ClCG10G004020 (gene) Watermelon (Charleston Gray)

Overview
NameClCG10G004020
Typegene
OrganismCitrullus lanatus (Watermelon (Charleston Gray))
DescriptionEmbryo defective protein 1303
LocationCG_Chr10 : 5074951 .. 5091969 (+)
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: CDSthree_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
ATGGTGCTGAAGAGTCAATTTGCTGAAAAACTAGTTTTCTATTTTGCCATATTTCCACATGCATACATCATGTGTATGTTTTCCTCGAGTTTTTGTCTTCCTACAAAACGTAACAATTTTTTTTTTTTTGGGTAAAATACACTTTTGATCTTTCAAGTTTGAGTTTAGTTTTTATTTGGTTCCCGAAGTTTCAAAATGAACACTTTAGTTCCGAATGTTTGAATAATAGTTCTAAATAGTGCTCGGAGTTAATGTTGACTGTTAGTTAACTAACAGAAAATGTTATAGAATCGTTGAGTTGTCCAATTTTAAATAATGTGATACTTCATTTTGTTTTATTTTTGCAGAAAATTGTTTTTTTGCCCTTTTTTCTTCTCTCACGTAGGAAAATTTTAGGATAGAGTTTCTAGGCTTGTGGAGTTAAAATTTTGGATAGTTTAAGAAGGCCTAGGCGTTGACATGATGGGGGGAGAAGGCAAAGTGTTTGTACAAGTTTGAGTTTTGAAGAGAGAATAGTTATAGAAGTGTTTGGGAGAAAACCACGTTAGACAATTTTTCTAAGTGTTGGATCACAAGGAGATAACTATGCTAGAAAATTTTCTAAGTGTCAAAACAAGGGGCAAGTTATGAACGCATAGGCTTGAAGAGTAGAAGGAAATTGACTAAGTGTTAGAAGTAAGAGTTGGAAGCATACTTGAGAGTTAACTTAGTTAACTTGGAACTAAGATTGAAACATATGCTTCGGGGGGAAAATTAGGTCTTGGATGCATGGTAGAGCCTAGTGAACGCATGGTTGAAGTTTGGGGAAAAATTTGACAGAGCATTGAGGAGCTTATGGTTGTTGTCAGGAACATCTAAGCCAAAGAAAGTCGATTGGATGCATAGTCCATGCTCCGAGAGAATTTTAGCTAAGTGTTGAAAGAATTCTAATAGTTGGGAAGTAACATTTAGGGCTCAAGGAAGGGTTGGATGCATAGTATGAACTTGTACCCAAGACATATTTGCTTGCACATAATGAGAGGAGTCATAAGTTTGTCTAATTGGTTTGCATATGGGGGTTATGAGAATGGTTCTTAGTTGAAAGTTATGTAAATTATTTATGGATTATTTATGATTATAAGAGAATTAGTATTTGTTGATTATTGCCTGTCTATCAGGTGTTATAAGTTTATGAGTTTAAGGAGAGTACAAGTTTGACAGTAAGTGTCATAAAAGGGTCGATACTTGTTGTCCTCACATTCTTTCCTAGGTTAAAATTGTAAGCCCCACATCTATTTTTGTGAGAACGCAAAGTAAGAAGGGGCCGAGAGATGGGTGAATGTGTAAAAGTAGTTGGCTAGCTTGCATTTAGAGTGGGAAAATGGCTAAGTGTAAGCTATGCGTTGATGGCAATCTGTTGTGGAGGAAATAATTTTGGTGTAAACGCAAAGGTGAGGGAAGCTTATCATGCGCTGAAGTTGAGACGCGTTGAGGACATAAGGCGTGAAGGATCACTTGGTATCGAGGATCATTATGCGTCAAATGCATTGAAGGCAATGTGCCGTTGGAAGTAAAGGCCACGGGGAGTTTGGGAGCTGATCTGCGGTGAGGCGGTTATGCGGTGAACGCTACCATGCGTCGAAGGCGGGTATGCGTTGGACTAGAAGTGTTGGCTGAGAGAAGGTAATGCGTATGTTAACTATTTGGCGGGAGAGTTTGAAATGAAATATCATCAGAGGCCGTGTGCGTTGCTGAAACTGAGCATAGGAGGTATGCGTTGAACGGATTATAATATAGAGTTGGAATGGAGAACAAGTCGGTGATATATATATAAGTGGACTGAGAATTCAATTGTTCTGCTTGCATTTCAGAGCTCGAGTTGGGTCCATATTAAGGCGAAACATCGAAGGGAGGTAGAAGAAGATGTTCATGCTGATCTGAAGCAGAAATCTCATTGAATTCGTGGGAGAAACTTGGGTTTGACAGAGGTTTCGGCTGCTGTGGTCTCTTCAGAGTGATGCTCGGTTTTGGAGGAAGAACAAATTGAAGAGACGAAGGTTAGGGCTGAAACTTTGAGGTTAGTAAGTTAACTCGATTTCTAGCAGGTTTCATGAAGGATGCTTGAGCTGAAATTGTTTAATTGTGTGTCAAACTCAGGAAGAAGAGACGGGAGTTGAACTGTCGAATGATTAGAGGTAACTCGGAGTTGTCGGAGGATATGTCCTAAACGGGGAAGATGTTCTTCATGAAATTTTGAGGTAAGATGAAGGACCTGTATTCTAACAAGTTTGTAGAAGGAAGAAAGTACTGAAATTGATTGAAACGAAATGTTTAGCAGGTTGAAGAAGGAAGAAGAAAGGAAGAAGGAAACGGTTCTGTCACAGCGAAAGTATCGCTGGGTGAGCGAGAGACTGAGCAGCAGAGAAAGTAACGCTGCAACGCAAAGATAGGCTTGCGTCTCACAATTCTCGCTAGAGTATCGCTGGGTATCGCTCCTCAAGGTAGACTCGCTGGTTTTAATCAACGCAGTGTCGCTAGTACAGTTTAAGTAGTTTTTGAGTAACGCTGGTAACTTACCATTTTCTATAGAATAACGATGCTATTGTATGCTAAAGGAAAAGGGAGATTATGGAAACTAAACTTGAGGATTATGTATTTTCAGGCCAAGAAGAGCTCGGGGAGGCTTATAACCCACTTAGAGCCGGGACCGATTGTGAGTGACTGTTTGTTATACCTTGTGTTAAACTTAGTACGCATATTGATGAGGAAACGTGATTCATGGTAGTATGCCTTATGTATGTGATGTGTTAGTGATTTAAGAGAATATTATTACAAATGTCTAAGCACATAAGTGGCTGAGGGACCCTATGGTGAAAGCTACATGTGAGTAAGCGTGAAATTAAGTGCTGAGGGATTTGAGAAGGCACTTGAATAACAGTAAAGAATGGACTACAATGCTCAGGGACTGTAAGTGAAGGCATGTAGTAACCCATCACCACTAGCTCGTGCCGAGGGATCATGTGTGAAGGCACTTGAGCATAGATAGAGTTTGTTACCTGTGCCGAGGGATTTCAAGTGAAGGCACATGGTACTGTAATTATAAATGAGTAAGTGCTGAGGGACGGAAAGTGAAAGCACTAAATAGATGAAAACTTGTGAAACATGAGAATTGATAGTTATACATGCATAGTGGAAAGCGAATCTTGATAATTCATTGAGATGTGTTATGCGATGGTTACTATCTTACAAACTGGATTTAAGTTGTCATGATTAGTTTTAGTAGATTTAGTCACTCACTGAGCCTTTTGCTCATCCAGTTTGTTGTTGTTCGTTGTTTCAGGTAGCGAGCGTGTCCGGGACACCTAGCCTACTGAAGATCTCGTCTGGGCCTATCTGGAAGCGAACCTCTGGGATAGTTGTAAATACTTAGTTTGTTCGTATATCTTGTAATGAACATATTTCATGAGGGTAGAGAGGGGGGGACGTGTTGTACTTTATATGTGTATATACAAACATGTTGGTTGAAAGTTTGCACGTTCATCTGATGAGATTATGGGATTGTTGTTTGTTTTGCTATTCTTTTATGGTGCTTATCTTATAGAGTCTTATGTTGGGAAATAGGATCATGCTCCTTCCTAGGTATAGAGTAAATCTGGGTTGGGGTGTGACAAAAATGGTTTTGGGAGAGGGCGTGACAACACTTGACAAGAAAAACACCACCACCTGAATAGTCCATCATTATCCCATCATCTGAAGAAGATCCTTAAGGTATTTTGTTACCAAATTTTGAATATGATATTAGGCTGGCAGTTAATCAACTTCTGGTTGGATGGCTTTATAACTCTATGTCACCTGAAATTGTAGCTCAAGTCATGGGTCATGATGAAGCCAAAGCATTGTGGGATGCCATTCGAGAATACTATTGGTGTGAAGCCTTTCATACAGTTGTGTATCTAATAAACAGAATGCCATCTATTGTCATTAAAGGTAAAACTCACTAGTTTATCCTAAAATCTCAGCATGAGAGCTTTTGGTTTAGCTTGTTATCTGTGTCTGCGCCCATATCAGCAGCAAAAATTTGAATTTCACTCCGAGAAATGTGTATATATTGGATATAGTGATTACCACAAAGGCTATCTTTGTTTGAGTCTCACCAAGAGAGTGTATGTCTCACGACATGTATGCTTCAATGAACTTGAATTTCCTTTCTCCTCAATATTCTTAGCCACCACCAACCAAATTAATTCCTTGGAATCTACTGTTGTAGCTTGGCTCCCTGTGTTACAACAAACAAGTTCTACCAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCCTATGGTGAAAGCTACATGTGAGTAAGCGTGAAATTAAGTGCTGAGGGATTTGAGAAGGCACTTGAATAACAGTAAAGAATGGACTACAATGCTCAGGGACTGTAAGTGAAGGCATGTAGTAACCCATCACCACTAGCTCGTGCCGAGGGATCATGTGTGAAGGCACTTGAGCATAGATAGAGTTTGTTACCTGTGCCGAGGGATTTCAAGTGAAGGCACATGGTACTGTAATTATAAATGAGTAAGTGCTGAGGGACGGAAAGTGAAAGCACTAAATAGATGAAAACTTGTGAAACATGAGAATTGATAGTTATACATGCATAGTGGAAAGCGAATCTTGATAATTCATTGAGATGTGTTATGCGATGGTTACTATCTTACAAACTGGATTTAAGTTGTCATGATTAGTTTTAGTAGATTTAGTCACTCACTGAGCCTTTTGCTCATCCAGTTTGTTGTTGTTCGTTGTTTCAGGTAGCGAGCGTGTCCGGGACACCTAGCCTACTGAAGATCTCGTCTGGGCCTATCTGGAAGCGAACCTCTGGGATAGTTGTAAATACTTAGTTTGTTCGTATATCTTGTAATGAACATATTTCATGAGGGTAGAGAGGGGGGGACGTGTTGTACTTTATATGTGTATATACAAACATGTTGGTTGAAAGTTTGCACGTTCATCTGATGAGATTATGGGATTGTTGTTTGTTTTGCTATTCTTTTATGGTGCTTATCTTATAGAGTCTTATGTTGGGAAATAGGATCATGCTCCTTCCTAGGTATAGAGTAAATCTGGGTTGGGGTGTGACAAAAATGGTTTTGGGAGAGGGCGTGACAACACTTGACAAGAAAAACACCACCACCTGAATAGTCCATCATTATCCCATCATCTGAAGAAGATCCTTGAGGTATTTTGTTACCAAATTTTGAATATGATATTAGGCTGGCAGTTAATCAACTTCTGGTTGGATGGCTTTATAACTCTATGTCACCTGAAATTGTAGCTCAAGTCATGGGTCATGATGAAGCCAAAGCATTGTGGGATGCCATTCGAGAATACTATTGGTGTGAAGCCTTTCATACAGTTGTGTATCTAATAAACAGAATGCCATCTATTGTCATTAAAGGTAAAACTCACTAGTTTATCCTAAAATCTCAGCATGAGAGCTTTTGGTTTAGCTTGTTATCTGTGTCTGCGCCCATATCAGCAGCAAAAATTTGAATTTCACTCCGAGAAATGTGTATATATTGGATATAGTGATTACCACAAAGGCTATCTTTGTTTGAGTCTCACCAAGAGAGTGTATGTCTCACGACATGTATGCTTCAATGAACTTGAATTTCCTTTCTCCTCAATATTCTTAGCCACCACCAACCAAATTAATTCCTTGGAATCTACTGTTGTAGCTTGGCTCCCTGTGTTACAACAAACAAGTTCTACCAGGCTCTCTCATTGTAATGATGACATCTTAATGACCAACCAACTACCTCTACATTTGAATTGAATGCTTCAGCTATTAATAAAAACTCTCTTTCAACCACCCCTTACATTTCCCTCCAGCTGATCCAAAACCCCTCACCTCCTCATTTACCTTCCCCTCCATCCACATCCCTGCCACACCAATCCCATCATATTGGGCCTACATCTTTCACCAACACTTCACTTCATCCTCAAAGCTCACTCTCCATGATTATTCGTGTTAAATCTTGCATTTCTAAACTTGAATACCCTTTCACTGGGCTTACAGAATTACCCTCTCAAACCGATTGGTCCACTCTTGAACCTACACCATTTAATGAAGCTGTTCAATCCTCTCATTGGCAGCAAGCCATGAATGAGGAGTATTCTGCTCTTTTCCGCAACCACACATGAGATCTAGTCCCTTCCTCTTCTACTCATACTTTGGTGAGTATCAAATAGATTTATAAAACTAAACGAGATGCTGATGGTAACATCCAACGCTATAAAGCTTGCTTGGTGGCCAAGGGTTATCTCCAGATAGCTAGTATTGACTATGGTGAAACCTATAGTCCAGTGATCAAAACTACATCTATTCGTGTTGTTTTGACCATTATTGTCACATGGGGGTGGCCTATCAAACAATTGGATGTGAGTAATGCTTTCCTACATGGCACACTTCATGATGATGTTTATGTTAGCCAACTTCAAGGCTTTGTTGATCCTTAACAACCTACTCATGTTTGCAAGCTAAGCAAGGCTCTTTATGGTCTTAAACAAGCCCCTCGTATGTGATATGAACAACTTCGCTCCACTCTTGTATCTTGGCAGTTCCAGCAATCAAAGGCGGATATGTTGTTGTTTATCCTCCATTCATCAAAGGGTTCTATTTTCTTGTTCATATGTGGATGAATTGATTATCACTAGCTCCAACCAGCTTCTTTTAGAATTTCTTATTACTAAACTATAATCTACTTTTGCCTTTGAAGGATCTTGGTCTTTTCTTGGAATTTAGGTACATCGAGAATGGTCTTATCCTTTCTCAATCTAAATATGTGCATGATCTGCTCACATGTCTTCACCTTCAACACCTCAAACCAGCCAGCACTCCAATGGTAACGGGCACAAATTGTGCAAAACTGATGGACATATACTTTATAATCCTCAGATGTTGCAACACACTTGGCTCGTTGCAATATCTATTGCACACTCGCCTGGACACCGCTTTTGCGGTTAACAAACTCAGTCAATTTAATCAAGCTCCCACTACTTCACATTGACAAGCTCTCAAACGTGTGTTGCGTTATCTTCAAGATACTTCTCACTATGGTCTTCATATCCAACAAACTCCTCATCTGTCTATTACTGTCGATTGGGCAGCCCCTCTCAATGATTGACGGTCAATTGGTGGTTACTGTGTGTTTTAGGGATCTTCTTTTGCTATTATTTGTAAATATTTTTAATAGCTTTGTCATTTAAAATAATTTTCCTTTTTAATATGATTTTTTCAATAAAGATATCCTTTTATTTAACGTAAAGATTAATTAAAGATAAAATGACCAATAAGAACTTAGCTCAACTGACATCAATATATACTGGGACCAACATATCCATAGTTTTAATTCCCCAACCCCATTTGTACTAAAAAAATAAAGATACAATGTGATTTTTTTTATAGAAAAATTACCTTATTTGACGTAAAATAGATTTTAGTTAGAGATAAAATGTTATTTTTATTTTTTTAAAGACCCTCTTACGAGGAATAGAGATTAATTAGAGAAAAAATGTGATTTTTTTTTTAAAAATCCCTTTTATTTAATGTGAAGTAGATATTAGTAAAGATAAAGTGTGATTTTTTTTTTTTTTTTTAAATTCCCTTCCTTTAACATATGGTGGATATTAGAGATAAAATGTGATTTTTTATAAAAAAAATTCCTTTTATTTAATGTGAAGCAGAGATTATTAGAGATAAATTATAATTTTTTTAATAATTCAAATTTGAAATTAGGTAAAATATCCCTATGAGTCTACGACCATCAAAAGGGGCAAAAGTGAAAAAGAAAAAAAAAAAATCTCCCATAGTCCCTTTTAGATACTACTAGTTTTTTAGCACATGATAATATAACGACGGGAATACATATGATATGATAATATAACGACAATAATATGAAACACCAAACTTAGTGTAGCATTATGTTTTTTCTTTCTTTCTCTTTTCTCAGCCTTGCTTGCCCAATTAGAAATTAATTACACAACATTTTGTATTTAATGACAAATTTGCGTAAAATAGGTAATAATAAAAGGATGCAGTTGACATAAAATCATACTATTAACTTAAAAAATCATTTTTGGACTATTTTGTGCGATGATAATTCTCTATTGTATTTGATATCTAAGGTTAGGAAACTCATAACCTAACTCGAATAGGGTTAGAATAAAATCCTAGATCAAATCCCATTATGGCTCCATCAAAGGTATCTTCAAACTTTTGATTTCTTATATATTATTTATTTAATTCCTTTACTTACTTAGGCATTTGAGCTCTTTTTCTTTATTTTGTAGGTCTTGCATCTTTCGTAATCAAAATTTGGCATAAGCAATTATATACCTCTTATATTTCTTATAAATATTTTCATGCATTTGCAAACAACAATGTTTTTCTTCTTTGTGATGGAAGTTTCAAATTATTTCTAAATGTGTTTCTTTATTTCTTCTTCTTAATCTTTTTCATTTTCATTTGTTTTTTAGATTTAAATTGTTCTATTTGCATTATATATTTGTAAAGTCATTTTTCTAAAATTAATTTATGACCACAGTTAGAACTATAAAAAGGACTTTACCTATAATTATATTTAATAACAATAAATTTTTTAAAAGTTACAAAATTTCATTAGTTAGTTTTTAAAAATAAAGGTTTAAAGTCCGTTGACACCAATAATTTAAAAGACATGCATAAAAATGAAAAACTAGAAGGATGTGAAAAGTTAGAATCCCAAGATTTTGAATATTAAAAGTTTTGCCAATTTCATTAGTAAAAAAGAATTATAAAATTTATGAATTTATTTTAATTATATAAAATATTTATAATTTTTAACCTTTTACAATCATATAAATAACTATTTTTCCAAAGCAAAACGAACTACCGTTGAATGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTTTTGTAATTTATGTTTTGCTTCTTCGTATTGATAGTTTCCCGCTATTACACCTTGGAAAGATTATGATGTTGTTTATGTTTATGTTTATGGTTGTGGAGATTGTAAGTTCTCGTGGTAAAGCCCATTTATTCTTCTTTGCTTTATATTCTTGTTGAATCCGAAGGGGTATTCTAGTTCTAGTATTCGTGTTGATATTTCGGAATAAATAGAAGTGGGGTTCTATGCGAACTTAGAGTCATTGCTTGAATGTAAGAATTTCCGCCTGACCTAACGGATCTGGTTACTTGAAGATGCTTTTGCTTTTATATATTATTTCGGAATACGACTCTATTTAATTTTGCGGATTTTTTTTTTTGACTTTTGTGTTGAGGGAAATCATTTGGGGTGGAAATTCTTCCTGTAACATTTTGGCTGGGAAGCCGGCCCCTCGTAGCAGGGAATTTCTTGGTATGGGGAATGCTTTAGTGCAAGAGTGGGGGAGAGGAGGGGGGATGGGCAAGCCATTTCAACTCCTCTATGGAGATGAGATACTCCTTTTGAGGGTTTTTCTTGGTGTAAATAATTTCTGTATATATGAAAAATGTATGAAATAATGACAAATTTAAGAAATTAGAGTTTGATTACAATTACAAGAAAAGTTGATTATAATTTTAAAGAAAATTCAAAGAGATAAAAGTTACCTAGTCAAGCTCGAATAAATTGAAACCAAATTGAACTTATGAATTGGACCAAGCTAATCTGTACTTGATACTTGATAGGTTTGGTTTGGTTCTCTACCCAATGTCTAGGACTATTATGGGTTGTCCTAGTGGTCAATAAGAGCCCATGTAGAGAGCAAATGACTCATAGGAAACGAGTTCAAGTGATGGTGGCTAGCTACTTCAGATTTAATATCTTGAATTACCTTGGTAACCCAGTTCAAATCTAATAGGATTAGATAGGTGTTTTGTAAGGATAGTAAGAGTGTAAGTTGGTATGGACACTCACAAATATTAAGGAAAAAAACCCCCAATCTTTGGTCTCAACTGGACTTCTGTTCCTTGCGGTTCAAAAGAACTAATTCTAATTCAAACCAATAAAACAGTGGCATTTTAGAAAACCTTTGGATATTTGTTTTTTAAAGTTCACGAAACAGCCCACCAAGTCCATAGAAATTAGAAAGGTGTGAGTTAGAGCTAGTATGTTTGGCATGTATGGGGGTTACCTCGTTATCTAAATTCATAGAAATATTCATATCTTGTGACTTTGAAGATTGTAATGTGAGAAGCCTTTTATTTTATTTCGGGGATATCTTGTTAGTGGTTCAAAATAAATTATATTCACCAAAGAAAATTGAACTGAACCAATTGTAATGTAATTATGTAATATAAATTATATGTTAAATTACAAGTTTAGTCTTTCAATTTTTAAGTTTGTGTTTATTTGGTTCCTGAACATTAGTAAGTGTCTAATATGTCTCAAAATTGATAGTTCAGAGGTCTATTAGACATTTTTTAAAGTTCAAAACCAAATTTCATAAAACTGAAAGTTCAGGGATAAACTTAAACTGAACTTTTAGTTTAAAGTTTAGGGATAAACTTATAATTTAAGTTGTAATTCGAGCATTAGTCTCGTTTCATTATTTCAATGAAAAGTTATGTTTCCATTAAAAAAAGACTTGTAATTTAAGTTGTTTAACCTAAATTATATAACTATATGAAGAATTTTCTTTTTTGAAAGGTATAATTCTTCTAAAATCACTCTCAAGTCTCAATTGAATATATGAAAATATTAAAAAAAAATCTCCATCTTAACCTTTTATGAATGAAAAGAACCCCAAGAACCCTAATGTTTTCTTATCTCACCCTTTTAGCCAGTTCTATTGACAGACCTTCCTTGCCTCCTTTGTCGTTGTTGCCTTTCCTCTTCCGACTCTTTCAGCCTCCCACGGAATCTTCTTTTGAATCAATTGATTCAATTCTGATATCATCCTTTCAATTCCCTGCTGGTTGTCGCTGTTGTACCATCCTTGTTGGTCTTCTCTCAGTATTTCTAACTAACCATAAGGTAAATGACCTTCCCTCTCTTCCTCAATGGTTGCCTCTGCTTTTCAAAACAGAAAGTTGATATATCGATCGGTTAATTCCTTTCAATCTGGTTTGGGCAGAAGCTTGGTTCTTATATGGACATATTTAATGGAGAGAGGGTGTTTCTACAGGGCGTTTCTTCTGGAAAGTGGGGCGGCTTACTTTAATTAGATCTGTGTTGAGTGGTATCCTTGTCTACTTTTTCTCCCTTTTTAGAGATCCTTGCAAGGTGTGTTAAAGTTTGGAGAAGTTGATGCGATCACTGGGAAGGGGTTGAAGAAGGAAAAGGGAAAGGTTCACATTCAATTAGATGGGAGGTTATTGAGAGGCCTGTTGATGTGGGTGGGTTAGAGCTTGGGAATCTAAGAACTCGCAACAAATCTTTGTTTGCTAAATGCCTTTGGTGTTTCACCCTTGAACCTAGATCCCTCTAACATAGGATTATTGGTAGTAAACATGGGCCCCACCCTTTCGAGTGGCTATTTGAAGGGGTAAAAGGCTCTCACCGGAACTTGTGGTAGATTATTTCGAAGGAGCTCCCTTTTTTTGTTCTATTTGTCTGCCATGTGGTGGGAGAGGGGAGAGAAGCTTAATTCTTGGGAAGACCATTGGGTGGGGGAGAGGCCTCTCTGTTTCTTGTTCCCCCATATGTATCATTTGTCGGATCTCAAAAACCATTTTGTTGCTGATTTTCTTTTGTGGTCTAGGAGCACATATTCCTTCTCTTTTGGGTTCCATCGTGCTATTTCCAATAGGAAAACGACGGAGGTGATTGATCTTCTTTCCTTACTTGAGGGCCATCCTTTTAGGCGTGGGAGAATAGATGTGAGGTTTTGGAATCCTGATCCTTTGGAGGGATTCTTGTATAAGTCTTTCTTTCGTAAGTTGATTGACCCTTCTCCCCTAGGAGTGTCTATCTTTTTCGTGCTATGGAGGATTAATATATGCGAAAATCAACCAATGACTAATTAAATTAGATTTTTTCCTGCTGTTTATATCTACTGTGTAGCTTCTCAATCTCCTCCTCCCTCCTGCTGTCAGGCAAGTCAGGGCCTCATTGTATCAGTTAGCAGTTTATATCTACTGTGTAGCTTCTCAATCTCCTCCTCCCTCCTGCTGTCAGGCAAGTCAGGGCCTCATTGTATCAGTTAGCTCCCTTTATTTATTTTTAAAGTATTCAGTTTGGTCACCTTGTTATGGGGCCCATACTTGTCAAAGCGATCCTATAGGGTTCCTAACTTTCTAGGAGGCTTTTGGATAGAATTTTCTGTTTTGAATAAGCATCCCGAAGATCTTCCAGTGCTTGACTTCAACAATTTCTGGGTTCGGTTTCTAGCCTGCTTTCTGACAGCAGCTCTAGAGTTTAGGGATTTGATTCCTTTCTTGTACTTTTCATCCAATTAGTGGAAGTCTTATAAACCATACCCCCCAACTTCCCTAACTGTGCAACGCATAGGGTTCAAATTAACAATTTTTTTAGTCCTTTGGTATTGCTTTATTCTTATTTTTACATCCTTAATTTCATAACATGCAGTCTTTTAAGTTGCAACATGTAATTAGGAAATTCAATTATTCTCATTTTATTGGTGATTTCATCTCAGAAATTCTTGTTATGGTGTCAGGTTATCATCCACTCTTGTAGATGGAGATGCTTACTACAAATTCTGGTGCCATGCTACCTCTTCTACCCCCAGGTACAACCAACTAATTTCCTTAATGTTTATTGGTTTGATGTAAAGCGGAAATGAATGGTTTTACTTATAACTAAAAGAAAAAAGACGAGTACAAGAGAAGGAAAGCAGGATAATGCATTTCCCCTATCCCTAGTTCGATTGGAGAAGTAAGTTAATGTCAGACTTCCTACTATGTCACTCGACTCACTACAGCATGAGGTGCTGTACTGTATGCAATCCAAGAAATTGTTAAAAGTTCCGAAGATATCTTGCAGGATTATTACTATTCTTTTCAATCTAAAGTTGGCCATAAAATAGCTTTGGAAGGAATTCCATGTAGAACTCTACCTTTCTTTTCAACCATCAGCCCACTTAAACTTCTGAAAATGAGGGATTTCACATCATTCAGGAATCTCTAAGAACCATTTTTTTATGAGGAAGATAGGATTATAATTTCATTGATAGTATGAAATTACAAAAGGGCAGTAAATGCCATGAGGTATTACATAATGCTGTACCATTGTGAAATGAGAGATGTAAGGGTTTAGGGCCATAAATTTGACATTAAAAATTCCAGCTTTTAGTGGCAACTCCGTAGAGGAATAGATGGTCTATATGGGGAAAAGTTGACTTGTGTAGACCCCTTTCTAATCAGGTTAGCTATGTTGCTGAGGTTGAGGTTGGGGTTTTTGTTTAGTTAGGTAGACAAGAGCAGACTTGCAAGTGTATGCCCTCAAATTATCAAAATTCTGCAAGGAGATGTTACATGCTCTTGTACTAATAATACCTATAGTGGTTTATTAAGTTCGGGAACAAATAATTTAGTTGGTATAGATCCACATACACCCAAGCAATCTGATTGTGGAGATAACATTTCTGTTCACTGTGCTCAGTGTGTTTATACGAAAGAAGGATCTATATAAATATATATATATTGTGTGTGTGTGTGTGTGAATAAATAAATTTTATTGACAGTAATAGATAACTGTGGTAGAAACAATTGTTTCTCGTGCTTGAAGCTGGCTCTTGTCTCACATGGATACATGTATGTGGTACGGTCAAGTCACAGTTTTTCATGGTTTTGAGATCCCGATATTTAGTGAGCTGATGTACATTGGAAGATCTATCAATAGACCATAACATCTTGATCACTCTTTGGAATATATATTTATTGGCACTCGGTTGATTGGACAGTCAATTTTCATTAATGGTTGCTAATTGTGATAAATTAATATTTGTTAAATGCTCAATCTTCGTAACATATATGTACTTTTCACGTAACCCTATGTTGTCCTCCATGCTTTTAATTTTCCAAATATTTCTGCTCAGACTAAAAAATGAATTTAATTAGCCTATGTGACGAAGACCATTGTAGTTACATAGTTTCTTATGCAGTTAAAAAGATATTGGTTATTGTTTAAATTAATCTTCTATTACCATTAATTCAATTTTTTTTTTGATCTTTAGTTGTAATATTATCTTTGTAAAATAGTGGGTCAGCACTGGAGAAGAATGAAGGCCAAAGACTTCCCTCTTAGACGGTATAGTTCCCAACTTCAAACTCCTAATGGGAGGAGGCAATCAGTGTTTGCTAAAGCAGGACCTGTATTTCTCAATCCAATTCCATCTACTGGGACGAAGGGAGGTGTTCTATGTTCTAGTAGAAAGAACAATGCTTTCATATGTTTTGCTGCTTTGGTAAGTTGGTTTTTATTAATTGATTTCTCTGTTAGAACTGGTAATAATTTTTTATATCAGAAGCATTATTGTACAACCTTAAGCTTAGATGCCAAGGGATATTTTCTAAAGGCTTCCCAATTTGTTGAAATGAGTTGGGGAATTTGGATGGTGAGGAATCATAGAATTTTCAGAGGGGGAGACGTATGTGAAGGAGTTGTTCCCTTGATTTGCGTCTTGATGGTCAAGGTCTTTTGTCATTATTAGTTGTGCCTGATTCTTTTAGATTAGAGCTCCTTTTTGTATTTCTTTGGCTCTGTCCTTTTTATGTCCCTGCAAATGATAAACCTGGATTTATCTAGCAATAGAGGTGCTGAGTCAAGGGAAGATTCAGAGAGCTTCCCCTCTCTCCCAAACACAATTCTCACAAAATGACTTGAGCAAGAAGATATCTATCCAGCTCTTTCCTTCTCCCTATATAATTCTTGACTCATTGGCCATGTCTATTCAATGTTTTAAAAAGCTATTGAGGCTTATGCCTTGAGGCTTGCTCGAGGCAAGACTCTAACTTTTAGTCTTGAGACTTGTGCCTTCGTTGAACCATGAGAGGCTTACACCTCTATAAAATCACATTGAGGCTGAAAATCTCTACACCTCCTCTTATAGGAAGAAAAATAATAGTGTGATTTGCCTATTATCCTTTTTGCTGCTATGACTTCAGAACATTGAAAATGAAGATAAAAACTTTAGTATAACTCAATCCTATTAATGATAACAGTAGTGAAGTTAAAGATCTCCTTTTAGAATTTTTATTGAGTGAAAATTGCATGGGTGTATCTTTTACACTATTATATGACTATCACGCTTAACAATACTTGGTTATACTAGTTTAGGATTTGTTAAATGTTCTTAATTCAATTTGAGGCTTATGCCTTGCCTCTTCCTGATGAAAAGCTTCAAGGTCGCTTTAGCCCTTCAAAACATTGCTTCTATTACATTCTCATGGACCCACCCTCCCGAGTCCTAACTTGTAACAAGGGCTATTGCCCACTCTCATTCCTCATGCTTGTTTCATATTTTTCAATGAAAGCTTGGTTTCTTGTTATAAAAAAAAAAAAAAAGGAAAAATAATGGTTGAAACGAGAAATAGTTGAAGCCACATTAATTTCTTAGTTACCTAATTAATTAGTTTCTGCCTGAATGAGTGTTTGAAGCAACATAACAGACTGGTGGTGGACTGTTGAAATGGATTTGAGTTTTTGTTAAGTAATCAATTATAAAGAATTAAATAGGTTTTTCGACATAGTTAAAAGACTTAAACAGAATATTTGAAAAAGAGACTAAAAAGCAAAAATATGTCTAATGGTGCGGTCCCTCTGCAGAATGCTAGATGTGCAGCGGAGCAGACACAGACCGTTACAAGAGAGGCTCCTACAATCACTGTTCTTCCTGGTAACAATCACTTGCAGATTTTATGAATAATAGTAACTTTTAGCTTCAATTTTCCTAGCATTAAGTTGCATATGCACATATTATCATCATGTAACCAGAACACCAAACATGCCTCACGATGTTCTTACCTATTTGTCTCGCTCTCTCCCTAACACGCAGCCTTGTCCTAGGCTATCATAGTGTTGGTTGTTGCTAAGCCTTACTATTAAAACTAAAATTGCAGGCAAGGAGAAGTCACCGCAACTGGATGATGGTGATTCTGGATTTCCACCTCGTGATGATGGTGATGGTGGCGGAGGTGGCGGCGGCGGTGGAGGCAACTGGTCTGGTGGATTCTTCTTCTTTGGCTTCCTTGCTTTCCTAGGCTTTCTAAAAGATAAAGAAAGCGAAGGGCCATATCAGAATGATCGGAGAAGATAAATATACTTTGATCAAATATATAATGTAGATTCTAGATTTATACTTGGATAAAATCTCAAAATAAATGTTTGTTTCCAGTCATGTTAAATCTCCATTTAATTTCTTTCATCCCGTTGTCTTTAATTCGGTTTTCCCTATGGATTGGCGTAAGAACACAAAGTTCTCAAAGATCTCATTTGGAATTTCAGCTATGAAAGATATAACTGGTGAAGGTAAAAGCTGACGAGTTTGACTTGTACTATCAACTTGGC

