CcUC11G211800 (gene) Watermelon (PI 537277) 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.ATGAAGGTCAAAATCAAATGTAATATTGTAATTTTTAAAAGCACTAAGATATTTTTAATTCTAAAAATGAGAGAATTTTGAAGAGTAATTACGTTAAATAACAAAATTATTAAAAATATTTTTAAATATAGAAAACTCTCATATATTATCTAATAATGATAAAATTTGATAAATGTTTATCATTAGCTAATGATATTTTTTTTATAAATATTGTGAGTATTTGAAAATAATTTCTATTTTTTATTATTTAAAGAAAAAAAACTTGTTTTCAAAGTGTTCATTGTGTGTGCTCCCCCGTAGGCCTCCCCTGTTCGCCATGGCCACCAGAGGACTCGGCGGCGAGAAGAGAACAACCAGAAGCTCCGCCATGAACGCCCCCGCCGCCACTACCAGAAGCAAGACCAAGAAATTTGACAGAGAGAACCATCTCAACCATCAACTGGTAACCCTCATCGAAACCACCATTTCTTCCGCTCACTCCTTTCTCTCTCTCAACGATCTCCACCTCCTTCCCTCACAAACCCTCGCCCTTGAATCCCTCCTCTGTTCCACTTCATCCTCTCTTTACGCTCTCTCTCCTCGTCTCCCAAAAATTTACCTACCGCCGCCGCCGCCTCCGCCACGACCATGCTGGTTCCAACGCTTCCTCTCTGCGACATCCGAGGTCGATTGCGATCCGAGATGGAATCTCTCCTTCCGTATGTCGAAATCGTCCTTCTCCCTCCTCCTTCGTCTCCTTTCCCCGATTCCGAGCTCCTCATCCTCTTCAGTTCCTCCGGATTGTGCTTTAGCCGCTGCGCTTTTCCGATTGGCGCATGGTGCGAGCTACAAGGCGGTTGGGAGGCGGTTCGGGATCGATTCCGCTGATGCTTGCCACTCGTTTTATGCTGTTTGTAAAGCTATCAATGAGAAATTGGGGCATTTGCTTGAGCTACGGTCTGACATTGATCGGATTGTTGTGGGATTTGGGTGGATTTCGCTTCCGAATTGCTGTGGGGTTTTAGGTCTTAGAAGATTTGGGTTTGAGGGTGAGCTGCTAGGCAAAAATGGATCGCTTCTGGTTCAAGCATTAGTCGATGCTGAAGGGAGGTTTCTGGATGTCTCTGCTGGTTGGCCGAGCTCCATGAAACCTGAAACAATCTTGCGGCAGAGCAAACTATATGCAGAAATCGAGAACTCCACTGAATTACTCAAAGGCCCTGTTTACAATCTCGATGATGAAAAGCCCATTCCTCAATACTTGATTGGTGATTCTTGCTTCCCCCTTTTGCCATGGCTTTTAACACCATACATGAAACTGAACGAGGAAGATAGCTCTGGCTTTTCTGAAAGAGCATTCAATTCCACACATAACCGTGCAATGGCGTTGGTTAACACAGCATTTTGCGGACTCCGAGCTCGGTGGAAGCTTCTGTCAAAACCATGGAAGGAAGGATGTAGAGATTATTTCCCATTTATTGTATTGACTGGGTGTCTGCTGCACAATTTCCTCATTAAATGCAGTGAGAAACTAGATGAAGAGCAAGATCAAGAAGAAGGAGCAAGTTGTTCAGGTGAGGAGCAGAAGTTTCCTCTTTATGACGGTGAGATAGGAGATAATAGAGGAAAGGATATCAGAGATACGCTTGCCTCGCACTTGAGTAGCCTGAGTTTCAGAAGATGATCGCTTTGAACATCTTGGTAACTTTAATCTTTTATCAGCTGTATATATTCCTTTCCTATCTTTAGAACATTTTGTCAAAACTGCAGATTGTAAGTCCTAGTTCTCTAGAAGTAGATCTATTTTTTTTTTTTTTTTTTTTTTTCAACCATTAGTTTCATAATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTTTTTTTTTTTTTGTCAACCATTAGTTTCATAATGATTTGATACTTCATATAGTTAGAGAAGGTTTGTTTACACTTATCTATCATGAAAATGACCTTGAAATCATTCACTCAATATGTAAATTACAAAACATCTACAGTTCATGGTTCGGGTCCCTCTAGAATGCAATGATTTTGACATGTAATTATTCTATCAAGTGAATGGGAATTCGGTTTTTGAACAAGTCATCTTAGTTAATTAATTTGAACATTTGGAATTCATCTAGTTAAACTCGATCTTGAATTTCAGTTGAGGTGTAATAACTATGGATGGTCAAAGTAAAAATTCTTAAGGAAAAGGACAAAAGTAGTAATGAGCTTTCAGAATGAATGTTATGACTTGGTCCACTCCAAGTCCTAATTTTGATATTTGCCTACATGACCCAAGGTGCTTTTGAAAATTTCAAAAATTTTTGTAAGTGCTTAAAGTATATTTACCTGAAACGGTCCATTAGTGTCTGTTTTTTGGAGTCCTTATTAAAATAATAAAGAAGTGTCATTTAGGTTTTGTTCAAAAGCACCTTTTCTTTTGACACTTCTTTTGGCCTTTCTGCTATATAACATCACAGTTGATTGAACTTCTTTTATTTTTATGTGCTTAAAGCCTGGGGCCACGGGTACAGTGCCATGTTGAACTCTGAGAAACAATTACAAACTTACTATTAAACTGATAAGAACATATTCTACACCTGATCTTAGTCATAAGGCCGAGAAAGATATAACTAACATGTTAATTTCGGTGGTTATCTATGAAACTCTCATTGTTTGCCGAACTAAAGGGCACCAAAACTGGAGACTATTTCTTGCCTTTATATACCTTCTTAAATCTCTCAGTCCTCGCATCTCTTCTTTGCTTCTCTTAATCTGAATGAACTTCCTGAAGGACCCTTTCACAGGCAAGGGAGTTGGAATATTTTTGCAGATTTGAAGTGGTTTTAGGGGAAAAAATGGAATTTAAAAATGAGTCCCTTTCAAAATAAAGATACTTTTAAATGCTCCCAAAAGAAAAAACTGTACTTTTAAGGATAAACTCTCTCTCTCTTCAGGATCAACTGATATATTATTTTATTTCTAAACCTTGAACCAAATCACTCTTTCTGTTTGGTTTCCAAGAGAAGTGAACTGAAAAGTGTTGTAGTTTTGCACAGAAAGGCTCACAGTCACAGGTTAGACTTTGTGTAAATAAATTGCATCTCTTCTCAAATTTCATTTTTACAGGATTGGGAAACTTCAGAATCTGGCAGTCTAAAAGTAAAATATTGGGAGCTCAAAACCCCAGCAGCTTCATCAGAAATTATTCAGCAAATACAATATCTGGAAGACTATACAAACAGCACAAAGGATTCGTTTCAACCATTCGACAAAACCAAGCACAAAATCTTCACTAGATACAAACCAAACTGGGGAAATTTAACAAATCCGTTGAACTCAAAGGTACAGAATTCGATTATTCTTCAAACCTTAAATCATTTTCCAAATATTGATTTGATCCACCATATCCCTTTAGTATCTTTGGGACCTTCATCTCCTTCTGGTGGAGGGTCATTGTGTGTTGTTCTACGAAGCTTGCTCACATCATAACCCTGTTCCTTAGCTTTCTCCAGCAGTTGATTGTATATCTCCTCATCCAAATGATTCTGCCTGCACAATATCTGTCAAAGAAGCACCATGAAATAACAATTCAGATACCTCCCATTATCATAAACCCTTTTCTCTCGATTTAACAGTTCACAAACATCCAAAACTCCCCATAAGAAAACTAATGTCATACATACCCATAGATAGTTTCTGCTGGGTTGGCCAATCAAAGCATGGTGATAATCATGATCAAGATACAAAACCCAGTAATCTCCAACAACAGGAATGATAGGCATGAATGGAGGAACATAGAATTTAACTTTGAGCTTGGCTTCATCACTATCAGGATTAGCTTTAACAGCAGTACCTTCAATGAAACCTCTCTTGCCATCAACCCAGGTCTCATTTAGGACATTCACCGTCCGTTCATCTCTCAGGGTGTAGGTCGCTCTGGTATTAGCTCCATTTTTGGGCTGAAACCTCGATGGAAATGAGGCTATTTCATACCACCGACCCATATACCTCTGAAGGTCGACGTCCTTCATGACATCCATCTCTTTCTTCACCATTGTTGAATGATGAGCTTCTGAGATAGTTCTCAGAGGGGTTTTTATGGGGGGGGTCGGTGGTGATTTGGGTCGAATATTTTGAGTTGTTGAAGAAGATATGGATTTGGAAAAATGGGGGACGTGGAGAGATATTATAGCTGTGGGGAAGAGGATTTTTTTGTGGTCTAGAAATCGGCAGAGGCCTAGTTGTGGGGTAAAAATTGCTTTTCTTTTCTTGCTTGCTAAACAAGGGAAATGTGGAAGTCGCCAGCATCAAGGGCCATGGCATCAATTGATTCAATGCTATACTTAATAAGAAAGATAATTGACTAAAAACAGTCTTTTTATTTTTTTCTTTTTTTCTTTTTTTGGTGGGGTGGTTTAAATTGTGAGTTTGGTATTTTCTATTTTTATTTATCTGAATACTACTATAATTGGTACAGTTTTGACTTTTGTTCATTTTGGTTTCTATACTTTTAATTTTGATTCATTTTTATCTTTATATTTTTAAAATTTTTAGTTTGGTCCTTATACATTCCACTTTGATTCATTTTGGTCGATGAATTTTAAAAAAGTTGTCATTTTGGTCCCTTAAAAATGAAAATGAAGGAATCAAAATAGTTATTTTTTAAAAGTACAGGAACTAATATTGACATTTTAAAACTATAGGGACCAAAATGAATTAAAGTTAAAAATATAGGAATCAAAATAAACGTACTAAAAGTATAAGAACCAAAATGAACTAAAATAAAAAATACAGAGATCAAAATAATATTTAAACATTTCTTTAACAATATGTGAGGTGGGGGATTGAACCTTAGACTTGATAGTTCATGTCATTTAAGATATTCTCATGTTGACATTTGGTATTGAAATTTGAAATTTCGATTATGTCAATGTACATGACTTAAGTCCTGTGTTTCAAATGTTGATGGAGATGATGAACTTAATTTGCGGGTGATAATGTGATTAGTATGGCCTTGTTTGATAACAATTTTGTCTTTTGTCTTTTGTTTTTGAAAATCAAGCCAATTTACTCCACATTCCTTACTATCGTTGGATTCTTAGCCAAATTCTAAAAGCAAAAACAAATTTTTAAAAGTTTTTTTTTTTAGTTTTCAAAATTTGGCTTGATTTTTTAAATCGTTGGTAAAAACTAAACAACAAAGAAAGAAATTTGGAGGTGAAAGTAGTGTCGTTAAGCTTAAATTCTTTTTTTTTTTTTTTTTTTAATGAAATGGCTACCAAATGGGTCTTATAAAATTATTTTATTTAGGGTTTGTTTGAAATTGTGTTTACAATTTAGCTTCTCTCAAAATAAGCAATTTTTTTTTTCTAAACTAAATTAAAAAAAGAAAAAGAAAATTCAAATCTATAATTCCATGCTTTTCTTTTTCAAGTCCAATGCAATCTTGATTGATTTAACCTTTGTACAGCAATATTTTCTTTTTGGGTTAAAATCTAACCAAATATTTTAGACTACTCAAAGTTATTTTCAATTTGAAGCATAATTCTTTATAATAATTATCGTATAACAAATTTGATATTCAATATCAATAGAAAAATATGTTGCTAACTTATAACACTTTAGGATTAATGTATATTGAATACCATAACATGGTGTACAGAAAAAGAGAGAGAGAGGGGAAAAAAAAAAAAAAAACATGCCTTTTCAAGTTTAAAGAATTGAAATTTACCAAGGCTATATTTACTTCGTGTCCTGACTCGTTTTTTCTGAAAATAAAATTATAAAAAGTTATTTTAAAAGCTACAACGACTAAAGACTATATTTACTTTACGTCGTGGTTTGTTTTTTTCGTTTTTTTTTTCTAAAAATATAATTAAAAAAATAATTTTAAAAGCTACAATAATTCTCTCGGTCATTCCACAGGATTGCTCCGAGCTAAGAAATTCTTGTGATTAGGTATGTCTTCTTAGATTATGTTGAAAAATTTAGTTGAGAATTTATATACAATGTTGAGGAAGGAGTGCATGAAATTACTTGAGATTCTATTGAAAAATGACATAAAAAGAGAATATGGAAATAGAGGAGAGAGAACACGAGAGAAAAGACGGAGGAAGAAGAAAGAGAACAGGAGGAAAAGCTAGAGATGGTGAAGATTAAAAAAATATTATATTTTTTCTAAGTCATTTTGCCACAGATATTTAGTCAAACTTTAAATTTAAATTTATTATATTTACTTTTGAAAACTTAATAGACTAAAATATTTAATTTAAATATTAGGGACCAAATACATCTATTTTTTAAAATTCAAGAATAAAAAAATATTATTCTTAAAGGATGAGGAGATGGAAAAATATTTCATTATATTTAATTTAATTTCATAGGCTCCACATCTTTCTTATATACTCCATATTTATTTTGATGGTAAACGATAAATGAAAATAGTATAAATAATTGTTATGTTATAACATTCTATAAATTTTTGGGTTAAAATATTTTGGTTCCTATGCTTTGAGATCTTGTTCAATTTTAGTTTTATACTTTTAAATTTCAAATTTTAGCATTTGTAATTTTAATAAATCTTAAATTTAGTCTCTTAAAATTAAGTTTTATCGAAATTGAATAAAGAATAATAATAATGTACATGCGTAAACATAAAATATATGAATATGTTATCAAAATTTATAGGGAGAATCTGATGTTTTTCTCAGTAATAGAGTAGAGAAACTTCTTTTTGGAAACCGGAGGTTCGGGGTTCCCACACTTGCTCTAGCTCTAAATTCTTCTACTGGTAAAGACCTAGTCTATCTGCCCACGTCTGGTCTTGGGTTGCTTACTGGTCTTTCATTTCTCTCCTTAGCAGTCTTACATCTTTCTCACCGAGGGTTGGGTTCAAGGGATGGTCGAGTGGCGAAGCTGAGGAAGCATAGGTGATGGGTCGGTCAAGCCGTTGCAAGCCTAGCAGAGCCAATCAAAGCGGGGTACGATACCTGGATCTCATAATGGGGGAGAAGTGTACCGCTCTCGATCAAACTCAAAAATATCATACATAAGAGAAGAGGCTCGATGAAATTGAGCTCGACTAGTTGGGAAGTCGTTGTATGGCCTCAAACTGTCTCCTAAAAGACTTTACTGAGCCCAACCAACCCCCTTAACTAATAGATGCTAGTTGGCGAGGCCATCTGCTAAACCCAGCCTAAGTCTAATAAATAGAAGGGGGTTTGGCTCCGGACTCCAACTCGATCGAAGGGAGAGGAACTCTCAGGCAAAAACAGTTACTCCTCAATCAGACCGGACAGAAGAAAGAGACAGAATAATAACATTGAAATCGCTTACGGGGCTTGGAGGTTTGTTTTTCCTATTCTTATTCCTCAGTTTAAGCTGTTTTCTTGCTTTCTTCAAGTCGTCGAATTGTTATAGAATGCCTTTATATCAGGTAAAACCTTACCATATAAACAAGCACAAAGACTAAATTTAAGATTTATTGAAAGAACAAATACTAAAAAAAAAATACCAAAAATATTATTTTAGTATGTCCTCTTTAAAATGGAGATTTTTGTATAGATGACCCCTATCAAGGGTTTAAATGAAAATTAGTTTTTTAAAAATTGATGAATTTTAACTTTTTTTGCTTGCATTAATGCCATGTGAAATTACTATTTTGACTTAAGAATGTGTGTCATAATTTTCACTCTTGCTTCTCGCTCATTCTATCGTCTTCTCAAATTGTTTTTCTATAGTTAGAAATCTTCTTGCTTTTAGCGGCTCACTTCTCACCTCTTTTATTCTCTTTCTTAATTTACTTTTCTATGTCATCAGATCTTTTCGCTTGCTCTCTTTATTTTTTTTTTTAAAAAAAAATTGTAAATTGAACCGAAGAAGAAACAAAGGAATCACTTGAATAAGAAGAAGAGGAAGAAGCTCTAGATTGAAGAAAAAAGAATGAATAAATAGAATAGATTAGATCTAAAAAAAAAAACCGAAAGCTGCATCTCGCAGAAGAAGGAAGAAGTGTACACTTGACTTGAGTCAAAAGTGATAATTTTATACAAGGCTGGCGTAAGCAAAAGGCTCAATTCCTTTATTTTCAAACTCAGGACTAATTTTCATTTGGCCCGTAGGGAGGGCCTCTCTGCAATTTTCTCTTTAAAATGCTTGCATAAGTAGAGTTCGGAATATTTGGAAGTAATAATAGAAAATCTGAAAGATGAGGTATCCACTCTTCACCCAAGCATACACCCTATTCCAAGAACGATGATGCACATTTTACTCTGACATGGCATAACATGACAGAATTTATAGTATTGTTGACGAAAGAAAGCGATTTCATTTGATTTTCTTTTATCACATTTGTTGGCATTAGGAGCATTATTGAACTATTGATGCTGAAGGAGACATTATACAAGCAAAAATCCCACTAAACCCTTTCATCTTCTTGTTCTTTTCTTTCAGCATTTTTGGAGTTTTTGAGCTCTGTGAAGAAAAGGGGGAAAATGGGTTTAAAAGGGGTTTTTCTTCTCTTGATTTTTCTGTTCCCTTTGTGTTTGGCATTTGAAGTACCCACAACATTTTTCCCAAGAGTTCATTACCCACTTGATTCCTATAAGCAAGTTACAAATTTGAAGCCAAAGATCCCTTTTGAGACCCGTTTCTATCCTCAGCTGCTAGATCATTTCACCTTCACGCCAAAGAGTTCCAAAAGATTTTACCAGAAGTATCTGATTAATGAGCAATACTGGCGAAATGGAGCTCCAATCTTCATTTACACTGGCAATGAGGGCGACATTGAATGGTTTGCTGCCAATACCGGTTTCTTGCCAGATATTGCTCCAAAATTCCATGCCCTTCTGGTTTTTATTGAAGTACTGTTCTAAAAAATAAGAGCCTTCTGCTTTTCGTTTTTTTTTTTTTTTTTTTTTTTGGGGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTTGGGGGGGGGGGGAGACAAATGTTTACTAGTTTTACCTTCTTCAAAGGTTCATGTTTGTGCCTAATATTTTGTTTTTGTCTGCAATTTTCATGTTATTATTAACGGATATAACTAGTTTTATCTTAGTCCATGTTTAATATTATAGGGTCAGGTGGATTATCTTGAGATTTGTTGAGGTGTCGTAGATAAAAGAAGGGGTCCATGTTTGTGTTAATATTGTGTTCTTCTCTGCAATTTTGATGGCATTATAAACTGATATAGTTGGTCTTACCTTCTTGAAAGGCACATGTTTGTGTGATTATTGAGAATGAAAGCACACACACAACATGGGCTGATCCCCTGGCATGATCTAGAGCTAATTTGTATTGTTTCTGTTTCTGGGTGTTTGATAATTTGTGAAATTCTAGGATAGATTTGAAGGATAGAAGTATGAGCTATTTAGTGGAAGTGGTGGATTTTATTGGTGTTAATTTTAGTTTTCCTGTTGTTTAGTGGAAACATAAAGCTTCTTTTACCCATTCCAGAGAACAATTTAGATGGGTTTGTTCCTGTTTTATTGATCAGCATAGATTTTATGGGGAATCGAAGCCGTTTGGAGATGACTCATATAACTCGGCAGAAACATTAGGCTACTTGACTTCACAACAAGCTTTGGCTGACTATGCAGTTTTGATAAGAAGTTTGAAGCAAAACCTCTCTTCTGAGGCTTCCCCTGTTGTTGTGTTTGGTGGGTCTTATGGAGGAAGTGAGTAAAAAAGTTCACCATTTTGATATCTTAGTTTGCTTTGTTAATTTTTTGATGGGATGAGTGAGTTTACTCGGTTGTGAGCTAAAACCTGATGCAACATTCTGTTCTTTCAAATGTTTAGGGCGTTTTCACCTAAATAACAGTGTGTTTGGCCCAAAGAGTTTGAAAGTAGGAGTAGGAAAGTAAGGAGTTAGGGAACTCCACTCCTTCTTTGGCCCAAAGAGTTGGTCGGTCCCACTACTAAAATACATCAATTTTATATCTTATCAACTGTTTACACTGTGAGCCCCAGGAGTTCACAACTCCTTACTCCTCACTATTACATTCCTTACTCTAAACACCCCCTTTATAGCTTACCAAGACAAAGTATGTGCAATACATCATGGTACTTGTTAAGTGACTGCTTATACAACAATGTCTTAGCTGTTACAAATTGCTATCTCCAAATCTTGAGTTTTTAGATTATACAGTTACATTTTGCCCTATAGTCGACAACCAAAGGTACATCCCGACCTTCTTAGGTGTCAACATGTCAAAATTTTATGCTTTAATTGATTTTGGTGGTTAAAGTCTGTGGTCTAATGATAATAAGGAACCTTTGCAGGTAGATTACATGAGTTTAGGAACTGTTGTTTATAAGAAACTTCTGACACATTTACCAATAGTTTTGGAAAGATTGAAAAGACAATGGAAGATTTCCACAATATCATACCATTTTTAATTCTTGACATTGAAATCTTATATATTTCTGGGTTTACCTCTCAGTGCTGGCAGCCTGGTTTAGACTGAAATACCCTCATATTACTATTGGAGCTTTGGCATCTTCAGCACCCATTTTACACTTTGATAACATCGTACCGAGGTCGAGCTTCTATGATGCTGTTTCTCAGGATTTCAAGGTCTCTCTTACTCTCGAGAGTCTTTGTCGCGGATCCATCCAAACATGTTCAGTTTCTTTTATGTCATTGCTCATCATCTACTATCTAATCTTTCTCATTAGTTCTATGCTGGCAGGATGCTAGTTTGAATTGCTATGAAGTGATAAAAGGGAGTTGGGCAGAGCTTCAGCAAGCATTTTCTGAAGAGGGGTTGGCCGAACTGAGCAGAACATTCAGAACTTGCAAGTAAAAAGGAACTTTGTATTTTGAGTTTTCCTAGCTGCAACCCCCCTTCTTCACAATTCCCAATTTCTGTTAATAAGAACTAATGGTATATTTCCTCCGCTCTGCCTGGGGAAACACAGGAACCTTCATTCAGTATCCTCGGTTCGAGACTGGTTATGGTCAGCATTTGTCTACACTACAATGGTAAATTACCCGACTGAAGCAAATTTTATGAGGCCATTGCCTGCCTATCCTGTACAAGAGGTGAGACCGAGGTTTATGTAAGTTGTAAATTGTAATTGATCTCACATTCTAACTCTTTGTAAAAGATCACTCAAAGATATCTCAAACACTCTACTTTTTTCCGCCATTGGTTATGATTTATGAAGATGTGTAAGATTATCGACGCATTTGCACCAGAAACTAGCAAGCTTGACAAGGTTTTTGCTGCTGCGAGCTTGTATTACAATTACTCACATGGAGAGAAATGCTTTAACCTGGAAAACGGACCTGATGTTCACGGTCTTAGTGGTTGGAACTGGCAGGTCTGTTTGTTTCCTTGAAGCCACTACCAACCCTATATATATGTTTTACTTCAGAAGTTTCATTATATGAATGATTTGAACTCTTGCTGATTGTGAAACCAAAATTTACCTTTAGCTTTAACTTAAATGTAGGCTTGTACAGAGATGGTGATGCCAATGACTTGTTCCAACAAGAGCATGTTTCCACCGAGCGAGTTCGATTATGAAGAATTTGCAACAGATTGCAAGAAGAAATATGGAGTTTCACCTCGTCTGCATTGGATCACTACTGAGTTCGGTGGCGAAGTGAGATTTGCCTCTCTTATTTTATCTCTGATCTCTTTACTGCATTTCCAAACAAGCAAAGAAAACAAAACTACTTCACAAAACTGTGGAGATCATGAGGCAATATCATATGATGTGATATTCCTTGGGTTGATAATTAAGAGCTAGTTTCAATTGTGTTGCAGAGAATTGAGCAAGTGTTGAAAAGATTTGGCAGCAATATCATATTTTCTAATGGAATGCAAGATCCATGGAGCAGAGGAGGGTCAGTTCTTGTACAAAAGTTTGTTTCTTTTCGAACCATTCTTGCCGTTTTACAAGAACGACGAATCACATATGCAGGAAACTTAACTAAAACTTATCTGAAGCTAATATGTGGTTATGTTTGGAAAATAGCAGATTTGAATATTTCTCAAAATCTTTAAAAAAAAAATATGTTTTTTGATCTTCACTACAGCATCAAATAGGCATAGTTTGTCAGATGAACAAATTTATCGGTTATCGACGTAAATGTCTTCATTTCTAAGTTTGTATAAGAATGCATTATTTGCTGAATTCTTCCCTTTTTTCTGATCATTGATCTAAGTGATGATAATGAATTCAACTTCTCTCAGGGTGCTGAGAAATATTTCAACCAGTATCGTTGCCATCGTCACGGAGAAAGGTATGCAGCATCGATAAATTAAACATTTCTCTTGTCATTTGGGTAAACACACTTAACCAAAATGTTTCGGTAGGAGCCCACCATGTCGATTTTCGATCAGCGACGAACGATGACCCCGACTGGCTTGTCAAGCAGAGGAGACAAGAAGTGGAGATCATTCATCAATGGATTAATGAGTATTATGCAGATATGAAACAAGACAAGAAATCCATCTAAATGAATCTTGTCAATTCAAGTTCAAGTAGGGAGTGATTCTGATTTTTGTTAAGTTCTTTTCTAGTGGAAAGATGGAATCATACATTGTAAAATGTAGGATGATCTATCTCTATCTTTCTAAGAATTTGTATGGCGCAATATCAAATGGGTT ATGAAGAAAAAAAACTTGTTTTCAAAGTGTTCATTGTGTGTGCTCCCCCGTAGGCCTCCCCTGTTCGCCATGGCCACCAGAGGACTCGGCGGCGAGAAGAGAACAACCAGAAGCTCCGCCATGAACGCCCCCGCCGCCACTACCAGAAGCAAGACCAAGAAATTTGACAGAGAGAACCATCTCAACCATCAACTGGTAACCCTCATCGAAACCACCATTTCTTCCGCTCACTCCTTTCTCTCTCTCAACGATCTCCACCTCCTTCCCTCACAAACCCTCGCCCTTGAATCCCTCCTCTGTTCCACTTCATCCTCTCTTTACGCTCTCTCTCCTCGTCTCCCAAAAATTTACCTACCGCCGCCGCCGCCTCCGCCACGACCATGCTGGTTCCAACGCTTCCTCTCTGCGACATCCGAGGTCGATTGCGATCCGAGATGGAATCTCTCCTTCCGTATGTCGAAATCGTCCTTCTCCCTCCTCCTTCGTCTCCTTTCCCCGATTCCGAGCTCCTCATCCTCTTCAGTTCCTCCGGATTGTGCTTTAGCCGCTGCGCTTTTCCGATTGGCGCATGGTGCGAGCTACAAGGCGGTTGGGAGGCGGTTCGGGATCGATTCCGCTGATGCTTGCCACTCGTTTTATGCTGTTTGTAAAGCTATCAATGAGAAATTGGGGCATTTGCTTGAGCTACGGTCTGACATTGATCGGATTGTTGTGGGATTTGGGTGGATTTCGCTTCCGAATTGCTGTGGGGTTTTAGGTCTTAGAAGATTTGGGTTTGAGGGTGAGCTGCTAGGCAAAAATGGATCGCTTCTGGTTCAAGCATTAGTCGATGCTGAAGGGAGGTTTCTGGATGTCTCTGCTGGTTGGCCGAGCTCCATGAAACCTGAAACAATCTTGCGGCAGAGCAAACTATATGCAGAAATCGAGAACTCCACTGAATTACTCAAAGGCCCTGTTTACAATCTCGATGATGAAAAGCCCATTCCTCAATACTTGATTGGTGATTCTTGCTTCCCCCTTTTGCCATGGCTTTTAACACCATACATGAAACTGAACGAGGAAGATAGCTCTGGCTTTTCTGAAAGAGCATTCAATTCCACACATAACCGTGCAATGGCGTTGGTTAACACAGCATTTTGCGGACTCCGAGCTCGGTGGAAGCTTCTGTCAAAACCATGGAAGGAAGGATGTAGAGATTATTTCCCATTTATTGTATTGACTGGGTGTCTGCTGCACAATTTCCTCATTAAATGCAGTGAGAAACTAGATGAAGAGCAAGATCAAGAAGAAGGAGCAAGTTGTTCAGGTGAGGAGCAGAAGTTTCCTCTTTATGACGGTGAGATAGGAGATAATAGAGGAAAGGATATCAGAGATACGCTTGCCTCGCACTTGAGTAGCCTGAAATCTGGCAGTCTAAAAGTAAAATATTGGGAGCTCAAAACCCCAGCAGCTTCATCAGAAATTATTCAGCAAATACAATATCTGGAAGACTATACAAACAGCACAAAGGATTCGTTTCAACCATTCGACAAAACCAAGCACAAAATCTTCACTAGATACAAACCAAACTGGGGAAATTTAACAAATCCGTTGAACTCAAAGCCAAAGATCCCTTTTGAGACCCGTTTCTATCCTCAGCTGCTAGATCATTTCACCTTCACGCCAAAGAGTTCCAAAAGATTTTACCAGAAGTATCTGATTAATGAGCAATACTGGCGAAATGGAGCTCCAATCTTCATTTACACTGGCAATGAGGGCGACATTGAATGGTTTGCTGCCAATACCGGTTTCTTGCCAGATATTGCTCCAAAATTCCATGCCCTTCTGCATAGATTTTATGGGGAATCGAAGCCGTTTGGAGATGACTCATATAACTCGGCAGAAACATTAGGCTACTTGACTTCACAACAAGCTTTGGCTGACTATGCAGTTTTGATAAGAAGTTTGAAGCAAAACCTCTCTTCTGAGGCTTCCCCTGTTGTTGTGTTTGGTGGGTCTTATGGAGGAATGCTGGCAGCCTGGTTTAGACTGAAATACCCTCATATTACTATTGGAGCTTTGGCATCTTCAGCACCCATTTTACACTTTGATAACATCGTACCGAGGTCGAGCTTCTATGATGCTGTTTCTCAGGATTTCAAGGATGCTAGTTTGAATTGCTATGAAGTGATAAAAGGGAGTTGGGCAGAGCTTCAGCAAGCATTTTCTGAAGAGGGGTTGGCCGAACTGAGCAGAACATTCAGAACTTGCAAGAACCTTCATTCAGTATCCTCGGTTCGAGACTGGTTATGGTCAGCATTTGTCTACACTACAATGGTAAATTACCCGACTGAAGCAAATTTTATGAGGCCATTGCCTGCCTATCCTGTACAAGAGATGTGTAAGATTATCGACGCATTTGCACCAGAAACTAGCAAGCTTGACAAGGTTTTTGCTGCTGCGAGCTTGTATTACAATTACTCACATGGAGAGAAATGCTTTAACCTGGAAAACGGACCTGATGTTCACGGTCTTAGTGGTTGGAACTGGCAGGCTTGTACAGAGATGGTGATGCCAATGACTTGTTCCAACAAGAGCATGTTTCCACCGAGCGAGTTCGATTATGAAGAATTTGCAACAGATTGCAAGAAGAAATATGGAGTTTCACCTCGTCTGCATTGGATCACTACTGAGTTCGGTGGCGAAAGAATTGAGCAAGTGTTGAAAAGATTTGGCAGCAATATCATATTTTCTAATGGAATGCAAGATCCATGGAGCAGAGGAGGGGTGCTGAGAAATATTTCAACCAGTATCGTTGCCATCGTCACGGAGAAAGGAGCCCACCATGTCGATTTTCGATCAGCGACGAACGATGACCCCGACTGGCTTGTCAAGCAGAGGAGACAAGAAGTGGAGATCATTCATCAATGGATTAATGAGTATTATGCAGATATGAAACAAGACAAGAAATCCATCTAAATGAATCTTGTCAATTCAAGTTCAAGTAGGGAGTGATTCTGATTTTTGTTAAGTTCTTTTCTAGTGGAAAGATGGAATCATACATTGTAAAATGTAGGATGATCTATCTCTATCTTTCTAAGAATTTGTATGGCGCAATATCAAATGGGTT ATGAAGAAAAAAAACTTGTTTTCAAAGTGTTCATTGTGTGTGCTCCCCCGTAGGCCTCCCCTGTTCGCCATGGCCACCAGAGGACTCGGCGGCGAGAAGAGAACAACCAGAAGCTCCGCCATGAACGCCCCCGCCGCCACTACCAGAAGCAAGACCAAGAAATTTGACAGAGAGAACCATCTCAACCATCAACTGGTAACCCTCATCGAAACCACCATTTCTTCCGCTCACTCCTTTCTCTCTCTCAACGATCTCCACCTCCTTCCCTCACAAACCCTCGCCCTTGAATCCCTCCTCTGTTCCACTTCATCCTCTCTTTACGCTCTCTCTCCTCGTCTCCCAAAAATTTACCTACCGCCGCCGCCGCCTCCGCCACGACCATGCTGGTTCCAACGCTTCCTCTCTGCGACATCCGAGGTCGATTGCGATCCGAGATGGAATCTCTCCTTCCGTATGTCGAAATCGTCCTTCTCCCTCCTCCTTCGTCTCCTTTCCCCGATTCCGAGCTCCTCATCCTCTTCAGTTCCTCCGGATTGTGCTTTAGCCGCTGCGCTTTTCCGATTGGCGCATGGTGCGAGCTACAAGGCGGTTGGGAGGCGGTTCGGGATCGATTCCGCTGATGCTTGCCACTCGTTTTATGCTGTTTGTAAAGCTATCAATGAGAAATTGGGGCATTTGCTTGAGCTACGGTCTGACATTGATCGGATTGTTGTGGGATTTGGGTGGATTTCGCTTCCGAATTGCTGTGGGGTTTTAGGTCTTAGAAGATTTGGGTTTGAGGGTGAGCTGCTAGGCAAAAATGGATCGCTTCTGGTTCAAGCATTAGTCGATGCTGAAGGGAGGTTTCTGGATGTCTCTGCTGGTTGGCCGAGCTCCATGAAACCTGAAACAATCTTGCGGCAGAGCAAACTATATGCAGAAATCGAGAACTCCACTGAATTACTCAAAGGCCCTGTTTACAATCTCGATGATGAAAAGCCCATTCCTCAATACTTGATTGGTGATTCTTGCTTCCCCCTTTTGCCATGGCTTTTAACACCATACATGAAACTGAACGAGGAAGATAGCTCTGGCTTTTCTGAAAGAGCATTCAATTCCACACATAACCGTGCAATGGCGTTGGTTAACACAGCATTTTGCGGACTCCGAGCTCGGTGGAAGCTTCTGTCAAAACCATGGAAGGAAGGATGTAGAGATTATTTCCCATTTATTGTATTGACTGGGTGTCTGCTGCACAATTTCCTCATTAAATGCAGTGAGAAACTAGATGAAGAGCAAGATCAAGAAGAAGGAGCAAGTTGTTCAGGTGAGGAGCAGAAGTTTCCTCTTTATGACGGTGAGATAGGAGATAATAGAGGAAAGGATATCAGAGATACGCTTGCCTCGCACTTGAGTAGCCTGAAATCTGGCAGTCTAAAAGTAAAATATTGGGAGCTCAAAACCCCAGCAGCTTCATCAGAAATTATTCAGCAAATACAATATCTGGAAGACTATACAAACAGCACAAAGGATTCGTTTCAACCATTCGACAAAACCAAGCACAAAATCTTCACTAGATACAAACCAAACTGGGGAAATTTAACAAATCCGTTGAACTCAAAGCCAAAGATCCCTTTTGAGACCCGTTTCTATCCTCAGCTGCTAGATCATTTCACCTTCACGCCAAAGAGTTCCAAAAGATTTTACCAGAAGTATCTGATTAATGAGCAATACTGGCGAAATGGAGCTCCAATCTTCATTTACACTGGCAATGAGGGCGACATTGAATGGTTTGCTGCCAATACCGGTTTCTTGCCAGATATTGCTCCAAAATTCCATGCCCTTCTGCATAGATTTTATGGGGAATCGAAGCCGTTTGGAGATGACTCATATAACTCGGCAGAAACATTAGGCTACTTGACTTCACAACAAGCTTTGGCTGACTATGCAGTTTTGATAAGAAGTTTGAAGCAAAACCTCTCTTCTGAGGCTTCCCCTGTTGTTGTGTTTGGTGGGTCTTATGGAGGAATGCTGGCAGCCTGGTTTAGACTGAAATACCCTCATATTACTATTGGAGCTTTGGCATCTTCAGCACCCATTTTACACTTTGATAACATCGTACCGAGGTCGAGCTTCTATGATGCTGTTTCTCAGGATTTCAAGGATGCTAGTTTGAATTGCTATGAAGTGATAAAAGGGAGTTGGGCAGAGCTTCAGCAAGCATTTTCTGAAGAGGGGTTGGCCGAACTGAGCAGAACATTCAGAACTTGCAAGAACCTTCATTCAGTATCCTCGGTTCGAGACTGGTTATGGTCAGCATTTGTCTACACTACAATGGTAAATTACCCGACTGAAGCAAATTTTATGAGGCCATTGCCTGCCTATCCTGTACAAGAGATGTGTAAGATTATCGACGCATTTGCACCAGAAACTAGCAAGCTTGACAAGGTTTTTGCTGCTGCGAGCTTGTATTACAATTACTCACATGGAGAGAAATGCTTTAACCTGGAAAACGGACCTGATGTTCACGGTCTTAGTGGTTGGAACTGGCAGGCTTGTACAGAGATGGTGATGCCAATGACTTGTTCCAACAAGAGCATGTTTCCACCGAGCGAGTTCGATTATGAAGAATTTGCAACAGATTGCAAGAAGAAATATGGAGTTTCACCTCGTCTGCATTGGATCACTACTGAGTTCGGTGGCGAAAGAATTGAGCAAGTGTTGAAAAGATTTGGCAGCAATATCATATTTTCTAATGGAATGCAAGATCCATGGAGCAGAGGAGGGGTGCTGAGAAATATTTCAACCAGTATCGTTGCCATCGTCACGGAGAAAGGAGCCCACCATGTCGATTTTCGATCAGCGACGAACGATGACCCCGACTGGCTTGTCAAGCAGAGGAGACAAGAAGTGGAGATCATTCATCAATGGATTAATGAGTATTATGCAGATATGAAACAAGACAAGAAATCCATCTAA