAGTGTTTACAAGGCTCGTGATATCATTCAAAATAAACTAGTCGCTCTAAAACGAGTTCGATTCGATAATCTCGATGTGGAGAGTGTCAAGTTTATGGCCCGGGAAATCCTTATCCTGCGTAGGCTTGATCATCCAAATGTTATAAAATTGGAAGGCTTGATTACATCACCGCGATCATGTAGCTTGTACCTCATTTTTGAGTATATGGAGCATGACCTTACAGGCCTTGCATCTCGGCCTGGGGTCAAGTTCAGCGAACCACAGGTTAAATGCTATATGCAACAACTTCTAAGGGGGCTTGATTATTGCCACAGTCGTGGTGTCCTCCACCGCGATATAAAGGGTTCAAATCTCCTAATTGACGACAATGGCATCTTGAAGATTGCAGATTTTGGATTAGCAAGCCCTTTTGACCCCCATAATCAAGTTCCCTTAACAAGCCGTGTAGTGACTCTATGGTACCGACCACCTGAACTTCTGCTTGGAGCTTCTTATTATGGGGTTGCAGTGGACCTGTGGAGTACGGGTTGCATACTAGCGGAGCTATATTCTGGGAAGCCTATCTTACCTGGAAAAACTGAGGTCGAACAGTTGCACAAGATATTTAAACTTTGTGGGTCGCCGCCTGAGAATTATTGGAAGAAATTGCAATTACCTCATTCAACTGGATTTAAGACGGCTCAGCCATACCGACGTTGTATCGGGGGAATGCTCAAGGATTTCCCACCATCTGCGGTGGCTCTTGTGGATAAGTTGCTTTCTATAGATCCTGCTCATCGAGGAACAGCAGCTGCTGCTCTAAAGAGCGAGTTTTTTACGACTAAACCTCTTGCTTGCGAGCCTACGAGTCTGCCCAAATATCCTCCCAGCAAAGAGATTGATGCAAAATTCCCTGGCTGCAGAAGGCAGTCAAGAGCTGAGGGCAAAGACCCTAAAGATTATGTGGAAGGGAGGCGACCTAAAGAAGCTCACATTAATCTTTCTCTGAATGCTAAGGATGAAGTAAACATGTCAATGCAGAAAAGGCAAGGTTATTCAAGTTTTAAGGGCCGGGGCGGAGTGTTGAATCCGCATGGGGATGAGACAGTTTCTGGGTTTTTGATTCCTCCGCCCAAACAAAATCAATCTGTCACAGAAATTTGCTCAGATACAGGCCGGATTTCGCATTCAGGACCGCTAATTAGCAAACCAGATTGGATGAAATCTAGGAAGCAACTCGATGACCATTCGATGGCGCTTGATGGATCCAATCTCTCAGTATTATCCCGTTTAGTAGCAACGAGGTCTAATATATCTGATCATCCCTATGATAGACCGGGTCCATCACAATCAGAAGTAGGCAGATTGCCTGACTTCGTCAGGGATTCAGAGTCAACGAGAAAGCAGGACCGAATATTTTATACACACCGAGTTGCGGATTCATATCGAATAGAGAACGAAAAAGTTTGTGCTAAAGAACAGTCCCTGCTTGCTTATGGGACAGACATGAACAAGCTTTATACTTCTGGTCCAATCCTTGGTCCATCAAACAACTTAGATAAAATTCTGAAAGAGCGAGACCGTCAGATTCAAGAATACGCTCGACAAGCACGACACGGTAAAGCTGCTAACAGTCAGTTAAAGAATTCAAGAGCAACAACTGGAAAACATCTGATGTCGAGCCATGGAATGTGA MGCICSKVLADECSDNEHDTSKRAHSPIKRLSELKTSRSGSPTSEKIWEKDRLNCSDVTVMLFDTTANGSLRSHGKLSNEKKSTDIPDVTIINHPFMGKIPKATEAEQVAAGWPSWLAVVAGEAIKGWLPKRANNFIKFEKIGQGTYSSVYKARDIIQDKVVALKRIRFDNQDAESIKFMAREILVLRRLDHPNIVKLEGLITSQTSCTMYLVFEYMEHDLTGLASWPGASFTEPQMKCYMKQLLSGLDHCHSNGVLHRDIKGSNLLIDNNGILKIADFGLAVFFDSHSTVPMTSRVITLWYRPPELLLGASKYGVEVDLWSAGCILGELYTGKPILPGKTEVEQLHKIFKLCGSPSKDYWKKLHLKQSTSMKPPQSYERCLRERYNDIPRAAVDLMDTLLSIDPTGRGTAASALDSEFFTTRPLPSDPSNLPKYPPSKEIDSKLREEEARRQQGVGGGRSQIVYQEAKGLKQSRVVPAAKANAELVISLLRKQSRSSAKYRNETYSYGLVSKRTSNSGPITQGPRFTNNKKEPKHVSMVSSECLISSGPIEFVSYKYVRERNEVSKPESMSQDKNLPLLSSSAEESSIKKLNEDKVDSGRLDFRNSFQCFFSTSAVCGSKSRVLKVFSELVGYIGSFWAAKMGCQCSKPSIDEDGKNRASEKFPSRKGSRDNLLKKGEDMRLNSVKRDEDVRINSSQRADSIRSKVKTDGVDMKLAYLDKRVNGSNRVHDDQIEKKKRERLGAAISANYPGKGSIPKAMEAEQVAAGWPSWLSSVAGEALEGWLPRRAETFEKLDKIGQGTYSSVYKARDIIQNKLVALKRVRFDNLDVESVKFMAREILILRRLDHPNVIKLEGLITSPRSCSLYLIFEYMEHDLTGLASRPGVKFSEPQVKCYMQQLLRGLDYCHSRGVLHRDIKGSNLLIDDNGILKIADFGLASPFDPHNQVPLTSRVVTLWYRPPELLLGASYYGVAVDLWSTGCILAELYSGKPILPGKTEVEQLHKIFKLCGSPPENYWKKLQLPHSTGFKTAQPYRRCIGGMLKDFPPSAVALVDKLLSIDPAHRGTAAAALKSEFFTTKPLACEPTSLPKYPPSKEIDAKFPGCRRQSRAEGKDPKDYVEGRRPKEAHINLSLNAKDEVNMSMQKRQGYSSFKGRGGVLNPHGDETVSGFLIPPPKQNQSVTEICSDTGRISHSGPLISKPDWMKSRKQLDDHSMALDGSNLSVLSRLVATRSNISDHPYDRPGPSQSEVGRLPDFVRDSESTRKQDRIFYTHRVADSYRIENEKVCAKEQSLLAYGTDMNKLYTSGPILGPSNNLDKILKERDRQIQEYARQARHGKAANSQLKNSRATTGKHLMSSHGM Homology