mRNA sequence

ATGGTGCTGAAGAGTCAATTTGCTGAAAAACTAGTTTTCTATTTTGCCATATTTCCACATGCATACATCATGGAAATCATTTGGGGTGGAAATTCTTCCTGTAACATTTTGGCTGGGAAGCCGGCCCCTCGTAGCAGGGAATTTCTTGGTATGGGGAATGCTTTAGTGCAAGAGTGGGGGAGAGGAGGGGGGATGGGCAAGCCATTTCAACTCCTCTATGGAGATGAGATACTCCTTTTGAGGTTCACGAAACAGCCCACCAAGTCCATAGAAATTAGAAAGATGGAGATGCTTACTACAAATTCTGGTGCCATGCTACCTCTTCTACCCCCAGTGGGTCAGCACTGGAGAAGAATGAAGGCCAAAGACTTCCCTCTTAGACGGTATAGTTCCCAACTTCAAACTCCTAATGGGAGGAGGCAATCAGTGTTTGCTAAAGCAGGACCTGTATTTCTCAATCCAATTCCATCTACTGGGACGAAGGGAGGTGTTCTATGTTCTAGTAGAAAGAACAATGCTTTCATATGTTTTGCTGCTTTGAATGCTAGATGTGCAGCGGAGCAGACACAGACCGTTACAAGAGAGGCTCCTACAATCACTGTTCTTCCTGGCAAGGAGAAGTCACCGCAACTGGATGATGGTGATTCTGGATTTCCACCTCGTGATGATGGTGATGGTGGCGGAGGTGGCGGCGGCGGTGGAGGCAACTGGTCTGGTGGATTCTTCTTCTTTGGCTTCCTTGCTTTCCTAGGCTTTCTAAAAGATAAAGAAAGCGAAGGGCCATATCAGAATGATCGGAGAAGATAAATATACTTTGATCAAATATATAATGTAGATTCTAGATTTATACTTGGATAAAATCTCAAAATAAATGTTTGTTTCCAGTCATGTTAAATCTCCATTTAATTTCTTTCATCCCGTTGTCTTTAATTCGGTTTTCCCTATGGATTGGCGTAAGAACACAAAGTTCTCAAAGATCTCATTTGGAATTTCAGCTATGAAAGATATAACTGGTGAAGGTAAAAGCTGACGAGTTTGACTTGTACTATCAACTTGGC

Coding sequence (CDS)

