CcUC10G203530 (gene) Watermelon (PI 537277) v1
|
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AGATGATACTGAATATGAGATTTTAGATTAATTAAGTCTTTGGAATGATTAGGTGCCTCATCAAGCTTGAATAAATGCAACTTTTTATCAATAGTTGTAATAATTCAAATGGACCAATACATTATACTTTCACTTGAACTTGGAAGTATGCTCCTAGTAGATCTTTAGCTATAGTTGTTGCCGTTGGACCATGTCACATAATACATTATTCTCTCATAATTGAGTTGACCTTCATCGACTTTGAGCATTTCGTTGGAGTTTAATTTGGGGTAATTAATCACTCATTTCTTAATGTTTTTCAACTATCTTTTTCCCAAAAGAATTATCTATTTTCCTTTTTTCCAAGAAAGAAATATTAGTTCAAAAGCGAAAGTGAGGTTATAGTGAGCTTAGCTCTAATTCCTATATTACCTTCTTTCCTACTTCCAGAGATGGGAGGTTCCATCTCCGGGCTCCGTAACTGTTGTAAAAAAAAATTAAAAATTAAAAATTTTAAAAAAAAAATCTTGTCGAATTCCGGACGGTGGGATCGTACAAAAGGACCGATCGGAAATATCTTCCATCCTTGAGATCACTCTTCTGCTTCGCCGGGCTCGGTATCCGGCGGGAGAGCACTGGCGACCGGCTAATCCATTGCAGATTCGAGGTCATCTCTCTAACCAATTCGAACCAATTTCAAGCAAGTTCAAATCAAAGCGCATCTTTTGAGCTCTTCTCTCGCTTTCCTCCACCATGGGAACACTGCGAATGATAGGTACGTAACTTTCTTCCTTCCCAGCCAAACACTATTTTTCGCCCTTGTTTACTCAATCGAGCTGCCATTAACTCTTTTCGTCTTTCTATCAATGCCATCTTGCAGATATTGCAGTCAATTTTACAGGTAAGGACAACATTTCATTCGATTATAAAATGTCTGTTGTTTATACATTAGGGTACACGAAAGGGTCTCTTTCCATCTATTTCTCTGGAATGGGATTAGTGTTTTGAATGCAGATGGTATGTTCAAAGGAATTTACCACGGGAAGCAATACCACGCAGCTGACATAGCAGCTGTATTGAGCAGGGCTTGGAGTGCTGGGGTTCAGCGAATCATTGTGAGTCTTTTTCATTTTGTTTTGTAATACGTGTTAGAACGTAAGCGTGAAGGATTATCCCTATTGTTCGGTTATTTGATTTCTTAGTATCTTTAAGTTCTGGAACATGTATATATCCATGGACTGGCTTCCTTGATGCTCTCGTTTGCCTGAACCTCAATTAAGAAACAAAGAGTAGTGAGATCATGTGCTAATCTTTCTACTATTTCTTTCTGCCAAAGTTACTTCCTTCGGTGTCTTAGAAATTAGAACAGAAAAAGGCATTCTAAAATGGTCCGCCCATGTGCATATTAGACCGAGGAGGGATATGACCTTGTTCTTTTCTAAGATACTTAATAATACATTTCTTAGTCTTGGAGGGATTATGCGTAGCTTGATGGTTTTAGAAATGTGGGTACTTTTTAACGCTCGCGCCTTAATCTTCCATTCAGACTTTTATTTCCATGACCAGAAGGATGAAGAAAATAAAAACACATAAAGCATGCATGTAAGATGTATTCTGATAAACCATTTATTTCTTACTGTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTATTAATTTAAATTAATAAAAAAAAAAAAAAAAAAATGTTTAAAAAAAACCACCCCAAAAAAAAAAAAATTAATAAAAAAAAAAAAAAAAAAATGTTTAAAAAAAACCACCCCAAAAAAAAAAAAATTAATAAAAAAAAAAAAAAAAAAATGTTTAAAAAAAACCACCCCAAAAAAAAAAAAATTAATAAAAAAAAAAAAAAAAAAATGTTTAAAAAAAACCACCCCAAAAAAAAAAAAATTAATAAAAAAAAAAAAAAAAAAATGTTTAAAAAAAACCACCCCAAAAAAAAAAAAATTAATAAAAAAAAAAAAAAAAAAATTTTATAAAAATATTTTTTTTTTTTTTTTTTTGGGTCCGAAGATGATAGTGATACGATCTATAATAGGTTGTAATTGCAGGTGACCGGTGGATCACTCGAGGAATCAAGGGAAGCCCTTAAAATTGCAGAAACAGATGGTTTTATTTCGTTTTTGTTGTCTAAATTCTGTTGAACTTTTTTATACTCTTTTTGAACTTCCTAACACCCTACTGGGTTATCTGTGTTTCTCCTGGTTCAACATTTTTTTTTGCTTGTAGGAAGGCTCTTTTGTACTGTGGGTGTGCATCCAACTAGATGCAAGGTTGTTTATTCGTCTATTTCTTTGTGCATCATTCATGGTTTCGTATAGCTTGATTCTTCTATTTTTTTGTGCATCATTCATGGTTTCCTATAGCTTGTGATATACTTTCTTTTCAGGAATTTGAAGAGAGTGGTGATCCAGAGACGTATTTTCAGGCTCTTCTTTCATTAACCAAAGAGGGAATTGAGAAAGGAAAGGTTTGTATGTTTCTCATCTCGAAAGGGGAAAGGCCACAAAACTCAATTAAGAAGATCTAAGTTAGATGTCTTTGGCGTGATTCTCTTAGAGGATTAATCATCTTCCTTCCACACATATGTATTTAAGGTTGTTGCAGTTGGTGAATGTGGACTAGATTATGACAGGCTTCACTTTTGCCCTGCCGATATTCAAAAGAAGTAAGTGATGACCGAGAAAAATGTTCTTCAAATCCCATGTGATGCATTTTATGCAACCCAACAGATAAGCACAGTCTTGTGTTGGAGATTTGAATATTTATTTCTGAGCTATGCAATTGTAGATATTTTGAGAAGCAGTTTGAATTAGCACACACAACAAAGCTTCCTATGTTTCTACACATGAGGGCAGCTGCTGAAGATTTTTGTGACATTGTAGAGCGAAATAAGCAAAGGTCAGACTTCTAAACCAATGAGAGAACTAAACCCTTTACCATATTAGAATTTTCTAGAAATAAGGCACTAGTCATCTGGATTTGAAATAGAAAATTAGAACCAAGATGTGAATGCTTCTGAGGAATAAAACTTCAAGTACCAAGAGCAAAAACATTGACTATTTCAACAGGTACACAAGTCTGTGCAAGCGATATACTGGGATCCAATTTGTTCTTGCTACTAAATTAATCAGTTATCTGACCCATACATTTGACCACAACCATCAGCTTTTCTTTTAGAAGAAATTGTAAAGAAATGATAGAAACAAGAAAATGACAAATGAAAGGGAAATCAAATTATTTCCTCATAGCAAAGAAAGAATAAACTTACTTAAGATGAATGCAATTATCTTTAATACACTTCATAGGAAAGTAGAGAAATGCATATACACATACATGTATCTTTTTGTTTTGGCTGAAAGGAGAAAGGAGACAGTTATAAGGGCATAAACTTAAAAAATCCAACGGTATTGCACAGTTAAAATATATGGTTCAAGTATTACATGTATATACATTTCACATTCCTTATTTCCTTTTGCTTATTGTATTTTTCATAAATGATTAGTAGCTTGTCAATTTTAGTTGCCTTCTTTTCTTATTGCACGGATGTTAGATCATGCCATTGATGCTTGTTGCATAGGTTTTGTGCTGGAGTTGTTCATTCTTTCACAGATAGTGCAGAAGATCGTGACAAGCTTCTCTCATTCAGTAATTTGTACATAGGTGATCGCCACTTGCTCATCTTTCCAGCTTTATTTATTTCTCTCTCTTAAATCTCATTCCTGAAATTAATTGCAACTGCTAAACAGGGATTAATGGTTGCTCTCTGAAAACTACTGAAAATCTCGATGTTGTGAGGGGCATACCAATCGAGAGACTGATGATTGAGACGGACTCTCCATATTGTGAAATCAAGAATACACATGCTGGGATTAAGTTTGTTAAATCAACCTGGGCTTCTAAGAAGAAAGAGAAGCATGATGAGCAGTGCATAGTGAAAGGAAGGAATGAACCATGTTTAGTTCGGTAAGATACTGTGTATTTTATTGTTCTTTTCCTCAAATAGACTTCCGTTTACTGTTATTTATATCGCCATCCAGGAAAATGCTTTCCAATAATTGCTTCTAGTTTTAGTGGACCAACTAGGTATGTCTCAAATTATAAAAGCACTCAGTTTTGCAAATTTATAATATGAGTTGGGAGGGTAAGATGCATCATTGGACCCAAAGTTTCTTCTTTTACCCTCTTTTATTTTGCAACGGAAGTTACAATGATTTGGGCTTTATAGGTAGATTATAAATGTTCGTTCTTTGTTGAATTTATTAGTAATGACTTGTACGAATATATTATATTTCTTGCTGTTGAAGATTGTTAAAATGGAACTTTTCCCTTGCCAGTCCCTTTATCCTTTTGTTTCTAAACATTTTCCTTTAGTTTCTTTTTTGAAGAAGAGGTCGTGTTTGATGCAATTATAGTTATATGTTTTGGCTCTGTTTTTTACTCTGTCAATGTCTTCACTGTTTTGTTTCTACATATCCTGAATATTTTCCTTGTCTTGCAGTATTTTCGGGAGGGGTTGTGTTTGATGCAATTTATTACTTTTCTAAGATTTGGTTTTATTTTTCAGGCAAGTTCTTGAGGTCTTGGCTGGATGTAAAGGCATCATGGATATCGATCAGCTTAGTGAAACTTTGTACCATAATACGTGCAGGTATCATGAATTTCCAATAAGGAGACTATATCATTCAAATACTTAGATTTTCTGTAAGACTGCAACGAATTATTCATAGGAGTCTTACTATTTTCTTTCTACTTTGTGTTGCTCTATTTTGCAGAGTTTTCTTTCCTCAAGACCTGGACTCTGCAGCAGATGCTCTCCTTGCTGGTTCTCATGATCTTGATGAAAAAATTTAGTATAAATCTGAAACCTACTTTTTGTTAAACTCTTTTGTTTTTACACACCATTAGTTTTGGATGCAGAAGCACATTTTCTCTAATATATCAACTTTCTTTCATTACCATGCTTCCAGTTTTTCAGTCTCCTTTTTTCTTAAGAGAGTTTTTTTACGGTTCAATTGTCATTCTCAGGAAGGTGAGTGAGAGATAGACAACAAATCAATGGTTGTATACTCGAAGTCTTAATTAGCAAAGATAAGGTAATAAAAGGCCGAGAGATGAATATATCGTAGTATTAACTCAGCAAAGAGATTCCATAGCACATGTAGTCTAATTCTCAAGTCATACATAAAAAACTCGTAAACCTATGGCAACACTTTCACATCCCTCAGCTCACATACACCACTCAATGAAAAAAATCTAGGCTTCCTTGGTAGTTGAGCAAGGAATGAAAGAAAATTGCGAGGGAGGACTTGAAGGTATGCAATTTTCAGAACAATTTCCTTAGCCTTCAGTTTCAGTTTAATTTTCGGGCCAACTCAACCATCAACATCAGGTTTCAGGCACTGATACTGGTAAGCAATTCTTTGCTGTCGATTTCATTTTCAATCCTCGTGAATGCTGCTGGAGAAGTCAGGGCCTGCCCTGCAGCAATGTTCAAACGAAGCGGCCGCCCTTCAACTTCCTGTCAGCATATTTGCATAGGAAGAGGTCAATGTGTGACTTGTATCTATAACATAGGACTGAATATACAAAATGCAGGTACATTTCTCATGGCTATTTCTCAAATAATGTAATTCCGGTTTGCAAGGTTTATGTTAATATGGGCCCATTTAGAGGTAGTTAAAAAATAATAATGTAGTTAGGGATCAGTCACATCAGTAAATTCTGTCACATTTTCAAGTTGTCTTCTTTCTAGAATCATATTGCCAACTACTCTATTTGAATAATTAATTCTAGATTCTCATTCTTTTAGAAAGTAACTCCACTTCCTTACCACTCCATTCATGGACTCCAAAGCAGACTCTGCATCCTCAGCAGTTTCGAAGGATACAAATCCAAAACCTCTACTTTTTCCAGATGCCCTATCATAGATGACCTTGGCACTCAATATCCCTGGTTGGTTTTCAAAAGCCTCTCTAAGACTCTGAGAAGTGAGACCCCAACCAAGGTTCCCTGCATATATCTTGTGAGGACTATCTACAAATTTGTTATAGCTGCTTCTTATCTTTGGCCCCATGACTTCCTTTTCTCCTCCCCTTGGCACTTCAGGGAAGTTCACCCGAACAGTTCGACCACCGATTTGCTGACAAGTAGTGCAACCATTAGCTTATAGCAATCTTGAATATCTTACACTATCAATAAATTTGTCAATCATTTAGAGACGTCATACCGTGATGTCAAAACTATAAGACTGAACATTTGTAGTCTATTTGTGACCATTGTATTAGAATCACCACCACCCTTGAATGTCTAACACTAACAGTAATATCATCTAATTCTACAAAGGCACCAACAATGCCATAACAAAATATTTATAGAGACACCATGATATGCCAATGGCTCAATTAACGGAAAAGCACTCCAACACTAGAATTTGCCTACTGGTAAATTGACTTTCTCCAAAGTTTAACCATTGTTTTAAAGTATGGAAAAATGTGCACAATTCTTAAGCTAAAAGAAAATGAAACAAAAAAGAGAGAGAATATAAGTAATTACAGAGCCATCAAACATCCGAATTGCTTCTTTAGCTTCCTCCAAAGTGGCCATTGTCACAAATGCAAATCCCCTACTCCTATCCGTAACTTTGTCATATATAACCTAACAGAAGATTCAGAAGATAAACACATAAGAAACCAACAATCGCTAAGCAGTTCCGATAAGCCCTAAAAGAATCGACTCAGAATATTCTGATAAAAAAACTAGTTCAATCCCAAACCTGTACAGAAACCACATGACCAGCTTCGGTGAAGACCTCGGACAATTGGGAAGAAGTCATAGCATATGGTAAATTCCCAACATAAAGCTTCCCTGCTTCGCGAGACACCGATACCTTTTGTTCGTCTTCTTCCTCTTGGGTTTCTTCTTCTCCATACGGTTCTTGTACCTCTGCGTATTCTGTCTCAGAGTCGGAGACTTGGAGGCCATCGAAAGCAGGAGGAGCACAGTGGAGATGAGAAGCAGAGGAAAAGGAAAGAGGGTAAAAGTTGGGTAAATGAATCCGGAGGTTGAGAAGCTTCAATGGGTTCTGTTTCGGAGAAAAATGGGAGGGAATTTGGTTGGGATGTTGAGTGAAGAAGAGTTTCTTGGAGAATGGAGAAGAAGAGGAAACTGAAGTTGCTGTAGTAGCAGCAGCCATTGAGACAGAAGAAGCTGACATTTGAGGAAGAAAATGGAAATGGTGGAATTCCCCAACTGACAGAGATGGATTTCTGCTCCGGGGAGCTTCAGAAATTGAAAGATGAAAATCTAAGTGGATAAGGTTTGCTTTGGTCGGAATTTTTTTATCTCTACTTTTGTATTACTTTCACCCATTGTTTTACCACGTCAACATCTTTGGAAGAATGACATGGATGGATTAAGTGCTCGACTCAATTAGACATCTTTGAAAAGTAATTGGTAAAAAGAAAAAAAACATATGCATTTTTTTAATTAGGAAAAATTACTTTTTAATTCTTGAATTTTGGAGAATGGGGTCTTTGGTTCTTCTCAAAACGTACCTTTTAAATCTTAATCCTACAGTTTTTTAGAACTAGTCGAGAAATATTTGCTTACGTACTTCAAATCTTGTAGTCTTTATTAAAAAAATCCAAAATATAGTGATTTTTTGGTTGGTAAAAAATAAATCATTAATTTTTTTTATTTATTTTAATTACTATAAACTTTTAAGAGGTACATAAGTCTATAGTCTATCGAGATTTATTGTTGAGACAGTAAAATTTTTCAGTTTCATATTTTCCAAGTATACGATTCTTTTTTAATATAAATCTACTTTATTTACTTTCAAATTTGTCTCTTAAAAGATCTTGTACTTCTATTTTCTTCCAAATTTTTGTTATATGAAATATATATATTTTTTTGATTAATAACATACTCAAACACTTTAAAAGAATTAAGCACATGTTCGATGTGTTACCACCACCCTCCGAATAATCATATCTTATTAGCATCAATTGCATCAATCAATGTTTATCAAATACCTACATTCAAAAAGTTAAAGCACCAATTAATATATAAACATATTTTGTGAATTAAAAATTAAAAAAGTCACATCTATTATCTTTTGAACTCGAAAATGCTCATTCCATTGATAAAGAATAACTTAGGAACTAAAATTGATCAAATTTGAAAGTACTTAACCAAAATAGTAATCTAATTTATTTTAACCATGCCGAAATAAACTTGACTTAGTATTAACTTCTATTCCGTCCCTTCGAGTCAAAGGTTGAATCCCTTCCCAAAAAACTTATTTTAAATGATAGGAGTGGCACGTGATACGATGAGATTGGTATCTTTGTTGGTTCCAGATCTGAAAAACGCGGTGGGACCAGGCCCTTCTTCCCATCGGTTCAAAACAAAAATCAGACAACATTTCATTTTCCTCTTTCTTCCGGATTAACAGAGAGCGGTCTTTCAATGACGGTGGAAGCTAAACCCATACATCCTTCACAAGTCGACGGTGGAGGTTCCAAAATGTTGGAGATGAGTCCATGAAGAAGAATCTCACAATCCAGGTTCCGATTTCCTCATACTCTCACTTCTTAATCTGTTCAATTCATATTCTTCTTCCTGATTTCAATCTCCATAATGTGGAGTCTTTCCGCTTTCATTTTTCTCGCTTGTTTGGCTTCCTAGAAAATGCTCGGAAATGTATGATATATTACAGCTTAAATTACTACATGACATGAACTCTTTGGACTTTCTATTAGTTTTTTCTTTTCGGACCTATTTTACATTTTTTTTTTCTTTTTTTAAAGAAATTCAGATGCGTTGTATATAAAATTGAAAGTTTAGATCAATATTCAACATGTTGTTTTTGGTCAAAAGGCATATGAAAAAGGTAAAAATTTTGGAAATCAATGATTTATTAATTTATTAATTATTTATTTCATGGATTTCACAAAATTTTTAAGTCATGAAGAGGGAAAATCGTACTAACCCAAGTCTTTTTTACTTTTCATATTTAGGGTGAAATCACACAAATCACTCTGGATCTCCTCTCTTTCACAATCATTCCCACTGTCTGCGAACAAACCCATGTTTCCCCCACTCTATCAATCTCCTCTCTCTCGCATGCTCCCTCACCTTCTTGCTCTCTTGCTCTATCTGCTAAAAAACCGCATATCCAATGAAACCAGTTCCACAAAACCCCCCATGCGACAGAAACGCATTCCAGAGGAAACCGAGAAGGAATAAAGGGTATTTTGGTATAACTTTCAAAAAGTAGGGCAAAATCCTTCTTGAAAAGCTATACAATTATCTCAAATCAAGAGTCCCAATATATATTTATATATATATATATATATATATATATTCACATAACCACAACTAACGTTAATCTAACCCAAAAGTCCATCTAGAATCATTTTTAAACATTTTAGGTATTAAATCTGTCCATTTTAAACTGACAAAAAGCTTGTTTTGCCCAGAAAAGAATATTTCAAAAGGCATTTTCTTTTACTTTATTTTATTTTGTTAAATAAACAAACCATTACTAATGGAATCTACAATTATTTAGTTCATTTGCATTCTTTATTATTAATTCCCTCTGCACACCTTTTGAACTATTTTACTATTTATTGTTCACCAAGTCTTTTTTTTTTTTTTTTTTTGTAATCAAGTAATTAATTTAATGAAGAGAATCATCTAAAGTTGTATTGAATAGTCAAAGAAAAGCATGTCAACATATTTTTATGAAAACGTAGATATGGGCATTAGCATGAACAAGTGCGAGAAATGTTGCATTGTGCTAAAAAGGAAACGGCATGGATGCCATTACAATTTACAAAGACAATATTCTTTATTATACACAGACAATATTCTTCATTACAAAGACAAATCTTCTTCATTACACACAAACTGAAAGACAAACATGACAGTTGTCCATAAACAAACCCACAAGCCGAGCATCTTTGTTCAGTACATTACAAATTGCTTCAGAATGTCTGAATTTGAGTAAACAAAGAGACTTAATGAACATTCTTCTTGTTCTACTTTCAGGGTCACAAAATAAACACAGTGCAGAATTCATTCTCTTGATGCTCTTATTCTTGAACAGACCCTTTTGTTTACTGCACTGCAATTACTTCATACTTGATATCTGATTGGATGATTCCTTTGTTTCTCTTAGCCACTTCCCATACTGAGAAGCAAAACAAAGAGATAAGAGACATCCTACACCTACATTAGTTAGAGCCAAAAATGACTTGCCATTGCAACCAAACGCGGGGACTATCCTCATCGCGAAGCCTGAGACAATTGCCATCGACGACATTGTAGCAAGCTGGATTTGGTCGCAACAAAGACAGGGTTTTGGTGCAATGACTTGCACCAAGAACCCATTGCCTTCGCCATCAAACACAAAGGTCGCAGCAGTTGTCAGCTGCTGCAACCCATTTGGGCAGAACCATGCCATGCCCTCCTCCATCGATGATCTCTGCCAGTGATGGTATTGATGGTCCAAGATGGTTGATTTGAAAACGTTGTAGTCCCCTCGAGAATATGCTCGATACCTCTGAATTCGAGAGACTAAAGCCCCTCCCCTTTGCATCATTTTGGGAGTTCAAAGTGCCACTTTCTGATTGCAGAACCACAGAACATTGGGAGCCAGTTGAATCAGAAAGGTTCACATCATCAATTTTCTTTGGTTCCATTGAGAGTTTCCCATTTTTCAGATTCTTTGTGTTCAAGAAACGGCCACCAGATCCCCGTGGACGGCGCATTGCATGAAGATGACGCGATTCGTGCATATATGGCTGTAAGACAGATATGCAATCTATATCAGCAGGAGTAATGTGGATATATAGTGTTCTGCACAGGACAAAGAAAAATATTTGGACCGATGATGTTACTGCAGCAAAAGCATAACAGTTCGTTCAGAGTACATAATTAACATGATGCTGACTAGTATATCATATTCAAGCCAAATGTTGATATCGAAAATTCTTATAGCCCAAAGGTTGGCAAACAGAAATTCCAATAAAACCGAATTGGAGTTACTCTTCAGACAGGCATCCGCATCAGATTGACTTCTAGTTCTAGTTATACCGGTGAGGAAATATACCACAAGGAAACTATTCACATCCTTAGATGTACATACATCTTCTATGAATTCCAAGACCAAAAGAAAAAGAATAATATGCCTATCAAATCTATGAGGGGGACCTGAGTAAGTCTTACATACCTTACGAGTTCTTGCAAGTTTATTCTCCATCATTGCCTTAGCACGGATCTGCCTGCGCCTAATGATTCCATGATACTGCTTTGCATTCACATAAATAGGTCCATCATCTGATGTTAAGCTCATTGGCAGCATAATCCGGCCCTGAATAATGCAAACAGTCAAGTTTTTACTCACTGATAGGCAGACTTACCTTTCCAGATAGCTTACAATGAATACCAGAATCCAACCAACAAAAATATTGTTCAAGAAAAATATTTCTCTACCATACTTCCTTACATGAAACCTTAAGTTTTGGTTCCTATTAATTTTTTGGTAACATTCATCTCGCATATTCCCAAAATGTGCTATCTCCTTAGCACCATTTCTGGCTTTTTAGCTATGTTGTTTTCCACTTCCCATTCTACATTTTTTTGCATGCTATAGTTCACACTATGCATCTGACAGAGTTTCATCTTTTTTTCTTTTGTTGGAAAATATTTAACAATATAAGACAATTCACATAGAATAATACATTGAAGTAAAGAGAAAACAGAAGGTAAAATGGAAAATGGATGTGGTTGAAGAATGGAAGGAAACATACTGGTATTTGAGGTCCATAAGCTGACAGGATGCCATAATGCTGTTCCATGTACGGATAATTTGCACATATCTGCATTTTTTGTTTTCAGAATCAGAGACATAATATAAACAAACATCATTGTTTTAGAGAGAGAAAAAAAAAATCCAAATAACATTTTAGATCATACCAAAGGTTGGCCAAATCCAAGCTCAAAACGATTTTGATATTCTGACAAGGGTGATTGCAGGGAAAAAACTGGTGAAGGTTTTTGTGCATCCATCGAAATCTTACAGTCACCTGCATCGATTTTGTAAGAGCAGTTTTCTCATCAGATAAGGATAGAAACATCACCATTATGATAGACATTTTAACTAAGGAAGCTCGAAAAGAAGGGGGAAGAGTCTTTCTTGAGTCTCATGCTCTCTTTCCTTCTTGTTTTATAATCATTGACATTTGAGCTTATTGCTCTATGATGCTAAATTCTTGATGAAGCATTAGCTAGAAAATGATATTCTGAAGGGAAGGTAAAATATTAGTGAAAGAAAATGGGAAATCCAGTTCAAGAGTATAAAAGAAAAGCAGTGGGGCTTCTATGTTCTAAAAGGTGTACTTCAACAATAGATGATTGAGACATAAATTACACAACAGGATTGCATTTAACTTCCAAATGCATATGGTGAATTTGGATGCATGTTATTTCATTAGTAGTAAAGTTCATTGAAGGTGGAAACTCCTTACTATTGGATACAACTCAATGTTAGTTACTCACAATGCAGGTGCAATCTTGGAGATGTTCAGAGGCTCCTTGCCCCCCAGCCTAAGCAAACTCAGGTTACTAAAAAAATCTCCCGTCCCCAACGTCATGCAACTGAGTTATGAGTCGAGTTGATCAGCTAACAATCTAGGTCTTCTTCCCCTAACATGTTTCTTGTTATAGACAATTCTTACCAGTGGTCTATTGCACTTTGAATAGTAGTATCTCAGAGCATAAGTTTGCTACATGTCAGGAAAGAAGCATCCAACTTCCTTGTCAATCTCCCTATGCTATTCGTTTTTAGAGAACCTACAAATTTTGTGAATAAATCACTCCTTTGCCACCTCTTATTAACTTTTTAATAGCCTATAACATCCTGACTCGAAAATCCGTACATATAACATATAACGTCGTTCGTTGAAAATCCATGCATCCACCATTATAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAGGAGGAGGATGAAAAACCATCTATGCCATTGTAAGAAGAAGAAGAAACAATCTAACATTCAAAGATTAATTTCATATAACGCCAACCTTCCACTACTCTGCAGCTTCCTTTTGTAAGTAATTTGCTTGGAAGAAGAAGGCTAATACATCAAACATTACAGCCTAAGAAATTGGAAGAAATCCTTCATGTAATCTAAAGAGAGACACATCATAAGTAAAGTACAAGATGCATTTTTGGCATACTTAAATACGATGATGGGAAATGAAAATGAATCAAACGAACAGAAAGTTACCAGGATAGATGGAAAATGGAGCTATATTCATTTTCTCCAAGCCATGAGCAGCTTGTTTGGTGCCATTGAACTCCTTCCCATTACTGCCAAGTTGTTCAATGGATGAAGCCTTGACTTGACCAAAATCCCCAAAGATTGATTGAGAACCTTGCCCAAAGGCACTCCATAAACGGGCAGGAGAAGATGATAACTGGCCAAGGGAATTAGGAACAATTCCTTCATGTTCTTTCAAATAGCCAGTTTGTGGTGCCATTTTCCAAGCCTCAAAATCACCAAGAAACAGTTGTTTTACTAATCCCTTCACACCAATTCCTACAATTCAGAGTTGGAACAAAGAGACTATGAGACATTTACAATGAATCTAATCTCCATAAAACGATGGAGTGAAATCGAAAAATGGGAAAGACAAATAAAACAAGTTAAAAGTTCATTTGGGCAGCAGCGTTTAAGCAAAAAGAAGAAGATGAACAGCCACTTCAAAAAGGGCAAAAAGAAAAAGAGGGGAAAAACACCCACACGAGCTTCCTTCAATCACAGAACAATAAGCAAAAATTGCCCCCCCAAAACAACAGACCATAGACAATAGATAGAACAAAAACCAGAGCAACAATAGCAGAAGACAAGGCGATTGAACAAACCAATATCAATAAAAGCAATTAAGGGGAAGACGAAACAAACCCAGAAGAAAAAAAGGTTCCAAAAAACAACCCCAGATGGAAAAATGACAAAAAAAGAAATCAGAGCTGAGACTGAAGCTGAAAAACCTTAGTTCATAGAAGAACAAGAGAAGAAAGGGGCAAAGATCAGAGGGTAAAATTTACTCACAAAATTAAAATCAGCAAAAACAAGAAGAAGGAGAAGGAGAAGAAGAAGCAGCAGCAGCAGCAGGTATTGAATACAGGCACAGGAACCCCATTTGATAGGAGTGCTGTTGGTACATTTCAAGCAAAGCACTAACAGAGAGAGAAAGAGGAGAGAGAGAGATAGAGAGAGAAAGAAAGAAAAAGAATTAATGCACACAAGTGTAAAATAACTAAAACCCAAGAACCAATGATCTTTACCTTGCATGCAAGAATTTTGTTCTATATGGAAAGCTTCCATTAATATATATATATCTATAGAC AGATGATACTGAATATGAGATTTTAGATTAATTAAGTCTTTGGAATGATTAGGTGCCTCATCAAGCTTGAATAAATGCAACTTTTTATCAATAGTTGTAATAATTCAAATGGACCAATACATTATACTTTCACTTGAACTTGGAAGTATGCTCCTAGTAGATCTTTAGCTATAGTTGTTGCCGTTGGACCATGTCACATAATACATTATTCTCTCATAATTGAGTTGACCTTCATCGACTTTGAGCATTTCGTTGGAGTTTAATTTGGGAGATGGGAGGTTCCATCTCCGGGCTCCGTAACTGTTGTAAAAAAAAATTAAAAATTAAAAATTTTAAAAAAAAAATCTTGTCGAATTCCGGACGGTGGGATCGTACAAAAGGACCGATCGGAAATATCTTCCATCCTTGAGATCACTCTTCTGCTTCGCCGGGCTCGGTATCCGGCGGGAGAGCACTGGCGACCGGCTAATCCATTGCAGATTCGAGGTCATCTCTCTAACCAATTCGAACCAATTTCAAGCAAGTTCAAATCAAAGCGCATCTTTTGAGCTCTTCTCTCGCTTTCCTCCACCATGGGAACACTGCGAATGATAGATATTGCAGTCAATTTTACAGATGGTATGTTCAAAGGAATTTACCACGGGAAGCAATACCACGCAGCTGACATAGCAGCTGTATTGAGCAGGGCTTGGAGTGCTGGGGTTCAGCGAATCATTGTGACCGGTGGATCACTCGAGGAATCAAGGGAAGCCCTTAAAATTGCAGAAACAGATGGAAGGCTCTTTTGTACTGTGGGTGTGCATCCAACTAGATGCAAGGAATTTGAAGAGAGTGGTGATCCAGAGACGTATTTTCAGGCTCTTCTTTCATTAACCAAAGAGGGAATTGAGAAAGGAAAGGTTGTTGCAGTTGGTGAATGTGGACTAGATTATGACAGGCTTCACTTTTGCCCTGCCGATATTCAAAAGAAATATTTTGAGAAGCAGTTTGAATTAGCACACACAACAAAGCTTCCTATGTTTCTACACATGAGGGCAGCTGCTGAAGATTTTTGTGACATTGTAGAGCGAAATAAGCAAAGGTTTTGTGCTGGAGTTGTTCATTCTTTCACAGATAGTGCAGAAGATCGTGACAAGCTTCTCTCATTCAGTAATTTGTACATAGGGATTAATGGTTGCTCTCTGAAAACTACTGAAAATCTCGATGTTGTGAGGGGCATACCAATCGAGAGACTGATGATTGAGACGGACTCTCCATATTGTGAAATCAAGAATACACATGCTGGGATTAAGTTTGTTAAATCAACCTGGGCTTCTAAGAAGAAAGAGAAGCATGATGAGCAGTGCATAGTGAAAGGAAGGAATGAACCATGTTTAGTTCGGCAAGTTCTTGAGGTCTTGGCTGGATGTAAAGGCATCATGGATATCGATCAGCTTAGTGAAACTTTGTACCATAATACGTGCAGAGTTTTCTTTCCTCAAGACCTGGACTCTGCAGCAGATGCTCTCCTTGCTGGTTCTCATGATCTTGATGAAAAAATTTAGAAGGTGAGTGAGAGATAGACAACAAATCAATGGTTGTATACTCGAAGTCTTAATTAGCAAAGATAAGGTAATAAAAGGCCGAGAGATGAATATATCGTAGTATTAACTCAGCAAAGAGATTCCATAGCACATGTAGTCTAATTCTCAAGTCATACATAAAAAACTCGTAAACCTATGGCAACACTTTCACATCCCTCAGCTCACATACACCACTCAATGAAAAAAATCTAGGCTTCCTTGGTAGTTGAGCAAGGAATGAAAGAAAATTGCGAGGGAGGACTTGAAGGTATGCAATTTTCAGAACAATTTCCTTAGCCTTCAGTTTCAGTTTAATTTTCGGGCCAACTCAACCATCAACATCAGGTTTCAGGCACTGATACTGGTAAGCAATTCTTTGCTGTCGATTTCATTTTCAATCCTCGTGAATGCTGCTGGAGAAGTCAGGGCCTGCCCTGCAGCAATGTTCAAACGAAGCGGCCGCCCTTCAACTTCCACTCCATTCATGGACTCCAAAGCAGACTCTGCATCCTCAGCAGTTTCGAAGGATACAAATCCAAAACCTCTACTTTTTCCAGATGCCCTATCATAGATGACCTTGGCACTCAATATCCCTGGTTGGTTTTCAAAAGCCTCTCTAAGACTCTGAGAAGTGAGACCCCAACCAAGGTTCCCTGCATATATCTTGTGAGGACTATCTACAAATTTGTTATAGCTGCTTCTTATCTTTGGCCCCATGACTTCCTTTTCTCCTCCCCTTGGCACTTCAGGGAAGTTCACCCGAACAGTTCGACCACCGATTTGAGAGCCATCAAACATCCGAATTGCTTCTTTAGCTTCCTCCAAAGTGGCCATTGTCACAAATGCAAATCCCCTACTCCTATCCGTAACTTTGTCATATATAACCTGTACAGAAACCACATGACCAGCTTCGGTGAAGACCTCGGACAATTGGGAAGAAGTCATAGCATATGGTAAATTCCCAACATAAAGCTTCCCTGCTTCGCGAGACACCGATACCTTTTGTTCGTCTTCTTCCTCTTGGGTTTCTTCTTCTCCATACGGTTCTTGTACCTCTGCGTATTCTGTCTCAGAGTCGGAGACTTGGAGGCCATCGAAAGCAGGAGGAGCACAGTGGAGATGAGAAGCAGAGGAAAAGGAAAGAGGGTAAAAGTTGGGTAAATGAATCCGGAGGTTGAGAAGCTTCAATGGGTTCTGTTTCGGAGAAAAATGGGAGGGAATTTGGTTGGGATGTTGAGTGAAGAAGAGTTTCTTGGAGAATGGAGAAGAAGAGGAAACTGAAGTTGCTGTAGTAGCAGCAGCCATTGAGACAGAAGAAGCTGACATTTGAGGAAGAAAATGGAAATGGTGGAATTCCCCAACTGACAGAGATGGATTTCTGCTCCGGGGAGCTTCAGAAATTGAAAGATGAAAATCTAAGTGGATAAGATCTGAAAAACGCGGTGGGACCAGGCCCTTCTTCCCATCGGTTCAAAACAAAAATCAGACAACATTTCATTTTCCTCTTTCTTCCGGATTAACAGAGAGCGGTCTTTCAATGACGGTGGAAGCTAAACCCATACATCCTTCACAAGTCGACGGTGGAGGTTCCAAAATGTTGGAGATGAGTCCATGAAGAAGAATCTCACAATCCAGGGTCACAAAATAAACACAGTGCAGAATTCATTCTCTTGATGCTCTTATTCTTGAACAGACCCTTTTGTTTACTGCACTGCAATTACTTCATACTTGATATCTGATTGGATGATTCCTTTGTTTCTCTTAGCCACTTCCCATACTGAGAAGCAAAACAAAGAGATAAGAGACATCCTACACCTACATTAGTTAGAGCCAAAAATGACTTGCCATTGCAACCAAACGCGGGGACTATCCTCATCGCGAAGCCTGAGACAATTGCCATCGACGACATTGTAGCAAGCTGGATTTGGTCGCAACAAAGACAGGGTTTTGGTGCAATGACTTGCACCAAGAACCCATTGCCTTCGCCATCAAACACAAAGGTCGCAGCAGTTGTCAGCTGCTGCAACCCATTTGGGCAGAACCATGCCATGCCCTCCTCCATCGATGATCTCTGCCAGTGATGGTATTGATGGTCCAAGATGGTTGATTTGAAAACGTTGTAGTCCCCTCGAGAATATGCTCGATACCTCTGAATTCGAGAGACTAAAGCCCCTCCCCTTTGCATCATTTTGGGAGTTCAAAGTGCCACTTTCTGATTGCAGAACCACAGAACATTGGGAGCCAGTTGAATCAGAAAGGTTCACATCATCAATTTTCTTTGGTTCCATTGAGAGTTTCCCATTTTTCAGATTCTTTGTGTTCAAGAAACGGCCACCAGATCCCCGTGGACGGCGCATTGCATGAAGATGACGCGATTCGTGCATATATGGCTGTAAGACAGATATGCAATCTATATCAGCAGGAGTAATGTGGATATATAGTGTTCTGCACAGGACAAAGAAAAATATTTGGACCGATGATGTTACTGCAGCAAAAGCATAACAGTTCGTTCAGAGTACATAATTAACATGATGCTGACTAGTATATCATATTCAAGCCAAATGTTGATATCGAAAATTCTTATAGCCCAAAGGTTGGCAAACAGAAATTCCAATAAAACCGAATTGGAGTTACTCTTCAGACAGGCATCCGCATCAGATTGACTTCTAGTTCTAGTTATACCGGTGAGGAAATATACCACAAGGAAACTATTCACATCCTTAGATGTACATACATCTTCTATGAATTCCAAGACCAAAAGAAAAAGAATAATATGCCTATCAAATCTATGAGGGGGACCTGAGTGCAATCTTGGAGATGTTCAGAGGCTCCTTGCCCCCCAGCCTAAGCAAACTCAGGTTACTAAAAAAATCTCCCGTCCCCAACGTCATGCAACTGAGTTATGAGTCGAGTTGATCAGCTAACAATCTAGGTCTTCTTCCCCTAACATGTTTCTTGTTATAGACAATTCTTACCAGTGGTCTATTGCACTTTGAATAGTAGTATCTCAGAGCATAAGTTTGCTACATGTCAGGAAAGAAGCATCCAACTTCCTTGTCAATCTCCCTATGCTATTCGTTTTTAGAGAACCTACAAATTTTGTGAATAAATCACTCCTTTGCCACCTCTTATTAACTTTTTAATAGCCTATAACATCCTGACTCGAAAATCCGTACATATAACATATAACGTCGTTCGTTGAAAATCCATGCATCCACCATTATAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAGGAGGAGGATGAAAAACCATCTATGCCATTGTAAGAAGAAGAAGAAACAATCTAACATTCAAAGATTAATTTCATATAACGCCAACCTTCCACTACTCTGCAGCTTCCTTTTGTAAGTAATTTGCTTGGAAGAAGAAGGCTAATACATCAAACATTACAGCCTAAGAAATTGGAAGAAATCCTTCATGTAATCTAAAGAGAGACACATCATAAGTAAAGTACAAGATGCATTTTTGGCATACTTAAATACGATGATGGGAAATGAAAATGAATCAAACGAACAGAAAGTTACCAGGATAGATGGAAAATGGAGCTATATTCATTTTCTCCAAGCCATGAGCAGCTTGTTTGGTGCCATTGAACTCCTTCCCATTACTGCCAAGTTGTTCAATGGATGAAGCCTTGACTTGACCAAAATCCCCAAAGATTGATTGAGAACCTTGCCCAAAGGCACTCCATAAACGGGCAGGAGAAGATGATAACTGGCCAAGGGAATTAGGAACAATTCCTTCATGTTCTTTCAAATAGCCAGTTTGTGGTGCCATTTTCCAAGCCTCAAAATCACCAAGAAACAGTTGTTTTACTAATCCCTTCACACCAATTCCTACAATTCAGAGTTGGAACAAAGAGACTATGAGACATTTACAATGAATCTAATCTCCATAAAACGATGGAGTGAAATCGAAAAATGGGAAAGACAAATAAAACAAGTTAAAAGTTCATTTGGGCAGCAGCGTTTAAGCAAAAAGAAGAAGATGAACAGCCACTTCAAAAAGGGCAAAAAGAAAAAGAGGGGAAAAACACCCACACGAGCTTCCTTCAATCACAGAACAATAAGCAAAAATTGCCCCCCCAAAACAACAGACCATAGACAATAGATAGAACAAAAACCAGAGCAACAATAGCAGAAGACAAGGCGATTGAACAAACCAATATCAATAAAAGCAATTAAGGGGAAGACGAAACAAACCCAGAAGAAAAAAAGGTTCCAAAAAACAACCCCAGATGGAAAAATGACAAAAAAAGAAATCAGAGCTGAGACTGAAGCTGAAAAACCTTAGTTCATAGAAGAACAAGAGAAGAAAGGGGCAAAGATCAGAGGGTAAAATTTACTCACAAAATTAAAATCAGCAAAAACAAGAAGAAGGAGAAGGAGAAGAAGAAGCAGCAGCAGCAGCAGGTATTGAATACAGGCACAGGAACCCCATTTGATAGGAGTGCTGTTGGTACATTTCAAGCAAAGCACTAACAGAGAGAGAAAGAGGAGAGAGAGAGATAGAGAGAGAAAGAAAGAAAAAGAATTAATGCACACAAGTGTAAAATAACTAAAACCCAAGAACCAATGATCTTTACCTTGCATGCAAGAATTTTGTTCTATATGGAAAGCTTCCATTAATATATATATATCTATAGAC ATGGGAACACTGCGAATGATAGATATTGCAGTCAATTTTACAGATGGTATGTTCAAAGGAATTTACCACGGGAAGCAATACCACGCAGCTGACATAGCAGCTGTATTGAGCAGGGCTTGGAGTGCTGGGGTTCAGCGAATCATTGTGACCGGTGGATCACTCGAGGAATCAAGGGAAGCCCTTAAAATTGCAGAAACAGATGGAAGGCTCTTTTGTACTGTGGGTGTGCATCCAACTAGATGCAAGGAATTTGAAGAGAGTGGTGATCCAGAGACGTATTTTCAGGCTCTTCTTTCATTAACCAAAGAGGGAATTGAGAAAGGAAAGGTTGTTGCAGTTGGTGAATGTGGACTAGATTATGACAGGCTTCACTTTTGCCCTGCCGATATTCAAAAGAAATATTTTGAGAAGCAGTTTGAATTAGCACACACAACAAAGCTTCCTATGTTTCTACACATGAGGGCAGCTGCTGAAGATTTTTGTGACATTGTAGAGCGAAATAAGCAAAGGTTTTGTGCTGGAGTTGTTCATTCTTTCACAGATAGTGCAGAAGATCGTGACAAGCTTCTCTCATTCAGTAATTTGTACATAGGGATTAATGGTTGCTCTCTGAAAACTACTGAAAATCTCGATGTTGTGAGGGGCATACCAATCGAGAGACTGATGATTGAGACGGACTCTCCATATTGTGAAATCAAGAATACACATGCTGGGATTAAGTTTGTTAAATCAACCTGGGCTTCTAAGAAGAAAGAGAAGCATGATGAGCAGTGCATAGTGAAAGGAAGGAATGAACCATGTTTAGTTCGGCAAGTTCTTGAGGTCTTGGCTGGATGTAAAGGCATCATGGATATCGATCAGCTTAGTGAAACTTTGTACCATAATACGTGCAGAGTTTTCTTTCCTCAAGACCTGGACTCTGCAGCAGATGCTCTCCTTGCTGGTTCTCATGATCTTGATGAAAAAATTTAG MGTLRMIDIAVNFTDGMFKGIYHGKQYHAADIAAVLSRAWSAGVQRIIVTGGSLEESREALKIAETDGRLFCTVGVHPTRCKEFEESGDPETYFQALLSLTKEGIEKGKVVAVGECGLDYDRLHFCPADIQKKYFEKQFELAHTTKLPMFLHMRAAAEDFCDIVERNKQRFCAGVVHSFTDSAEDRDKLLSFSNLYIGINGCSLKTTENLDVVRGIPIERLMIETDSPYCEIKNTHAGIKFVKSTWASKKKEKHDEQCIVKGRNEPCLVRQVLEVLAGCKGIMDIDQLSETLYHNTCRVFFPQDLDSAADALLAGSHDLDEKI Homology
BLAST of CcUC10G203530 vs. NCBI nr
Match: KAA0043804.1 (putative deoxyribonuclease TATDN1 isoform X1 [Cucumis melo var. makuwa] >TYK25329.1 putative deoxyribonuclease TATDN1 isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 656.4 bits (1692), Expect = 1.3e-184 Identity = 317/323 (98.14%), Postives = 320/323 (99.07%), Query Frame = 0
BLAST of CcUC10G203530 vs. NCBI nr
Match: XP_008442932.1 (PREDICTED: putative deoxyribonuclease TATDN1 isoform X1 [Cucumis melo]) HSP 1 Score: 656.4 bits (1692), Expect = 1.3e-184 Identity = 317/323 (98.14%), Postives = 320/323 (99.07%), Query Frame = 0
BLAST of CcUC10G203530 vs. NCBI nr
Match: XP_038904038.1 (putative deoxyribonuclease TATDN1 [Benincasa hispida]) HSP 1 Score: 655.2 bits (1689), Expect = 2.9e-184 Identity = 316/323 (97.83%), Postives = 319/323 (98.76%), Query Frame = 0
BLAST of CcUC10G203530 vs. NCBI nr
Match: XP_004136520.1 (putative deoxyribonuclease TATDN1 isoform X2 [Cucumis sativus] >KGN59222.1 hypothetical protein Csa_002444 [Cucumis sativus]) HSP 1 Score: 651.4 bits (1679), Expect = 4.2e-183 Identity = 315/323 (97.52%), Postives = 318/323 (98.45%), Query Frame = 0
BLAST of CcUC10G203530 vs. NCBI nr
