Lsi11G000920 (gene) Bottle gourd (USVL1VR-Ls) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.AAAACACCCCCAAACACTATTGATAAAAGAATTTGTGGAAAATGGGCGCGCTCTAGAATGACCGTTACCTTCTGGACTTCACTCGGTGTTCCGCTGGCGTACGCAAAGTTCCTTCAAATCCCTCCACTCAACCTCTTCACTCTCTGCTAGCTGCTACCATGGCTTCTCTTCTTCACAATCACAGCCATCTTCACTACAATTCTTCTCTCTCCATCCCCATTTCCAACCTCCATTGGACCCGAAACCTCCACCCTTCCCGCCGAAGAGCTAAGTTTTCTGGGAAAGCTAGGGTTTTAGCTTTCCGGGTAAATCATAAAGGTCGCCTCGGCGTATCCTCTTTTCCTTGCTTCTGCAGAACAGGAACTGAAGTTGAAAATTTATCGCTCCTGGAAGAAAGTCAACAACGGCCCTTCGATATCAATCTCGCCGTTATTCTTGCCGGTTTCGCGTTTGAAGCATACACTAGCCCCCCTGTAATTTGATTACTGCTTACTTCATTTTTCTTTTGTTGTTGGTATCATTTTTTGTTTTTTAGGAGAGGGTTATGAAGATGCATTTTAGTGTTTAAGTTGGATGGAAGGTATTGTTTGATAATTCTTGTGATCTTTTATTTATATATTTTTCCTTTTTTGGTACAGGAAAATTTTGGGAAGCGTGAAGTTGATGCTGCAGGTTGTATGACTGTATATCTTTCAGAGTATGTAATTGCTATAATAAACTTTAAATTGACTACAATTGTGCAGAAAGAAGTCTTGGAATTTTTAGTTGCATATTTGTCATACTGCAATCATAATTCTTTTTGCTATTGAATGTATATAAGTTCCTTTGACTTCACGATTGGACGTGCCAATTTTTATTCATGAATCCAAATCCAGGTCATTTGTTCGAGAGATATATGATGGTCAACTGTTCATAAAATTGAAGAAGGGCACTGATTTACCTGCAATGGATCCATGGGTAGCTCCTTTCCCCTTATTATTATCATTTTTTTTTTCTTTTTTTCCCCTATGATATTTAGTTTTAATTTTCTAACTTCCGTGGGAAAGCAGGGTTTTAGGAAAAATTAAAGTTTGTAGTGGTCTCTCCTCGTCGGAAAACATAATTCTAAAAAAATGCAAGCTGTTTCACCTTTTCACCTTAACCCACAATGACTGAGGTTGCTTTATGTGAAAGGAAAAAGCCAGAAATGCCAACACAATTCCCCAAATGGCTTGGGCAGACAATAATCATTCTGGCTTTTCTATATTTCTGCCATTGGTTCTGATCCAGAGGCAAAGCCAAAATCATCTTTGATTGACACCATCGGTTGTCTCTAGGAAGTTTGGAAGGAAGGAATAGGATTAATATTTTTCACGCTCTTTAGGAGTTTGAAACCCTTAAACACCTATGCCTTTTCTTTATATCAATGAAAAGTTGTTTCTTGTTAAAAAAAGAAATTATTATTATTTTAATAAATATGAATTTACAGGGTTCTCTTTATGTTCTTTAATTTTTTTTTCTCTTCTAAATTTTTCATCGTTTCTTTTGGCCTCTTAACACAACACAAGGTACTATCCTTACCATCAGTATCACTTAACGATTATTGAAGTGTTCTGATAAAGAGCTCATCCCTTTCTTATTTCCCCACAGATGAGAAGAAAAACATTTTTTTTTTTAAAAAAGAAATCTCTTTACTTTATACAATCACCATTTTTTGTTTATCTTATTTTAGTTTTTTATTGATAACATATTTTTTCATTGATGAAATGGAAAATTACAGAACTATACCAACCATACAAAAAGATAAAAAAACTAAAACTTAAATTCAATTGCACCACTTTAAACCCAAACTTAAAACTAAAGAGAATAGGATAACTCAAGACATCTATCGCTACTAAAAAGAGGCACAGTAAATGACAACTGCTATATCTTGACCAATTACTGCCTTGGTCTTCTTTATAGACTTTTAATGCTATACGTTCTTTGCATTTCCTATTTGATTGTATTTGTTCCTTATTTTGACACGCTTTCAGGGAACGAGCGATCCATATGTGGTGTTTCAATTAGACGGTCAGGTTGTTAAAAGCAAGACAAAATGGGGGTGAGCAATGTATTCATACTGAAATCCTTCATCGTGTTAAAGTGGTATTACACGTCATGACAGTTAACAAATAATATTGCCTTAATAAACAAATAACAATGAATGAATATCAGTTGGACTTCAAGTCTTCTAACTTGGGTCTTGGAAGAGCTTTGGTAAGGGTTTTTGTGATATGAAGCTATGTAGGTGTTCAAATGAGAGGTGCAAACTTTTTTCTCTTCAACGAAATGTCAAATCAATTTAATATATTCCATACAATCATTAAGAGCTAGATTTTTGGTGATATTTATAGCAGCATGATTATCATTTTTGAACTAGAAACAAAACTTTCCATTGAAGAACTGGATAGGGATAATGCTCTAAAACTAAAAAAAGTTCAAGGGGAAAATATAAAAGCTTCCAATTCAGACAAATGTCTTGCAAACATGGCCTTTTGCCTTCAGTTTGCTCTCTTTGTTACAAAGCGGGGAATCTCTCAACCACATCTTCTTTGAATGTCTATACTCAGGAAAGCTGGTTTTTTTTTTTGGATCGCTTCAACCTCAATTGGGTATTCTTGGAGTCTTTAAAGGGAAATGTGTTCCAGCGTCTTTGTGGCATTCAGTGGAATTCACAAGCTTATTTACTTTGGATGAATGTTGTCAAGTCATTCTTTCTCAGCTTTGGTTGGAAAGAAATCAGTGCATCTTCTAGAACTCTTCTCAAACTTCTTGTGTTTTATTCGTTCGGTTCGATTAAAGTCTTTTTCATGGTGTTCTCTTTCCAAGAAGTTTGATAGGTTTTCAATTCAAGATGTATATTGGGTTGGAACGCTTGTTTTGTGCCTTTTAATTTTGTAGTTTTACATTTCTTCGGTTTTGTCTAATATTTTGAGATCTATTTTATTTTGATGGTTGGTTTTAACTCTTGTATCTCTGAGCATTAGTCTCTTTTCATTATCTTAATGCAAAGTTTGGTTTCCTTTTCCCAAAAAAAAAAAAAAAGTTTACATATGCGTTCTCACCATAGCTTTTGATGGATTTATAACTTTCCTCTCATTACCATGCTAACATGTTTGATGTTACGACAGGACAAAGCAACCAACATGGAACGAGGACTTCACTCTTAACATCAAGGAGCCTTCAACTAAATATGTTCAGGTAACATTAACTTGTGTCAGCCTTCATGGAAACAATTTTTTGCTCAACCATTCCATTTTTAGAAAGTACATCTCTCCAAGATTTCTCCAAGACTTCTCCAAGACTTTTAGTCTTCACCAAATTGGTATCAGAGCGCCTTCATGAAAGGGCCTGATAGTGATCAAGAACACCAACAAGAATCCTGATTCTCCTACCTTAAATGCGGAAGCATCATCTTTCTCCCCTCAATCTATCAACCAACAATAAACTCTTGTAGAAACTTCTCGAGGAAAGTTAAACGTAAAATTACTTGAAGTTCAAACCAATATGGCTGGAATCATGGCCACAAATTTGCGCATCCAGCAAGCTATAGAAAATCTTACTCCAAAAGTGAGAAAGATTCTAAATGTTGCAGCTCCAAATAATGTCATCCCTATCCAAGAACAACACCATAACCTTCCGCGCAATCAAGAACAACACGACAATTCAATCCACGGCCAAGAATGTTGGAATTTTCATCAAGGTTTTCACGGGCGTGATCATCAAATCGCCAAGAAAATCATAGACAACTAATTCAACATCCAAGAAGACTAGAAATTCATAACCAAGAAAATCCAAGAATGTAAGAAGTTGCAAGAAGTCCACCTAGAGGACAAATTTCAGAATTTCAACCAACAATCAATTACCAAAATCATCCGGTAGGTATTATTCCTCAACAACAAAGACCGATTCCACACAATATGATGGGATATGATTTGGACTCTTCAAACGATGAAGGTTGTTCACAATTCCACCAAAATTATTTTCCAAGGTACCCTCCTAACCCTTTGTATCAAGAAAACCATCTTCAAGCCCGAGAACCATACCAAGAAAACAAAAATTATGGTCATAATAGCCTTGTTTTCTATCAAGAGAAGAATTGTGGTCGACATTTTCAAGAAAGATCAAGAAGTCCACCAAGACCCTTCATCCAAATAAATCAAACGGGTATGAACAGTTATAATTAAGTTTTTGAACAACACCATCCTCCTCATAGACCTTTTCTTCAAAATGTGGTTGGGTTTGGTTTTGAAACATCAAAAGAAGAAGAGGTTGGTTGGCAAGGTTGTTCTGGGTTTTCATATGAAAATCATGAGCAACAACACCGATTCAAGAATGTCGAAAAATGGGTACAAGAATCGTTTCAAGATCAAACGGGCATTCAACCAAATGTTCAAGAACGTGTTGTTGTCCTTCAAGAACATCAAGGCAAACCACATCGAGTCCAAAATCGAGTGGCCATGTTGCAAGAACATCAAGATAGGAGTACAAATCTTAATGTTTTAGGTTCTTATTTGACAATGTTCCCAATAGAACCAATTTTGACTGTTGTTGCCCGTCTCATTGCCTTCTCTAAGGCTATTTAAGAAGAAGGATGTCGTAGAGACTACAAAATCCCAGTTTTCACAAAATCATAGTGATCACTTTGTTATTATCCAGGTCTATGGGGGACGGAAAGAAGTTGAGAAGAACTTTGGTGGATATGACATCTATTGGAAGAACTTTCTTTTTGTACAATCAGTGAAGGCTATTGATTCAATAAGGAAGGAGTTCTTTTCTTTGCTTAAAGATATTAGCTTGGTCAACGAGTATATGAACACTTACAACGCTTGGAGTCTTGATGAGCTTGATGAAAATTTTATGTCTTGGAGTTTTTTCATAATATTTTTGTTTTAAGATGTAGGAGGTTGGTTTGGTCATACTCCGTTGTACAAGTTTATTTTATTTCTTAATTGTTTCATTTTTTTTCTTCTTTTTAAAACTCGAGGACGAGTTTTCTTTTTGGAGGGGTAAAATGATGTAAGTAGAAAGGGGATAAATTGGGTAATTGGATAAAAGTGTAGATTAATTCCCTTTTTACCCCCAATTTGTATTAAAACTCTATAAATAGGAGTATTTCCCCCATGTATGGACAATTATTGAATAAGATTTTCCTTCGAGAATTCTCAAAGATTCGTAGTTTACATCAACATCATTTTGTACTCGAGAATTAAGATGTTTATGTTTGGTATTGCCAGGTAAAGTCTAGAACATTCATTATCCCACTGCTATGAGTTAATGGGTTGCCTACTTTATGATATTTGATTTTCATCAGGGTATTCTGTGTCCTATTAATTACTTTTTGTCTCAAATGGTTCAGAATCCTAGGTCTTGCGGTCAAAACTAGTAATTTAGAACTATTGTCTATTTTTTGAAAACTTGGAGAAGAGAGAAACAAAAGGAATTTTGCATTGTTTTGAGGTTTCAGTTTATCCAGTTTATTAAAGGCAATATCAGTACTACATCTGCAATGAACAAACATTTAAATATTGATCCAGCTGAGGAATCGATTGTCAGCGTTAGTAGTGAAGAATTAGAGCATGATTCTCCTGAAACAGAGATTCCAAAACTCATTTCGGAATATTTATATGGGGAAGTTTTTGAAAATTTATATACAGATGAAGTTGCAAATCATAGCTTAATCAAGGGTGGCAACTTCCCTTCTATCCCCTTCTCAAATTCCATCCAAATTTTCTAATTTGGTTGACATTTGTGGGCTCCAATTGAGAAGAAGTATATCACCAAAATGTCCATCGATATCAACTTGAAAGTGCAAAGCTCTTCTAACATGACTTGAAATAACTTCTTGGATCTCTCATGGTCTTGGGTTCAATTCCATTCGTGTAGTTTTGAAGAAATTCCGCATATAAGAATGCTGTTAATTTGTTGTTGTTGTTGCAAAGTTGCTGGAAGATTACAGTTCTTTTGGATTTATGCGTTGTAGGCCTTGTTTACTGTAATTCGGTTTGATAGGTTTGAACGACTTTTTCAAGTTTAGCTCCTCACTTGTTTTGATCGTCTGCAAAGTTGCTGGAAGATTACAGTTCTTATGTGTGATGCTTAATATTTCTTCTATCAGTGTTGTAATTCTTTATCATTATATTTGTTGCTTTGTTTTTTCTCGTTTTTCATTTTCTTATCTTCCTTTGGGTTTTATGTAAATTCAGCATTAGTCTCTTTTCATTTCATTAGTGAAAAATTTTGTTTTCTTTAAAAATAAGGAAATAATAATAATAATAATAAGCCTAATTTCCAGTAGACCATTTATATATATGTATATGTATGTATTTTAGTAATTTCAATGGCTGTTTAATGTTAAGTTTTGAATTATGTGTTTTGTTTGAAAATGATGAATGTTTCAGCCGTGGTGTAGTATTAGCGGCAGGCAATTTGTCATTTTGATCAGTATTATAAATAATTATATGTATGTTTGTGTTTTGATATAAAATATATATATATATATATATATATATATATATATATGTAGGCCTATTTTACTATATAAAAATAGTTCGATTCATAAATTTTGAATGTTTATATATCAAGCAAATCCTAGGTTGCTGCATGGGATGCAAACTTGGTGACTCCACATAAACGAATGGGTAATGCAGGCATCAATCTGGAATCTCTTTGTGATGGTGAGGACTGATTTAAAATTTCTTGCTTTAGACATTTTGGAACTGAAGTATTAATATATTTGATGAGTGATGGCTAACATCACACTTTGAATGTTTACATATCGAAACTGGTATTCTATAATGAGTTTTGAGATTTCAGTAAGCTTTTTACTCAGCTACTCAAGTTCTTTTGTTATCAAGTCATTAGAATCATGGATTTAAGTAGGTATTGTATTGTTTTTGAAGGGTTAATATGTTTAATTTACTGTAGTTCATTTGCTTAAGCTTTTGGATTTATTGGTGATTAAACATAGTATTAGAGCAAGAGATCTTTGATATGGTTTGGAGGATTAAAGATACCAAAGAAAGTCAAGTTCTTTACCTGACAAGTTGTGCTTGGTCGAGTGAACACTTTGGATAGACTTGCTAGGAAGATGGCCCCGTTAATGGGTCCTTTCTGCTGCATTCTCTGTCGGAAGGTTGAGGAAAACCTTGATCACCTTCTTTAAGGCTGTTAGTTTGCGAGGTCTGTGTGGATTTGCTTCATGCAGGAGTTTGACGTTCAGATAGCTGGCCAGAGGGATATTCGGTGCGATGATCGTGGAGTTCCTTCTCCATCTACCTTTCAGAGAGAAAGACCATTTGTTGTGGTTTGTTGCCTTGTCATACCCCCTCCCAGATTTACCTCTTTCACCTGGAAGGAGACGTGAGGACAACAAATACTACCTCTTTGTGATATTTGTGGTCCAAGCTAACCTTTAAGCAAACTTATCCAAAGATTGTTCTTCCATCCCAAACATTACTTGAGGATGACTAGATTCACCTTTACTTCTTCGTCTTGTCTACCGGCAGCGTTATGAGTTCCAGCCTTGGGTTGCCTATTGGGTCTGCCACTTCTAATTCCTACAATAGGCCAAATTCAATTCGTTACCTTCAAGTTGCTCATTGGACCTTCACATTTCCTCTTTTTAGTAAACAACACGTTGGTTCTATTCTAGATTCTCAAATATACAACTTAACCAAAAGTTCCAAGACAAAACATTTACAAGCACATGGTCTTCACAAGCTCAGTCTCAACCCATAGGCTTACAAGTAGTTCCAATAAGATAAGAAACAGAAAAGGAAGAAAGGGCTTACAAATTGGGGTGTGTGCTGTGGGACATTCGAGGGGAGATAAACAATAGGGTATTTAAAGGTTTGGTCCTTAGTGAGGTTTCATGTTTTGCTTTGGGCTTCGGTTTCGAAGCTTTTTTTGTAATTATTCATTAGGTAACATCTTACTTAGTTGGAAACCGTTTTTTTAGGGGGTTGCTTTTGTGGGTTTGGTTTTTGTATGCCCTTATATTCTTTCATTTTTTTCTCAATGAAAGTGGTTGATTCTATCAACCAAAAAAAACAAAAAACAAAAAAAAAAAGAAAAAAACCATGGTTTAAAATGCATTTGATAATATGTTTATTAGCCATAAAACTACTGGTAATTACCAACTAAATAGTAGGTTGAGTTTAAACTATTATATTTTATTCTATAAATATTGTATAGTTATTATTTTATCATATCATATAACTTATAATAAATCATACATATTTTAATATAACAAAAATGAATTGAGTTTATAACATAAAATACTATATTTGTTCAAGTTCTGATCTTTCCTTTTAATATAATTTTGCAGTTTATAAATTTCAAATTCAAAATTAGAAACATTGAAAACATAAAAATGTTATTTTTAGAATTTTTACAATTTGGATCACAACATCCTAAAATAGTTTAAAAATATATATTTAGCAAACACAATCACTGAACTCAATGAAGCTGAAACTATAAAACAGAATCTAGTTTGCCTATTAGACAGACTTTTAACATTATTGCATAACGAAATTAAGAAAACAGTGTAACAGGTCAATGAAAATCTTCTCTTGTGCAAGCAAATAATGAAAGCAAATATAATGACGGAAGAGAATCTCATCTCTTCCACCTTAATCACACCCTAAGAAGCACGGATACGGATACGACACGACACGGACACGGCGACACACCATATTTTAAATATCTAGGACACAACACGGCAAGGACACGTTTATTAAAATATACATTTTTATAAATATATATCATTTTCATACCAAAATATGATGCATTTATATGCTTAAAAGACTTACCTTGATGTATTTCACACTCAAAAGTTATTATTATTGTCTATATGTGTCTTTTTAGTCTACTCAACAAGTGTTCAATGCATGTCTAACACATTTGTTGCACTAACAAGTGTCCGATGCGTGTCTAACAAGTGTCGAAGTGTCGAAGTGTCCGACACGTGTCGGACACGGACACGCTAGCCAAACTAAAGTGTCCGTGCTTCTTAGATCACACCCTAGGATCATTATCTAATCTAATGGAAAATACGTATATTCAATTATACACTGATGGAATTCCATTGAATATCTTCAGTTTATACTTCATTGTTGCAATGACATGAGCGAGCGATAGAGAGAAAGCTAGAAAAGAGAATCGCCTGCATAGTGTTGTTTATAGTTCAAGGAAAAGAAACCTGTTAAACTGGTGACAAATGTGTGTTTTGCAAGGAAATTTGCATGATGTATCAGTGGAGTTAGAAGGGATGGGTGGAGGTGGAAAGTTGCTGCTGGAGGTAAGTTACCCTGGCATTTTATAGCAACTAAATATGGCATCCTCGTCATGTTTTCTTAATGTACTGCTAATTTGTAATAACTTCTGTGTTTGGGAGCTGTACTATATTTGTGTCTGTTTTCTATGTTTGTAACTCAAGAGGTTTAGTTTCTTTTCTTCTGGTAGGACAATAAACTTTTGAAGGTTATTAGTTTTTGTTGGATAATTAAGTCTTGCTTTCTTAAAACCTGTTTGTTCTAATGTGATTGATAATTGTTTGTTAATGGTGTCTCTCAGATCAAGTATAGGACTTTTGATGAAATTGAAGATGACAAACGATGGTGGAGAGTCCCCTTCATTTCTGAATTTCTTCGCAGTAAGGGTTTTGTATCTGCTTTAAACAAGGTTGTTGGATCTGACACTGTGCCTGTGCGTCAGTTTGTAGAATATGCTTTTGGAAAGTTAAAGTCATTCAATGATGAGTACCAATCAAGTCATCATTTATTAAGCAAGCAAAACGACATAGAGGATATACCTTCATACATGCAGACGAATACCGAAGTCTGTATAACTGATATAAACGATCCCAATGAGGGAAAATTTGATGAGGTTGAAACAAGTGATAATACTGTGGACAGTGGACAATCGCTGAAAGAAGTGACTCAAAGTCTTTTAGCAAAGCAATTCGATAAACAATTTTGGACAAACTTGGCTGATGTAACAAACCAAAATATTGTCAAGAAGCTAGGTCTTCCTGCCCCTGAGAAATTAAAGTGGGATGGATTTGAGTTACTAAATAAAATTGGTTTGGAGGCACGAAAGACTGCTGAAGCAGGTTATATCGAATCGGGGCTTGCAACACCCAAAAGTTTGGATACTGATCATGAACAGAAGAACATTAGAATGGTGGACTCAACATTAACTGATGTGAAGAAAATAACAAAAGATCTATTAAGTCAAACTGAGTCTGTTTTAGGGGCATTGATGGTTCTGACAGCAACAATTTCTCAATTGAACAAGGAAGCACAGCTTATAGGAAAGAAAGATACTAAAGGTGAGGGCTCAAAAAAAGAGGGAGAGAAGCTCGGTAGTTCAGGGGATGGATCATTGTTGGATAATAGGAATTCTGAGGAAATGAAAGCGCTTTTTGCAACTGCAGAAAGCGCCATGGAAGCTTGGGCAATGCTTGCTACATCACTTGGCCATCCTAGTTTCATAAAGTCAGAATTTGAAAAGTTATGTTTCTTAGATAACGAGTCTACAGACACACAGGTAAAATATTTGGTTTCCAGAATGGCTCTAATATTTATAAAGTTGTCTCTGAATTTTGGTAATTCAATGACATAGCATTAGCAAATTGTCCCAATGTTATTTTTTTCATTCCTAACTGTAGGAGTCTACAGGTTGCAATTTGGCGTGATTTTATGCGGAGGAGACTAGTTGTTGCCTTCAGGGGCACTGAACAAGTAGGTTATTATGTTATGTTGATATTCTGTTCTCTGGAGTTTGACTTTCCGTGTAATAAGTTCTGACCTTTTGACTTCTCCAGTCAAGATGGAAGGACCTAATAACAGACCTGATGCTAGTCCCTGCAGGGTACTTATTTTTCTTTCCCTCAAGGATAATCCTTTATCCGGTACTTCATATTTATCATTCTCCTTGTTTCTTATGCAATGATGGATAATAAAAAAGAACATTGTACATGGGGCAAAACCTCTCGAATAAAAAGCCATGTACCATGAAAACTGTGGTAGTGCAGTTTATTCTAGTTAGCTAATTTAAATAAAGGGGAAAAGAACTATTGAATTTTAAATGTACTTAAAATGATTAGCCTAATTTTCCCATTTCTTTGCACTATGTCTAGTTGTATATTATTTGACCGTTGGATCTCAGGATGGGCTATTTGTGACCCTTCATCCTTTGGGTTTAAGATAGAAAGACCCCCTCTTGCTTTTGAATTTTTGGTAGAAAGAAGCTAATTAGAAGAGTACTTTATCCATTCGATAGTTGGTATAGTTATAACACAACTTGGATATAATATTTCAGCAAGGACCAAAAAACGGTAAATGAGTGAGCATATGGATCTCTGAAGGCTTTAAAACTTATGTGGATAAAAGGACGCTTTGTTATGGTTTCATATCAACTTCAATTTCACAAACTTTTAAAACATGTCATCTATTTTCTTTTGACTTAGGTTGAATCCTGAAAGGATAAGTGGAGATTTCAACGAGGAAGTTCAAGTAAGAAATATTTTAATTATATTACAGGATATGTATTGTTCTGAACTCCATGCACTGTACTCTTCGTGTAATGTTAAATGATGAAGATCTGTTTATTCCAGGTTCACAGTGGGTTCTTAAGTGCGTATGATTCAGTACGAATGAGAATTATTTCCCTCATTAAAATGGCCATTAATTATAAGTGAGTCTGATAGTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAAAAAAAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAATAAAAAAAATTAGAAAAGAATAATCCTGTGGAGGCAGTAATATGAACTGACTCAAAACGGTCCATCCAAGAACTACATTTGTCTTAAAAAACTCTTTGATTTCTCTCTAACCACAATTCCAAAGCAAGGCTTTGACTTCATTGACATATAATAATTGAGACCTCGAAGGTAATGTTACTCCCTTACGAGCTGTAGAATATTGTGTTTGGCAGATGAAGAGAACTCCCATCGCAAATTGAAAATTCTGAATATCTTATACCAGCAAGCCATTGAGAAGGAACAACCAAAAAGTAAGTGATTAAGAGATTCCCCATCTATATAATAAAGACAGCAAATAGAAGGTAGAAGGCATGATGTAGGCATCTTCTGAAGCACTTCCTAAGTATCAGACAACTATTACGTAAAATTTATGTAAGAATATTGAGTAATCTAGGACTCTCTTATTTCCAAATAGCAGTAAACAAGTCTTTAGGCATAATCCATTTGGGGTGAGAGGAACACTAGAATCTTTTGAGGGAAGGAGCTTAATCCTTTTGTTGTCTGGTCTTGGCTTGATTCCATGTTCCTTTGTGGGCTTTAGTTACGAAGCTTTTTTGTAATTATTCTCTTTGCTTTATTTTGCTTTATTGGAGGTCTTTCTTTTAGGTAGCCTCCTCTTTTTTGGGCTGACAGGGTACTAGGAGAGATTTGCAAAACCATAACAAAGTGTGCGGCTTCCTCTTCCTATTATATATCAGTACAAGAGGAGGGGTAAAAAGGTCCTGACAAGGGAAGCAAGTAATTAGTCACGTGGGAGTGAGGGAGTGAAATGAGAATGTTGGTTGTGGGAACCATTGATAGTGATTCTGAAGGGTATTAGTAGGGTTGTTATTTCCTTTCATAGTCTCCATGTTATTTCTCTGTTTTTAGTTTTAGTTCTTCTTGAGGGTGGGAGGAACTGGATTGTACAAACTATTATCATATCACTACATCTTGAGGAAGTTTCCTTACACAAACCCTCTCCATGAACTCCTCCACAAGGACTCCTTCATTTGGAAGGAGGAAGGCACTCGTGCTTTTGAGAAGCTAAAGCAAGTGATGATGTCCTTACGCATACTAGCTCTACTGGATTTTAACCTGCCATTCATAATTGTAACTGTAATTGGTGCTTCCAGAGCCAGGTTGGGAGCTTTGCTATCTCAGAATCATCGCCCCATTGCTTACTTCAGCCATACTCTTTCGGCAAGAGTGAGGGCCAAATCAATTTATGATCGTGAATTAATGGTAGTGGTATTTGCTATTAAAAAATGATTACATCATTTGTTGGGACTGAAGTTTACGGTGATAGCTAATTAGAGAGCTATATAGTTCTTGCTGGAACAAAGAGAAACTGAACCCCAGTATCAATGGCAAGCCCATAAATCCTTGTGATCCAAAAACTTCAACTCTCCACCAAAGTGAAGAAAATAGATAAAGAATAGACACCTTGTGTGACATTTGATGTATTGAATGAGGCATCATTTCATAGAATCAGAAGACTCTCCGTTGCACCATGGGCATCCAATGCAGCCCAAGTAATACCTCTGGAGCTCTAAATAGTCTTGACGAAAAGTTGATCAGCACTTTGAATTCTAGTTTCTTAAAGGATTACAATGGCAACAAATTTTGACAAAGATAAAATCTACCTTTGGTCTTAGGATATCTGCTCTCACCAGCATTTTAGCTTCTCAAAATTAGAAGGGAAGCATCAAACTCAGTTCAAAGTTCAGCATGAAAATTGCAAAAGTGAACGCAATTGAGAACAATTCTTTATACAATATAACGAAGTCATGCGAGAGTTTAAGGGATGACATCAAAGAAATCTTTAATTGCAGACGGGATAACTTTGGGTACTAAGATTGAGAATCAAAATGAGTTTTTAATATTTTGTTTGAAATATCATATAAATATAGATAGAACATGATCATTTGAGTGGGGCACGTTCCCCTCCCCCCAACGTGGATCCCTTTGTATAAGGGTAACCTTTGTAAGAGAGTAAAAAAGACAATAAAGGACAACATTACTAAGATCTTTACAATAATATAACCGTACTAATATAAGCACTATAACAAAAACAAACTAACTAACGAACTCATAACAAACCCAATGGACACACCAAAAAGCTATATTAGCTGCATCACTTCAATTGTTCGATTTTCTTTGAGGTTCATGTGGGAAAACACAATTTTTTCTAATATTCAGAAATCAAGATGGGTTATTGATTCAAAACTCTTTTGTGCACTCTGTTTGACTTATATCCCTTTTCTTGCAGTGATGATTGTGCTGAGCCACCACTCAAATGGCATGTTTATGTTACAGGTCACAGTTTGGGTGGTGCATTAGCTACACTTCTTGCTCTTGAACTTTCGTCAAGTCAACTTGCAAGGTTAGTGTTTATTTTCTACAGGAATGAGTGA AAAACACCCCCAAACACTATTGATAAAAGAATTTGTGGAAAATGGGCGCGCTCTAGAATGACCGTTACCTTCTGGACTTCACTCGGTGTTCCGCTGGCGTACGCAAAGTTCCTTCAAATCCCTCCACTCAACCTCTTCACTCTCTGCTAGCTGCTACCATGGCTTCTCTTCTTCACAATCACAGCCATCTTCACTACAATTCTTCTCTCTCCATCCCCATTTCCAACCTCCATTGGACCCGAAACCTCCACCCTTCCCGCCGAAGAGCTAAGTTTTCTGGGAAAGCTAGGGTTTTAGCTTTCCGGGTAAATCATAAAGGTCGCCTCGGCGTATCCTCTTTTCCTTGCTTCTGCAGAACAGGAACTGAAGTTGAAAATTTATCGCTCCTGGAAGAAAGTCAACAACGGCCCTTCGATATCAATCTCGCCGTTATTCTTGCCGGTTTCGCGTTTGAAGCATACACTAGCCCCCCTGAAAATTTTGGGAAGCGTGAAGTTGATGCTGCAGGTTGTATGACTGTATATCTTTCAGAGTCATTTGTTCGAGAGATATATGATGGTCAACTGTTCATAAAATTGAAGAAGGGCACTGATTTACCTGCAATGGATCCATGGGGAACGAGCGATCCATATGTGGTGTTTCAATTAGACGGTCAGGTTGTTAAAAGCAAGACAAAATGGGGGACAAAGCAACCAACATGGAACGAGGACTTCACTCTTAACATCAAGGAGCCTTCAACTAAATATGTTCAGGTAACATTAACTTGTGTCTATGGGGGACGGAAAGAAGTTGAGAAGAACTTTGGTGGATATGACATCTATTGGAAGAACTTTCTTTTTGTACAATCAGTGAAGGCTATTGATTCAATAAGGAAGGAGGTATTCTGTGTCCTATTAATTACTTTTTGTCTCAAATGGTTCAGAATCCTAGGTCTTGCGGTCAAAACTAGCAATATCAGTACTACATCTGCAATGAACAAACATTTAAATATTGATCCAGCTGAGGAATCGATTGCATCAATCTGGAATCTCTTTGTGATGGTGAGGACTGATTTAAAATTTCTTGCTTTAGACATTTTGGAACTGAACGTTATGAGTTCCAGCCTTGGGTTGCCTATTGGGTCTGCCACTTCTAATTCCTACAATAGGCCAAATTCAATTCGTTACCTTCAAGTTGCTCATTGGACCTTCACATTTCCTCTTTTTAGAAATTTGCATGATGTATCAGTGGAGTTAGAAGGGATGGGTGGAGGTGGAAAGTTGCTGCTGGAGATCAAGTATAGGACTTTTGATGAAATTGAAGATGACAAACGATGGTGGAGAGTCCCCTTCATTTCTGAATTTCTTCGCAGTAAGGGTTTTGTATCTGCTTTAAACAAGGTTGTTGGATCTGACACTGTGCCTGTGCGTCAGTTTGTAGAATATGCTTTTGGAAAGTTAAAGTCATTCAATGATGAGTACCAATCAAGTCATCATTTATTAAGCAAGCAAAACGACATAGAGGATATACCTTCATACATGCAGACGAATACCGAAGTCTGTATAACTGATATAAACGATCCCAATGAGGGAAAATTTGATGAGGTTGAAACAAGTGATAATACTGTGGACAGTGGACAATCGCTGAAAGAAGTGACTCAAAGTCTTTTAGCAAAGCAATTCGATAAACAATTTTGGACAAACTTGGCTGATGTAACAAACCAAAATATTGTCAAGAAGCTAGGTCTTCCTGCCCCTGAGAAATTAAAGTGGGATGGATTTGAGTTACTAAATAAAATTGGTTTGGAGGCACGAAAGACTGCTGAAGCAGGTTATATCGAATCGGGGCTTGCAACACCCAAAAGTTTGGATACTGATCATGAACAGAAGAACATTAGAATGGTGGACTCAACATTAACTGATGTGAAGAAAATAACAAAAGATCTATTAAGTCAAACTGAGTCTGTTTTAGGGGCATTGATGGTTCTGACAGCAACAATTTCTCAATTGAACAAGGAAGCACAGCTTATAGGAAAGAAAGATACTAAAGGTGAGGGCTCAAAAAAAGAGGGAGAGAAGCTCGGTAGTTCAGGGGATGGATCATTGTTGGATAATAGGAATTCTGAGGAAATGAAAGCGCTTTTTGCAACTGCAGAAAGCGCCATGGAAGCTTGGGCAATGCTTGCTACATCACTTGGCCATCCTAGTTTCATAAAGAGTCTACAGGTTGCAATTTGGCGTGATTTTATGCGGAGGAGACTAGTTGTTGCCTTCAGGGGCACTGAACAATCAAGATGGAAGGACCTAATAACAGACCTGATGCTAGTCCCTGCAGGGTTGAATCCTGAAAGGATAAGTGGAGATTTCAACGAGGAAGTTCAAGTTCACAGTGGGTTCTTAAGTGCGTATGATTCAGTACGAATGAGAATTATTTCCCTCATTAAAATGGCCATTAATTATAATGATGATTGTGCTGAGCCACCACTCAAATGGCATGTTTATGTTACAGGTCACAGTTTGGGTGGTGCATTAGCTACACTTCTTGCTCTTGAACTTTCGTCAAGTCAACTTGCAAGGTTAGTGTTTATTTTCTACAGGAATGAGTGA ATGGCTTCTCTTCTTCACAATCACAGCCATCTTCACTACAATTCTTCTCTCTCCATCCCCATTTCCAACCTCCATTGGACCCGAAACCTCCACCCTTCCCGCCGAAGAGCTAAGTTTTCTGGGAAAGCTAGGGTTTTAGCTTTCCGGGTAAATCATAAAGGTCGCCTCGGCGTATCCTCTTTTCCTTGCTTCTGCAGAACAGGAACTGAAGTTGAAAATTTATCGCTCCTGGAAGAAAGTCAACAACGGCCCTTCGATATCAATCTCGCCGTTATTCTTGCCGGTTTCGCGTTTGAAGCATACACTAGCCCCCCTGAAAATTTTGGGAAGCGTGAAGTTGATGCTGCAGGTTGTATGACTGTATATCTTTCAGAGTCATTTGTTCGAGAGATATATGATGGTCAACTGTTCATAAAATTGAAGAAGGGCACTGATTTACCTGCAATGGATCCATGGGGAACGAGCGATCCATATGTGGTGTTTCAATTAGACGGTCAGGTTGTTAAAAGCAAGACAAAATGGGGGACAAAGCAACCAACATGGAACGAGGACTTCACTCTTAACATCAAGGAGCCTTCAACTAAATATGTTCAGGTAACATTAACTTGTGTCTATGGGGGACGGAAAGAAGTTGAGAAGAACTTTGGTGGATATGACATCTATTGGAAGAACTTTCTTTTTGTACAATCAGTGAAGGCTATTGATTCAATAAGGAAGGAGGTATTCTGTGTCCTATTAATTACTTTTTGTCTCAAATGGTTCAGAATCCTAGGTCTTGCGGTCAAAACTAGCAATATCAGTACTACATCTGCAATGAACAAACATTTAAATATTGATCCAGCTGAGGAATCGATTGCATCAATCTGGAATCTCTTTGTGATGGTGAGGACTGATTTAAAATTTCTTGCTTTAGACATTTTGGAACTGAACGTTATGAGTTCCAGCCTTGGGTTGCCTATTGGGTCTGCCACTTCTAATTCCTACAATAGGCCAAATTCAATTCGTTACCTTCAAGTTGCTCATTGGACCTTCACATTTCCTCTTTTTAGAAATTTGCATGATGTATCAGTGGAGTTAGAAGGGATGGGTGGAGGTGGAAAGTTGCTGCTGGAGATCAAGTATAGGACTTTTGATGAAATTGAAGATGACAAACGATGGTGGAGAGTCCCCTTCATTTCTGAATTTCTTCGCAGTAAGGGTTTTGTATCTGCTTTAAACAAGGTTGTTGGATCTGACACTGTGCCTGTGCGTCAGTTTGTAGAATATGCTTTTGGAAAGTTAAAGTCATTCAATGATGAGTACCAATCAAGTCATCATTTATTAAGCAAGCAAAACGACATAGAGGATATACCTTCATACATGCAGACGAATACCGAAGTCTGTATAACTGATATAAACGATCCCAATGAGGGAAAATTTGATGAGGTTGAAACAAGTGATAATACTGTGGACAGTGGACAATCGCTGAAAGAAGTGACTCAAAGTCTTTTAGCAAAGCAATTCGATAAACAATTTTGGACAAACTTGGCTGATGTAACAAACCAAAATATTGTCAAGAAGCTAGGTCTTCCTGCCCCTGAGAAATTAAAGTGGGATGGATTTGAGTTACTAAATAAAATTGGTTTGGAGGCACGAAAGACTGCTGAAGCAGGTTATATCGAATCGGGGCTTGCAACACCCAAAAGTTTGGATACTGATCATGAACAGAAGAACATTAGAATGGTGGACTCAACATTAACTGATGTGAAGAAAATAACAAAAGATCTATTAAGTCAAACTGAGTCTGTTTTAGGGGCATTGATGGTTCTGACAGCAACAATTTCTCAATTGAACAAGGAAGCACAGCTTATAGGAAAGAAAGATACTAAAGGTGAGGGCTCAAAAAAAGAGGGAGAGAAGCTCGGTAGTTCAGGGGATGGATCATTGTTGGATAATAGGAATTCTGAGGAAATGAAAGCGCTTTTTGCAACTGCAGAAAGCGCCATGGAAGCTTGGGCAATGCTTGCTACATCACTTGGCCATCCTAGTTTCATAAAGAGTCTACAGGTTGCAATTTGGCGTGATTTTATGCGGAGGAGACTAGTTGTTGCCTTCAGGGGCACTGAACAATCAAGATGGAAGGACCTAATAACAGACCTGATGCTAGTCCCTGCAGGGTTGAATCCTGAAAGGATAAGTGGAGATTTCAACGAGGAAGTTCAAGTTCACAGTGGGTTCTTAAGTGCGTATGATTCAGTACGAATGAGAATTATTTCCCTCATTAAAATGGCCATTAATTATAATGATGATTGTGCTGAGCCACCACTCAAATGGCATGTTTATGTTACAGGTCACAGTTTGGGTGGTGCATTAGCTACACTTCTTGCTCTTGAACTTTCGTCAAGTCAACTTGCAAGGTTAGTGTTTATTTTCTACAGGAATGAGTGA