ATGGTGCTGAAGAGTCAATTTGCTGAAAAACTAGTTTTCTATTTTGCCATATTTCCACATGCATACATCATGGAAATCATTTGGGGTGGAAATTCTTCCTGTAACATTTTGGCTGGGAAGCCGGCCCCTCGTAGCAGGGAATTTCTTGGTATGGGGAATGCTTTAGTGCAAGAGTGGGGGAGAGGAGGGGGGATGGGCAAGCCATTTCAACTCCTCTATGGAGATGAGATACTCCTTTTGAGGTTCACGAAACAGCCCACCAAGTCCATAGAAATTAGAAAGATGGAGATGCTTACTACAAATTCTGGTGCCATGCTACCTCTTCTACCCCCAGTGGGTCAGCACTGGAGAAGAATGAAGGCCAAAGACTTCCCTCTTAGACGGTATAGTTCCCAACTTCAAACTCCTAATGGGAGGAGGCAATCAGTGTTTGCTAAAGCAGGACCTGTATTTCTCAATCCAATTCCATCTACTGGGACGAAGGGAGGTGTTCTATGTTCTAGTAGAAAGAACAATGCTTTCATATGTTTTGCTGCTTTGAATGCTAGATGTGCAGCGGAGCAGACACAGACCGTTACAAGAGAGGCTCCTACAATCACTGTTCTTCCTGGCAAGGAGAAGTCACCGCAACTGGATGATGGTGATTCTGGATTTCCACCTCGTGATGATGGTGATGGTGGCGGAGGTGGCGGCGGCGGTGGAGGCAACTGGTCTGGTGGATTCTTCTTCTTTGGCTTCCTTGCTTTCCTAGGCTTTCTAAAAGATAAAGAAAGCGAAGGGCCATATCAGAATGATCGGAGAAGATAA

Protein sequence

MVLKSQFAEKLVFYFAIFPHAYIMEIIWGGNSSCNILAGKPAPRSREFLGMGNALVQEWGRGGGMGKPFQLLYGDEILLLRFTKQPTKSIEIRKMEMLTTNSGAMLPLLPPVGQHWRRMKAKDFPLRRYSSQLQTPNGRRQSVFAKAGPVFLNPIPSTGTKGGVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR
Homology
[Close]
BLAST of ClCG10G004020 vs. TrEMBL
Match: A0A0A0L2P2_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G044530 PE=4 SV=1)

HSP 1 Score: 328.2 bits (840), Expect = 9.5e-87
Identity = 157/174 (90.23%), Postives = 161/174 (92.53%), Query Frame = 1 

Query: 95  MEMLTTNSGAMLPLLPPVGQHWRRMKAKDFPLRRYSSQLQTPNGRRQSVFAKAGPVFLNP 154
           MEMLTTNSGAMLPLLPPVGQHW RMKA + PLR YSSQ QTPN RR S+ AKAGPVFL P
Sbjct: 1   MEMLTTNSGAMLPLLPPVGQHWGRMKANNLPLRWYSSQHQTPNSRRLSMVAKAGPVFLKP 60

Query: 155 IPSTGTKGGVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDG 214
           IPST TKGGVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDG
Sbjct: 61  IPSTRTKGGVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDG 120

Query: 215 DSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 269
           DSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLG LKDKE +G Y+NDRRR
Sbjct: 121 DSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGLLKDKEEDGSYENDRRR 174

[Close]
BLAST of ClCG10G004020 vs. TrEMBL
Match: A0A151S4R9_CAJCA (Uncharacterized protein OS=Cajanus cajan GN=KK1_028448 PE=4 SV=1)

HSP 1 Score: 189.9 bits (481), Expect = 4.0e-45
Identity = 103/174 (59.20%), Postives = 117/174 (67.24%), Query Frame = 1 

Query: 97  MLTTNSGAMLPLLPPVGQHWRRMKAKDFPLRRYSSQLQTPNGRRQSVFAKAGPVFLNPIP 156
           ML T++ A LP LPPV +   R++       R    LQT N               N I 
Sbjct: 1   MLATSAVASLPKLPPVRRGGHRIEENVITTCRLPRPLQTIN---------------NSIS 60

Query: 157 STGTKG--GVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDG 216
           S+ T+   G    S +    IC AALNARC AEQTQTVTR+APTIT +PGKEKSPQLDDG
Sbjct: 61  SSCTQFPFGTRAHSIRTATIICAAALNARCGAEQTQTVTRQAPTITHVPGKEKSPQLDDG 120

Query: 217 DSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 269
            +GFPPRDD DGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESE  Y+++RRR
Sbjct: 121 GTGFPPRDDDDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEDTYRDNRRR 159

[Close]
BLAST of ClCG10G004020 vs. TrEMBL
Match: A0A0B2PTV8_GLYSO (Uncharacterized protein OS=Glycine soja GN=glysoja_039436 PE=4 SV=1)

HSP 1 Score: 189.5 bits (480), Expect = 5.3e-45
Identity = 100/174 (57.47%), Postives = 117/174 (67.24%), Query Frame = 1 

Query: 97  MLTTNSGAMLPLLPPVGQHWRRMKAKDFPLRRYSSQLQTPNGRRQSVFAKAGPVFLNPIP 156
           ML T++ A LP+LPPV +    ++        +  +L T N               N IP
Sbjct: 1   MLATSAVASLPVLPPVRRGGHHIEQNVVSTLSFPRRLLTTN---------------NSIP 60

Query: 157 STGTKG--GVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDG 216
            +GT+   G    S      IC AALNARC AEQTQTVTR+APTIT +PGKEKSPQLDDG
Sbjct: 61  LSGTQFPFGRRAHSTHTATIICAAALNARCGAEQTQTVTRQAPTITHVPGKEKSPQLDDG 120

Query: 217 DSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 269
            +GFPPRDD DGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKE++  Y++DRRR
Sbjct: 121 GTGFPPRDDDDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKETDDTYRDDRRR 159

[Close]
BLAST of ClCG10G004020 vs. TrEMBL
Match: C6SXM5_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_08G332600 PE=2 SV=1)

HSP 1 Score: 189.5 bits (480), Expect = 5.3e-45
Identity = 100/174 (57.47%), Postives = 117/174 (67.24%), Query Frame = 1 

Query: 97  MLTTNSGAMLPLLPPVGQHWRRMKAKDFPLRRYSSQLQTPNGRRQSVFAKAGPVFLNPIP 156
           ML T++ A LP+LPPV +    ++        +  +L T N               N IP
Sbjct: 1   MLATSAVASLPVLPPVRRGGHHIEQNVVSTLSFPRRLLTTN---------------NSIP 60

Query: 157 STGTKG--GVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDG 216
            +GT+   G    S      IC AALNARC AEQTQTVTR+APTIT +PGKEKSPQLDDG
Sbjct: 61  LSGTQFPFGRRAHSTHTATIICAAALNARCGAEQTQTVTRQAPTITHVPGKEKSPQLDDG 120

Query: 217 DSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 269
            +GFPPRDD DGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKE++  Y++DRRR
Sbjct: 121 GTGFPPRDDDDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKETDDTYRDDRRR 159

[Close]
BLAST of ClCG10G004020 vs. TrEMBL
Match: I1N081_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_18G074400 PE=4 SV=2)

HSP 1 Score: 185.3 bits (469), Expect = 1.0e-43
Identity = 98/172 (56.98%), Postives = 114/172 (66.28%), Query Frame = 1 

Query: 97  MLTTNSGAMLPLLPPVGQHWRRMKAKDFPLRRYSSQLQTPNGRRQSVFAKAGPVFLNPIP 156
           ML  ++ A LP+LPPV +    ++        +  +LQT N                 + 
Sbjct: 1   MLAISAIASLPVLPPVRRGGHCIEQNVVSTLSFPRRLQTTNNSIS-------------LS 60