BLAST of CmUC02G043170 vs. NCBI nr
Match: KAG7010377.1 (putative serine/threonine-protein kinase, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 1621.3 bits (4197), Expect = 0.0e+00 Identity = 889/1362 (65.27%), Postives = 945/1362 (69.38%), Query Frame = 0
BLAST of CmUC02G043170 vs. NCBI nr
Match: XP_038901865.1 (probable serine/threonine-protein kinase At1g54610 [Benincasa hispida] >XP_038901866.1 probable serine/threonine-protein kinase At1g54610 [Benincasa hispida]) HSP 1 Score: 1345.1 bits (3480), Expect = 0.0e+00 Identity = 670/718 (93.31%), Postives = 685/718 (95.40%), Query Frame = 0
BLAST of CmUC02G043170 vs. NCBI nr
Match: XP_011656948.1 (probable serine/threonine-protein kinase At1g54610 [Cucumis sativus] >KAE8646852.1 hypothetical protein Csa_020724 [Cucumis sativus]) HSP 1 Score: 1342.0 bits (3472), Expect = 0.0e+00 Identity = 667/719 (92.77%), Postives = 690/719 (95.97%), Query Frame = 0
BLAST of CmUC02G043170 vs. NCBI nr
Match: KAA0062042.1 (putative serine/threonine-protein kinase [Cucumis melo var. makuwa]) HSP 1 Score: 1330.9 bits (3443), Expect = 0.0e+00 Identity = 662/719 (92.07%), Postives = 686/719 (95.41%), Query Frame = 0
BLAST of CmUC02G043170 vs. NCBI nr
Match: XP_008448300.1 (PREDICTED: probable serine/threonine-protein kinase At1g54610 isoform X2 [Cucumis melo] >TYK04978.1 putative serine/threonine-protein kinase [Cucumis melo var. makuwa]) HSP 1 Score: 1330.1 bits (3441), Expect = 0.0e+00 Identity = 662/719 (92.07%), Postives = 685/719 (95.27%), Query Frame = 0
BLAST of CmUC02G043170 vs. ExPASy Swiss-Prot
Match: F4I114 (Probable serine/threonine-protein kinase At1g09600 OS=Arabidopsis thaliana OX=3702 GN=At1g09600 PE=3 SV=1) HSP 1 Score: 551.6 bits (1420), Expect = 2.5e-155 Identity = 326/729 (44.72%), Postives = 429/729 (58.85%), Query Frame = 0
BLAST of CmUC02G043170 vs. ExPASy Swiss-Prot
Match: Q9ZVM9 (Probable serine/threonine-protein kinase At1g54610 OS=Arabidopsis thaliana OX=3702 GN=At1g54610 PE=1 SV=1) HSP 1 Score: 534.6 bits (1376), Expect = 3.2e-150 Identity = 274/468 (58.55%), Postives = 337/468 (72.01%), Query Frame = 0
BLAST of CmUC02G043170 vs. ExPASy Swiss-Prot
Match: F4ICB6 (Protein IMPAIRED IN BABA-INDUCED STERILITY 1 OS=Arabidopsis thaliana OX=3702 GN=IBS1 PE=3 SV=1) HSP 1 Score: 500.7 bits (1288), Expect = 5.1e-140 Identity = 283/622 (45.50%), Postives = 381/622 (61.25%), Query Frame = 0
BLAST of CmUC02G043170 vs. ExPASy Swiss-Prot
Match: Q5JK68 (Cyclin-dependent kinase C-2 OS=Oryza sativa subsp. japonica OX=39947 GN=CDKC-2 PE=2 SV=1) HSP 1 Score: 346.3 bits (887), Expect = 1.6e-93 Identity = 174/334 (52.10%), Postives = 228/334 (68.26%), Query Frame = 0
BLAST of CmUC02G043170 vs. ExPASy Swiss-Prot
