Cmc10g0269251 (gene) Melon (Charmono) v1.1
|
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TCACTGTATTCCTAAAGTTATTCCTAATAATAATAATGATAATTTCAATTACTCTTTCCCTCGCAGCCGCCGACCACTCCACCCCCGTCTGCTCACTCTTCTTCTCCGGCGAGCATCAGACGGCATATAAATGTTGGCATTTACTCACTGTTTCTCCTTCTCCGGCGGCTCTGTGAACCCAAGTCGACGACCAAGTTCCTCCGACAACCGACGCGAGTAGCCACCTACGTAGATTGACGCCGAACTTCTTCTCCGGTGGTCCCAGATACTCGCCAGAGGGTTTTTGACCCACATATCTGACTTCCATCGTGGGCACGATTTCGATTGGCTTCGCCGAGGCCTTTGCAACATTGTTTCTTTCCTTATCGACGAGCTTCGACATTAAGTCGGATTGGCCTCAAGTCAATCCACCCATAACGTTAAAGGTTAAATTTTCAAGTTCGGATGCTTTCGAGCACTAACCAGCATGGTTAAAATCCTTTTTGGTTAGATTCAGTAAGAATTGTTGCTTTAGTTTCCTTTTCGACTTGGATTAAGTGTTGGGTAAAGTTCGAATTTTTCGATTAGGGTTATATCAGTATTAGCTTGTCTTGAGCTGTTTCGAACTCTGTTGATGTTTGCTAGTTTAGTTTGTGACGTGGAAGCTTGTTCGTAGTTTTGGACTAATTCGGACTTTTGATGAAAGTCTATAGTTGGTTTATGGTGTATTTGGGGTAGTGTTGATTATGGTTTTCGAACTAAGTTTTAACACCTAAGCATTGTGTTTATTCTTTATGCTTTCTAAGAAGGTAATGTTTCTTCAAGGAAGTGGATGTTCAGATTGAGAAGTGTAGGTTGTTGATCGAATTAAGTAGTTTCTACATCTCTCTCAAAATATAAATTTGACTATTATTATAAATGTTTGAATATATGTTGTGTACAGATTAAAAATTGTTTTGGATGCTTTAAATGTTTTCTTATTAGAATACATGTTTTATTCTTGTCAAATGAAAATATGTAACTGTTTTGAATGATAGTTGCAAGTGTTTCAACTGATTTTGAATTGAAATTGTTTCTAATTTTATTTTATTGCCTTGTTGAATTGTTGAAAGCTTTGAATGGTTTGATTCAATCAATTCTTTTGAAATTGCAACTTGAAACTATATGTTTTGTATCAAATGTTTCTGAACGATTTGACAGGGGCTGTCCATATATACTAAGTTTTGTTTTTGGAATTGTATGCGAATGTGGTTGTAGCCATATTTGGAATGGACTGGAAATGAAATGACTGAAACTTATCTGTGAGAAGACACTTTATAGTGGATTAACATTTCTTTGGAATAAGGATTCATATGTGTGTTATGCTTGTATGAATTGACACTTAATGCTGAATGAATGAATGACTGGTGTTACCAACGTATAACCCCACGTGTTAGACTACTTCAACTATGCATCTTTCCTATATATTATGTATTTGAAAGTACTGAATGACAGATAATTCTATTGTATGAAAGTCTTGATTGACTGAAAATTCTGTTAGATTGAAAACTATTTACCAATTGTGTGCTTTGTATTTGAAAGTAGTGAAAGATTAGTGTTATAGAAAGTATGAAAGTTCTGTTTACTAAAGGTGTTGAAAGTTTATTCAAACACTTTGGTTTTGTTGAAAGACTATTTGTAAGTTCCAACTTGAAACTTTTAGTTTTGAAAGCTTGATTGCTTGAAAGATTTTGATTTTGAAAGTACCAGTTGTAAATGTATTGATTGAAAATTGCAATGATTTGTATATTTATTTACGGAAGTTTTGAAAGATAATGAATTCCAAAGCTTGATATTCGAGTCGTTTATTCAGTATTTATGTACTCATCTTTGTTTTCAAAATGTCTTTTAATGACATATCAGGTGATCGTTCGGAGTGCTGTGAAGAGCATTATGGCACAAGACATCAAGGGATGGTTATCTTAGGACTTGATAGTTTGACATAAAAATTATTTGTAGTAACTTGCTTCCGCTGATTTGGGTAAGTTGTAAAAGTTTATAATGGTAATGTTTCCGCATTGTTGTTATAATAATCTTTATTGGATAATACAGGTTGTTACATTGGTAGTTTCTCCTCCAGTTATTGAAGCTGTTCAAAGTTTGCTCATTGACACTATGTAAGTCGTTCTTTATTCTTTCACATTCAAATTTTGGTATCGTAATTGTATTTCTTTTCAAAATATTTCAAAGTTACTCTTTGGGCATTTTGTTGCATTGTAAATTTAGCATCTTTTTGCACCTGCCTGTTATAGATGATTTCAAACTAACCTATATCTTACAAACATAGTGTAGCATATTCATCTTTTCATGTTGAACGACATTCCGGGAGCTTGATTGTCACTTGAGCTATTCTTTTGTTTGTGCTTCATTTTTTAGGAGTCCTGTGAAGTTGACCCTTCGGTGTCCTTCTAAGATAGGGCAAGTTATAGTTGACCCAGATCCTGATTTTAGCTTTGATGATTTGCGACTGGAACTTCACTCCTTGGAGGAGAAGCTAAATAAGTCCACGATGCCTTTCAAGAAAACATGTTCACGGTATGATAGTCTTTTATATCTAGTATAAACATAATGAATTCATGCATGCGCTTCTTGATCCTTTGTTAAATAAATTTTGGTTTATAACTTAATAGAGACTTCCCTGTCACAAAAACTTTGAAGAGAAGCTCCAAGCCTTTTATTATGGGCGTGTATGAGGACGAACTAGAAGAAATATTTAGCGATGAAGTGGTTTGTGACCCAAGTTCAAATGCTAATCGCTTCAATTGTGATGGAATTTTTCTCAGGTAATTTATTCTACTGCTGCTTCAGATTTTTTTATTTATTCTTTTCAACGTTTCTTTTATTTTTATTTAACGAATATTTGTACCTAATAGTTTCTACGTATATTTTCTAGGTGAAGTTTAAACTAAATATTTGTTCATTGTTTTAAACTTTTATTCGTCATGTGATGTGCAAAATTATTATGCTGATATATTTCGATTTAAACTATTACATGTTTGGCTTTCTGACATGAAATTTTAAGATTTTTCTTGGCTTCTCTAGTGATAGTGAAGATTCTGACAATGAATCAACTCTTGAAGCACAAGCCTATCTGAAGGAGGACATGGATTTAGTGGAAAGTTCTTTGGCTAAGCTAACACATGATCATATGCTTAATATAAAGGTATTTTGGGGAGTATATCAATGTCTGCACATTTTAGCCTCTAAATATGAATGCAACATACATTTCATTTCTTATGACGGTTTATGTCTGTCATAACACTTACATAATTTTTTTCAATTAGTTTGTTATTTTGCTTTACCTGTTGCTTGCTTTAGTAGATACTAGATAATAATTTGGGAGAGAAGCTTTTGTAAAAGAATTACTTTGATATTGAATGATGGTATTTCTTTGGATACTATTGATAGGATACCATGGATGAGATGTATGTGAAATTAGTTAAACTGGTGTTTTTTTCATACAAAAACTGAGGAGTTATATGGTTTTAATTTGAATGTTGTCATTGCTGTATTATCATTTAGTCTGACTTTTTTTGATTTAAAATGTAGAAGATGTTGGAAATTATGAAGAACTTTTAATTTCATCCATCGGGTGATAAAGATATAAATTTAGCTAATCTTCCGTTCTGCTGGTGATTTTCTATATTGAACAGGAGGAAATCAGGAACCAACTTGGAAGGTTGGAGACTGACCTTACTACTTTAAATGAAAAGTCAAGTGCTGCAATCTCTCAAATTGAGAAATACTATGAGGCAAGACGAGAAGCTGACCGGAGATTGGATACTCAATATCAACGTGAGATGTATGCTTTTCTATTAGTCTTGTTTGCTGTTTTGTCATCTTGCTTAATTCAAATCTAGGAATCATTATGTCACATACCTTTAGTTAACTTTTCACAAACTTCTTTTGTAAAGAAGAGTAGTATGTCATATATTCTATGGTATAGTTATGTTCACCAAGTGATGAAGTTGAAGGCACTTTTATAATTGTAAAATAGAAGTTAATGCATTGAATTCCTCCATGGCACTTTTATGTTTACATATTTCTTATGTCTCTCCTCTTTCTAACAATGCATCCTCCCACAGTAGCTGAATCGTATTCAAACATTCCAACCTTGAATTTACAATTTCTTTCTTCTCCATGCTTGAACCTAGTTTATAATTTTCTTTTATAATGTTCTAAGTAGGTCTTTGTGATTCTTTTCTATACCTAGCCACTTATGAATGAGTCAATGACAGAATGACTATGCAGAAGTCCCCTCTAACATATTTTACTTTGTGCTTATCCTCTACCTCTACTTTTAGTGCTGAAGGCCTGGATAAGTACTTGACAACTGTTCAACATCATCACGAACAAATATCACAAAGAGAAGAAAGAAAAATAAGAAGTGATGCAGCTTTTGAGGAAGCCAAAAGAAAGGAGAAGGCTATTCTAGAGGATAAAAAACGTCAAGAAAAGCTTAAAGCAGAAGCCGAGGTTTGTTGCCAGCTATTTGAAAATGATGAATGTTTTTTCTTGTTTGTTTGTTTAATTTTATTTCTTCCTTTCTTTTTCTATAAGTGTGTTTGTCATTTTACTAGTACAGATAATGACTTTGATTTAAAATTAAGATAATTTTTTTGGGTTCTTTGCTTGTATCCAATTCTGTTGACATTTTAACTCTATCAACCATCCTTCGATTCAATTTGAGGATCATTGATCTTGATCAATGATCCACCCTATTTTTACTTTTTTGATCTGTTAATATCATCAGGGAGTTAATTCCTTCTTCCAATGTAGAAAAACACAAGAAACTATGGGACCTAACTACATAAGTGTTCTGAATATCACTGCCAGTTGAGGTTTTTGGGACAACCCACCGTTAAAGGGTGGTGCCAAAGACCACTTATCTTGTGCGATATTGTGTCCTCGTCGTTTGCTCTCTTAGCATGTCTGTTGGGGTATCAACCCGGCCTCTACGGGATTTGAGAGTGATAACAAACGTTTTTTGATCCGTCTTTAACCTTTCAAGATCACTTTCTCTTATCAAACCTCTAATTTCTTGAACTTTTCACAATCTTATCCTCATAATATTATTTTATTGCCCAAAGAGAGTAAAAGTTCTCATTTGGGAAATTAGCCCTTCTTGACTCAACACTATGGATCGTGCAAAAGAGATATCCATGGACAAGCCTGTCTCCTGCTTGCTGCTGCCTTTGTCAGAATGATCATGAATCTCAAAGTCCCATTTTCATCGACTGCCTATTTGCTGCTAATATATGGGGTGAATTACTTTCCGCCTTTTGTTGGTCTATAGCACTTCCGTGGAGATCAATGGATTGGTTAAAAATGATGCGGACTGAACACCCTTTCAAAAAAACCAAGGGTCTTCTATGGACAAATATGTTTATTGCCGTTTTGTGGAAGTTATGGGATGAAAGAAATGCTTGGCTGTTTAAAGGCAAAAATAGATACTCTAACGGAATCTGAGATTTATCTTTTCTTTCCCTTTTTCGATGTAAAGATTCACAACAGATTTAGTTTAATTTTTCCCCTTTTATACTTCTTTGGATTATCTCATTTAATCAATGGAATATTTTTCAAATTCAAAAACAAAAGTTGTGTTTACATTTTTCTAGGTACTTGACAAAAAAACAAGTCTTCAACGTTGCTTTTTCACCTTGCTCTTAAGCCCCAAAGGATTGTTGCACTTTACTGCATCTCATACATCTAAAAACACTTGTGCAGGCAAAAGCCAAAGCCGAGGAGGCAATGAAAGCTGCCATAGAAGCTGAGAGGAGAGCAGCGAAAGAAGCTGCTGAAACGGAAGCTGCTGAAAACTTAAAAAAAGTTGATACTGTACAAGTGCAAGAAACTATGGTTGGGTCGCTAGCTACCAAACCAGTAAACTCAGTTGGCCAGCCTAAAGGGACTGCTCCGGATGAAACATTTGTGTCGAAATCACCAGGTGACTTTCAGTATGAATATGACAATTGCTTTTCTGTTTTTGTGAAAAAAAATAATATACTTAAAATTTTTGACTATATATTTCTTTTTCTATTCTATCTGGATGTTTTCATGTTCATTTCTCTTTATCCGGAAGGTAGATAACCATATGACTTTTTGTGTGGTCTGCCAACTTACTTGATATCAGGGTTTCATCTAATATGGAATTTTTTGTGCCAATCTTATGGCAGATAGCATGGTTCGAGCCTCGAAAAGTGCTTTGGCTTTAGAGCCGGAGAGACTACAAAAACTCAAGGAGGTAGAGGAGGGAAACCAAGCATTGAGATTGAGTTCAAATAAGGTTTGGCATCAAGAAATAGTTTGAAAGCTTATTATTTTAACAGCTCTATATGCAACAGATATTGCTAGGCATGGTATTTCATTTTTATGGAATGCAATTGGAAGGACCCTAGATAGGAAAATAGTGGATTATTAGTGGAAAATGAATATGGCTATTAGTGGGGGCATATTAATAAATAGTTAGTAAGTTAGGTCTTTTTGTTATAAATAGTAGGAGAGGAGTTGGGGAGAGGTGTGAAGAATTTTATAGCGGGATTTCCTTGTAAGGGAACCTGGGGAGAGTCTAGCTCTCTCGAAAGACTGGGGTTACTTTGTTACTTGTTCTTGTGGTAACTGATATTCTATAATATATTTCATATACGGTTGTTCTTTAACCGTTCTTGAGTTCTTCCTTTGTTCTTGAGATAATTTTTGTTAGGTGGGATCCTAACAGCAACATACTGCTTAGGTTAGCATATGATTGTAAACATTGGTTATCGTGTGAATGAATGTATCTCAGATTTGTGACATGCTATCTTTGAGTATTTGGATATTGATCTCATTGTAATATTAAATGCCTGTCTTTTCGTCTTAACAGGATTTTAGCACCTATGAAAGGCATATTGCTAGGCTAATCAAACAAATAGGGGGGACGAAAGAGAATGTTAGGTATGAACATTCTTTGACTTTATCTTATATAAAAAAAAATGGAGTTCTTAGATTCTAGAGCTAAAAGAGTTCTTTGGTTTTTGTACGGCTTTCTTTCAATTGAAAATTTGAAACTGTTTTGATAGAGCATTTTTGTTTTTCATGTACATTTCTTTTGGGAACTGGCAGGCTTCTTTGTTAGCATTGGTTCCTGTCACAGGACTGCATTGATGCTATTTTGTGAATGATTTCTGTCTGTGCTAGTATTGTAATAAAACGTGGTTCTAAAATTTAAAGTTGAATTTATTAGATTAGAGCTTATTTGTACAACTGTATTGCCACCTGGGTCTGAACTTTTAAATTTGAACCATACTTTGGTCCTAGAGCCACCAATTTGATGAAGCTTTAGGGGGCGTTTGGGTCACCAACTTGGAGTTGATGATGTTTGGGGCTACTATATGTTTCCAACTATTATAACTTACAAATAATTACAATATTACTATTTCAAATCCTTGTTTATGACAACGTTTGCTATTTCTTACTCATCCCTTCATTTTTATTTGTTAGAATATTTACTGTTTTTATCTAGACTAAAATAATTTGAACTCTAAACACAAACTATTATAACCAGATTAAAATTGCACCTTAAACAGAAACTATTATAATTTATAGACTTTTCTATTCCAGATATCATATTAACCACTGATTAGAATAGCCACCTTAATGCCCTAAACACCCCTTAGTTTCTCTTAGTAGAGCAACTTTGTGATTGTAGCATTACATAATATATTTGAATTTTGAAATAGATTCGAGGTTGCAATTTTTTTTGTTAATGCTATTTTTCTTTTATCTTTGTAAAAATACATAAGAATTTTTCTGTATTGGTATTCTCGAAGGCATATTGATTGTTTGTTATGCACTATCTGATTCAGAACAAAAACTAGTGAAATTCTCAAGATTTTCATGGCTCCTCTTTGTCCACAAACGATTAGCATTGCAGCATTTGCAAAAAAGGTAATACCATGTCAATAACTGGTGGATGCATCTTGCTTTTCTGTTACTCATTATTGTAATTAAGTAGGTGATTACATGTCGAATATGTGTGGTCCCAGATGTAGTGGCTTCTTACAATCAACCTTGAAGTTCTAGGTTGAAAGCCTTAGAATTAAATTTCTAAGTAATAATATGTTCTTGAAGTACAAATTCTTAGAAAAAGTTTCTGGGAAGTACAAATGTCGATGGCCTGAGGCATGCTCTGATATAAATTTACACAGGGATTAAAAACCACTTGGATCTGGTAGCAAGAAGGTTTTTGTTTATAAGTCCTTGCTTATAAGAAGGTTTTCGTCTATTTAAAATATCATATTTATGTAGGTCATAGTCATAATACTTATGGAAGGGTCTTGTGTTTGACATTTGTGTACGAGGGGTAATTCTAAAAGAGTGAAAAACAAGCGATTTCTTAGTTATGTTTTACTTTAAATTTGGCTATGCATATCGAAATTAATACTCAAATAGGCATGCTATATGTAGAAACTAACTAGACCATGGTTGCATTTCTTTTCTTTTCTTTTCTTTGTATTATTTTTAGCCATCATGCATTTTGATCTTTTTTTTTTCTCTTGAGCAAGAGTTGGATCTTGTTCTTGAAAGTTTTCTTCATGTAGCCCAATGTCTCGAAGCTTCTAACTTCCTTTTGATATTTCAGATCGTTTCTCAATGTGAAAGTCCACATGATGCATTTGCACTCAGTCATGTTATTGTTCTTGTTACCTCACAGGTACTGCACTGATCATGTTATTGTACTTATAAGTTATACTTGTTTTTTCCTCTTTTTCCCGAATGTCTCCCTCCATGTCTTAATATTAAAAGAAAACCCCTGCATGTAATGTCATGCATGTAATGTGAAAATCAAGGACGGCAAATAAATTGACTTACTAATGGCATCCTCAACCCGCTCCACTGTTTGCTCTTTGTATAACCCTCATGTACATTGAGTTTTGTCTCTCTATTTTTCAATACTAATAATAGTGAGACTCGTTTCCTTTTGGAAAAAAGTTGGCATCCTCCTCAACCCTACCACTACAACATGTGGCGTAGGTAACCTTTATAAAAATAAGCATCTCATAAACACACAAACAAGTAATCACTCAAAGGGGAAAGAAGCAAAGAACTGATATTGATGGTTAAGCATTTGGATCGGACCAAAGTCAAAATTGTTAATTCACAAGTTTGATGACCAATCAAAACTTTTGTTGTTGATAAACTAAAAGAACAAAACACAGTTAATCTGACCCTATGGGGGCATTTTGACATGTAGATTTAGAATTCTAACCTTGTGCTTTCGGTTGGCTAGCTTGGATTTAAGAAAACTGTGTTTGAGGTGCAGGTTTAGGAAGTCTAAGTTTAAGAGGTCTGTGTTTGGAGTGTATGGTTAAGAAGGTTGAGATTGAAGTCCAAATTCATGTCTTGAGTTTGTGAAGCTTTTTTTTTTCATATCTAATTAGTGGTTTGACTTTTTCTTTTTTTTTTTCCCCTGGTTTTCTCCCCATAATTTTGTATTTTTTATGACTCTTTTAATACCGTAATTATTGTATGCTAAAGCTAGCAAATTGTTTAAACCAGGCCCCAAGTGCTCTGGTTCTTGTTCTTGCAGAGTTGCATAGAGCTTGCATCTACACAGTTCCGAAGCACATACAATATTCAGCGGTTAGTTCTTTGTGACAACTTAGATTGCCTTTATCTCTAACCATTCTTGATTTGGTAATACCCTACAGCTTCATCGTTCTGTCTTCTCTCTGATGGCAGTTTACTGTGTTCTTAATGAATACAATATTGATTGACTATGATATTTTCTCTTGCCAAATATTTTGGACCTTCCGTGATTGCATTTGAATCTCTTAATTACCTTAAATTTCATAAAAGAATCAGTATCTTGCTTGTGAATGCATTTCTTTTTAACTTAATAAAGAAACAGATTCTTTTACGGACTTTTATGCTTTACTAGTTCCTAGGCTTTAGTGATTAGTATTAAGTTTGGAACAATTTATGCTTCATATGTCTAAAATATGGTAAGAAGAAAATATAGAATGTTATCGCAAATTAAAGAGGAAAAAGTTGTTTGTTTGAAACTTATTCCAATATCCAAGCAGATTAATCCTCCCTACCATGTTTATGTTTTGAGACGGACAAATTCCACTTTTTCATATACATTTGCTCATTTCAAATTCCAGATTTGGATCAATACATTTGCTCACTTCTTCATATATATACATCATGTATTATTTATTTATGTGATTCTCACTTGCTTACTGTATAATTTTCACATATATTGCCATAGGCTGCATATGAATCCAAAGAGTCATATTACAAAACTATTGGATTTCGAGAGGTTGATGGGAAAATGGAGAGTGTTGAGGATTATTTGACGAGACTAGAAGCATACGTGAAACTATATGCGGCATTGATTCAGGTTTGCTCAGGAAGTACCCTGCATCTTGCTGCTGATTATTTTACACATGTAGACAATTGAGCTACTTCCGTTATCTAGTTATTATACCCATGTTCGTCAATTATGACATAAGTAATCTTTCTACAAAAGCTACTTATAAATATGGATCATTTGGCAGACGGAAATTCCTGGTGTTCGCAATTTACATGGTCTCGAGGAAGGTTGGGCATGGCTGGCTAGATTTCTAAATGCAATTCCCCCCAATTTATTTACTGCAGCCTCGCTCAATGCATTCTTAAAAGTAAGTTGAATAGAAGTTCAAATTACTAAGTGAGCCAAAAAAATCATGGTTTGACCCCATTTGTATCATATAGGTAGCAGGCTTTGCAATGTATAGAAAATATAAATCCCAGTTCAGGAAGCTTTTGAACATCATCTCCGACAACTTCTTGAGCGCGCTACGAGGAAAAGGTAATGCCAATTTGAACCATATAATATTGGACATTGAATCCTATTTGGAAGACCGAAAATTCCTTGAAGAACCAGAAGGAAAAACCTTGGTGGGGGGTTCCTTGTTGTCCTCGGATGCTTTTCCGGAGCCAGAGCACACGCAGGAATATTACCGCCATTCAAGTAATTCATATTATTGATACATGTACATTTTTGTTGTTAATTTATCAGAGGGAATGTAACACTTCCTATTTAGCCTTGCTTTATCATTTAGAACTGAAGATGTATCATCAATAACTTAGGGATTATTCAATACAAAAGAAAACTATAGCATTATTGAAGAGTTGTACTAAAGAGATTGTGTATAAACTTGCAACTCTATGCAATGACAATGATGAATTTTATTGAAGGAAGAACTTTTGCTTT TCACTGTATTCCTAAAGTTATTCCTAATAATAATAATGATAATTTCAATTACTCTTTCCCTCGCAGCCGCCGACCACTCCACCCCCGTCTGCTCACTCTTCTTCTCCGGCGAGCATCAGACGGCATATAAATGTTGGCATTTACTCACTGTTTCTCCTTCTCCGGCGGCTCTGTGAACCCAAGTCGACGACCAAGTTCCTCCGACAACCGACGCGAGTAGCCACCTACGTAGATTGACGCCGAACTTCTTCTCCGGTGGTCCCAGATACTCGCCAGAGGGTTTTTGACCCACATATCTGACTTCCATCGTGGGCACGATTTCGATTGGCTTCGCCGAGGCCTTTGCAACATTGTTTCTTTCCTTATCGACGAGCTTCGACATTAAGTCGGATTGGCCTCAAGTCAATCCACCCATAACGTTAAAGGTGATCGTTCGGAGTGCTGTGAAGAGCATTATGGCACAAGACATCAAGGGATGGTTATCTTAGGACTTGATAGTTTGACATAAAAATTATTTGTAGTAACTTGCTTCCGCTGATTTGGGTTGTTACATTGGTAGTTTCTCCTCCAGTTATTGAAGCTGTTCAAAGTTTGCTCATTGACACTATGAGTCCTGTGAAGTTGACCCTTCGGTGTCCTTCTAAGATAGGGCAAGTTATAGTTGACCCAGATCCTGATTTTAGCTTTGATGATTTGCGACTGGAACTTCACTCCTTGGAGGAGAAGCTAAATAAGTCCACGATGCCTTTCAAGAAAACATGTTCACGAGACTTCCCTGTCACAAAAACTTTGAAGAGAAGCTCCAAGCCTTTTATTATGGGCGTGTATGAGGACGAACTAGAAGAAATATTTAGCGATGAAGTGGTTTGTGACCCAAGTTCAAATGCTAATCGCTTCAATTGTGATGGAATTTTTCTCAGTGATAGTGAAGATTCTGACAATGAATCAACTCTTGAAGCACAAGCCTATCTGAAGGAGGACATGGATTTAGTGGAAAGTTCTTTGGCTAAGCTAACACATGATCATATGCTTAATATAAAGGAGGAAATCAGGAACCAACTTGGAAGGTTGGAGACTGACCTTACTACTTTAAATGAAAAGTCAAGTGCTGCAATCTCTCAAATTGAGAAATACTATGAGGCAAGACGAGAAGCTGACCGGAGATTGGATACTCAATATCAACGTGAGATTGCTGAAGGCCTGGATAAGTACTTGACAACTGTTCAACATCATCACGAACAAATATCACAAAGAGAAGAAAGAAAAATAAGAAGTGATGCAGCTTTTGAGGAAGCCAAAAGAAAGGAGAAGGCTATTCTAGAGGATAAAAAACGTCAAGAAAAGCTTAAAGCAGAAGCCGAGGCAAAAGCCAAAGCCGAGGAGGCAATGAAAGCTGCCATAGAAGCTGAGAGGAGAGCAGCGAAAGAAGCTGCTGAAACGGAAGCTGCTGAAAACTTAAAAAAAGTTGATACTGTACAAGTGCAAGAAACTATGGTTGGGTCGCTAGCTACCAAACCAGTAAACTCAGTTGGCCAGCCTAAAGGGACTGCTCCGGATGAAACATTTGTGTCGAAATCACCAGATAGCATGGTTCGAGCCTCGAAAAGTGCTTTGGCTTTAGAGCCGGAGAGACTACAAAAACTCAAGGAGGTAGAGGAGGGAAACCAAGCATTGAGATTGAGTTCAAATAAGGATTTTAGCACCTATGAAAGGCATATTGCTAGGCTAATCAAACAAATAGGGGGGACGAAAGAGAATGTTAGAACAAAAACTAGTGAAATTCTCAAGATTTTCATGGCTCCTCTTTGTCCACAAACGATTAGCATTGCAGCATTTGCAAAAAAGATCGTTTCTCAATGTGAAAGTCCACATGATGCATTTGCACTCAGTCATGTTATTGTTCTTGTTACCTCACAGGCCCCAAGTGCTCTGGTTCTTGTTCTTGCAGAGTTGCATAGAGCTTGCATCTACACAGTTCCGAAGCACATACAATATTCAGCGGCTGCATATGAATCCAAAGAGTCATATTACAAAACTATTGGATTTCGAGAGGTTGATGGGAAAATGGAGAGTGTTGAGGATTATTTGACGAGACTAGAAGCATACGTGAAACTATATGCGGCATTGATTCAGACGGAAATTCCTGGTGTTCGCAATTTACATGGTCTCGAGGAAGGTTGGGCATGGCTGGCTAGATTTCTAAATGCAATTCCCCCCAATTTATTTACTGCAGCCTCGCTCAATGCATTCTTAAAAGTAGCAGGCTTTGCAATGTATAGAAAATATAAATCCCAGTTCAGGAAGCTTTTGAACATCATCTCCGACAACTTCTTGAGCGCGCTACGAGGAAAAGGTAATGCCAATTTGAACCATATAATATTGGACATTGAATCCTATTTGGAAGACCGAAAATTCCTTGAAGAACCAGAAGGAAAAACCTTGGTGGGGGGTTCCTTGTTGTCCTCGGATGCTTTTCCGGAGCCAGAGCACACGCAGGAATATTACCGCCATTCAAGTAATTCATATTATTGATACATGTACATTTTTGTTGTTAATTTATCAGAGGGAATGTAACACTTCCTATTTAGCCTTGCTTTATCATTTAGAACTGAAGATGTATCATCAATAACTTAGGGATTATTCAATACAAAAGAAAACTATAGCATTATTGAAGAGTTGTACTAAAGAGATTGTGTATAAACTTGCAACTCTATGCAATGACAATGATGAATTTTATTGAAGGAAGAACTTTTGCTTT ATGCCTTTCAAGAAAACATGTTCACGAGACTTCCCTGTCACAAAAACTTTGAAGAGAAGCTCCAAGCCTTTTATTATGGGCGTGTATGAGGACGAACTAGAAGAAATATTTAGCGATGAAGTGGTTTGTGACCCAAGTTCAAATGCTAATCGCTTCAATTGTGATGGAATTTTTCTCAGTGATAGTGAAGATTCTGACAATGAATCAACTCTTGAAGCACAAGCCTATCTGAAGGAGGACATGGATTTAGTGGAAAGTTCTTTGGCTAAGCTAACACATGATCATATGCTTAATATAAAGGAGGAAATCAGGAACCAACTTGGAAGGTTGGAGACTGACCTTACTACTTTAAATGAAAAGTCAAGTGCTGCAATCTCTCAAATTGAGAAATACTATGAGGCAAGACGAGAAGCTGACCGGAGATTGGATACTCAATATCAACGTGAGATTGCTGAAGGCCTGGATAAGTACTTGACAACTGTTCAACATCATCACGAACAAATATCACAAAGAGAAGAAAGAAAAATAAGAAGTGATGCAGCTTTTGAGGAAGCCAAAAGAAAGGAGAAGGCTATTCTAGAGGATAAAAAACGTCAAGAAAAGCTTAAAGCAGAAGCCGAGGCAAAAGCCAAAGCCGAGGAGGCAATGAAAGCTGCCATAGAAGCTGAGAGGAGAGCAGCGAAAGAAGCTGCTGAAACGGAAGCTGCTGAAAACTTAAAAAAAGTTGATACTGTACAAGTGCAAGAAACTATGGTTGGGTCGCTAGCTACCAAACCAGTAAACTCAGTTGGCCAGCCTAAAGGGACTGCTCCGGATGAAACATTTGTGTCGAAATCACCAGATAGCATGGTTCGAGCCTCGAAAAGTGCTTTGGCTTTAGAGCCGGAGAGACTACAAAAACTCAAGGAGGTAGAGGAGGGAAACCAAGCATTGAGATTGAGTTCAAATAAGGATTTTAGCACCTATGAAAGGCATATTGCTAGGCTAATCAAACAAATAGGGGGGACGAAAGAGAATGTTAGAACAAAAACTAGTGAAATTCTCAAGATTTTCATGGCTCCTCTTTGTCCACAAACGATTAGCATTGCAGCATTTGCAAAAAAGATCGTTTCTCAATGTGAAAGTCCACATGATGCATTTGCACTCAGTCATGTTATTGTTCTTGTTACCTCACAGGCCCCAAGTGCTCTGGTTCTTGTTCTTGCAGAGTTGCATAGAGCTTGCATCTACACAGTTCCGAAGCACATACAATATTCAGCGGCTGCATATGAATCCAAAGAGTCATATTACAAAACTATTGGATTTCGAGAGGTTGATGGGAAAATGGAGAGTGTTGAGGATTATTTGACGAGACTAGAAGCATACGTGAAACTATATGCGGCATTGATTCAGACGGAAATTCCTGGTGTTCGCAATTTACATGGTCTCGAGGAAGGTTGGGCATGGCTGGCTAGATTTCTAAATGCAATTCCCCCCAATTTATTTACTGCAGCCTCGCTCAATGCATTCTTAAAAGTAGCAGGCTTTGCAATGTATAGAAAATATAAATCCCAGTTCAGGAAGCTTTTGAACATCATCTCCGACAACTTCTTGAGCGCGCTACGAGGAAAAGGTAATGCCAATTTGAACCATATAATATTGGACATTGAATCCTATTTGGAAGACCGAAAATTCCTTGAAGAACCAGAAGGAAAAACCTTGGTGGGGGGTTCCTTGTTGTCCTCGGATGCTTTTCCGGAGCCAGAGCACACGCAGGAATATTACCGCCATTCAAGTAATTCATATTATTGA