MKKKNLFSKCSLCVLPRRPPLFAMATRGLGGEKRTTRSSAMNAPAATTRSKTKKFDRENHLNHQLVTLIETTISSAHSFLSLNDLHLLPSQTLALESLLCSTSSSLYALSPRLPKIYLPPPPPPPRPCWFQRFLSATSEVDCDPRWNLSFRMSKSSFSLLLRLLSPIPSSSSSSVPPDCALAAALFRLAHGASYKAVGRRFGIDSADACHSFYAVCKAINEKLGHLLELRSDIDRIVVGFGWISLPNCCGVLGLRRFGFEGELLGKNGSLLVQALVDAEGRFLDVSAGWPSSMKPETILRQSKLYAEIENSTELLKGPVYNLDDEKPIPQYLIGDSCFPLLPWLLTPYMKLNEEDSSGFSERAFNSTHNRAMALVNTAFCGLRARWKLLSKPWKEGCRDYFPFIVLTGCLLHNFLIKCSEKLDEEQDQEEGASCSGEEQKFPLYDGEIGDNRGKDIRDTLASHLSSLKSGSLKVKYWELKTPAASSEIIQQIQYLEDYTNSTKDSFQPFDKTKHKIFTRYKPNWGNLTNPLNSKPKIPFETRFYPQLLDHFTFTPKSSKRFYQKYLINEQYWRNGAPIFIYTGNEGDIEWFAANTGFLPDIAPKFHALLHRFYGESKPFGDDSYNSAETLGYLTSQQALADYAVLIRSLKQNLSSEASPVVVFGGSYGGMLAAWFRLKYPHITIGALASSAPILHFDNIVPRSSFYDAVSQDFKDASLNCYEVIKGSWAELQQAFSEEGLAELSRTFRTCKNLHSVSSVRDWLWSAFVYTTMVNYPTEANFMRPLPAYPVQEMCKIIDAFAPETSKLDKVFAAASLYYNYSHGEKCFNLENGPDVHGLSGWNWQACTEMVMPMTCSNKSMFPPSEFDYEEFATDCKKKYGVSPRLHWITTEFGGERIEQVLKRFGSNIIFSNGMQDPWSRGGVLRNISTSIVAIVTEKGAHHVDFRSATNDDPDWLVKQRRQEVEIIHQWINEYYADMKQDKKSI Homology
BLAST of CcUC11G211800 vs. NCBI nr
Match: XP_038889517.1 (lysosomal Pro-X carboxypeptidase isoform X1 [Benincasa hispida]) HSP 1 Score: 921.0 bits (2379), Expect = 8.7e-264 Identity = 440/474 (92.83%), Postives = 453/474 (95.57%), Query Frame = 0
BLAST of CcUC11G211800 vs. NCBI nr
Match: XP_004139280.1 (lysosomal Pro-X carboxypeptidase [Cucumis sativus] >KGN60732.1 hypothetical protein Csa_019436 [Cucumis sativus]) HSP 1 Score: 894.8 bits (2311), Expect = 6.6e-256 Identity = 424/462 (91.77%), Postives = 444/462 (96.10%), Query Frame = 0
BLAST of CcUC11G211800 vs. NCBI nr
Match: XP_022142979.1 (lysosomal Pro-X carboxypeptidase [Momordica charantia]) HSP 1 Score: 894.4 bits (2310), Expect = 8.7e-256 Identity = 425/473 (89.85%), Postives = 446/473 (94.29%), Query Frame = 0
BLAST of CcUC11G211800 vs. NCBI nr
Match: XP_008457347.1 (PREDICTED: lysosomal Pro-X carboxypeptidase [Cucumis melo] >KAA0063506.1 lysosomal Pro-X carboxypeptidase [Cucumis melo var. makuwa] >TYJ97833.1 lysosomal Pro-X carboxypeptidase [Cucumis melo var. makuwa]) HSP 1 Score: 892.9 bits (2306), Expect = 2.5e-255 Identity = 422/454 (92.95%), Postives = 439/454 (96.70%), Query Frame = 0
BLAST of CcUC11G211800 vs. NCBI nr
Match: XP_004139403.1 (protein ALP1-like [Cucumis sativus] >KGN60730.1 hypothetical protein Csa_019280 [Cucumis sativus]) HSP 1 Score: 812.4 bits (2097), Expect = 4.3e-231 Identity = 408/445 (91.69%), Postives = 420/445 (94.38%), Query Frame = 0
BLAST of CcUC11G211800 vs. ExPASy Swiss-Prot
Match: Q2TA14 (Lysosomal Pro-X carboxypeptidase OS=Bos taurus OX=9913 GN=PRCP PE=2 SV=1) HSP 1 Score: 386.3 bits (991), Expect = 1.0e-105 Identity = 205/464 (44.18%), Postives = 291/464 (62.72%), Query Frame = 0
BLAST of CcUC11G211800 vs. ExPASy Swiss-Prot
Match: Q7TMR0 (Lysosomal Pro-X carboxypeptidase OS=Mus musculus OX=10090 GN=Prcp PE=1 SV=2) HSP 1 Score: 385.6 bits (989), Expect = 1.7e-105 Identity = 198/454 (43.61%), Postives = 286/454 (63.00%), Query Frame = 0
BLAST of CcUC11G211800 vs. ExPASy Swiss-Prot
Match: Q5RBU7 (Lysosomal Pro-X carboxypeptidase OS=Pongo abelii OX=9601 GN=PRCP PE=2 SV=1) HSP 1 Score: 376.7 bits (966), Expect = 8.0e-103 Identity = 195/463 (42.12%), Postives = 291/463 (62.85%), Query Frame = 0
BLAST of CcUC11G211800 vs. ExPASy Swiss-Prot
Match: P42785 (Lysosomal Pro-X carboxypeptidase OS=Homo sapiens OX=9606 GN=PRCP PE=1 SV=1) HSP 1 Score: 375.9 bits (964), Expect = 1.4e-102 Identity = 196/463 (42.33%), Postives = 290/463 (62.63%), Query Frame = 0