MASLLHNHSHLHYNSSLSIPISNLHWTRNLHPSRRRAKFSGKARVLAFRVNHKGRLGVSSFPCFCRTGTEVENLSLLEESQQRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCMTVYLSESFVREIYDGQLFIKLKKGTDLPAMDPWGTSDPYVVFQLDGQVVKSKTKWGTKQPTWNEDFTLNIKEPSTKYVQVTLTCVYGGRKEVEKNFGGYDIYWKNFLFVQSVKAIDSIRKEVFCVLLITFCLKWFRILGLAVKTSNISTTSAMNKHLNIDPAEESIASIWNLFVMVRTDLKFLALDILELNVMSSSLGLPIGSATSNSYNRPNSIRYLQVAHWTFTFPLFRNLHDVSVELEGMGGGGKLLLEIKYRTFDEIEDDKRWWRVPFISEFLRSKGFVSALNKVVGSDTVPVRQFVEYAFGKLKSFNDEYQSSHHLLSKQNDIEDIPSYMQTNTEVCITDINDPNEGKFDEVETSDNTVDSGQSLKEVTQSLLAKQFDKQFWTNLADVTNQNIVKKLGLPAPEKLKWDGFELLNKIGLEARKTAEAGYIESGLATPKSLDTDHEQKNIRMVDSTLTDVKKITKDLLSQTESVLGALMVLTATISQLNKEAQLIGKKDTKGEGSKKEGEKLGSSGDGSLLDNRNSEEMKALFATAESAMEAWAMLATSLGHPSFIKSLQVAIWRDFMRRRLVVAFRGTEQSRWKDLITDLMLVPAGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKMAINYNDDCAEPPLKWHVYVTGHSLGGALATLLALELSSSQLARLVFIFYRNE Homology
BLAST of Lsi11G000920 vs. ExPASy Swiss-Prot
Match: A1ZBD6 (Multiple C2 and transmembrane domain-containing protein OS=Drosophila melanogaster OX=7227 GN=Mctp PE=1 SV=3) HSP 1 Score: 59.7 bits (143), Expect = 1.8e-07 Identity = 34/92 (36.96%), Postives = 55/92 (59.78%), Query Frame = 0
BLAST of Lsi11G000920 vs. ExPASy Swiss-Prot
Match: Q6DN14 (Multiple C2 and transmembrane domain-containing protein 1 OS=Homo sapiens OX=9606 GN=MCTP1 PE=2 SV=2) HSP 1 Score: 56.6 bits (135), Expect = 1.5e-06 Identity = 35/115 (30.43%), Postives = 50/115 (43.48%), Query Frame = 0
BLAST of Lsi11G000920 vs. ExPASy Swiss-Prot
Match: Q9UT00 (Uncharacterized protein PYUK71.03c OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=SPAPYUK71.03c PE=1 SV=1) HSP 1 Score: 55.8 bits (133), Expect = 2.6e-06 Identity = 28/63 (44.44%), Postives = 42/63 (66.67%), Query Frame = 0
BLAST of Lsi11G000920 vs. ExPASy Swiss-Prot
Match: E9PV86 (Multiple C2 and transmembrane domain-containing protein 1 OS=Mus musculus OX=10090 GN=Mctp1 PE=1 SV=1) HSP 1 Score: 53.5 bits (127), Expect = 1.3e-05 Identity = 29/80 (36.25%), Postives = 41/80 (51.25%), Query Frame = 0
BLAST of Lsi11G000920 vs. ExPASy Swiss-Prot
Match: D4ABL6 (Multiple C2 and transmembrane domain-containing protein 1 OS=Rattus norvegicus OX=10116 GN=Mctp1 PE=1 SV=4) HSP 1 Score: 53.5 bits (127), Expect = 1.3e-05 Identity = 29/80 (36.25%), Postives = 41/80 (51.25%), Query Frame = 0
BLAST of Lsi11G000920 vs. ExPASy TrEMBL
Match: A0A1S3CCU0 (uncharacterized protein LOC103499378 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103499378 PE=4 SV=1) HSP 1 Score: 1059.3 bits (2738), Expect = 8.1e-306 Identity = 579/814 (71.13%), Postives = 609/814 (74.82%), Query Frame = 0
BLAST of Lsi11G000920 vs. ExPASy TrEMBL
Match: A0A6J1JUL3 (uncharacterized protein LOC111489848 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111489848 PE=4 SV=1) HSP 1 Score: 1044.6 bits (2700), Expect = 2.1e-301 Identity = 570/813 (70.11%), Postives = 606/813 (74.54%), Query Frame = 0
BLAST of Lsi11G000920 vs. ExPASy TrEMBL
Match: A0A6J1F3W8 (uncharacterized protein LOC111439777 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111439777 PE=4 SV=1) HSP 1 Score: 1043.9 bits (2698), Expect = 3.5e-301 Identity = 567/805 (70.43%), Postives = 604/805 (75.03%), Query Frame = 0