MPFKKTCSRDFPVTKTLKRSSKPFIMGVYEDELEEIFSDEVVCDPSSNANRFNCDGIFLSDSEDSDNESTLEAQAYLKEDMDLVESSLAKLTHDHMLNIKEEIRNQLGRLETDLTTLNEKSSAAISQIEKYYEARREADRRLDTQYQREIAEGLDKYLTTVQHHHEQISQREERKIRSDAAFEEAKRKEKAILEDKKRQEKLKAEAEAKAKAEEAMKAAIEAERRAAKEAAETEAAENLKKVDTVQVQETMVGSLATKPVNSVGQPKGTAPDETFVSKSPDSMVRASKSALALEPERLQKLKEVEEGNQALRLSSNKDFSTYERHIARLIKQIGGTKENVRTKTSEILKIFMAPLCPQTISIAAFAKKIVSQCESPHDAFALSHVIVLVTSQAPSALVLVLAELHRACIYTVPKHIQYSAAAYESKESYYKTIGFREVDGKMESVEDYLTRLEAYVKLYAALIQTEIPGVRNLHGLEEGWAWLARFLNAIPPNLFTAASLNAFLKVAGFAMYRKYKSQFRKLLNIISDNFLSALRGKGNANLNHIILDIESYLEDRKFLEEPEGKTLVGGSLLSSDAFPEPEHTQEYYRHSSNSYY Homology
BLAST of Cmc10g0269251 vs. NCBI nr
Match: KAA0034248.1 (protein GLE1 [Cucumis melo var. makuwa] >TYK15672.1 protein GLE1 [Cucumis melo var. makuwa]) HSP 1 Score: 1115.9 bits (2885), Expect = 0.0e+00 Identity = 594/596 (99.66%), Postives = 595/596 (99.83%), Query Frame = 0
BLAST of Cmc10g0269251 vs. NCBI nr
Match: XP_008446132.1 (PREDICTED: protein GLE1 [Cucumis melo] >XP_008446133.1 PREDICTED: protein GLE1 [Cucumis melo] >XP_016900272.1 PREDICTED: protein GLE1 [Cucumis melo]) HSP 1 Score: 1115.9 bits (2885), Expect = 0.0e+00 Identity = 594/596 (99.66%), Postives = 595/596 (99.83%), Query Frame = 0
BLAST of Cmc10g0269251 vs. NCBI nr
Match: XP_004135501.1 (protein GLE1 [Cucumis sativus] >XP_031741160.1 protein GLE1 [Cucumis sativus] >KGN51729.1 hypothetical protein Csa_009352 [Cucumis sativus]) HSP 1 Score: 1066.2 bits (2756), Expect = 1.0e-307 Identity = 569/596 (95.47%), Postives = 581/596 (97.48%), Query Frame = 0
BLAST of Cmc10g0269251 vs. NCBI nr
Match: XP_038892151.1 (protein GLE1 [Benincasa hispida] >XP_038892153.1 protein GLE1 [Benincasa hispida] >XP_038892154.1 protein GLE1 [Benincasa hispida]) HSP 1 Score: 1019.2 bits (2634), Expect = 1.4e-293 Identity = 537/596 (90.10%), Postives = 569/596 (95.47%), Query Frame = 0
BLAST of Cmc10g0269251 vs. NCBI nr
Match: XP_023544608.1 (protein GLE1 isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 897.1 bits (2317), Expect = 8.1e-257 Identity = 486/598 (81.27%), Postives = 534/598 (89.30%), Query Frame = 0
BLAST of Cmc10g0269251 vs. ExPASy Swiss-Prot
Match: Q0WPZ7 (Protein GLE1 OS=Arabidopsis thaliana OX=3702 GN=GLE1 PE=1 SV=1) HSP 1 Score: 400.6 bits (1028), Expect = 3.1e-110 Identity = 261/604 (43.21%), Postives = 376/604 (62.25%), Query Frame = 0
BLAST of Cmc10g0269251 vs. ExPASy Swiss-Prot
Match: Q5RAS2 (Nucleoporin GLE1 OS=Pongo abelii OX=9601 GN=GLE1 PE=2 SV=1) HSP 1 Score: 94.7 bits (234), Expect = 3.7e-18 Identity = 70/224 (31.25%), Postives = 117/224 (52.23%), Query Frame = 0
BLAST of Cmc10g0269251 vs. ExPASy Swiss-Prot