Query: 157 STGTKGGVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDS 216
           ST    G    S +    IC AALNARC AEQTQTVTR+APTIT +PGKEKSPQLDDG +
Sbjct: 61  STQFPFGRRARSTQPATIICAAALNARCGAEQTQTVTRQAPTITHVPGKEKSPQLDDGGT 120

Query: 217 GFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 269
           GFPPRDD DGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKE+E  Y++DRRR
Sbjct: 121 GFPPRDDDDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKETEDTYRDDRRR 159

[Close]
BLAST of ClCG10G004020 vs. TAIR10
Match: AT1G56200.1 (AT1G56200.1 embryo defective 1303)

HSP 1 Score: 157.9 bits (398), Expect = 8.6e-39
Identity = 77/119 (64.71%), Postives = 88/119 (73.95%), Query Frame = 1 

Query: 152 LNPIPSTGTKGGVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLP--GKEKSP 211
           ++P+ + G   G+   SR+ +  IC +A+NA+C+  QTQTVTRE+PTIT  P   KEKSP
Sbjct: 39  VSPLSAVGLSSGL--GSRRKSLLICHSAINAKCSEGQTQTVTRESPTITQAPVHSKEKSP 98

Query: 212 QLDDGDSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 269
            LDDG  GFPPRDDGDGGGGGGGGG NWSGGFFFFGFLAFLG LKDKE E  Y+  RRR
Sbjct: 99  SLDDGGDGFPPRDDGDGGGGGGGGG-NWSGGFFFFGFLAFLGLLKDKEGEEDYRGSRRR 154

[Close]
BLAST of ClCG10G004020 vs. TAIR10
Match: AT1G30475.1 (AT1G30475.1 BEST Arabidopsis thaliana protein match is: embryo defective 1303 (TAIR:AT1G56200.1))

HSP 1 Score: 131.0 bits (328), Expect = 1.1e-30
Identity = 64/98 (65.31%), Postives = 74/98 (75.51%), Query Frame = 1 

Query: 164 VLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLP--GKEKSPQLDDGDSGFPPR 223
           V+ S  K   F C +ALN++C+  QTQTVTR++PTIT  P  GK KSP+LDDG +GFPPR
Sbjct: 90  VVVSKNKRPVFACNSALNSKCSQGQTQTVTRQSPTITQAPTHGKVKSPKLDDGGNGFPPR 149

Query: 224 DDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESE 260
           DDG GGGGGGGGGG+ SGGFF FGFL F+G+LKD E E
Sbjct: 150 DDG-GGGGGGGGGGSSSGGFFLFGFLLFMGYLKDLEGE 186

[Close]
BLAST of ClCG10G004020 vs. NCBI nr
Match: gi|449461082|ref|XP_004148272.1| (PREDICTED: uncharacterized protein LOC101207190 [Cucumis sativus])

HSP 1 Score: 328.2 bits (840), Expect = 1.4e-86
Identity = 157/174 (90.23%), Postives = 161/174 (92.53%), Query Frame = 1 

Query: 95  MEMLTTNSGAMLPLLPPVGQHWRRMKAKDFPLRRYSSQLQTPNGRRQSVFAKAGPVFLNP 154
           MEMLTTNSGAMLPLLPPVGQHW RMKA + PLR YSSQ QTPN RR S+ AKAGPVFL P
Sbjct: 1   MEMLTTNSGAMLPLLPPVGQHWGRMKANNLPLRWYSSQHQTPNSRRLSMVAKAGPVFLKP 60

Query: 155 IPSTGTKGGVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDG 214
           IPST TKGGVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDG
Sbjct: 61  IPSTRTKGGVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDG 120

Query: 215 DSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 269
           DSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLG LKDKE +G Y+NDRRR
Sbjct: 121 DSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGLLKDKEEDGSYENDRRR 174

[Close]
BLAST of ClCG10G004020 vs. NCBI nr
Match: gi|920711016|gb|KOM52265.1| (hypothetical protein LR48_Vigan09g092400 [Vigna angularis])

HSP 1 Score: 183.3 bits (464), Expect = 5.4e-43
Identity = 102/175 (58.29%), Postives = 113/175 (64.57%), Query Frame = 1 

Query: 97  MLTTNSGAMLPLLPPV---GQHWRRMKAKDFPLRRYSSQLQTPNGRRQSVFAKAGPVFLN 156
           ML T++   LP+LPPV   G H  +       L R S    T N  +    A+       
Sbjct: 1   MLATSAVTSLPVLPPVRRGGHHNEQNVGTSLSLPRLS---WTTNNSKSPSCAQF------ 60

Query: 157 PIPSTGTKGGVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDD 216
           P        G    S +    IC AALNARC AEQTQTVTREAPTIT +PGKEKSPQLDD
Sbjct: 61  PF-------GTRARSPQTATIICSAALNARCGAEQTQTVTREAPTITHIPGKEKSPQLDD 120

Query: 217 GDSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 269
           G +GFPPRDD DGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKE+E  Y +DRRR
Sbjct: 121 GGTGFPPRDDDDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKETEDTYGDDRRR 159

[Close]
BLAST of ClCG10G004020 vs. NCBI nr
Match: gi|593353522|ref|XP_007140123.1| (hypothetical protein PHAVU_008G085900g [Phaseolus vulgaris])

HSP 1 Score: 183.3 bits (464), Expect = 5.4e-43
Identity = 100/177 (56.50%), Postives = 115/177 (64.97%), Query Frame = 1 

Query: 97  MLTTNSGAMLPLLPPV---GQHWRR--MKAKDFPLRRYSSQLQTPNGRRQSVFAKAGPVF 156
           ML T++ A LP+LPPV   G H  +  + + + P R   +      G  Q  F       
Sbjct: 1   MLATSAVASLPVLPPVRRGGHHNEQNVVTSLNLPRRLRMTNSSISPGCAQFPF------- 60

Query: 157 LNPIPSTGTKGGVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQL 216
                      G    S +  + IC AALNARC AEQTQTVTR+APTIT +PGKEKSPQL
Sbjct: 61  -----------GTRARSPQTASIICAAALNARCGAEQTQTVTRQAPTITHIPGKEKSPQL 120

Query: 217 DDGDSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 269
           DDG +GFPPRDD DGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKE+E  Y +DRRR
Sbjct: 121 DDGGTGFPPRDDDDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKETEDTYGDDRRR 159

[Close]
BLAST of ClCG10G004020 vs. NCBI nr
Match: gi|645215920|ref|XP_008218704.1| (PREDICTED: uncharacterized protein LOC103318997 isoform X1 [Prunus mume])

HSP 1 Score: 181.8 bits (460), Expect = 1.6e-42
Identity = 103/175 (58.86%), Postives = 115/175 (65.71%), Query Frame = 1 

Query: 95  MEMLTTNSGAML-PLLPPVGQHWRRMKAKDFPLRRYSSQLQTPNGRRQSVFAKAGPVFLN 154
           M MLT  S  +  PLLP VGQ   R+K      +R         G  + V  K  PV L 
Sbjct: 1   MPMLTAASTIVSSPLLPAVGQCPGRVKLSSCGPKRVC-------GDGRMVHFKIKPVGLG 60

Query: 155 PIPSTGTKGGVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDD 214
              S   +   +  SR++ + IC +A NARC AEQTQTVTREAPTIT LPGKEKSP LDD
Sbjct: 61  AQLSLLERRKPVIGSRRSASVICASASNARCGAEQTQTVTREAPTITHLPGKEKSPLLDD 120

Query: 215 GDSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 269
           G SGFPP DDGDGGGGGGGGGGNWSGGF FFGFL FL FLKDKESEG Y+ +RRR
Sbjct: 121 GGSGFPPGDDGDGGGGGGGGGGNWSGGFAFFGFLLFLSFLKDKESEGDYRENRRR 168

[Close]
BLAST of ClCG10G004020 vs. NCBI nr
Match: gi|1011993059|ref|XP_015933415.1| (PREDICTED: uncharacterized protein LOC107459673 [Arachis duranensis])

HSP 1 Score: 181.4 bits (459), Expect = 2.1e-42
Identity = 101/173 (58.38%), Postives = 119/173 (68.79%), Query Frame = 1 

Query: 102 SGAMLPLLPPV---GQHWRR--MKAKDFPLRRYSSQLQTPNGRRQSVFAKAGPVFLNPIP 161
           S + LP+LPPV   GQH +R  + + +FP            GR ++ ++      L P  
Sbjct: 8   SSSPLPILPPVRTGGQHNKRNIVSSDNFP------------GRPRTTYSSRS---LKPTY 67

Query: 162 STGTKGGVLCSSRKNNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDS 221
           +    G   CS+R    FIC AALNARC AEQTQTVTR+APT+T +P KEKSPQLDDG +
Sbjct: 68  TQFPFGTRACSAR-TATFICAAALNARCGAEQTQTVTRQAPTMTHVPAKEKSPQLDDGGT 127

Query: 222 GFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEG-PYQNDRRR 269
           GFPP DD DGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEG  Y++ RRR
Sbjct: 128 GFPPGDDDDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGDAYKSSRRR 164

The following BLAST results are available for this feature:
BLAST of ClCG10G004020 vs. TrEMBL
Match NameE-valueIdentityDescription
A0A0A0L2P2_CUCSA9.5e-8790.23Uncharacterized protein OS=Cucumis sativus GN=Csa_3G044530 PE=4 SV=1[more]
A0A151S4R9_CAJCA4.0e-4559.20Uncharacterized protein OS=Cajanus cajan GN=KK1_028448 PE=4 SV=1[more]
A0A0B2PTV8_GLYSO5.3e-4557.47Uncharacterized protein OS=Glycine soja GN=glysoja_039436 PE=4 SV=1[more]
C6SXM5_SOYBN5.3e-4557.47Uncharacterized protein OS=Glycine max GN=GLYMA_08G332600 PE=2 SV=1[more]
I1N081_SOYBN1.0e-4356.98Uncharacterized protein OS=Glycine max GN=GLYMA_18G074400 PE=4 SV=2[more]
BLAST of ClCG10G004020 vs. TAIR10
Match NameE-valueIdentityDescription
AT1G56200.18.6e-3964.71 embryo defective 1303[more]
AT1G30475.11.1e-3065.31 BEST Arabidopsis thaliana protein match is: embryo defective 1303 (T... [more]
BLAST of ClCG10G004020 vs. NCBI nr
Match NameE-valueIdentityDescription
gi|449461082|ref|XP_004148272.1|1.4e-8690.23PREDICTED: uncharacterized protein LOC101207190 [Cucumis sativus][more]
gi|920711016|gb|KOM52265.1|5.4e-4358.29hypothetical protein LR48_Vigan09g092400 [Vigna angularis][more]
gi|593353522|ref|XP_007140123.1|5.4e-4356.50hypothetical protein PHAVU_008G085900g [Phaseolus vulgaris][more]
gi|645215920|ref|XP_008218704.1|1.6e-4258.86PREDICTED: uncharacterized protein LOC103318997 isoform X1 [Prunus mume][more]
gi|1011993059|ref|XP_015933415.1|2.1e-4258.38PREDICTED: uncharacterized protein LOC107459673 [Arachis duranensis][more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: INTERPRO
TermDefinition
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0008150 biological_process
cellular_component GO:0005575 cellular_component
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0016020 membrane
molecular_function GO:0003674 molecular_function
Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
ClCG10G004020.1ClCG10G004020.1mRNA


InterPro
Analysis Name: InterPro Annotations of watermelon (Charleston Gray)
Date Performed: 2016-09-28
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availablePANTHERPTHR34938FAMILY NOT NAMEDcoord: 167..267
score: 8.1
NoneNo IPR availablePANTHERPTHR34938:SF1SUBFAMILY NOT NAMEDcoord: 167..267
score: 8.1

Synteny
The following gene(s) are orthologous to this gene:
GeneOrthologueOrganismBlock
ClCG10G004020Csa3G044530Cucumber (Chinese Long) v2cuwcgB192
ClCG10G004020MELO3C014068Melon (DHL92) v3.5.1mewcgB417
ClCG10G004020Cla004433Watermelon (97103) v1wcgwmB062
ClCG10G004020Cla97C10G188430Watermelon (97103) v2wcgwmbB039
ClCG10G004020Bhi11G000328Wax gourdwcgwgoB088
ClCG10G004020CSPI03G03800Wild cucumber (PI 183967)cpiwcgB194
ClCG10G004020Cucsa.041720Cucumber (Gy14) v1cgywcgB019
ClCG10G004020CmaCh16G009940Cucurbita maxima (Rimu)cmawcgB286
ClCG10G004020CmaCh06G006970Cucurbita maxima (Rimu)cmawcgB727
ClCG10G004020CmoCh06G007170Cucurbita moschata (Rifu)cmowcgB733
ClCG10G004020CmoCh16G010350Cucurbita moschata (Rifu)cmowcgB277
ClCG10G004020Lsi07G014270Bottle gourd (USVL1VR-Ls)lsiwcgB390
ClCG10G004020Cp4.1LG14g08170Cucurbita pepo (Zucchini)cpewcgB197
ClCG10G004020Cp4.1LG08g08070Cucurbita pepo (Zucchini)cpewcgB770
ClCG10G004020CsGy3G003810Cucumber (Gy14) v2cgybwcgB178
ClCG10G004020MELO3C014068.2Melon (DHL92) v3.6.1medwcgB404
ClCG10G004020Carg25233Silver-seed gourdcarwcgB0017
ClCG10G004020CsaV3_3G003860Cucumber (Chinese Long) v3cucwcgB194
The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:
GeneOrganismBlock
ClCG10G004020Cucurbita maxima (Rimu)cmawcgB285
ClCG10G004020Cucurbita maxima (Rimu)cmawcgB730
ClCG10G004020Cucurbita moschata (Rifu)cmowcgB280
ClCG10G004020Cucurbita moschata (Rifu)cmowcgB730
ClCG10G004020Wild cucumber (PI 183967)cpiwcgB190
ClCG10G004020Wild cucumber (PI 183967)cpiwcgB448
ClCG10G004020Cucumber (Chinese Long) v2cuwcgB189
ClCG10G004020Melon (DHL92) v3.5.1mewcgB415
ClCG10G004020Watermelon (97103) v1wcgwmB057
ClCG10G004020Cucurbita pepo (Zucchini)cpewcgB194
ClCG10G004020Cucurbita pepo (Zucchini)cpewcgB766
ClCG10G004020Bottle gourd (USVL1VR-Ls)lsiwcgB038
ClCG10G004020Bottle gourd (USVL1VR-Ls)lsiwcgB389
ClCG10G004020Cucumber (Gy14) v2cgybwcgB174
ClCG10G004020Melon (DHL92) v3.6.1medwcgB401
ClCG10G004020Watermelon (97103) v2wcgwmbB038
ClCG10G004020Wax gourdwcgwgoB080
ClCG10G004020Cucumber (Gy14) v1cgywcgB018