BLAST of Lsi11G000920 vs. ExPASy TrEMBL
Match: A0A6J1DNK8 (uncharacterized protein LOC111022292 OS=Momordica charantia OX=3673 GN=LOC111022292 PE=4 SV=1) HSP 1 Score: 1007.7 bits (2604), Expect = 2.8e-290 Identity = 555/814 (68.18%), Postives = 593/814 (72.85%), Query Frame = 0
BLAST of Lsi11G000920 vs. ExPASy TrEMBL
Match: A0A1S3CE13 (uncharacterized protein LOC103499378 isoform X3 OS=Cucumis melo OX=3656 GN=LOC103499378 PE=4 SV=1) HSP 1 Score: 833.2 bits (2151), Expect = 9.4e-238 Identity = 464/666 (69.67%), Postives = 484/666 (72.67%), Query Frame = 0
BLAST of Lsi11G000920 vs. NCBI nr
Match: XP_038876505.1 (uncharacterized protein LOC120068939 [Benincasa hispida]) HSP 1 Score: 1146.7 bits (2965), Expect = 0.0e+00 Identity = 611/813 (75.15%), Postives = 635/813 (78.11%), Query Frame = 0
BLAST of Lsi11G000920 vs. NCBI nr
Match: XP_008460597.1 (PREDICTED: uncharacterized protein LOC103499378 isoform X1 [Cucumis melo]) HSP 1 Score: 1059.3 bits (2738), Expect = 1.7e-305 Identity = 579/814 (71.13%), Postives = 609/814 (74.82%), Query Frame = 0
BLAST of Lsi11G000920 vs. NCBI nr
Match: XP_011654508.1 (uncharacterized protein LOC101204368 isoform X3 [Cucumis sativus]) HSP 1 Score: 1052.0 bits (2719), Expect = 2.7e-303 Identity = 573/813 (70.48%), Postives = 603/813 (74.17%), Query Frame = 0
BLAST of Lsi11G000920 vs. NCBI nr
Match: XP_011654507.1 (uncharacterized protein LOC101204368 isoform X1 [Cucumis sativus] >KAE8648243.1 hypothetical protein Csa_018335 [Cucumis sativus]) HSP 1 Score: 1052.0 bits (2719), Expect = 2.7e-303 Identity = 573/813 (70.48%), Postives = 603/813 (74.17%), Query Frame = 0
BLAST of Lsi11G000920 vs. NCBI nr
Match: XP_022994042.1 (uncharacterized protein LOC111489848 isoform X1 [Cucurbita maxima]) HSP 1 Score: 1044.6 bits (2700), Expect = 4.3e-301 Identity = 570/813 (70.11%), Postives = 606/813 (74.54%), Query Frame = 0
BLAST of Lsi11G000920 vs. TAIR 10
Match: AT4G13550.1 (triglyceride lipases;triglyceride lipases ) HSP 1 Score: 450.3 bits (1157), Expect = 3.3e-126 Identity = 260/488 (53.28%), Postives = 323/488 (66.19%), Query Frame = 0
BLAST of Lsi11G000920 vs. TAIR 10
Match: AT1G48650.1 (DEA(D/H)-box RNA helicase family protein ) HSP 1 Score: 52.0 bits (123), Expect = 2.6e-06 Identity = 23/47 (48.94%), Postives = 32/47 (68.09%), Query Frame = 0
BLAST of Lsi11G000920 vs. TAIR 10
Match: AT1G48650.2 (DEA(D/H)-box RNA helicase family protein ) HSP 1 Score: 52.0 bits (123), Expect = 2.6e-06 Identity = 23/47 (48.94%), Postives = 32/47 (68.09%), Query Frame = 0
BLAST of Lsi11G000920 vs. TAIR 10
Match: AT1G48590.1 (Calcium-dependent lipid-binding (CaLB domain) family protein ) HSP 1 Score: 51.6 bits (122), Expect = 3.4e-06 Identity = 23/60 (38.33%), Postives = 38/60 (63.33%), Query Frame = 0
BLAST of Lsi11G000920 vs. TAIR 10
Match: AT1G48590.2 (Calcium-dependent lipid-binding (CaLB domain) family protein ) HSP 1 Score: 51.6 bits (122), Expect = 3.4e-06 Identity = 23/60 (38.33%), Postives = 38/60 (63.33%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bottle gourd (USVL1VR-Ls) v1
Date Performed: 2021-10-18
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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