PI0019737.1 (mRNA) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GGTTAATTACGTAATTGTGGAATTATGTGTAGCTACGTGTACACTACCGTTATCCTCACCATCTGATTCTCGCACTCACCATTCTCCACAGCTTCACTCCAACTCCAACCTCATTCACGAGAGGGAAGAACTTTCCATTTCTTCCTTCCTTTTTTGTTTCTTTCTCTCTCAACAATGCCGACTTCAATTCCTTCTTGAATTTTGATCTCATTCAATTCTTTCCTTTTTCTTTTCCATGTTCAATAACATCATCTATATACATTACAACAATTCTTTCTTTCATTTCTCTCATTTCTTCTGAATTACCCTGCATTTATCTGTTTTGTAAACCCCCAAAATGTGGGTTTATCCTCATGTTCTTGATGAGCACTTCAATGCTATTACCCCACCACTTTATCTTTCTTGACTGCACCAAGGTATCTTCAGTTTCTAATTTTCCTTCCTGCAATTCATTTCATAAATTTGCTGTTTTGGGTCGTAAGGGGAAAGGATTTTATCGGCACGTTCTTAATGCTAAGAAAAATGGGTATTCGAGGAAAAGGAGTTGGTGGCAGAGGTTTTTCTTTGATGATGATGGAAATTGGCTGGGTTTGAAGGATGATGGGATGTTGGAGGATGAGTTGGAGAGTGTTGCGAGTGATGAAGATTTGTCTGATGATGAAAAATTTGAGGCGTGGAAGAAGAGAGCTGAAGCTATTATAGAGTTGAAGGAAGCACAGGAAGATGTGAGGAATGAACAAGGGCAGAGGTGGACTGATTGGCTTTATGATGACACAAATCATGCTCGAACTTCGTGGAGTCAAGATTGGGATAATGGTCTTGGGGAATTGAATGAAGAATCGTCTGATGCTAGTGATTTAGTTCCTGAGAAGGGATTTGTTGAGTCTGTTAGAGATTTGGTTCTAGGGAAGGAAGAGGATGACATACTCTATGAAGACCGTGTATTCCAGTATGCCTCCTTAAATTCGGTAAGCTCGTGTATTTATATTGTATAACCTTAAATGGACAGGTTCTTACTAGTATTAATATCATTCACCATCAACTTAGTTTACTACTCTATTGAGATTTTGTTCTAGTAACTTATGCCATGCATCTGCATGATACCGGTAAGACTTCAACTCTTAATATTATTTGGGAAATGTGACATCAACCTACTCAACCTTAGCTTCTGAAATATCGTCAAAGATGTACATACTGCCGTGCATGGATAGCCATAAAGCAAAAACCCTTTTGTCTTGGCTCATTTATTTCAGCACCACCGTCTTCTTTGGCTATGCTGTATTGTGGAAAATGTAATTTTGGTTTACATCTGCTCGACAGAGTTCATTTAATTGTCCTTGCTATCGCCATAAAGTTTTCAGCATCCTAATTGGAATTTTTGGGTGTGTAACAACTTAAATTTCAGTGCTGGAAGACGTTAGGTTTCCCCTTCACCTGCACACAGTAAACCCAACAATACCAGAATTCCGAGAAAATACAGGGTAAGGCTGCCCTGTTCTTATATATACATACATATATATATATCTAAAGATGTGCTTCACGGAAAAATTAAAGCAAGTTTCTCAATTACAATGTAAAATGATTAGCAACAAACTCAGAAATATTAAGCAAATAAGAAATCCCAGAGCTGAGCTATCCTTTCCTTGCTCCCACTCAATTTCTTCATACCCTTCCGTACACCCCAAAACCCCAACTAAAACCCTTGCTCACTGCCATGGTTCCTTCACACTGAAAAAGTCTCACCTTTCCCTTTCATTTCTGGGAAAGTTAATTTATTTTGCCACCTTAGGTAATTACCTCTACTGGTTCGTGAGAAATAATTTATGTAAGCTGATTCTCTGTTGTATTTGCATAACCCTTTTTTTCCTTGATCTTGACCTTGCTACTGTATAGATTCCTCTGGCACCATATTAGGTGACATTTCATTTGCCAATGTCTTCAATATTTAGGTAGTAAAGACAATTTCTCTATTAGGCTTGTTGACGGCTGAAGAAGTATTTGTGTTTATGGAATAGAGATTGTCAACAAAATACTATTTCTTAAGTTGGGCCATATCAGCAGAAGGGGTCTATTTCTATTTCTTAGTCAGGTCTTACTGGATGTAAAAGAAAAAAAAATCAAGAGTTTAAATTGACTTGCATTTTGAGGTTGGAAGATACAGACTTTTATAGTGCTGGTTCACATTCCCTCGTGTGGTGTGACCTATGTCTATCACCTAGTTACCTTCCCTCGTTATTCTCACATCCCAGATAAGAATTTACCTAAGGTCCGGAGATGGGGTTAAACAAATGAAACTCAATAAACCCAAAATCTCTGCGAGAAAAGTTTATGTAAGCTCTGTCCCAATCTTTTTTTTAGATAATTTCATGGGAAAAAGCCTCTTGGCTAGTGCTTTTCTGGTTTGTACTCCATTTCTCTTAGAAATAATGCTTCTATAGCTGGCTTTTATATGCCCCAATAATGAATTTGGGATCATGGGCTGAGAAGGGGACTGTTTGATTGGGAAATGGGGACAAGATAAACAGTTTGGTGTGGGTTTGGCCAAGACAAAATCAGGTGGTCTGGTTGGAGTTTAGAACACTATTTGGGTGCTTGTTTTTTGACACCATCCTACTCTTGAGAAAGACCATCTACCAATCTACAAAATTTTGTCCAGCCACTAGATCACCCCCACATAGCATATTGGCCTTCAAATCATTTGCGTATAATATTTTTAAAAGAAAAGGATAAAATAAAGTAAAAATAAAATAAAACAAACCCTCTCATTTCTCTTTCAGTCTCCATATATACTTTTTTAGACATGAGAATTCAAGGAAGGCTGGCATATTTGTAAAGAATGCATCAGTTTTCTGCTAGATATAAATAGGAGGCATGTTTTGCTCTTTTACGGTGTGTTCAAATCTTCTATTACAGTATGTTCAAAACTTTTTGAGAACATTAGTCTCTCACGGAGTAGTTTTCATACATTTCAGCTGACTGGATCCCTTTCAAATATACAACTAGGGAACTGCCTTGATCTTTGAAATTATTGGTTTTCACATTGTTTTCAGAATGAAACCACTCCTATTCTGAGCTCTTTTCATTTTCATCTTTGCAGGCAAAATTTCTCACAGTTTTAATAATTATACCTTGGGCATTGGATTTCGTGGTTCATGATTATGTTCTCATGCCCTTTCTTGATAGGTAATAGATGATTAGTTTTATATTATGACATGTCCTGCCTAAAAATAAGAGATGTTATCAAATGATGCATAAACTTTTTACTTCACTTCATTAAACGATAAAAAATGATGTATCTAGCACGTGGCCATAGGCAAACAATACACTTGATGACTGATGAGCTTGACCACCATAACCCATGCTCTTCACTTTTCCAAATATTCTTCTGAATCCTTTTGTATGTATATATGCATATAAAAGAGCACTTTCGAATAAAAATTTTGTTTCTTTTTTGGGGGGGAAAAAAAAGAATTGTGCTTCTTTTGGAGCTGCTATTTATTCATTGCTATAATTGAAATTGAAAGGTATATGTTGTTCCAATTTTTCTCTTTTTTACTTGTGATATCTAAAATTTAAATAATAGGATTACAATGAAATAAAAAAAAAGACTAGTTATGCTCAAAGCATGAAATTTGGTATTTTAGATTCTTCAATGGTTCTTTGATAATTAATCTCGTAAAATTTTCTATCAGTAGGTTTTTAAGTTCATGTTGAAATCATTTTTAAAGATTCCCTTTGGTAACGGTTCTCAATCTCCAAATTATCTCTGTCAACTTCTGTAATGTTCCTACATTCTAACAGGTATGTCAAGAAAGTGCCACTGGCAGCTGAGATGCTCGATGTGAGAAGAAACCAGAAGCTCGAGATGGTTGAGGAACTGAAAATTGAGAAAGAAAGATTCAAACTTGAGATGGAAATTGGAAAGTCTCCTCCTCTTTCTGATGAAGAGTTATGGTGGGAATTACGGCATAGAGCGTAAGTTTTGCATCATAATTTTTTTCTTTGGAGGAGAAACTAAAGTTTGTTCATGAGAAGGAAATACTGAATATTGATTCTAGAGAGAAGTTAAACATCCGAGTCCTTTTATCTTTTCATTATGATTGTGGCACGTCTGAGACATTCATTGCAAAACATTCGTTAGACTAGAAAGCCTAAGATTTGTTTGCTGTTTAATGATCTATGTAGTTCCTTGGTCTTCTCATTGGTCATAACCCTCACCTTGGAACGTCTTAGTGTAAAGCAAAATCTTGGAGAAATCTTGAATGAATCTTTACCAAGGGACTCCTATTTAAAGGCTACAAATCAGCCTTTTAATCTATAGAAAACATGCTTTTCTAGGATGAAGGCAATTAAAACCCTTATGGTAAATAAAAGAGAACTTGCTGAAAAATAGTGGCTTCCTAAAGTAACTACCCAGCTATGAAGCGCAGATACTTCATTTTATGGGACTCTTTTTTAGTTGTTTTGATATTAATAAAAGAAAATAAAACCCTAAGTTTTAGTTCCAGCCCCTCATAACCCGATACATTCCTCTCCTTCTCTTTGCATTCGCCCCGCCATTCTCCCTCACCGCACATTGACCTTCTACGAACCACCACTGCTCAGACGACCACCGGATGGCTGCCACTCCTTTTGAGATTTTATTTTTTGTTTTTTTTTCACTAGACATTTTGGTTCTCTTTTATTCTCACTTTCATCTCTAGTTTTTTTAACGAAGGGATTTTGTCTTTAAAGTAAGGTTTGAAAAACAATGGGTCGTTTTTTAACCAATCCATTCAATTTTTTATGCTAGATGGCATCTTCCTCCTCATCTACATTTAGCAATAGTAGTCAATCATCTACGATTCCTTGAGTATCAAGTACATTCACATCCTCTAGTGTTGAAGATGATTCAAAACCATTTTGGCACTACATGACCAAGAATCAAAGATTGAATGAGGGAGGTGGAAACTTTTTTTTCTTTTTTTTTTCTAATATCCATGAGTGTCCGAACGGGTTTAGGCACATCCCGACTAATCTCACAATACAACCCGCCTGACCCTACAACATTTGAGTGTCAAGGAAACTCGTAAAAAATTAATTCCTAGGTTGGTGGCTACCATGGATTGAACCCATGACCTCTTAGTTATTGAGACTATGTCTCCCTTTTTACCAATAGGCCAACCCATGATGGTTGAGGTGGAAACATTTCTTGACAATATAACTTTTTTCATTGCTAAAAGAAGAGTTCTTATACAATGGTTAGAGCTCATTCATTCGGTTTAGGTGGTTATGGAATTGGAGTGTGTAGTAAAGTTACCCCTCAAGATAGGCCGACATGCAAAAATTAGAAAGTGAAGCTAAAGATCGTATGGCTAAAAAGACTCCTAGAGGCAATCCTTTACCACCTCTATTTGTAGCTTTTGGTGGAATTAGCGGGAGTAGACATCCCTCTCCTTCTACCTTTGAGCAAAAGAAAAGGAAAACTGCTCCAAGTACAATAGAAAGATCATTTAATATGACATCAAGAGACCAATGACATTCACTTGTTAAACGGATGTTTTTATTCTTCATTATTGTCTTTTCATTTACCAAGAAATCCATACTATATAAACTCATACACTTACGCTGCAAATAATTTATTGTCTGGATATTTGCCTCTTGGATATAATTTGTTGGGAACAACTCTTCTTCAACGGGAAAAGGCTGAAAGATTATTCAGCCCGTTAAAGATACATGGAAGGCAAATGGCGTAAGTATTGTGAGTGATGGCTGGAGTGACTCACAAAGGAGACCTTTGATAAATTTTATGGCAATCACAGCTGGTAAACCAATGTTTTGAAAAGCGGTGGATTGCTCAGGTGAGGTCAAAGATAAATATTTTACTGCAAATTTGCTGAAGGATGTGATTAATGAAGTTGGCCCTCAAAATGTTATTCAAGTGATTACTAATAATGCTCCTAAATGCAAGGGTGCCTGGGTAATAACTACATAAAAACAGGGAAAATAAAGCAGAAGCTAAACAGAATCTATTCAGTAGCTATACAAAAGTAGTTATTAGAATAACCCCTGTACTGTAGAACACCTCATTTTGGGATCCTGTCATCAGTAAGATTCCCAAGAGGCTTGCCTCTTCGGAAAAAGAGCTTCTTGAAAGGGGAAGACTCACCCTCATTCAATCAGTTTTGTGTGCATTCTCATTCAATCAGTTTTGAGTGGCATTCCTACTTATTTTCTATCTCTGTTTAGAGACCCTAGCTTGGTGAGTAGAGCAATTGAGAAGATGATGAGGGATTTCTTATGGGAGATCGTTGAAGAGGGCAGGTTACACCTCATGCATTTGGGGGTAGTTTCTAGGCTATTAGACTTGGGGGGTAGGCATTGGTAATGTGAGAGTGAGAAACACGACCATGCTGGCTAAATGGATCTGGCAATTCTGTCATGAAGCTGACACTTTATGCCACAAGATTATCATTAGTAAGTATGAGCCTCGTCCCTTTAATTGGATTGGTGGTGTTGTTAAAGGCACCTCTAGAAACCCATGGAAAGATATCTCATTGGAGTTCTCTTTGCTTTCTCAGTTTATTCTTAATATTACGAGGGATGGGAGGGGATACCTATTTTTGGAAGGATAAGTACTTCAGGGATTGACCACTCTGTGCTTCTAGGAATCTATAAGACCTTCTATCATGGATACTTATGCAAGAAAGGGAAGAGAGGATAATTGCACAACAATATGTTTGTTAATCGTCAAATGAAACACGCTTAGGTAGGGAAAGGTTGGAGGTTTTAATAGGATTTTTGGGGTCAGTTTGGGGTGTGGAGAATTTGATTGTTTGGCCAAGGAGAGTTCCAACTCTCTCGAATAGCTAGTTTTTGTTTTTTTCTTGTTATTTTCCTTTGAGACTTGATATTGTAACAAGGAAATTATCTTTTGAGTGAAATCAAAGCATTATATCTTGGTGCTCTATTATTTTGTTTCTTTTTGGTTTCTATGGATTGCATTGCAGGGAGATTGTGTTAGGAACCAAGGTAGTATGGGATGTATTTGTTCCACATTTGTTAGAATGAGATGACCAGTGTGGTACTTAAGTGGCTTGGCTCTCCCATCCCAATAGCTAGCTTTTGGGGTGTGGTTCTCCAAGATGCTTAAGTACCTAACAGATTGTTAGATACTTACAAATTCATTCGGTGGTGTCAATCCTTCCTCCGCCAGAATCTCCACCTTCTACCTTTCCTTCTTCTTCCTTGGGTCGATGGGTGTCTTGGATCTTTTATCATTGTAGGGAGAATTTAGGTCCAGGAGAGGGATGTTCGTCTTTAGTATCTCGTCCTTCAAGAGGCTTTTCTTGCCACTCTTTCTTCAATTGCCCAACCAATTTCTCCCAAACTCATGCCTCTATCTTTCATCGATGTGGAAGATAAAAATATCCAAGAAGGTGAAGTTCTTTATGTGCCAGATCCTCCTTGGTTAGGCCTCATTGTTGTATTTTAAGGTAACTGTGGATGTTGATTATATCCTCTGGAGTTGTGTTTTCGCTTGGGCCATTTTTGGTGTGGAGTTGTATTTTCGCTTGGGCTATTTTCAGTGTGGTTTCGTCGAGGTTTTGATCTTTTGATTTATTATTTTCCAGGCTTCAGGGAGTCATTTGATGAGTTATTCCTCGATTCGCCCTTTCTAGAGAATGGGTTGATTTTGTGGTAGGCTGGGGTGTGTGCTAGTCAATAGAATTTTCAAGGGGAGGGAGAGCTCTAGTAATGATTTTGGCATCTTTGTTTGATCTTTGTGTCTCTCTAGGCCTTAGAGTTTGGACTTTTTTTTAATTACTCGTTAGGTTTTACTTTACTTGATTGGAGTCCCTTCTTGTAGTGACTCCCTTTTGTGGGCTTTCTTTGTAAGCTCCTATATTCATTCATTTTGTTCTCAATGAAAGTCAGGTATTCCATTAAAAAATGATGGATGAGGTTTCATTTTACCTGCTATTTTAGTTTTGAGATAAGGTATATCTTTGTTGTTTAGAGCTTTTCTTTTGCTGTATTATAGAGCAGTTATAGGGAATGTGTAGGTGGTCAAAATAGAGAGAGATTTGGTATCTTGCTAGATCTAATGCCTCCCTTTGGATTTCCATTTTGTATACATTTTTGCACTTGAAAATAATCATCATGTCTATGCACATAGTGGTCCTATGCAAATAAAATAGAAGGGTCTTATATGATAATAATCGTATGTGCTGCTTTGTTGTGGCTTTTGGTTGAGTTTACACACATACTAAAAAAATACCTCTTTTGCACATTGCACTCATACGCCTTTCGTAAATGCACATAATTGTGTATATTAGTTTATGTAAGTGATTTCTGTATACAGGCTATTCCATTTGATATGAAAAACTCTTTACAATTTTTTTTTTTTTTCTAGCTGAATTCTTGTTGCATCAACAGGTTAACATTGAGAGATGAGTGGAGGTTAGAGAACCGTAAAGCATTTGCCAATATATGGTCAGACATGGTATTTGGGATCTCATTATTCATTCTTTTGTACTTCAACCAAAGTAAAGTAAGTTGTTACCTGCTCTTTCCCTCTCTGGCTTTTATCAGTGAAATTGAAATTTTACAGTACGGTTTACCCTTTATCATCATAACATTATTTTCCAATCACCATAAAAAAATGATGAATGCGTAAACACTATCTGAAAGTTGAGAATAAATTAAGAAAATTCAGAAAAAAAATGTTTCAGTTACCATTCTATCTCCATTCTTCTTGGGAACCCCCCCTTGATTCACCTGTTGTAAGGAATGCAATTTGATTATCTATTGGGTGGACTTTGCAGCAGATCCACCAAATATTTCTTCCAAACCACAGAAACTTTTTGCACACTGATTAAAATCTTTTGTGTAGTTCATACCTTCTTGACTACAAAAAGTTCTTCTAACCCCAAGCACTCCTTTGGACAAACAATAAAAAGGTGTCCTCTACTCCTCAACTATTATGGCATCTCCCGAGATCATTACTCAATCTAACCAAAAAAAACTTGCTTTCCATTTAAAAATAACTACAATCCATGGAGTTTCTTTAACTCATTTATTCTCATAATTAATAATGAAAAGAGTAAGGGTATGCTCGGGAATGATTTTGAATGGTTATAAATAACTTTTGTTAGGTTAAACATCACTCCAAAAACATGTTTTTTAATAATTCAAAATCAATTTTGATAGTATGAAACCGTGTTTAAAAATGTAAAATCAAACATTAAATTGATTTTGAATGATTGTAGGCATGTTTGGGAGTGATTTTGAATTGACAAAAATGAATTTAACAATATCAAAATCAATTCCAAACATGCAAAGCCAAAAAGGAAATGTGTCATGGGATTTAGTAGTTGCCTATGCAAGTCCTTATGTGAGTTAAAGTAAACTCCACTGATGGTGTTGCATAAAGATTTGCCTGATGCTAACTTTTTGGGCAAAAATTGTAAGGATCTAATACTGCTTCAGTTATTGAACGAGTCCTTCATGGTCTGATCTGTTCTTAATAGCCTCTCTCAATAACACCAGTTTTTGATTGAACATTGCCAAAATATGTTACAATATTTGCATCAACTCCATAATAATATTGCTAAATTGATACTAACTGACAGTAGGAGTAGACTGCGAGGCAAAACTACATTTGTGGGATAAAAATATCTTTGAAGTCTAAGTATCATGACTTTTATGATGTTTTAAATAGTCTTGAATGGATTGCAAACTATTTTTGCTAAAACATTAGCCATATTTTTTTGTTTTGATTTCTTATTATTTTTTGCTTATGCTATATTGTTAATTATGCGATCTAATATGTTCTACAACTTATCAATTCTTTTTCATCCCTGGATTTTGCAGGTAGCTTTGCTGAAATTTACAGGTTATAAAATAATAAGTAATATATCAGATACTGGGAAGGCATTTTTAATTATATTAATTACAGATATTTTTTTAGGGTAACTATTCAGTCTTTACTATTGTTCTACCAATTCTTTTCGTATACGATCGTGGTTTTAAACTTACTATTTGTTTTGTGCCAGATATGATAATGGATATTACTTATCTATAGTACTTCTGCCATTACTTATCTATAGTACTTCTGCATAGAGAGAGAGCTTGATAACATATTTTGTGATCTTAAGATTTACTGGCTTGGCCAGCTTTTGACCTCCTTGACCTATGGAAACATAGATTTTACTGAGACAACGCTTGTACAATATGGCAAAGGAATTTGAGGCCCTTAATTAGAAGAGCCAGAATAATTGAGGGGCACTCTATATTAGGTAGTTCAGTGTAGAAAATAAAAAGTAGGAATTAATGATCATGAATTATCATATTCTATAGCATGCAAATCTCAGAGCTGGCATATCAATATCATGTTATCTATAGGTTGTGTATGTATTTATCCCAATATCTTGTACAATTCGCTTATGGATTTAGTTCGTGGCGTATAGAAATTATATTTTCAATTTTAAAGTGTTATTAAATTTTTTTTTTTTTTTTTGGGTGGCAGTTATCATTCTGAATCCGGTTGGCAGACTTTGTTAGAGATAATTGTTGAACACTATGGCCTTGAGGTTGATCAGTCTGTAATAACCATCTTTATATGCCTGGTTCCGGTTATCATGGATGCATGCGTGAAACTTTGGGTATGTACCAAAAATATTTTTCCATTACCTATAGTATTTTTCATATTCCAACTGCACTTGGGGTTACAGCATGTGGCCAACATGAACATAGCTTGTTTAGTGGAAAATAGTTTATATACTTTGTTCTGATGTAGCCTAAGGGTAAAAGGAGAGAATTGGAAAGCAAACTAATCTTAATCCTAATCCTAATTAATCTAAGTAACTAATCCTAATCCTAACAAACCAAGGAACTAATACTAATCCTAATAAACTAAGAAAACTAATTCTAATCCCAAATCAATTAAGGATTTGACCGAGATAGTCTGATATATTCTAATCCTGTTATATCAGTTTGCTCATAAGATTGTGAGGGACGTAATGTTGATAAACTATAGCCAAGTCTATCAACTTTTTAATATTTTTAACTTCTATTTAATCTCTGAAGGTTTAATGGTTATTACATGCATCCTTAAGTTAGGAAAATATTGTAATTATAGAACTTTTTTATTATTATTATTTTTAAATTTATAAAAAACAAGCCAACGCATTCATTAGGCACTGACCGATGGGTCAAGACAGCCTAACGGACCAAGGGACAAGGTGTCTCTTTTCCAAAAGGAGGGATTACAAAAACATCCTCCGATCTAAATTGATATTATTGAGAGTATGATAATTACAAAAAAGGCCTTGTGTTGGCTGAGGCTATAAAGTGTACAAATTCACAAATGTAAGCAAAAGTGGCTAACTTATCTGAAAAAGTTTATAGCATTGCTCTGTAATTATAAACCCTTCTTATGTGTTATCATTAACCGTAGATGAGTTATATGAATTTAAAAAAAAGATCATGACTTTTTCTTCCTTATTGGGATGAAAAGTATGTTTAGATTGTGAAGTATTCTAATTTATATCAGTACTTTTTTCTTCCTTCTGAACATTGATTATTGGCTTTTTCCATGCAACAGCTGTTTAAATTTCTGCCAAGATTATCACCTAGAGTGGCGAATTTATTCCAGGAAATGAAGCGCCATTAATTTTGGAAATTTGGGCTGAGTCAATTGAGTAAGGTATAATTGTATGAAGAATGCAGTTTTTTCCCTTTTCTCTTCTATTATAACATGATATGTGGATACTGGACTATTTGCAGCAATAAAATCTTCATCCCAAGCAAAGTTATCAAATCTCGCGTTAGATAAACTTACGAACTTTGAAAATTACTTCGTTTTTTTCCAATTTATGTTCCCGTATTTTTCCTTTACAATTGTATGAACACCAAATAGAGGGAGTCTTCTTGCAAAATGGAAATGGGAATATCTTGTTACCATAGCACCAAACCCTAAGCCTCCCTATGTCCTTTGTTTTCTTTTTTTTTTCTTTTCTTGTTCTTC GGTTAATTACGTAATTGTGGAATTATGTGTAGCTACGTGTACACTACCGTTATCCTCACCATCTGATTCTCGCACTCACCATTCTCCACAGCTTCACTCCAACTCCAACCTCATTCACGAGAGGGAAGAACTTTCCATTTCTTCCTTCCTTTTTTGTTTCTTTCTCTCTCAACAATGCCGACTTCAATTCCTTCTTGAATTTTGATCTCATTCAATTCTTTCCTTTTTCTTTTCCATGTTCAATAACATCATCTATATACATTACAACAATTCTTTCTTTCATTTCTCTCATTTCTTCTGAATTACCCTGCATTTATCTGTTTTGTAAACCCCCAAAATGTGGGTTTATCCTCATGTTCTTGATGAGCACTTCAATGCTATTACCCCACCACTTTATCTTTCTTGACTGCACCAAGGTATCTTCAGTTTCTAATTTTCCTTCCTGCAATTCATTTCATAAATTTGCTGTTTTGGGTCGTAAGGGGAAAGGATTTTATCGGCACGTTCTTAATGCTAAGAAAAATGGGTATTCGAGGAAAAGGAGTTGGTGGCAGAGGTTTTTCTTTGATGATGATGGAAATTGGCTGGGTTTGAAGGATGATGGGATGTTGGAGGATGAGTTGGAGAGTGTTGCGAGTGATGAAGATTTGTCTGATGATGAAAAATTTGAGGCGTGGAAGAAGAGAGCTGAAGCTATTATAGAGTTGAAGGAAGCACAGGAAGATGTGAGGAATGAACAAGGGCAGAGGTGGACTGATTGGCTTTATGATGACACAAATCATGCTCGAACTTCGTGGAGTCAAGATTGGGATAATGGTCTTGGGGAATTGAATGAAGAATCGTCTGATGCTAGTGATTTAGTTCCTGAGAAGGGATTTGTTGAGTCTGTTAGAGATTTGGTTCTAGGGAAGGAAGAGGATGACATACTCTATGAAGACCGTGTATTCCAGTATGCCTCCTTAAATTCGGCAAAATTTCTCACAGTTTTAATAATTATACCTTGGGCATTGGATTTCGTGGTTCATGATTATGTTCTCATGCCCTTTCTTGATAGGTATGTCAAGAAAGTGCCACTGGCAGCTGAGATGCTCGATGTGAGAAGAAACCAGAAGCTCGAGATGGTTGAGGAACTGAAAATTGAGAAAGAAAGATTCAAACTTGAGATGGAAATTGGAAAGTCTCCTCCTCTTTCTGATGAAGAGTTATGGTGGGAATTACGGCATAGAGCGTTAACATTGAGAGATGAGTGGAGGTTAGAGAACCGTAAAGCATTTGCCAATATATGGTCAGACATGGTATTTGGGATCTCATTATTCATTCTTTTGTACTTCAACCAAAGTAAAGTAGCTTTGCTGAAATTTACAGGTTATAAAATAATAAGTAATATATCAGATACTGGGAAGGCATTTTTAATTATATTAATTACAGATATTTTTTTAGGTTATCATTCTGAATCCGGTTGGCAGACTTTGTTAGAGATAATTGTTGAACACTATGGCCTTGAGGTTGATCAGTCTGTAATAACCATCTTTATATGCCTGGTTCCGGTTATCATGGATGCATGCGTGAAACTTTGGCTGTTTAAATTTCTGCCAAGATTATCACCTAGAGTGGCGAATTTATTCCAGGAAATGAAGCGCCATTAATTTTGGAAATTTGGGCTGAGTCAATTGAGTAAGGTATAATTGTATGAAGAATGCAGTTTTTTCCCTTTTCTCTTCTATTATAACATGATATGTGGATACTGGACTATTTGCAGCAATAAAATCTTCATCCCAAGCAAAGTTATCAAATCTCGCGTTAGATAAACTTACGAACTTTGAAAATTACTTCGTTTTTTTCCAATTTATGTTCCCGTATTTTTCCTTTACAATTGTATGAACACCAAATAGAGGGAGTCTTCTTGCAAAATGGAAATGGGAATATCTTGTTACCATAGCACCAAACCCTAAGCCTCCCTATGTCCTTTGTTTTCTTTTTTTTTTCTTTTCTTGTTCTTC ATGTTCTTGATGAGCACTTCAATGCTATTACCCCACCACTTTATCTTTCTTGACTGCACCAAGGTATCTTCAGTTTCTAATTTTCCTTCCTGCAATTCATTTCATAAATTTGCTGTTTTGGGTCGTAAGGGGAAAGGATTTTATCGGCACGTTCTTAATGCTAAGAAAAATGGGTATTCGAGGAAAAGGAGTTGGTGGCAGAGGTTTTTCTTTGATGATGATGGAAATTGGCTGGGTTTGAAGGATGATGGGATGTTGGAGGATGAGTTGGAGAGTGTTGCGAGTGATGAAGATTTGTCTGATGATGAAAAATTTGAGGCGTGGAAGAAGAGAGCTGAAGCTATTATAGAGTTGAAGGAAGCACAGGAAGATGTGAGGAATGAACAAGGGCAGAGGTGGACTGATTGGCTTTATGATGACACAAATCATGCTCGAACTTCGTGGAGTCAAGATTGGGATAATGGTCTTGGGGAATTGAATGAAGAATCGTCTGATGCTAGTGATTTAGTTCCTGAGAAGGGATTTGTTGAGTCTGTTAGAGATTTGGTTCTAGGGAAGGAAGAGGATGACATACTCTATGAAGACCGTGTATTCCAGTATGCCTCCTTAAATTCGGCAAAATTTCTCACAGTTTTAATAATTATACCTTGGGCATTGGATTTCGTGGTTCATGATTATGTTCTCATGCCCTTTCTTGATAGGTATGTCAAGAAAGTGCCACTGGCAGCTGAGATGCTCGATGTGAGAAGAAACCAGAAGCTCGAGATGGTTGAGGAACTGAAAATTGAGAAAGAAAGATTCAAACTTGAGATGGAAATTGGAAAGTCTCCTCCTCTTTCTGATGAAGAGTTATGGTGGGAATTACGGCATAGAGCGTTAACATTGAGAGATGAGTGGAGGTTAGAGAACCGTAAAGCATTTGCCAATATATGGTCAGACATGGTATTTGGGATCTCATTATTCATTCTTTTGTACTTCAACCAAAGTAAAGTAGCTTTGCTGAAATTTACAGGTTATAAAATAATAAGTAATATATCAGATACTGGGAAGGCATTTTTAATTATATTAATTACAGATATTTTTTTAGGTTATCATTCTGAATCCGGTTGGCAGACTTTGTTAGAGATAATTGTTGAACACTATGGCCTTGAGGTTGATCAGTCTGTAATAACCATCTTTATATGCCTGGTTCCGGTTATCATGGATGCATGCGTGAAACTTTGGCTGTTTAAATTTCTGCCAAGATTATCACCTAGAGTGGCGAATTTATTCCAGGAAATGAAGCGCCATTAA MFLMSTSMLLPHHFIFLDCTKVSSVSNFPSCNSFHKFAVLGRKGKGFYRHVLNAKKNGYSRKRSWWQRFFFDDDGNWLGLKDDGMLEDELESVASDEDLSDDEKFEAWKKRAEAIIELKEAQEDVRNEQGQRWTDWLYDDTNHARTSWSQDWDNGLGELNEESSDASDLVPEKGFVESVRDLVLGKEEDDILYEDRVFQYASLNSAKFLTVLIIIPWALDFVVHDYVLMPFLDRYVKKVPLAAEMLDVRRNQKLEMVEELKIEKERFKLEMEIGKSPPLSDEELWWELRHRALTLRDEWRLENRKAFANIWSDMVFGISLFILLYFNQSKVALLKFTGYKIISNISDTGKAFLIILITDIFLGYHSESGWQTLLEIIVEHYGLEVDQSVITIFICLVPVIMDACVKLWLFKFLPRLSPRVANLFQEMKRH Homology