Match: Q6DRB1 (Nucleoporin GLE1 OS=Danio rerio OX=7955 GN=gle1 PE=2 SV=2) HSP 1 Score: 93.2 bits (230), Expect = 1.1e-17 Identity = 117/407 (28.75%), Postives = 186/407 (45.70%), Query Frame = 0
BLAST of Cmc10g0269251 vs. ExPASy Swiss-Prot
Match: Q3ZBK7 (Nucleoporin GLE1 OS=Bos taurus OX=9913 GN=GLE1 PE=2 SV=1) HSP 1 Score: 86.7 bits (213), Expect = 1.0e-15 Identity = 96/360 (26.67%), Postives = 163/360 (45.28%), Query Frame = 0
BLAST of Cmc10g0269251 vs. ExPASy Swiss-Prot
Match: Q8R322 (Nucleoporin GLE1 OS=Mus musculus OX=10090 GN=Gle1 PE=1 SV=2) HSP 1 Score: 70.1 bits (170), Expect = 9.7e-11 Identity = 128/522 (24.52%), Postives = 223/522 (42.72%), Query Frame = 0
BLAST of Cmc10g0269251 vs. ExPASy TrEMBL
Match: A0A1S3BEB8 (protein GLE1 OS=Cucumis melo OX=3656 GN=LOC103488947 PE=3 SV=1) HSP 1 Score: 1115.9 bits (2885), Expect = 0.0e+00 Identity = 594/596 (99.66%), Postives = 595/596 (99.83%), Query Frame = 0
BLAST of Cmc10g0269251 vs. ExPASy TrEMBL
Match: A0A5A7SUC8 (Protein GLE1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold35G001690 PE=3 SV=1) HSP 1 Score: 1115.9 bits (2885), Expect = 0.0e+00 Identity = 594/596 (99.66%), Postives = 595/596 (99.83%), Query Frame = 0
BLAST of Cmc10g0269251 vs. ExPASy TrEMBL
Match: A0A0A0KS46 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G593410 PE=3 SV=1) HSP 1 Score: 1066.2 bits (2756), Expect = 4.9e-308 Identity = 569/596 (95.47%), Postives = 581/596 (97.48%), Query Frame = 0
BLAST of Cmc10g0269251 vs. ExPASy TrEMBL
Match: A0A6J1GYI2 (protein GLE1 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111458652 PE=3 SV=1) HSP 1 Score: 890.6 bits (2300), Expect = 3.7e-255 Identity = 484/598 (80.94%), Postives = 531/598 (88.80%), Query Frame = 0
BLAST of Cmc10g0269251 vs. ExPASy TrEMBL
Match: A0A6J1K7Y4 (protein GLE1 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111492491 PE=3 SV=1) HSP 1 Score: 889.8 bits (2298), Expect = 6.3e-255 Identity = 484/598 (80.94%), Postives = 531/598 (88.80%), Query Frame = 0
BLAST of Cmc10g0269251 vs. TAIR 10
Match: AT1G13120.1 (null ) HSP 1 Score: 400.6 bits (1028), Expect = 2.2e-111 Identity = 261/604 (43.21%), Postives = 376/604 (62.25%), Query Frame = 0
BLAST of Cmc10g0269251 vs. TAIR 10
Match: AT4G05523.1 (BEST Arabidopsis thaliana protein match is: embryo defective 1745 (TAIR:AT1G13120.1); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). ) HSP 1 Score: 77.8 bits (190), Expect = 3.3e-14 Identity = 57/166 (34.34%), Postives = 89/166 (53.61%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (Charmono) v1.1
Date Performed: 2022-10-13 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.
|