BLAST of CcUC11G211800 vs. ExPASy Swiss-Prot
Match: Q9EPB1 (Dipeptidyl peptidase 2 OS=Rattus norvegicus OX=10116 GN=Dpp7 PE=1 SV=1) HSP 1 Score: 315.1 bits (806), Expect = 2.8e-84 Identity = 171/452 (37.83%), Postives = 265/452 (58.63%), Query Frame = 0
BLAST of CcUC11G211800 vs. ExPASy TrEMBL
Match: A0A0A0LJ25 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G008720 PE=3 SV=1) HSP 1 Score: 894.8 bits (2311), Expect = 3.2e-256 Identity = 424/462 (91.77%), Postives = 444/462 (96.10%), Query Frame = 0
BLAST of CcUC11G211800 vs. ExPASy TrEMBL
Match: A0A6J1CN04 (lysosomal Pro-X carboxypeptidase OS=Momordica charantia OX=3673 GN=LOC111012978 PE=3 SV=1) HSP 1 Score: 894.4 bits (2310), Expect = 4.2e-256 Identity = 425/473 (89.85%), Postives = 446/473 (94.29%), Query Frame = 0
BLAST of CcUC11G211800 vs. ExPASy TrEMBL
Match: A0A5D3BEY7 (Lysosomal Pro-X carboxypeptidase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold285G00430 PE=3 SV=1) HSP 1 Score: 892.9 bits (2306), Expect = 1.2e-255 Identity = 422/454 (92.95%), Postives = 439/454 (96.70%), Query Frame = 0
BLAST of CcUC11G211800 vs. ExPASy TrEMBL
Match: A0A1S3C5Z3 (lysosomal Pro-X carboxypeptidase OS=Cucumis melo OX=3656 GN=LOC103497056 PE=3 SV=1) HSP 1 Score: 892.9 bits (2306), Expect = 1.2e-255 Identity = 422/454 (92.95%), Postives = 439/454 (96.70%), Query Frame = 0
BLAST of CcUC11G211800 vs. ExPASy TrEMBL
Match: A0A0A0LFB5 (DDE Tnp4 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_2G008700 PE=3 SV=1) HSP 1 Score: 812.4 bits (2097), Expect = 2.1e-231 Identity = 408/445 (91.69%), Postives = 420/445 (94.38%), Query Frame = 0
BLAST of CcUC11G211800 vs. TAIR 10
Match: AT2G24280.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 706.1 bits (1821), Expect = 4.1e-203 Identity = 334/455 (73.41%), Postives = 380/455 (83.52%), Query Frame = 0
BLAST of CcUC11G211800 vs. TAIR 10
Match: AT5G65760.1 (Serine carboxypeptidase S28 family protein ) HSP 1 Score: 510.4 bits (1313), Expect = 3.3e-144 Identity = 247/458 (53.93%), Postives = 324/458 (70.74%), Query Frame = 0
BLAST of CcUC11G211800 vs. TAIR 10
Match: AT5G22860.1 (Serine carboxypeptidase S28 family protein ) HSP 1 Score: 367.5 bits (942), Expect = 3.4e-101 Identity = 190/452 (42.04%), Postives = 283/452 (62.61%), Query Frame = 0
BLAST of CcUC11G211800 vs. TAIR 10
Match: AT5G22860.2 (Serine carboxypeptidase S28 family protein ) HSP 1 Score: 312.0 bits (798), Expect = 1.7e-84 Identity = 166/395 (42.03%), Postives = 243/395 (61.52%), Query Frame = 0
BLAST of CcUC11G211800 vs. TAIR 10
Match: AT1G72270.1 (CONTAINS InterPro DOMAIN/s: Ribosome 60S biogenesis N-terminal (InterPro:IPR021714); BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT4G27010.1); Has 772 Blast hits to 657 proteins in 120 species: Archae - 0; Bacteria - 0; Metazoa - 344; Fungi - 94; Plants - 322; Viruses - 0; Other Eukaryotes - 12 (source: NCBI BLink). ) HSP 1 Score: 289.3 bits (739), Expect = 1.2e-77 Identity = 188/458 (41.05%), Postives = 257/458 (56.11%), 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.
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