Moc11g09670 (gene) Bitter gourd (OHB3-1) v2
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGTCTCAGTTCAGAGCTCTTCACCGACACATCGATTCCTATCTGAAACTCCGATACCATTTCTTCTGTTCACAGTCTTCACATTCCCTCCAAGTTCACACTCTTACCTCCATTTCTCGAAGAACTCGAAATTTCTCGTTGAAAATCGAAGAGGGGATCGGACCAGAAATCGTGGACGTAAATAGGGATATACGTACGGATTTTGTGGTTGATGGAGCCGTAAGATCGAACCGAAGTGCGGAATGTCGCGAGCGCGAACGCCGAAATCAAGACAATGTGCTGGAAGGGAGCTCGGGGGAATCGGAGCGCGGAGCGGGGTGGTTGAGAGCGGATTCGGGAGGTAGTGGGAAATTGACGAGGAAGGGGAAGCCTGGAAGCTTATATGTATTGGTTTCCAAACAAAATGGATGCACTGAGAGGCGCGAGGTGAGGATGAGGGAGGACGCTTTGGTCCGTAAAGAGCTTTCTCCGGACATAGAGATGCTCGTGAGGCATTTGTACGGGGAAGGATATTTTAGTTATGCGAATTTCTTGCCCGATAACAAATTGGTTCTTAGCTACTTTGAGTATCGTCATGGACGGGATTTTATCAAGTCTGCAGCTGAGAGATTTGGCAGAGACAATCAAGAAATTGCAAAGTAAGAATTTAGCTGTAACTGTGGTTAATCTTATGATTTCTCGTCGTTAATGCCTTAACGTAGATATATCTGTTTCGTTTGTGTGTAATTTTTTGAGAATTAGGGAGAGGAGATCATGTGTTTGATGAACTGGGTAGCTTTTAGCCTTTTGCCACCTTCAATCTGATCTATGAAGTATGAAGTATAAAGGATGATGTGCTAGAATAAGAAAATCGAAAATGTTGCGAGTGAGGGACGATAAAACTATATCTCACGTCATTGAGGGGGAAAATTATCATTATTTTAATTCGTGAATTGATGCCAATTAATAGCAAATGGTGACATGAAACTACCTGAATAGATTACAATGAATCAAAACATCCAGCAGTATCTGTTTTTCAGCTTATGCAATGACATGGGGAAACCATCCTTAGTTCTAGCTTTGGGTTTTTTATAACATGGTCATATGCATCTTCTGCCATTTAAGACGAATTGAAGAAATTGAGGTCATTCGGTTGGTTTGAGGATGGAGGGTCCTTTCATGTCGGTTTTCAACGTAAGAAGTGTGATTAGATTCTGAGGCCTTAGATTATTCCTAATATATTTTGTTTGTATCGTACATGTTAAGATCATAGTGTGAATCATTAGCCTTATTTACATTGATTTGGTAGTTAGGATATGATTTTTTTAATTATTATTATTATTTTTTTTGATAACCGGAAGTTGGAGCTTTGCTCCCATATACCTAGGGGCATTCGCGCCCGCCCCAAGGTCCGGTCCTGAGAGATATCAAGAGTTTTTAGTATTAAGCTCACCAGAAAGTTCGAATTTGAGACTTCTAAGTCAATATAACCAAAAGACCCCAAGCTCAACTGGACTGCCCTTTGGAGGCTAGGATATGAATACTATAAAAAGATATTTCTTGTTCACTTACAAAAGAAGGATCATTGTCAACATCAAAAGATCAATTTTCATATTCAAGTGTATGGAATAACTGGTGCTGTTACTGTCCAAAACTGATGTTTTTTGTTGGGTTGATCGATTTATAGACGTTGGTTTGTTCAGTCGGTCCAGTTTCCTCAATTTATTTTATTTTTCACGTCTCTTTTGGGTTCATTGACAATTTTCATCCAAAACCAACTTGAATCAAACCTTAGCTAATTGTACTGCTGACTGAACATAATCTTCCCCTCCATGATATCCGTGCATGTCTTTGCGTGCTCTTGTTCATGCTGCTTGATAAAGTGCTCGAAGCCTTGTGCTACCGATAATTCGAAATTGTACAAAATGTCGATGCGCCAAATAACCACTGTAGAGTATTCAGTGCAATATTCCTAATAAATTATTGAATCTAACATTCTGATTACAAAGGAAATAATTTCTCCATTCCATCTTTCTGGTTCTGGCAGTTGTGTTTCATTACCCAGACATCCCTATTGTATCATGTGTTGAACACTGAGTCTTGGGATTTTCAGATGGTTGTCCGGCAGTGACTTGAGAAAGGTTGCTCTCTTAGGATGCCCATCCACTGCAAGAAAAGATGTGTTTTCTGCTAAGAGGCTGCGAAAATTTTTTGGAATCCAAGAAGACACAGTAAGCAAAAGCTTCGTGAATATTACTTTCCTTCTTCTATTACCATTTAACTATCTAGTATAATTTTTCGGCTTTGTTTTCCTCCTTTTCATATTACCCGCAGGTTTGTCACAAATGCATCTTGAGACACTCATGCAAGTATGTGAATCAAAGTGTTTGGAATGGCAGCACCAAGAATTTGAATTTGGCAGTCGTCATGAATGTTATTACTCAATATGCCTTGGATGCAGGACCGAAACACCTTCGAATACCCGAAGATATGAAGGCTTCTGTAAGCCGGTTGCTGAAAGAGATATTGAAACTAAGCCCAACCGTGTCGAGGAACTAGTTCTCGGGGCAACTATACAAGTTCTCTATAACCAAATGCCAAAAATCCTCGTTGAGTTGATCAATCTCGTAATATCTCAAGAAAAATCTGGATTGGTCTTCCATGTGCTGTGGAACTATCGGTGCATTCAGCTTGTTCATACAGCATGGTGAGTTTGTAAGTAAACACTGTTTCTTTGATTCACATATGTGATTTTAAAGTGCCTCGTTTGCTTCATTTTGACACATTGGGATAAAACCTGAAAAGTCACTCTAATTTATATGTACCTAAACAGTTAAATCTTGGAGTTAGGAATTGGTTTTAGACCATTGAACCCACCCCCTCAAACAGTTCCATTTGAAGGATGGCTGATCTGAGAGAGTTTGACTTTTACCATCAAAATTCATGGATGCAACTTTTTTTTAGGAGAATTGTAATGGGTGATAAATAATTTTTGTCATATTTGTAAATATAGCATAAATGAAATAAAATAAAATTTTGTAAGTATGACAATGTTATAGGCGAGACATTTATTACCTTATTGATAGAAGTGTGAGAATATGGTATCATATTTATAATTTTGGATTAGATATATGAGGAGTTGTGGAAATTGAAAAAAAAAAAAAGAAGTTAAAAGTTTATGGTGTAATTATAACATTGGTTTGTTTTAAAAACAATATTTTGTTTTTAAGAATAAAATTCACTAAAAGCATATCTTAGTATTGGATTGTCAAAATATGTTCTCTTTTCAGTCTTTTTTGTTGGTGCAATTTGCCCTTTAAAGAACAATCTTTTGTTTTTAGGAATAAAATTAACTAAAAGCATATCTCATTCTTAGCAGTCGATTGTTAAAACTTAAGTCCTTTTTGTGGTTCGTCTATTTTTGGAACAACTAAAATAAATTTCTGTCTAATGTTTCAATTAGAGAAATTATATTAGAAAAAAAAAAACCATTGGAAACGAAAAGACCACTAATCTCACATTAGCTGAGGTTTAAGAAAACCAAAAGATCTCTCACTAATTGTCGCACGCGTAAGCGTTAGCGAAGTTGTCACGTGAGGATCGGACCAAATTCCTCGCGGTCATTGTACTTTGTCCTTACCCAAAATGAAAAAATAAAAAAGACCTAAATCTAGATCTCACATGATTGGCTGTGACAAAATCAGCGTCCGCGACACGTGAGTGTAGCATTTCTCCGTGCGAAAAAAATCCAGATGCTCTTTAGAATTAGCCACAGCTTCAATGGCTGACGTGCTGCTATACAACAATTCTATAATAATAATATATATTCAAAGAATCCCCTGAAGGCTGAAGATGAAGCGCGTTGCCAAATCGGCGTTCAAGAACCAAGAACCCTTCCTTTCAAATCTCTCGTCTGCTTCCTTCACTTTTCATGCTTCTCAGCTTCTCGAATTCGCAATCCAAAAGCCCTTCTTCTCAATCTCTGATGTTGAATCTTGAGCTCGGCTTGTTCGGAAACTGAACTCCGGGACCGCAATTCTACTAGTTCGGCTCGAGGTTTTCGTTGAGGTAAAAATTGGATCAGTTGCGGTTCTTTTGAATCTTATTGCTTTGGAGTGCGGAGCTGGAGTTGCGAGATGTTTACTCATTTCTGAGGAGTTTTGTTGGTGTGCCCTAAGTAAAGTGCTTTTTTCCCTACTGCTTCTGTTTTAATTTTTAAGTTGATTTGCCTATAGATTTTCTATTCGGGTGTCGATCGCGAAGCTTCGAGTTCTTCTATCAAGTTCGTCGAGGAAAAAAGCTTGTTTCTCCTTCGTATGAGGAGGTCGTCGGCGTGAAATAAGGTTTGGATTCCTTACCTAATGTCCGTTGAGAGATCGTTTGAAGCGTGGGAGGAGGTGCAGAGGCATGGTCAGGATTTGGCCGACCGTCTTGCTCAAGGATTCACGGGACTGATTCATTCTCACATAGCGCCGCCCTCTTTTCCTTGGCCCAACCCCCCCAAGTCTAAGCTCTTTGATATTGAATTTCCGGGACAGAGTTTTGGTATTAAGGATTATGGGTTGACTGTCCATAATTCAGGAATTAATGGGGTCACATCGATTTTGGATATTGGTAATAGGATTGGACAAGCTGGCGCTGATTTTGGTGCTTGTTTGAATGGTATGGTACAACAATTTTTCCGACAGCTGCCAGTGCCATTTCGGCAAGAGGAGAATGTGATAGCATCCATTAGGATGGATCTGGATAAAAGTTGGCAGAGGGATGATATGGGAGTCACTGTTCAAGGGAATCTGGGAACATTAACAGAGTGCTTGCGTAATTCTGAACTTGCTGACAGTGACGGTGTTTCAGATGGGATGGTAGATGATGAAACTCCTGGCTTTGATTTGAGGGCTATAGGACATCTGGGAAGGGCACAGGTATGGCAGTTTGATCAATGTTTATTTGATTTGAAAATTGCAGACATGATTTTGGCAGTTCGATGAGTTGTTCAATTTTGACTAGCACAGAGATGATTTACCCTTCGTTAGCTAGAGATCTGTTTAATGTACTTATTGTGGTGTAAAATCTTTATCTTTAGTTGATAAATGGCTTATAACAAAACACACGGTTCTCTTACACCAAAAGTCTGCTAAATTAATTGATCAGGAGTTCCTTTTCCAAATAGCTTCTTTAAATAGTTATTAACACACTGCCCTCAAGTGGCCTATATATTACCCAGTTTGCTGCTTAGCCACAAACTTAGTGCATCATGTTTAACAACTCTAATTATGTGGACACAAATAATAACAACAATTATGGGGTAAGAAATCAGGAACTTGTGATCAACCGTCAACGAATAAAAACAATTTTGAGAAGATTACAACTGTGTTGTTCATAGAGGAAATATTATGACCGAGTATTACTCATTCACACAAGACCAGGCTGTTTGAGGAATCATTTCAAAATAGTTTTCTACCTGTCAATAACAGAACATATGGTTGCAATGATGTTGTGTCGTGTGAGTGAAACAAACTTAGTGCATCTATGTTCTATCTCTTTCAAACCCTATAATTCCATGGTCTTTATTTGTTGTGTGTATTTTTATGGGCGGTGAGGGGTTTGGTGGTGTCAAATCATAGAGGAATGTAGGTTGAGGGTTATTTTTTCTTTTGGAGTATTTATTTGGTTTTTACTTTAATATTTATCATTCATTGGGTGTAGGGCACAATCAATATTTCTTCAACCTATGATAGTAGATCACGAGATGTGGAAAGTTCATTAGTTGCTAGAGGAGATTTATGGAGAGTAGAGGCATCACATGGCAGAACCGCAACTGGAAATGATAATTCATCATTATTTCTGCTGCAGCTTGGGCCAGTACTTTTTGTTCGTGACTCGACGCTTCTTTTGCCAGTTCATTTATCAAAGCAACACCTGCTTTGGTATGGTTATGATAAGAAGGTAATACCTACTTTATTTTGCTAGTGGCCTGGCATCAAATAAGACCATGTGCCAGATTTTTGACATTGAAGTCATGTGTGAGTTGCCTGCGAGGGGCAGAGCTTAATACTAAAAATATGGGGTAGGCGCGAGTGTCCTGGGTATAGGGAAGCAGAACTTCGACTCCCCATTATTAAAAAAAAAAAAGGTCATGTGTGAGTTAATGTGGAGAAGAATGGTTTTGTTTTCAATTAAACAAACAGAAGAGTTTGGCTGTTGCTGCTAGGAGATATTAGGTTTAGTAAGCTTTCATGAAGCATTTAGTTAGACGCAGAACAACCTTATTTGTTGGAGGCCCTATTTAAGGAGTTCTCCACATTGCTACCAGCAGCTATCCTTTTAAAAAAATATGATTGTCAATTGTCATTATTTAGTGAGCTCTTTCCTGTCTTAAAATCCTTTCTGCAATTTACGTTATTTGATATGAATGTTGGATTTGAGTTTCTCTGTAAATTCTATGTAGTGTTTTCTTAGTATAGTCTAATCATATCCTGCATTAGTTAGAAGATACTATATATCTTAACTCGGCAATTCGGATCTCCAATGCAATGTATATAATATGAGACTTGGAAATACTGTTATTTGATTTTGAATTCCAATTATATAATATGAGACCTAGAAACACTTAGATTTTCACCTCTTTCAAGTTCTCGTGAGACAACACATGATTAAACTGTCATTTTCATATTAACCCTACTTTATTCCAACTTCTAATATTATTACTTCATTAATCATCAGAATGGAATGCATTCTCTATGTCCAGCAGTCTGGTCAAAGCATAGAAGGTGGCTCTTTATGTCAATGCTTTGTCTCAACCCCCCAGCTTGTGTAAGTTGATGATATCATTTAGTTTTCTTATCTTATCTAAAAAAGATGATATCATTTAGTTTTCTTATTGAGTATACCCTTTGGATCAATTGAGTAACATAATCTTTTCCCCCTCCTCGCAGTCATTTGTTGATTTACAGTTCCCCAACGGGCAGTTGACTTATGTGTCGGGTGAAGGTTTAACTACAACTGCATTTTTGCCCTTTTGTGGAGGCCTCCTTCAAGCTCAGGGTCAATATCCAGGAGAAATGAGATTCAGCTTTTCGTGCAAGGTTAGTTATGTCCTCATTTCCTTTCTCTTGAAAAAAGAAAAAGAATAAAAAATTGGCACTCAAATTCAATTTCCAAAAGAACTTATATGGACTCCAGTGTTGCTAAGTTGGTGCCTTGTTTGTGTTGGTTGATTTTATTAGAATAAGTGGGGAACCCGAATAACACCAATGGTGCAATTGCCTGACAAATCATTTACTTTGGACCTTGCTCAATCATTGGCTTGGCAGAGATCAGGTGTTCTGGTAAAACCAACTGTCCAATGCAGGTTAGTATAAATGCTATTCATTGAAGTTGAGTTACCTATATTGATCCGACTAGAATAATACATGTTAATTTGGACTTTGATGTTATCTATTAGCATTTGTTGCAAGCAAGGAAAATGACCCAAATCTTGAATGTTTTATTATGCTGTCTCCTAGCCTGATGGATGTAGTGTAATTAATTAGTAGTAACTTTGTGATTTTTAGTTTAGTTTGTTTTAGGGGGTTCATAGAGGGTTAGTCTCTTTTACTATAAAGTTCTTTGAACACCTTGGGACTGGATGAGGATGAATGGTAACTAAATGAGAATCCAAACATTAGACTGTAATTTCATGTTGCAAAGTGCTAAGCTCTAATGGAAATTATCATAACGACATCACTTGAACAGTAAATGTTTTATAGGTTGTACTATTGTGTTCTTATGGAAATCATCATAGCCATTAACCAAGAAGAGCCATGTTCCTTTCATTTCTTTCTGTCCTCTCTACTATTGTGTTCTTATGGAAATCATCATAGCCAATTAACCAAGAAGAGCCATGTTCCTTTCATTTCTTTCTGTCCTCTCTCTTTTTATTATTACTTTTAGTAAGACGCACGGATAACTTCGTTAACCCCAAAAACCAGGATGAAAAACCGGAGGTTTATATAAATGCACACAAACCCTTATTAGTCAAGAAGGTATGGAAATTACCAACAAAAATAAAAATAAAAAAATATTGTGTGTGGAGCACTCCAACTACAATACTTATTTTTACTATCTTAAAATAAGGTAGAACCATATATACCAATATTTTAAATTTCTTTTTCAATCCAAAGAAGCTGCAGTAAAGCTCTAGACCTCTAGTTTGGTTTCTCCAGATGAATCTAGCTTTCCAACGAACGACTACACGAAGTATTCCAGGGGGAAGCATTGAGATATCCATCCATAGGGCTACGCCAACTAGAAATTTTCTGCATTGCTTCAATTTCTGTATAAGAAATTTTCCCAGAAGATCAATTCTTACTTATCATATTTTCAATACCCAACCCTAACATTTCTTCGTTACGTGGATTCTGTCTTGTTATTTCCTCACATAATTTTTACTTTTAATCATAATCAGTGCAAATTGAGACTAACTTGACATTTGTAGGGATTGCACTTCTATCTATAAGTTCACATTTGTAGAGATTGGACTCCTATTTATAAGTTTGTTTCCACATCTTATTTTTCTTTGATATCCTTCCTGTAGAATAAAGTAAAAGGAGCACTTAATTTTAACTTTTTCGCTTCTCCTGTGATAGATGTTGTTTTTGTATCTCATATTCGGTTTTATAATGATCAGTTTAAGTCCCACTTTTGGTGGAAGCAATCCTGGGTTTCGTGCAGAAATTGTTCATTCAGTGAAGAAACATCTCAATGTCGTGTGCGGCTGTTCTTCCATTGCCCATCCTTCTGCATATGCTTCAATTTCGGTAAGTATTAACACTTGATTTTCTGTCTCCATGCGGGTCATGCCAATTTATAGGATTTTTTTAGTTATTTATTTTAGAATATACTTCACTGTTGGCCAATTCTTATTCTTCCTTCTATTTGATTTCTTGCTCGGCATCCAGCTCGGCAGGTCGAAGTGGAATGGTAACATTGGTAGTTCAGGGATAGTTGTAAGAGCTGATGCTCCGCTCTCTAATATTCGTCGAACCTCATTCTCGGTTCAGATAAATACTGGGATCGAGTTTTGAATGTCTCAGTTCAGAGCTCTTCACCGACACATCGATTCCTATCTGAAACTCCGATACCATTTCTTCTGTTCACAGTCTTCACATTCCCTCCAAGTTCACACTCTTACCTCCATTTCTCGAAGAACTCGAAATTTCTCGTTGAAAATCGAAGAGGGGATCGGACCAGAAATCGTGGACGTAAATAGGGATATACGTACGGATTTTGTGGTTGATGGAGCCGTAAGATCGAACCGAAGTGCGGAATGTCGCGAGCGCGAACGCCGAAATCAAGACAATGTGCTGGAAGGGAGCTCGGGGGAATCGGAGCGCGGAGCGGGGTGGTTGAGAGCGGATTCGGGAGGTAGTGGGAAATTGACGAGGAAGGGGAAGCCTGGAAGCTTATATGTATTGGTTTCCAAACAAAATGGATGCACTGAGAGGCGCGAGGTGAGGATGAGGGAGGACGCTTTGGTCCGTAAAGAGCTTTCTCCGGACATAGAGATGCTCGTGAGGCATTTGTACGGGGAAGGATATTTTAGTTATGCGAATTTCTTGCCCGATAACAAATTGGTTCTTAGCTACTTTGAGTATCGTCATGGACGGGATTTTATCAAGTCTGCAGCTGAGAGATTTGGCAGAGACAATCAAGAAATTGCAAAATGGTTGTCCGGCAGTGACTTGAGAAAGGTTGCTCTCTTAGGATGCCCATCCACTGCAAGAAAAGATGTGTTTTCTGCTAAGAGGCTGCGAAAATTTTTTGGAATCCAAGAAGACACAGTTTGTCACAAATGCATCTTGAGACACTCATGCAAGACCGAAACACCTTCGAATACCCGAAGATATGAAGGCTTCTGTAAGCCGGTTGCTGAAAGAGATATTGAAACTAAGCCCAACCGTGTCGAGGAACTAGTTCTCGGGGCAACTATACAAGTTCTCTATAACCAAATGCCAAAAATCCTCGTTGAGTTGATCAATCTCGTAATATCTCAAGAAAAATCTGGATTGGTCTTCCATGTGCTGTGGAACTATCGGTGCATTCAGCTTGTTCATACAGCATGTGCGGAGCTGGAGTTGCGAGATGTTTACTCATTTCTGAGGAGTTTTGTTGCGTGGGAGGAGGTGCAGAGGCATGGTCAGGATTTGGCCGACCGTCTTGCTCAAGGATTCACGGGACTGATTCATTCTCACATAGCGCCGCCCTCTTTTCCTTGGCCCAACCCCCCCAAGTCTAAGCTCTTTGATATTGAATTTCCGGGACAGAGTTTTGGTATTAAGGATTATGGGTTGACTGTCCATAATTCAGGAATTAATGGGGTCACATCGATTTTGGATATTGGTAATAGGATTGGACAAGCTGGCGCTGATTTTGGTGCTTGTTTGAATGGTATGGTACAACAATTTTTCCGACAGCTGCCAGTGCCATTTCGGCAAGAGGAGAATGTGATAGCATCCATTAGGATGGATCTGGATAAAAGTTGGCAGAGGGATGATATGGGAGTCACTGTTCAAGGGAATCTGGGAACATTAACAGAGTGCTTGCGTAATTCTGAACTTGCTGACAGTGACGGTGTTTCAGATGGGATGGTAGATGATGAAACTCCTGGCTTTGATTTGAGGGCTATAGGACATCTGGGAAGGGCACAGGGCACAATCAATATTTCTTCAACCTATGATAGTAGATCACGAGATGTGGAAAGTTCATTAGTTGCTAGAGGAGATTTATGGAGAGTAGAGGCATCACATGGCAGAACCGCAACTGGAAATGATAATTCATCATTATTTCTGCTGCAGCTTGGGCCAGTACTTTTTGTTCGTGACTCGACGCTTCTTTTGCCAGTTCATTTATCAAAGCAACACCTGCTTTGGTATGGTTATGATAAGAAGAATGGAATGCATTCTCTATGTCCAGCAGTCTGGTCAAAGCATAGAAGGTGGCTCTTTATGTCAATGCTTTGTCTCAACCCCCCAGCTTGTTCATTTGTTGATTTACAGTTCCCCAACGGGCAGTTGACTTATGTGTCGGGTGAAGGTTTAACTACAACTGCATTTTTGCCCTTTTGTGGAGGCCTCCTTCAAGCTCAGGGTCAATATCCAGGAGAAATGAGATTCAGCTTTTCGTGCAAGAATAAGTGGGGAACCCGAATAACACCAATGGTGCAATTGCCTGACAAATCATTTACTTTGGACCTTGCTCAATCATTGGCTTGGCAGAGATCAGGTGTTCTGGTAAAACCAACTGTCCAATGCAGTTTAAGTCCCACTTTTGGTGGAAGCAATCCTGGGTTTCGTGCAGAAATTGTTCATTCAGTGAAGAAACATCTCAATGTCGTGTGCGGCTGTTCTTCCATTGCCCATCCTTCTGCATATGCTTCAATTTCGCTCGGCAGGTCGAAGTGGAATGGTAACATTGGTAGTTCAGGGATAGTTGTAAGAGCTGATGCTCCGCTCTCTAATATTCGTCGAACCTCATTCTCGGTTCAGATAAATACTGGGATCGAGTTTTGA ATGTCTCAGTTCAGAGCTCTTCACCGACACATCGATTCCTATCTGAAACTCCGATACCATTTCTTCTGTTCACAGTCTTCACATTCCCTCCAAGTTCACACTCTTACCTCCATTTCTCGAAGAACTCGAAATTTCTCGTTGAAAATCGAAGAGGGGATCGGACCAGAAATCGTGGACGTAAATAGGGATATACGTACGGATTTTGTGGTTGATGGAGCCGTAAGATCGAACCGAAGTGCGGAATGTCGCGAGCGCGAACGCCGAAATCAAGACAATGTGCTGGAAGGGAGCTCGGGGGAATCGGAGCGCGGAGCGGGGTGGTTGAGAGCGGATTCGGGAGGTAGTGGGAAATTGACGAGGAAGGGGAAGCCTGGAAGCTTATATGTATTGGTTTCCAAACAAAATGGATGCACTGAGAGGCGCGAGGTGAGGATGAGGGAGGACGCTTTGGTCCGTAAAGAGCTTTCTCCGGACATAGAGATGCTCGTGAGGCATTTGTACGGGGAAGGATATTTTAGTTATGCGAATTTCTTGCCCGATAACAAATTGGTTCTTAGCTACTTTGAGTATCGTCATGGACGGGATTTTATCAAGTCTGCAGCTGAGAGATTTGGCAGAGACAATCAAGAAATTGCAAAATGGTTGTCCGGCAGTGACTTGAGAAAGGTTGCTCTCTTAGGATGCCCATCCACTGCAAGAAAAGATGTGTTTTCTGCTAAGAGGCTGCGAAAATTTTTTGGAATCCAAGAAGACACAGTTTGTCACAAATGCATCTTGAGACACTCATGCAAGACCGAAACACCTTCGAATACCCGAAGATATGAAGGCTTCTGTAAGCCGGTTGCTGAAAGAGATATTGAAACTAAGCCCAACCGTGTCGAGGAACTAGTTCTCGGGGCAACTATACAAGTTCTCTATAACCAAATGCCAAAAATCCTCGTTGAGTTGATCAATCTCGTAATATCTCAAGAAAAATCTGGATTGGTCTTCCATGTGCTGTGGAACTATCGGTGCATTCAGCTTGTTCATACAGCATGTGCGGAGCTGGAGTTGCGAGATGTTTACTCATTTCTGAGGAGTTTTGTTGCGTGGGAGGAGGTGCAGAGGCATGGTCAGGATTTGGCCGACCGTCTTGCTCAAGGATTCACGGGACTGATTCATTCTCACATAGCGCCGCCCTCTTTTCCTTGGCCCAACCCCCCCAAGTCTAAGCTCTTTGATATTGAATTTCCGGGACAGAGTTTTGGTATTAAGGATTATGGGTTGACTGTCCATAATTCAGGAATTAATGGGGTCACATCGATTTTGGATATTGGTAATAGGATTGGACAAGCTGGCGCTGATTTTGGTGCTTGTTTGAATGGTATGGTACAACAATTTTTCCGACAGCTGCCAGTGCCATTTCGGCAAGAGGAGAATGTGATAGCATCCATTAGGATGGATCTGGATAAAAGTTGGCAGAGGGATGATATGGGAGTCACTGTTCAAGGGAATCTGGGAACATTAACAGAGTGCTTGCGTAATTCTGAACTTGCTGACAGTGACGGTGTTTCAGATGGGATGGTAGATGATGAAACTCCTGGCTTTGATTTGAGGGCTATAGGACATCTGGGAAGGGCACAGGGCACAATCAATATTTCTTCAACCTATGATAGTAGATCACGAGATGTGGAAAGTTCATTAGTTGCTAGAGGAGATTTATGGAGAGTAGAGGCATCACATGGCAGAACCGCAACTGGAAATGATAATTCATCATTATTTCTGCTGCAGCTTGGGCCAGTACTTTTTGTTCGTGACTCGACGCTTCTTTTGCCAGTTCATTTATCAAAGCAACACCTGCTTTGGTATGGTTATGATAAGAAGAATGGAATGCATTCTCTATGTCCAGCAGTCTGGTCAAAGCATAGAAGGTGGCTCTTTATGTCAATGCTTTGTCTCAACCCCCCAGCTTGTTCATTTGTTGATTTACAGTTCCCCAACGGGCAGTTGACTTATGTGTCGGGTGAAGGTTTAACTACAACTGCATTTTTGCCCTTTTGTGGAGGCCTCCTTCAAGCTCAGGGTCAATATCCAGGAGAAATGAGATTCAGCTTTTCGTGCAAGAATAAGTGGGGAACCCGAATAACACCAATGGTGCAATTGCCTGACAAATCATTTACTTTGGACCTTGCTCAATCATTGGCTTGGCAGAGATCAGGTGTTCTGGTAAAACCAACTGTCCAATGCAGTTTAAGTCCCACTTTTGGTGGAAGCAATCCTGGGTTTCGTGCAGAAATTGTTCATTCAGTGAAGAAACATCTCAATGTCGTGTGCGGCTGTTCTTCCATTGCCCATCCTTCTGCATATGCTTCAATTTCGCTCGGCAGGTCGAAGTGGAATGGTAACATTGGTAGTTCAGGGATAGTTGTAAGAGCTGATGCTCCGCTCTCTAATATTCGTCGAACCTCATTCTCGGTTCAGATAAATACTGGGATCGAGTTTTGA MSQFRALHRHIDSYLKLRYHFFCSQSSHSLQVHTLTSISRRTRNFSLKIEEGIGPEIVDVNRDIRTDFVVDGAVRSNRSAECRERERRNQDNVLEGSSGESERGAGWLRADSGGSGKLTRKGKPGSLYVLVSKQNGCTERREVRMREDALVRKELSPDIEMLVRHLYGEGYFSYANFLPDNKLVLSYFEYRHGRDFIKSAAERFGRDNQEIAKWLSGSDLRKVALLGCPSTARKDVFSAKRLRKFFGIQEDTVCHKCILRHSCKTETPSNTRRYEGFCKPVAERDIETKPNRVEELVLGATIQVLYNQMPKILVELINLVISQEKSGLVFHVLWNYRCIQLVHTACAELELRDVYSFLRSFVAWEEVQRHGQDLADRLAQGFTGLIHSHIAPPSFPWPNPPKSKLFDIEFPGQSFGIKDYGLTVHNSGINGVTSILDIGNRIGQAGADFGACLNGMVQQFFRQLPVPFRQEENVIASIRMDLDKSWQRDDMGVTVQGNLGTLTECLRNSELADSDGVSDGMVDDETPGFDLRAIGHLGRAQGTINISSTYDSRSRDVESSLVARGDLWRVEASHGRTATGNDNSSLFLLQLGPVLFVRDSTLLLPVHLSKQHLLWYGYDKKNGMHSLCPAVWSKHRRWLFMSMLCLNPPACSFVDLQFPNGQLTYVSGEGLTTTAFLPFCGGLLQAQGQYPGEMRFSFSCKNKWGTRITPMVQLPDKSFTLDLAQSLAWQRSGVLVKPTVQCSLSPTFGGSNPGFRAEIVHSVKKHLNVVCGCSSIAHPSAYASISLGRSKWNGNIGSSGIVVRADAPLSNIRRTSFSVQINTGIEF Homology