Match: KAG6580755.1 (putative deoxyribonuclease TATDN1, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 643.3 bits (1658), Expect = 1.1e-180 Identity = 311/322 (96.58%), Postives = 315/322 (97.83%), Query Frame = 0
BLAST of CcUC10G203530 vs. ExPASy Swiss-Prot
Match: Q640V9 (Putative deoxyribonuclease TATDN1 OS=Xenopus laevis OX=8355 GN=tatdn1 PE=2 SV=1) HSP 1 Score: 327.4 bits (838), Expect = 1.8e-88 Identity = 159/302 (52.65%), Postives = 219/302 (72.52%), Query Frame = 0
BLAST of CcUC10G203530 vs. ExPASy Swiss-Prot
Match: Q6P1N9 (Putative deoxyribonuclease TATDN1 OS=Homo sapiens OX=9606 GN=TATDN1 PE=1 SV=2) HSP 1 Score: 317.8 bits (813), Expect = 1.4e-85 Identity = 154/302 (50.99%), Postives = 215/302 (71.19%), Query Frame = 0
BLAST of CcUC10G203530 vs. ExPASy Swiss-Prot
Match: Q148G4 (Putative deoxyribonuclease TATDN1 OS=Bos taurus OX=9913 GN=TATDN1 PE=2 SV=1) HSP 1 Score: 316.2 bits (809), Expect = 4.2e-85 Identity = 153/302 (50.66%), Postives = 212/302 (70.20%), Query Frame = 0
BLAST of CcUC10G203530 vs. ExPASy Swiss-Prot
Match: Q6P8M1 (Putative deoxyribonuclease TATDN1 OS=Mus musculus OX=10090 GN=Tatdn1 PE=1 SV=1) HSP 1 Score: 315.8 bits (808), Expect = 5.5e-85 Identity = 153/301 (50.83%), Postives = 212/301 (70.43%), Query Frame = 0
BLAST of CcUC10G203530 vs. ExPASy Swiss-Prot
Match: Q6GML7 (Putative deoxyribonuclease TATDN1 OS=Danio rerio OX=7955 GN=tatdn1 PE=2 SV=1) HSP 1 Score: 314.7 bits (805), Expect = 1.2e-84 Identity = 160/301 (53.16%), Postives = 207/301 (68.77%), Query Frame = 0
BLAST of CcUC10G203530 vs. ExPASy TrEMBL
Match: A0A5D3DPS7 (Putative deoxyribonuclease TATDN1 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold352G004680 PE=3 SV=1) HSP 1 Score: 656.4 bits (1692), Expect = 6.3e-185 Identity = 317/323 (98.14%), Postives = 320/323 (99.07%), Query Frame = 0
BLAST of CcUC10G203530 vs. ExPASy TrEMBL
Match: A0A1S3B6V7 (putative deoxyribonuclease TATDN1 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103486689 PE=4 SV=1) HSP 1 Score: 656.4 bits (1692), Expect = 6.3e-185 Identity = 317/323 (98.14%), Postives = 320/323 (99.07%), Query Frame = 0
BLAST of CcUC10G203530 vs. ExPASy TrEMBL
Match: A0A0A0LET6 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G782690 PE=4 SV=1) HSP 1 Score: 651.4 bits (1679), Expect = 2.0e-183 Identity = 315/323 (97.52%), Postives = 318/323 (98.45%), Query Frame = 0
BLAST of CcUC10G203530 vs. ExPASy TrEMBL
Match: A0A6J1F457 (putative deoxyribonuclease TATDN1 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111441951 PE=4 SV=1) HSP 1 Score: 642.1 bits (1655), Expect = 1.2e-180 Identity = 310/322 (96.27%), Postives = 314/322 (97.52%), Query Frame = 0
BLAST of CcUC10G203530 vs. ExPASy TrEMBL
Match: A0A6J1IY55 (putative deoxyribonuclease TATDN1 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111481696 PE=4 SV=1) HSP 1 Score: 641.7 bits (1654), Expect = 1.6e-180 Identity = 310/322 (96.27%), Postives = 315/322 (97.83%), Query Frame = 0
BLAST of CcUC10G203530 vs. TAIR 10
Match: AT3G52390.1 (TatD related DNase ) HSP 1 Score: 552.7 bits (1423), Expect = 1.9e-157 Identity = 257/320 (80.31%), Postives = 288/320 (90.00%), Query Frame = 0
BLAST of CcUC10G203530 vs. TAIR 10
Match: AT3G52390.2 (TatD related DNase ) HSP 1 Score: 547.4 bits (1409), Expect = 7.9e-156 Identity = 257/323 (79.57%), Postives = 288/323 (89.16%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (PI 537277) 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.
|