BLAST of PI0019737.1 vs. ExPASy Swiss-Prot
Match: A6MVV9 (Chloroplast envelope membrane protein OS=Rhodomonas salina OX=52970 GN=cemA PE=3 SV=1) HSP 1 Score: 138.7 bits (348), Expect = 1.6e-31 Identity = 77/240 (32.08%), Postives = 142/240 (59.17%), Query Frame = 0
BLAST of PI0019737.1 vs. ExPASy Swiss-Prot
Match: O78470 (Chloroplast envelope membrane protein OS=Guillardia theta OX=55529 GN=cemA PE=3 SV=1) HSP 1 Score: 137.1 bits (344), Expect = 4.6e-31 Identity = 79/240 (32.92%), Postives = 140/240 (58.33%), Query Frame = 0
BLAST of PI0019737.1 vs. ExPASy Swiss-Prot
Match: B7K2V6 (Proton extrusion protein PcxA OS=Rippkaea orientalis (strain PCC 8801) OX=41431 GN=pcxA PE=3 SV=1) HSP 1 Score: 134.4 bits (337), Expect = 3.0e-30 Identity = 82/275 (29.82%), Postives = 155/275 (56.36%), Query Frame = 0
BLAST of PI0019737.1 vs. ExPASy Swiss-Prot
Match: B0CG09 (Proton extrusion protein PcxA OS=Acaryochloris marina (strain MBIC 11017) OX=329726 GN=pcxA PE=3 SV=1) HSP 1 Score: 133.3 bits (334), Expect = 6.7e-30 Identity = 82/242 (33.88%), Postives = 144/242 (59.50%), Query Frame = 0
BLAST of PI0019737.1 vs. ExPASy Swiss-Prot
Match: B0JI44 (Proton extrusion protein PcxA OS=Microcystis aeruginosa (strain NIES-843) OX=449447 GN=pcxA PE=3 SV=1) HSP 1 Score: 132.5 bits (332), Expect = 1.1e-29 Identity = 76/242 (31.40%), Postives = 141/242 (58.26%), Query Frame = 0
BLAST of PI0019737.1 vs. ExPASy TrEMBL
Match: A0A0A0LGZ0 (Chloroplast envelope membrane protein OS=Cucumis sativus OX=3659 GN=Csa_2G070860 PE=3 SV=1) HSP 1 Score: 828.6 bits (2139), Expect = 1.2e-236 Identity = 415/431 (96.29%), Postives = 427/431 (99.07%), Query Frame = 0
BLAST of PI0019737.1 vs. ExPASy TrEMBL
Match: A0A1S4E2R2 (Chloroplast envelope membrane protein OS=Cucumis melo OX=3656 GN=LOC103492033 PE=3 SV=1) HSP 1 Score: 822.8 bits (2124), Expect = 6.8e-235 Identity = 416/430 (96.74%), Postives = 421/430 (97.91%), Query Frame = 0
BLAST of PI0019737.1 vs. ExPASy TrEMBL
Match: A0A6J1D812 (Chloroplast envelope membrane protein OS=Momordica charantia OX=3673 GN=LOC111018215 PE=3 SV=1) HSP 1 Score: 765.0 bits (1974), Expect = 1.7e-217 Identity = 393/431 (91.18%), Postives = 409/431 (94.90%), Query Frame = 0
BLAST of PI0019737.1 vs. ExPASy TrEMBL
Match: A0A6J1FGU0 (Chloroplast envelope membrane protein OS=Cucurbita moschata OX=3662 GN=LOC111444055 PE=3 SV=1) HSP 1 Score: 733.8 bits (1893), Expect = 4.1e-208 Identity = 376/431 (87.24%), Postives = 398/431 (92.34%), Query Frame = 0