BLAST of Moc11g09670 vs. NCBI nr
Match: XP_022133983.1 (uncharacterized protein LOC111006382 [Momordica charantia] >XP_022133993.1 uncharacterized protein LOC111006382 [Momordica charantia]) HSP 1 Score: 970.7 bits (2508), Expect = 8.0e-279 Identity = 468/469 (99.79%), Postives = 468/469 (99.79%), Query Frame = 0
BLAST of Moc11g09670 vs. NCBI nr
Match: XP_038898428.1 (uncharacterized protein LOC120086070 [Benincasa hispida]) HSP 1 Score: 922.9 bits (2384), Expect = 1.9e-264 Identity = 439/468 (93.80%), Postives = 454/468 (97.01%), Query Frame = 0
BLAST of Moc11g09670 vs. NCBI nr
Match: XP_008463765.1 (PREDICTED: uncharacterized protein LOC103501831 isoform X1 [Cucumis melo] >KAA0066743.1 uncharacterized protein E6C27_scaffold271G00810 [Cucumis melo var. makuwa] >TYK27891.1 uncharacterized protein E5676_scaffold384G00750 [Cucumis melo var. makuwa]) HSP 1 Score: 910.6 bits (2352), Expect = 9.8e-261 Identity = 432/468 (92.31%), Postives = 450/468 (96.15%), Query Frame = 0
BLAST of Moc11g09670 vs. NCBI nr
Match: XP_022976774.1 (uncharacterized protein LOC111477055 [Cucurbita maxima]) HSP 1 Score: 902.5 bits (2331), Expect = 2.7e-258 Identity = 426/468 (91.03%), Postives = 448/468 (95.73%), Query Frame = 0
BLAST of Moc11g09670 vs. NCBI nr
Match: XP_023536476.1 (uncharacterized protein LOC111797641 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 900.6 bits (2326), Expect = 1.0e-257 Identity = 424/468 (90.60%), Postives = 448/468 (95.73%), Query Frame = 0
BLAST of Moc11g09670 vs. ExPASy TrEMBL
Match: A0A6J1C0S0 (uncharacterized protein LOC111006382 OS=Momordica charantia OX=3673 GN=LOC111006382 PE=4 SV=1) HSP 1 Score: 970.7 bits (2508), Expect = 3.9e-279 Identity = 468/469 (99.79%), Postives = 468/469 (99.79%), Query Frame = 0
BLAST of Moc11g09670 vs. ExPASy TrEMBL
Match: A0A5D3DW19 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold384G00750 PE=4 SV=1) HSP 1 Score: 910.6 bits (2352), Expect = 4.8e-261 Identity = 432/468 (92.31%), Postives = 450/468 (96.15%), Query Frame = 0
BLAST of Moc11g09670 vs. ExPASy TrEMBL
Match: A0A1S3CK01 (uncharacterized protein LOC103501831 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103501831 PE=4 SV=1) HSP 1 Score: 910.6 bits (2352), Expect = 4.8e-261 Identity = 432/468 (92.31%), Postives = 450/468 (96.15%), Query Frame = 0
BLAST of Moc11g09670 vs. ExPASy TrEMBL