Match: Q9LFT8 (Cyclin-dependent kinase C-1 OS=Arabidopsis thaliana OX=3702 GN=CDKC-1 PE=1 SV=1) HSP 1 Score: 345.1 bits (884), Expect = 3.6e-93 Identity = 178/364 (48.90%), Postives = 238/364 (65.38%), Query Frame = 0
BLAST of CmUC02G043170 vs. ExPASy TrEMBL
Match: A0A5A7V1F8 (Putative serine/threonine-protein kinase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold89G003810 PE=4 SV=1) HSP 1 Score: 1330.9 bits (3443), Expect = 0.0e+00 Identity = 662/719 (92.07%), Postives = 686/719 (95.41%), Query Frame = 0
BLAST of CmUC02G043170 vs. ExPASy TrEMBL
Match: A0A5D3C133 (Putative serine/threonine-protein kinase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold143G002010 PE=4 SV=1) HSP 1 Score: 1330.1 bits (3441), Expect = 0.0e+00 Identity = 662/719 (92.07%), Postives = 685/719 (95.27%), Query Frame = 0
BLAST of CmUC02G043170 vs. ExPASy TrEMBL
Match: A0A1S3BK01 (probable serine/threonine-protein kinase At1g54610 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103490535 PE=4 SV=1) HSP 1 Score: 1330.1 bits (3441), Expect = 0.0e+00 Identity = 662/719 (92.07%), Postives = 685/719 (95.27%), Query Frame = 0
BLAST of CmUC02G043170 vs. ExPASy TrEMBL
Match: A0A1S3BIS7 (probable serine/threonine-protein kinase At1g54610 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103490535 PE=4 SV=1) HSP 1 Score: 1322.8 bits (3422), Expect = 0.0e+00 Identity = 662/727 (91.06%), Postives = 685/727 (94.22%), Query Frame = 0
BLAST of CmUC02G043170 vs. ExPASy TrEMBL
Match: A0A1S3BK93 (probable serine/threonine-protein kinase At1g54610 isoform X3 OS=Cucumis melo OX=3656 GN=LOC103490535 PE=4 SV=1) HSP 1 Score: 1308.5 bits (3385), Expect = 0.0e+00 Identity = 655/719 (91.10%), Postives = 678/719 (94.30%), Query Frame = 0
BLAST of CmUC02G043170 vs. TAIR 10
Match: AT1G53050.1 (Protein kinase superfamily protein ) HSP 1 Score: 677.2 bits (1746), Expect = 2.8e-194 Identity = 360/716 (50.28%), Postives = 470/716 (65.64%), Query Frame = 0
BLAST of CmUC02G043170 vs. TAIR 10
Match: AT1G03740.1 (Protein kinase superfamily protein ) HSP 1 Score: 594.3 bits (1531), Expect = 2.4e-169 Identity = 344/680 (50.59%), Postives = 442/680 (65.00%), Query Frame = 0
BLAST of CmUC02G043170 vs. TAIR 10
Match: AT5G44290.1 (Protein kinase superfamily protein ) HSP 1 Score: 578.9 bits (1491), Expect = 1.0e-164 Identity = 339/663 (51.13%), Postives = 423/663 (63.80%), Query Frame = 0
BLAST of CmUC02G043170 vs. TAIR 10
Match: AT5G44290.2 (Protein kinase superfamily protein ) HSP 1 Score: 578.9 bits (1491), Expect = 1.0e-164 Identity = 339/663 (51.13%), Postives = 423/663 (63.80%), Query Frame = 0
BLAST of CmUC02G043170 vs. TAIR 10
Match: AT5G44290.3 (Protein kinase superfamily protein ) HSP 1 Score: 578.9 bits (1491), Expect = 1.0e-164 Identity = 339/663 (51.13%), Postives = 423/663 (63.80%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (USVL531) v1
Date Performed: 2022-01-31 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.
|