BLAST of PI0019737.1 vs. ExPASy TrEMBL
Match: A0A6J1HQT6 (Chloroplast envelope membrane protein OS=Cucurbita maxima OX=3661 GN=LOC111465787 PE=3 SV=1) HSP 1 Score: 731.9 bits (1888), Expect = 1.6e-207 Identity = 376/433 (86.84%), Postives = 397/433 (91.69%), Query Frame = 0
BLAST of PI0019737.1 vs. NCBI nr
Match: XP_011648976.1 (chloroplast envelope membrane protein [Cucumis sativus] >XP_011648977.1 chloroplast envelope membrane protein [Cucumis sativus] >KGN61220.1 hypothetical protein Csa_006796 [Cucumis sativus]) HSP 1 Score: 828.6 bits (2139), Expect = 2.6e-236 Identity = 415/431 (96.29%), Postives = 427/431 (99.07%), Query Frame = 0
BLAST of PI0019737.1 vs. NCBI nr
Match: XP_038889789.1 (chloroplast envelope membrane protein [Benincasa hispida]) HSP 1 Score: 826.2 bits (2133), Expect = 1.3e-235 Identity = 417/430 (96.98%), Postives = 420/430 (97.67%), Query Frame = 0
BLAST of PI0019737.1 vs. NCBI nr
Match: XP_008450436.1 (PREDICTED: chloroplast envelope membrane protein [Cucumis melo] >XP_016902508.1 PREDICTED: chloroplast envelope membrane protein [Cucumis melo]) HSP 1 Score: 822.8 bits (2124), Expect = 1.4e-234 Identity = 416/430 (96.74%), Postives = 421/430 (97.91%), Query Frame = 0
BLAST of PI0019737.1 vs. NCBI nr
Match: XP_022149913.1 (chloroplast envelope membrane protein [Momordica charantia]) HSP 1 Score: 765.0 bits (1974), Expect = 3.5e-217 Identity = 393/431 (91.18%), Postives = 409/431 (94.90%), Query Frame = 0
BLAST of PI0019737.1 vs. NCBI nr
Match: KAG6586129.1 (Chloroplast envelope membrane protein, partial [Cucurbita argyrosperma subsp. sororia] >KAG7020950.1 Chloroplast envelope membrane protein [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 736.1 bits (1899), Expect = 1.7e-208 Identity = 377/431 (87.47%), Postives = 399/431 (92.58%), Query Frame = 0
BLAST of PI0019737.1 vs. TAIR 10
Match: AT4G31040.1 (CemA-like proton extrusion protein-related ) HSP 1 Score: 546.6 bits (1407), Expect = 1.8e-155 Identity = 287/447 (64.21%), Postives = 355/447 (79.42%), Query Frame = 0
BLAST of PI0019737.1 vs. TAIR 10
Match: ATCG00530.1 (CemA-like proton extrusion protein-related ) HSP 1 Score: 64.7 bits (156), Expect = 2.1e-10 Identity = 45/213 (21.13%), Postives = 103/213 (48.36%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (PI 482460) v1
Date Performed: 2021-10-25
Relationships
This mRNA is a part of the following gene feature(s):
The following five_prime_UTR feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
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