Match: A0A6J1IPL9 (uncharacterized protein LOC111477055 OS=Cucurbita maxima OX=3661 GN=LOC111477055 PE=4 SV=1) HSP 1 Score: 902.5 bits (2331), Expect = 1.3e-258 Identity = 426/468 (91.03%), Postives = 448/468 (95.73%), Query Frame = 0
BLAST of Moc11g09670 vs. ExPASy TrEMBL
Match: A0A6J1F6Y9 (uncharacterized protein LOC111442716 OS=Cucurbita moschata OX=3662 GN=LOC111442716 PE=4 SV=1) HSP 1 Score: 898.3 bits (2320), Expect = 2.4e-257 Identity = 423/468 (90.38%), Postives = 448/468 (95.73%), Query Frame = 0
BLAST of Moc11g09670 vs. TAIR 10
Match: AT3G14830.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT1G53450.2); Has 73 Blast hits to 73 proteins in 12 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 73; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 644.4 bits (1661), Expect = 1.2e-184 Identity = 320/478 (66.95%), Postives = 380/478 (79.50%), Query Frame = 0
BLAST of Moc11g09670 vs. TAIR 10
Match: AT3G14830.2 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT1G53450.2); Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). ) HSP 1 Score: 644.4 bits (1661), Expect = 1.2e-184 Identity = 320/478 (66.95%), Postives = 380/478 (79.50%), Query Frame = 0
BLAST of Moc11g09670 vs. TAIR 10
Match: AT1G53450.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G14830.2); Has 71 Blast hits to 71 proteins in 12 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 71; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 612.1 bits (1577), Expect = 6.7e-175 Identity = 299/470 (63.62%), Postives = 358/470 (76.17%), Query Frame = 0
BLAST of Moc11g09670 vs. TAIR 10
Match: AT1G53450.2 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G14830.2); Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). ) HSP 1 Score: 612.1 bits (1577), Expect = 6.7e-175 Identity = 299/470 (63.62%), Postives = 358/470 (76.17%), Query Frame = 0
BLAST of Moc11g09670 vs. TAIR 10
Match: AT1G53460.1 (BEST Arabidopsis thaliana protein match is: Ran BP2/NZF zinc finger-like superfamily protein (TAIR:AT1G70650.2); Has 485 Blast hits to 413 proteins in 88 species: Archae - 11; Bacteria - 27; Metazoa - 119; Fungi - 17; Plants - 101; Viruses - 2; Other Eukaryotes - 208 (source: NCBI BLink). ) HSP 1 Score: 131.7 bits (330), Expect = 2.7e-30 Identity = 66/143 (46.15%), Postives = 90/143 (62.94%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (OHB3-1) v2
Date Performed: 2022-08-01 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
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