Lsi11G016520 (gene) Bottle gourd (USVL1VR-Ls) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGACAGCCATTGCAGTTCACCAGTTCGCTCAGTGCATCACTTGCCATGCTTGGAGCCCTGACCACTCCAGTAATGGCCCTTCTCCTTTTGCTTGCTTCTGTAATTTCTTCTTTCTGTTTTGTGCTGGAGAAAAGGAATGGAAATGTCGACTTTCTGTATTTCATTTGTCCAACAAAATACTTTGCCTGGATTTTATATCTTGAGATCGCTTATCTATGTTTTCTGAGCGATCAAAGAGAGGGTAATGATATCAATTCAGCTTCAGCGATCTAGATTTAGCTTGCTTTATTGAAAAAGGACGGGAAGAACACTGGGATAGGTTACTTGGCCTCAACCTCCACCCAGTTTAAAATACAATAGCCAATATGTCTTATGGGGTAGATTATGCTGTTGATTAGTTTCGCGAGATCTGGTTATTATCAGATCGGCTGCTAAGTTTGGCCAATACTCTGCATTTTCTTTAGTAGGAAACAGAAACCATTTCATTGATTGATGAAATAGATTTCTCTAATGTGACATGAGGATAGTTAAGCTGTAATTACAAAAAAGGAGAAGATAACTTACTCCAAGATAACGCTGTACCTACAATTAAACAATACTCTGCATTGTCTAATAATGCAAAAGACGATGATATCCAATCTGCGTTTAGGTTCTCCATCTTACTCCGCTTGTGCTAATGTTTTTGATATGCTCTATAGTGGTTGCATTTTGTCCAAACAATAATGAAGTTCACATTTATAAATCATTACAAGACAACTGGGAGAGAGTACATGTTCTTCAAAAGGTACCATTTAAATTTATTGTTTCGTTTATAGTTTATGAGAAAAATAAAACATGAAACCTATGGACACTGCATTTATGTTCCCGGGCGATGCTTTCTTTCAGTCGTTTGTAGTGAAAGCTTTCTAATGAGGACATGTTGTTAATGTCTTGCAATTTATCCACCCTTTCTGTATCAGCATGATCAGCTTATCTCTGGGATAGACTGGAGTGTTAGGTCAAACAGAATTGTGACTGCATCTCATGATCGGAATTCGTAAGTGATATCTCATATTCATATTTTTTGGTCCCGGTTCTTTTGTACATTCACCAGTTTTCTTTTCTTTTCGCTTTTCTCCCCTCCAGTTATCACTACCCCTTCCCTTCCCCCATCCCCATTAGGTCTCTCTCACATAATATTTTGAGACTTTTACTTGTTTAAATGTACCATATTGACCTACTGATCTTTTTTATTCCTAGGTATGTTTGGAACCTTGAAGGATCGGAATGGGTACCAACTCTTGTCATTCTTAGACTAAACCGTGCTGCACTCTGTGTTCAGTGGAGTCCAAAAGGTAGTGCAAGATTTCCTGGCCTGCTCTTTCTCATCACCTATGTTGTTCATATTATACTCAAATTTGCACATTTTGTATGATTCATCTTAACAGTTGTATCTATGAACACCATTTCCTATCAAAAAAGAAATAAGGGATCATCTTTAAATTTCTTGATCAGCTTAGTCATTTGTACTGACAAATATAATATTTGGTCAATGCCCTAATAAACATTTTTCTCACAGAATTTGGGAATGTTTGAATTCAGTCATCAAAATTTACTGTTAGAGTGGATATAATATTAAATTTACCTTCGCCCAGCTTTTGGATGGTCCTTTACGTGTCCCAATTTTATTTTTGATATTCTTGCTTCCTTGTTGGTGGGTCATCCTTTTGGTGGTACTAAGAAGACGTTTTGGTTGGCTCTCTTGCGTGCTTTCTTTTGGACTTTGTGGGGTGAAAGGAACAAATGACTTTTGAATGACTCATTTTCTTCTTGTACTCGTTTTATGGATCTTGTTCTGTCTACTACTTTTTCTTAGTATAAAACTAGGCATTCCTTCTTTCAGTTTAGCTTATCTTTTTTAGTTAGTAATTGACGATCTCTTATGTAACCACCTTTTGGTGTTTAGGGTTCTCCCTTGTTATTAATGAATTGTTTCTTTTACCCAAAAAAAAAAATAATAAATAAAATTTACCCATCAGCTTAAGCTTTTACGTTATTTATTGTTAAGCTCTTACATAATTTATTGTCATTCATAAGTCATAATATCCCGAAGAAAATACTATTTTAATCAAATTTGAGTTTCACTTTTTTCACAATCAAATGCTTGATTTGTTCTTTATCCCTAGAAAACAAGTTCGCTGTTGGGAGTGGGGCAAAAACTGTTTGCATATGCTACTATGAACAAGAGAACAATTGGTATGGCTCTTTCTCTCTTTTTGTTCAAGCCATTGTGCCTATTGCTTTTTATTTTGCATAAAGATGGAAACTCTGCTATTTGATAAAGTTATTGCTATTAGTTCTTATATTATCAAGAAAAATTTGTAGTTTAGGAGCTTTGACCTGTATAAGTTGAACTAGAAGTGTCATTCCAATCACTACTCCCATTTTACTGTATCATTTTTTTCCCTTTGATCTGGGCAGGTGGGAGTGCCTATTTGGTGAACTGCTCTTTCGGTTGATTTTATTCATTTATGTCTATATATCTATTTTTCTCTTTATAAAATTGGGCTGCTTCTTGTGATTTGTAAAAATGAAAAATCTCTTTTTTTATTGCTTCACCTAGTATGCTTATGCATTAGTTTTCAATTGACGTGTTTGTGGTTTCCTTCCACAGGTGGGTCAGTAAACTTATCAGGAAAAGACATGATTCTTCTGTGACAAATGTTGCTTGGCATCCGAATAATGTTAGTTTTATCCTTCAATCCACTATTATTATGAATTTATATGGATATAATGTTTAGGATTGTTAGATGATCTCCAATTAAATATTTTTAGTGCTTGCTTGTAAATTTGTTTTGCTGAGCAAAATTATGGTTGTGTTTTTTGCTATGAGTTTTTGTTTACATTTCATTCACAGCTACTTCTTGCAACAACCTCGACGGATGGAAAATGCCGAATCTTTTCCACCTTCATTAAAGGCGTTGATACAAAGTATGTAGGGAATAGTTTAGACTGCAGTCATCTCATGAAAAGGATTGATTTAGAAGTTACTGATGTTTAACTGAATTTTCACAGGGATTCGAGAGCAGGCACATTTTCGGATTCAAAATTTGGAGAGGTTTAATATTTAATATTTTGTTTGGCTGTGAATAATTTGTCTTGTGCTTGAAAGAGTAGAATGCTCAACTTGTTTATATAACAACTGCTTTTTTCTGAGCCGTGGTTGGCATTAAACAAATTTGAAAACGCAACTTATGACACCCCCCAGTATAACTATTTCCTTCACATTGAGTGCTTTTTGATTGTCATCTTTTAATTCGGATTTAAATGCTTTGAAATTTCCCCTTGAAAAAGAAATGGCTCACTACTTCTCTCTCTCTCTCTTTTGACAAGCAAAGTAGTGCGAATTATTTATGAGTAATTTCTTTTGGTGTATTAGTTAATTGTTCAGCTTGATCTCTCATTCTCTTGGGCATTTGGCGTGAAGTGGTCACCAAGTGGCAATACCTTAGCTTATGCAGGTCAGAAATACCTCCTTTCTGCAAATTATTTACAGAGACAACCTTATAAGTTATAACTACAGCATGTGAAATAGCAACAAGTTTGAATTTCACCCGTATAGTAAAGTCATTCATGTACATCTTTTCTGCCCCCAATTGTAACTGTGGAAAAGTTCATTGGTTAACTTCCTATAGGCTATAACTTGTTAGTTAAGAATTGTAATTATGGAATTTCACCCATTGTTTTAAACTTTTACTTACCTTCTGATTTAGGGTTGAAAACAATTTCTAGGATTCAACAGGAGCCTTATTGGTTATGTTCTATTTTAGATGGTATTTTGTTTGTTTTCTACTGATTTGCTTTTTTATTTAAATGCCGCAGGTCACAATTCGATGATTTACTTTGTAGATGAAGTTGGTCCTTCTCCTCTAGCCCAGAATGTTGCATTCCGAGATTTGCCTCTTCGTGATGTGGGTCAGCATCCATTTTTCTGTACTCTTTGAGTATTTCTTATCATTATTTAGATGCAATATATTATTTTGCTTTCTAATCTTGAATTTTGTTGGATCAATATAACACTCTTTCAGATACTATTTGTTTCTGAGAGAATGGTTATAGGTGTAGGATTTGACTGCAATCCTATGGCTTTTGCTGCTGATGAAAGAGGGATCTGGTGAGCTAAGCTTTAGATAAATTGTCTTAACTTTAAGATATTCTAATATTTTGAGGAACATTTAAAGTGATTTATCTGCTTCCCCTCTACCCTATCACAACTAGGAGCTTTATAAGATTTCTTGGTGAGAGGAAAACAGCTTCAGGTTCAAAATATGGATCCCAGGTATTGCATCGCTTAAAGTTTCTGTCAGTTAAACAATTATTTTACTGACTTAAGCTGTAAACAGAATACATTGTCTACTTGCTCAACGCTTATTTATTATATGCATCTTTTAGTTAGGTTTACAGATGACCTGATCTAATTAGGTCGTTGCTTGTTCAGTTGTTCCACCCCCTGGCTGAATGCTCAGGTCCCATTACCCCCTTCTGGGCCATACGGGCCTCAAAGTAAATGGACTTAGCTTGACTGTTGAATGTTGGTTTTCCCAGTCATTTTAAGTAATGGACATAAATTTGTAAATTTCAATCTACAGTTAGATGAATTTCATATAGAGTATCAAATGAAAATAGTGATGTAGAAGAAACATAGTAAAAAGATGAAGAATATATATATATATATATATATATATATATAAGTAAATCAATAGGAAGGCTAGTAACCTTTGGGAGACGGGAAGTGGTTTGGTTGGTTTTCCATATGCTATAAATGTGACTAACTAATTGAGATTAGGTTTGGTAATAGGTAGTTATATTTTGGTCTGACACCCAGGAAAGAAGATAAAAAAACCATGAATTCTGAAATCTAGAGAAGAGAGGGATAAAAAAAAAGGATTCGTGATTTGGTGAATGAATCTATGTTAAATTCGTGAGCACGTGTATTTCTTAAATGGGGTTTGTTAGGATGGGGTGAGGCTCATCAATTTACTATGATTGTTCTTATCATAAATCAATCTGTTGCATCGATCAAATCTAATATCAATGAACCATTTTACCTCACTGGAAAGCCAAATTTTCATTCCTGAATGAGTCACTATGTGGATAGGATATCTCATATAGGGTCCAACTGATCTTGTATCAATCGAGCCTCAAAGTTCACTTGCCTTAGGTTATGAGGATCCCAGATAGAATTCTTAATTTAGAAGAAGTAAGCATTTTAATATAGTAGTATAATATTTTGTTAAATCGCCGATTGACTAAAAAGCTTAAGCTGATGAGTGAAAACAAATTTAATCTTATATCATCTAAGACTCCCCCATCACTCGTGGGCTTGAAATATGAAGAAGACCCAACAAGTGGAAATGAATATTAATTGGGGAGGAAATAACATTGCAGTGGCTTGAACACAGGACCTCCCTAGACCACATGCTCATGTTGAAAAGTATATTTTTCTCTTGTTCCTCTTAGAATGAAAGAGTTTCTTAAATAGAAGAAACAACCATTACAAATAAGGAAAATAAATACAGCAAATATAACACAATAAATACAATGAAATATTAACAAAAGTGAAAATAATCAACATATTTCAACTGCTGGAAATAAATTTCCAACCACAGGTACAACTATGAAATGAACGCGTGCTAGTTTTAGGTTTGTACTATATTTTTTTTTTTTAAAAAAAGGGTTGGAGGACTAAAGTAGAAGACAGAGTGGTGGTTCAAAGCTAAGTAGGCGTTTGACGATGATTTGCTTTCAGTGTAAATTTCATGGCCATTGTCCACTTGTTCACTACCTAATAGATTTAGCTAGCTGGTTTTACAAGCATGCTGATTTTGTGATATGCCTTTTTTCTTGATCAGTTTTCAGAAGCATTTGGGAAGTTATATGGTCAACCGAGGCAAGGCGTTGGCAATGACTCAGTTGAATCTTCAAGATTGCGCGGATGTGTCCATGAGAATTGCATAAGGTATGTAGTTATTAAACATATTTTCTATTGCTTCTACTTGGTTGATTCTTGTGAATCATTTTGATTTCCAGGAAGGATGCCCCATTTCCACTTAATAATTGCTTATACAGAGAGGCTTTTACTGAGAAGGCCTGGTAATCGGATTAGCAAAAAGTGCCTAAGGAATTGGGGTGGCCTTCACCTTTTTAGATGTGCATGACATAATGATTCTTTTTTTGAACTGTAGTTGTATTGTGCCTCTTAAAGAATCAGGGGTCTCCACTATAAAGCGGTTCAGCACTTCAGGTTTGTTAAAAGGAAGAGATTGTTTAACTTCTTGCTCATAAATCTTCATGTTTATGTCTGGAAAATGATTGCAACTTATGAGAAGGCTGCTTTTAAATCAAAGCTATCTGCACTGACCTTACAGGTTTGGATGGAAAAGTGGTTATTTGGGACTTGGAGGGCCAAGCTGATCTGTCTCAATACTTGTGAACCTTGATTCATTAACTTTCTCACATTACCATGTAAAGAATCTTGCTCTTGGCACTTGGCACTTGGCACTTGCCTTGTATATTATAGCAGCTGTGAGGAACTGATTGCATTTCTACTTGTAGCGCACAAGCAAGTTTGATTTTGGTGTATGTATGTATTTTCAGCCAACTCTTTGCTCTTACAGATTTCATACACATTATTGGAATTCAATCTCTCCCATTTAGGTCTTATTGCAGCAAATTTAGGTCTCAATTTATGTTCAGACTATTGGTTTACTGTCTTGTATAATGTTCTCTCTAATTCTCTTCCAACAATTTCTAATTGGTATGATTTTTTAATTTTCTTTTCTTAAAATGACATTTTTTTTCCTCCTCAAAATGTTTGCCAAGGACAAAGCATTTTGAACTATGAAGTTTATCAACCAATTTCAATATTCACAGGTAGTGAAGAAGTTTGAACTAGAAGACTAAATTGACAAAATAGATTACAAGTGAGGATGTTGATATTGATATTGATAGGGAGATTTTAATTTTACCAATAAATCATAAAATATTTATACACAGATATTTCTGTAAATAAATAAATTTATAGAAATTATTTAAATTATTAATTAAACTGTGTTTAATTTAAAACTAAGTTATAGATTTTATTATTAATATTCATGTTCATGTTGAGATTGATAGATAATAATTTGTTATATTTTATATGTATTTATAAAAAATATTAGAGATATTGATTAATCTTTTCTATTGATATCAAACCTTCCGATTAATGGATAATATATCGACATAGTGATGGATATTATAAGCCTCAATTTGGGCCTGTATTTTGTTGGGCTGGACTTTTGATTAATGGGCTACGTTTGAGCCTTAGTTCCAAGTAGGCTAGATTATCCCAGGGAACAAGCCCAAAATTATTTTTTTTTTCTTTTTTTCTTTTTAAAAAAAATTAAATGATAAAATAACAAGTAAAAGGAAAAAAAAAATGTATAAAAGGTAATTGTTTAAGCCACCATGTATTATGTAGGCTTCTTCAGTCTTCTCTGCGCTCTGTATTCAGCGGCGAATATGCTATCCACACTGCAACCCCCTCGCTGCTCTCTTTCTCGCTTCCCTCTCCATCTTCCCTCCAAACCATTCTTCTATCACTCCAAACAAACCCCACTCTCATCTCCGCATCCCATTCCCAATTCCGCTCTCACAGACCAATTTTCCACTTCCAATTCTTCCCAATCCCTTCACTCCCAAATTCTCTCCATCCGCCATTCCCTTCTTTCCCGCCAAATCACTGCCACCCAACTCGCCGAGTCCTATCTCAATCGCCTTCGAGCTTTGGAGCCTCACCTCAAGTCATTTCTCCACGTCTCTGAAACCGTCCTCTCTGATGCCCGTGAGATTGACGACAAAATTCACAGAAATGAGGAACTGGGTCCTTTGGCTGGGGTGCTTGTGGGCGTTAAGGACAATATTTGTACTGCGGGTATGCCTTCGACTGGTGGGTCTCGGATTCTTGATGGGTATCGGCCACCATTTGATGCTACGGCTGTGAAGAGAATCAAGGAGTTGGGTGGGATTGTGGTTGGGAAGACTAATTTGGATGAGTTTGGCATGGGTAGTTCTACTGAAGGCTCTGCTTTCCAGGTTTGCGTTCTCTTTAATATATTTAACTGTCCCCTGCTTATTACCATATCTGGTTCTCGGAAACTAGGGGCTGGAAGTGTGTGTTTGTGGTTGTTTGTTTTTCTTTTAGAATTACTTTTGTCATGAAAATGAGTTTACAGTGGAAATTTTAGTGGGGTTTGAGGATGTTGTACTTATTTGGTAAAAGTGCGGCTGTGGTGTTACTTCCCACTGGTAACAGGGGTTGGTTTACTCAGGTGGTGCGTCTGTTCATTCATTAGGTGACTGCAAATCCATGGGATTTGAGTAGGGTCCCGGGAGGATCATCAGGAGGGTCTGCTTCAGCTGTTTCTGCTAGGCAGTGTGTGGTGGCATTGGGAAGTGATACAGGTGGAAGTGTGCGGCAGCCAGCATCTTTTTGTGGTGTTGTTGGGTTGAAACCAACGTATGGTCGTGTCTCAAGATTTGGACTTATGGCCTATGCTTCATCGCTTGATGTTATTGGCTGCTTGAGTACAACAGTTGCTGATGCTGGGATTCTTCTACATGCAATTTCTGGTCACGATACACTTGATGCCACTAGTAGTAAACGAGTAAGGACTTTCTTGCCTTGTTCCATTCTTTTTTTTCAACTCCTTTGCTATTGTTTTAAGTTTTGTAGCGTTTTACACACTTGAGTGTGAGAAAGAAAAGTTGGTCTATACACATTTCTTGGAAAATTTGAAGTTGTTAAGTGACTTTGGTTGTAATTTCATAATATTGTGCACTGCTGTAGCATTTTCTTATTCGTTTCTGTGCATGTCTTTTCAGGAGGTTCCTGATTTCACATCGCAATTTTCGGCTGTTGACTCATTGGAGTCTAAACCCTTGAAAGGATTGAGGATTGGCCTAATTCGTGAAACCCTTGAGAATGGTGTTGATGGTCAAGTAAATTCTGCTATACGTGCTGCTGCTTCACATCTAGAAGAATTAGGATGTTTCATCAATGAGGTTTATATTTTCTTTTAATCTTCATTGCTTTTGGTGCTTTACTTTCTAGTTGACTTGCATTCTTTTCTCTTCATTCACAAACCTGTTGTAGGTATCACTGCCATCATTCTCTCTTGGGCTGCCTGCGTATTATATTCTTGCATCATCTGAATCATCTTCAAATTTAGCACGATATGATGGTGTCAGGTATCTTGCTGAAGTCCGCTTTGTTATAAGAATTTTTTAGTTTTTTCTTGAAAGAAAAAGATCTAATATCTTTCAGAGAATATGCGAAGTTGATATTATTGACGTTAAGGTTTAAGAATTTTTCTTTAGCAGAGTTTCTCAGCTCATGATATTGGATCCATTGAATTGTTATTTGGTTCTCTTAAGTTGAAGCCATTTAAGTACCTAAATATTTTTTCAGGTGCTTTTGTTTTGTTACTGTATTATGATAACAAATTATTCTGATTCAATTTGGCCACCATAACCTACATATAGATATGGAAATCAAGCTGTTGCTGACGAGTTAACTGGTCTTTATGAAAATTCCCGAGCATCAGGATTTGGTTCAGAGGTATTAGTTGGAAACTGTTAGAATTTCTCTTGCATTGACATTGGAGATTTTGACTTTCTGATTCACTTTGTGAAGGTTCTTATCCTTTTTCTAGAGTATACATGGTTGAGATGTGATATATGTTGTAGAATTTTAACCTCATCCTCTTTCCTTCTGGGAAATTCACATCGACACATTTTCTCATTGCAGGTTAAAATGAGAATTTTGATGGGAACATATGCTCTCTCAGCTGGTTATTATGATGCTTACTACAAGCGTGCTCAGCAGGTGCCACATCAGCATTTTCTATTCTTGAACCCCCCCCCCCCCCCCCCCCACCCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCCCCCCCCCCCCCCCCCCCCCCCCGCGAAAAAAAAAAGACACACACACAAACAAGTTATAAAATAAAAATAAACATCAACAAAAAGTATTGAGTTTTTTTTTTTTTTGTGTGTGTGTTTGAGTAGTGTTTTAGCACTGTAATTACCAAACATGATGTCTATTTCCCAGAAACTCATATGTCAGTGACAATTGTTATGGCACCTTACTCAAAATGTTGGATAAAAGCTTAAGGGCTCTTTATGATTGCAACGGTGTTTCAGGTGAGAACCATTATTCAGAAAAGCTTCAGAGCAGCATTAGATGAAAATGACATCTTAATATCACCTGCTGCTCCATCTGCCGCTTATAAAATTGGTATGCCTTTGCCTTCCAAAGTTTTGTGTCTTTCAATTTGTTGTACAGTACTTGTATGATCATTGCTTGTTGACAGGTGAAAAGATGGACGATCCATTGGCAATGTATGCAGGTGACATCATGACTGTAAGCATTTCTACTCCTCTTCCTTTGAGTACTTTCCGATGTAATAGTATACGTGTGTATATATAGAGAGATTATTGGTGACGGGGGATTTGAATCTTGAATTAGATCTCCTTCAACTTAAGTCTAAAATTTAAAAGAACCTGGTCAGTCATAATATTTCTACTTTTGGTTAGAGTTTTCATTTTTTTTTTTTTTTTTAGATAAGAAACATTTCATTGATAAATGAAATAAGGGGGTGACCCCCAAAGCACCTAAAGGTGTTACATAAAAGATTTCCAATTTGAAACTAAGTATGAAAGACTAAAGTGCTTAAAAGGATGCTTATTTTTGCACCAATACAAAGCAGTAGATAGCACTAAATCCAAGAAGTGATCAAAATCTGAAAACGAGTCCCTAAAAAGACGCTTATTTCTTTCGCCCCATAATGTCCAGAAGAAAGCACGTTGAATGGCCAGCCAAAGCACTCGTTTGTCCCCCAAGAAAGGATGACCCACGAAGATAGAATCCAAAATGTTAAGCATATTATTGGAGTTGACTAAAGACCAGCCAAAAGCGTCCAAAACAACCTTCCAGAAACGGGCAGCGAAGGAACAGTGTATGAACAGGTGTGCAGCCGATTCAGAATGTCACTGGCACATAAGACACCATGAGGGTGATTGAGACATATATGGCATGCGACGTTGGAGACGATCGACAGTATTAATGGCACCTAAACTAAGCTCCCATAGGAAAATCTTAATGGCACCCAAACTAAGCTCCCATAGAGTTTTCATTTATATTACAGAGATATCAACTATCAAGGTTTACGGATTTACATTGAGTGACATTCCCCAGTAGACAGTAACTAATTGGCCATTTTTCCTATGAACAACCCCTCAATTGTTCTTAGTTCTCAACCATTTCAATATCGACATGAATACCTGCTGTTAAGGATTTACACAAATTAATTGTGAGATCAGAAATGTGCTCAAAGAGCGTCACTGATTTGATGAAAACTATTATGTTTGAGATGATTAACATGATGATACATTATTCTTGTCCCAAGGAGTCAATCTAAAGCCCCAGTCCACATTTCCGTATCCAATAGACTGCCTTGGACCTTTTGAAGATTTAAGGGCGCTTCTTGGTTTAATATTATAAGTAAGAAAAGAGATCGGAAATTGGAACTACATCAGTAAGTCCACACTCTTCACATTGTCCTCCTGGTGTCAAAAACTTCCTTACAAAGAAAATCTCAATCATATTGTGGGTCTTCTTGAAATTGATATCGTTTTTCTTAAAGACAATGCAATTAATCTGATAGAACCTAAATATATTGAAAGATAAACGATAATGAAATTACAAGATTAATCAAGTGTTCGAGGTATTTGTACCTTCCCGATCTTGAAATCACTCTCAAACCTAATTCACTTATCAAAATATTGTCACCTCTTCTTCCCTACTCTCTGTATTTATAACCAAACTTTCCTAACAAACTATTTAAATAGTTACTAATAAACCCTATCATAATCATCCCACAATTTCGTTGGCCATAAGCATCAACTCTAAAAGTTCACTTTCGTTTTCCTCCTTTATATGTTCTATCCTCAACAGGTCAATGTTAACTTAGCTGGACTACCTGCATTGGTTTTGCCTTGTGGATTTGTTCAAGATGGGTCCCCTAACCTGCCTGTTGGCCTTCAAATGATTGGTGCAGCTTTTGATGAGGTACTGTTTACCCTGTTGCACAGCATGTTGCTACTAAATTACTGCTGAGATTCATTGTGCTTCTTCTGATTCTTTGCCTGGTTAATTCTGTACCTTAGAAATGATGCTTGATGTAACCCAAATACTTCATTAAAACGAAAGGAATAACGCAATGCCGACAATCATTGAGTTTTCTACTTTTTTTTTTTAAGATACGATTATTGAGAAGCTTGAGAAGAGCAAATAACCTTGTGGGGAACCAGAACTTTAGAATTCTTAACCATTGACAATTTCCATCATGCTTACAGGGTAAACTTCTTAAAGTGGGACACATCTTTGAGCAAACTCTTGCAGACTGCAGATTTGTTCCACCCCTACTAGCCGACGACATTGTAGGATAGCTCTAAATCAGTGGAGTTTTGAAAGCAGGCAAATTGGAAGTCTGGGAATGCTACGATTGGTTACTATTGTATTATTGATTAATATTAGGTGAGCATTACTTCCTGGAGGCTTTACCATTCTTTTGTGTTCTCTCTTGTCTAAAAGAACAAATGGATTGTGTTCTCCATAATTTATATGACAATAAAGATAGTAAAATTTTGCTTGCTATTGGAAGCTAAAATGACAGCCATTGCAGTTCACCAGTTCGCTCAGTGCATCACTTGCCATGCTTGGAGCCCTGACCACTCCAGTAATGGCCCTTCTCCTTTTGCTTGCTTCTTGGTTGCATTTTGTCCAAACAATAATGAAGTTCACATTTATAAATCATTACAAGACAACTGGGAGAGAGTACATGTTCTTCAAAAGCATGATCAGCTTATCTCTGGGATAGACTGGAGTGTTAGGTCAAACAGAATTGTGACTGCATCTCATGATCGGAATTCGTATGTTTGGAACCTTGAAGGATCGGAATGGGTACCAACTCTTGTCATTCTTAGACTAAACCGTGCTGCACTCTGTGTTCAGTGGAGTCCAAAAGAAAACAAGTTCGCTGTTGGGAGTGGGGCAAAAACTGTTTGCATATGCTACTATGAACAAGAGAACAATTGGTGGGTCAGTAAACTTATCAGGAAAAGACATGATTCTTCTGTGACAAATGTTGCTTGGCATCCGAATAATCTACTTCTTGCAACAACCTCGACGGATGGAAAATGCCGAATCTTTTCCACCTTCATTAAAGGCGTTGATACAAAGGATTCGAGAGCAGGCACATTTTCGGATTCAAAATTTGGAGAGTTAATTGTTCAGCTTGATCTCTCATTCTCTTGGGCATTTGGCGTGAAGTGGTCACCAAGTGGCAATACCTTAGCTTATGCAGGTCACAATTCGATGATTTACTTTGTAGATGAAGTTGGTCCTTCTCCTCTAGCCCAGAATGTTGCATTCCGAGATTTGCCTCTTCGTGATGTGGGTGTAGGATTTGACTGCAATCCTATGGCTTTTGCTGCTGATGAAAGAGGGATCTGGAGCTTTATAAGATTTCTTGGTGAGAGGAAAACAGCTTCAGGTTCAAAATATGGATCCCAGTTTTCAGAAGCATTTGGGAAGTTATATGGTCAACCGAGGCAAGGCGTTGGCAATGACTCAGTTGAATCTTCAAGATTGCGCGGATGTGTCCATGAGAATTGCATAAGGAAGGATGCCCCATTTCCACTTAATAATTGCTTATACAGAGAGGCTTTTACTGAGAAGGCCTGTTGTATTGTGCCTCTTAAAGAATCAGGGGTCTCCACTATAAAGCGGTTCAGCACTTCAGGCTTCTTCAGTCTTCTCTGCGCTCTGTATTCAGCGGCGAATATGCTATCCACACTGCAACCCCCTCGCTGCTCTCTTTCTCGCTTCCCTCTCCATCTTCCCTCCAAACCATTCTTCTATCACTCCAAACAAACCCCACTCTCATCTCCGCATCCCATTCCCAATTCCGCTCTCACAGACCAATTTTCCACTTCCAATTCTTCCCAATCCCTTCACTCCCAAATTCTCTCCATCCGCCATTCCCTTCTTTCCCGCCAAATCACTGCCACCCAACTCGCCGAGTCCTATCTCAATCGCCTTCGAGCTTTGGAGCCTCACCTCAAGTCATTTCTCCACGTCTCTGAAACCGTCCTCTCTGATGCCCGTGAGATTGACGACAAAATTCACAGAAATGAGGAACTGGGTCCTTTGGCTGGGGTGCTTGTGGGCGTTAAGGACAATATTTGTACTGCGGGTATGCCTTCGACTGGTGGGTCTCGGATTCTTGATGGGTATCGGCCACCATTTGATGCTACGGCTGTGAAGAGAATCAAGGAGTTGGGTGGGATTGTGGTTGGGAAGACTAATTTGGATGAGTTTGGCATGGGTAGTTCTACTGAAGGCTCTGCTTTCCAGGTGACTGCAAATCCATGGGATTTGAGTAGGGTCCCGGGAGGATCATCAGGAGGGTCTGCTTCAGCTGTTTCTGCTAGGCAGTGTGTGGTGGCATTGGGAAGTGATACAGGTGGAAGTGTGCGGCAGCCAGCATCTTTTTGTGGTGTTGTTGGGTTGAAACCAACGTATGGTCGTGTCTCAAGATTTGGACTTATGGCCTATGCTTCATCGCTTGATGTTATTGGCTGCTTGAGTACAACAGTTGCTGATGCTGGGATTCTTCTACATGCAATTTCTGGTCACGATACACTTGATGCCACTAGTAGTAAACGAGAGGTTCCTGATTTCACATCGCAATTTTCGGCTGTTGACTCATTGGAGTCTAAACCCTTGAAAGGATTGAGGATTGGCCTAATTCGTGAAACCCTTGAGAATGGTGTTGATGGTCAAGTAAATTCTGCTATACGTGCTGCTGCTTCACATCTAGAAGAATTAGGATGTTTCATCAATGAGGTATCACTGCCATCATTCTCTCTTGGGCTGCCTGCGTATTATATTCTTGCATCATCTGAATCATCTTCAAATTTAGCACGATATGATGGTGTCAGATATGGAAATCAAGCTGTTGCTGACGAGTTAACTGGTCTTTATGAAAATTCCCGAGCATCAGGATTTGGTTCAGAGGTTAAAATGAGAATTTTGATGGGAACATATGCTCTCTCAGCTGGTTATTATGATGCTTACTACAAGCGTGCTCAGCAGGTGAGAACCATTATTCAGAAAAGCTTCAGAGCAGCATTAGATGAAAATGACATCTTAATATCACCTGCTGCTCCATCTGCCGCTTATAAAATTGGTGAAAAGATGGACGATCCATTGGCAATGTATGCAGGTGACATCATGACTGTCAATGTTAACTTAGCTGGACTACCTGCATTGGTTTTGCCTTGTGGATTTGTTCAAGATGGGTCCCCTAACCTGCCTGTTGGCCTTCAAATGATTGGTGCAGCTTTTGATGAGGGTAAACTTCTTAAAGTGGGACACATCTTTGAGCAAACTCTTGCAGACTGCAGATTTGTTCCACCCCTACTAGCCGACGACATTGTAGGATAGCTCTAAATCAGTGGAGTTTTGAAAGCAGGCAAATTGGAAGTCTGGGAATGCTACGATTGGTTACTATTGTATTATTGATTAATATTAGGTGAGCATTACTTCCTGGAGGCTTTACCATTCTTTTGTGTTCTCTCTTGTCTAAAAGAACAAATGGATTGTGTTCTCCATAATTTATATGACAATAAAGATAGTAAAATTTTGCTTGCTATTGGAAGCTAAA ATGACAGCCATTGCAGTTCACCAGTTCGCTCAGTGCATCACTTGCCATGCTTGGAGCCCTGACCACTCCAGTAATGGCCCTTCTCCTTTTGCTTGCTTCTTGGTTGCATTTTGTCCAAACAATAATGAAGTTCACATTTATAAATCATTACAAGACAACTGGGAGAGAGTACATGTTCTTCAAAAGCATGATCAGCTTATCTCTGGGATAGACTGGAGTGTTAGGTCAAACAGAATTGTGACTGCATCTCATGATCGGAATTCGTATGTTTGGAACCTTGAAGGATCGGAATGGGTACCAACTCTTGTCATTCTTAGACTAAACCGTGCTGCACTCTGTGTTCAGTGGAGTCCAAAAGAAAACAAGTTCGCTGTTGGGAGTGGGGCAAAAACTGTTTGCATATGCTACTATGAACAAGAGAACAATTGGTGGGTCAGTAAACTTATCAGGAAAAGACATGATTCTTCTGTGACAAATGTTGCTTGGCATCCGAATAATCTACTTCTTGCAACAACCTCGACGGATGGAAAATGCCGAATCTTTTCCACCTTCATTAAAGGCGTTGATACAAAGGATTCGAGAGCAGGCACATTTTCGGATTCAAAATTTGGAGAGTTAATTGTTCAGCTTGATCTCTCATTCTCTTGGGCATTTGGCGTGAAGTGGTCACCAAGTGGCAATACCTTAGCTTATGCAGGTCACAATTCGATGATTTACTTTGTAGATGAAGTTGGTCCTTCTCCTCTAGCCCAGAATGTTGCATTCCGAGATTTGCCTCTTCGTGATGTGGGTGTAGGATTTGACTGCAATCCTATGGCTTTTGCTGCTGATGAAAGAGGGATCTGGAGCTTTATAAGATTTCTTGGTGAGAGGAAAACAGCTTCAGGTTCAAAATATGGATCCCAGTTTTCAGAAGCATTTGGGAAGTTATATGGTCAACCGAGGCAAGGCGTTGGCAATGACTCAGTTGAATCTTCAAGATTGCGCGGATGTGTCCATGAGAATTGCATAAGGAAGGATGCCCCATTTCCACTTAATAATTGCTTATACAGAGAGGCTTTTACTGAGAAGGCCTGTTGTATTGTGCCTCTTAAAGAATCAGGGGTCTCCACTATAAAGCGGTTCAGCACTTCAGGCTTCTTCAGTCTTCTCTGCGCTCTGTATTCAGCGGCGAATATGCTATCCACACTGCAACCCCCTCGCTGCTCTCTTTCTCGCTTCCCTCTCCATCTTCCCTCCAAACCATTCTTCTATCACTCCAAACAAACCCCACTCTCATCTCCGCATCCCATTCCCAATTCCGCTCTCACAGACCAATTTTCCACTTCCAATTCTTCCCAATCCCTTCACTCCCAAATTCTCTCCATCCGCCATTCCCTTCTTTCCCGCCAAATCACTGCCACCCAACTCGCCGAGTCCTATCTCAATCGCCTTCGAGCTTTGGAGCCTCACCTCAAGTCATTTCTCCACGTCTCTGAAACCGTCCTCTCTGATGCCCGTGAGATTGACGACAAAATTCACAGAAATGAGGAACTGGGTCCTTTGGCTGGGGTGCTTGTGGGCGTTAAGGACAATATTTGTACTGCGGGTATGCCTTCGACTGGTGGGTCTCGGATTCTTGATGGGTATCGGCCACCATTTGATGCTACGGCTGTGAAGAGAATCAAGGAGTTGGGTGGGATTGTGGTTGGGAAGACTAATTTGGATGAGTTTGGCATGGGTAGTTCTACTGAAGGCTCTGCTTTCCAGGTGACTGCAAATCCATGGGATTTGAGTAGGGTCCCGGGAGGATCATCAGGAGGGTCTGCTTCAGCTGTTTCTGCTAGGCAGTGTGTGGTGGCATTGGGAAGTGATACAGGTGGAAGTGTGCGGCAGCCAGCATCTTTTTGTGGTGTTGTTGGGTTGAAACCAACGTATGGTCGTGTCTCAAGATTTGGACTTATGGCCTATGCTTCATCGCTTGATGTTATTGGCTGCTTGAGTACAACAGTTGCTGATGCTGGGATTCTTCTACATGCAATTTCTGGTCACGATACACTTGATGCCACTAGTAGTAAACGAGAGGTTCCTGATTTCACATCGCAATTTTCGGCTGTTGACTCATTGGAGTCTAAACCCTTGAAAGGATTGAGGATTGGCCTAATTCGTGAAACCCTTGAGAATGGTGTTGATGGTCAAGTAAATTCTGCTATACGTGCTGCTGCTTCACATCTAGAAGAATTAGGATGTTTCATCAATGAGGTATCACTGCCATCATTCTCTCTTGGGCTGCCTGCGTATTATATTCTTGCATCATCTGAATCATCTTCAAATTTAGCACGATATGATGGTGTCAGATATGGAAATCAAGCTGTTGCTGACGAGTTAACTGGTCTTTATGAAAATTCCCGAGCATCAGGATTTGGTTCAGAGGTTAAAATGAGAATTTTGATGGGAACATATGCTCTCTCAGCTGGTTATTATGATGCTTACTACAAGCGTGCTCAGCAGGTGAGAACCATTATTCAGAAAAGCTTCAGAGCAGCATTAGATGAAAATGACATCTTAATATCACCTGCTGCTCCATCTGCCGCTTATAAAATTGGTGAAAAGATGGACGATCCATTGGCAATGTATGCAGGTGACATCATGACTGTCAATGTTAACTTAGCTGGACTACCTGCATTGGTTTTGCCTTGTGGATTTGTTCAAGATGGGTCCCCTAACCTGCCTGTTGGCCTTCAAATGATTGGTGCAGCTTTTGATGAGGGTAAACTTCTTAAAGTGGGACACATCTTTGAGCAAACTCTTGCAGACTGCAGATTTGTTCCACCCCTACTAGCCGACGACATTGTAGGATAG MTAIAVHQFAQCITCHAWSPDHSSNGPSPFACFLVAFCPNNNEVHIYKSLQDNWERVHVLQKHDQLISGIDWSVRSNRIVTASHDRNSYVWNLEGSEWVPTLVILRLNRAALCVQWSPKENKFAVGSGAKTVCICYYEQENNWWVSKLIRKRHDSSVTNVAWHPNNLLLATTSTDGKCRIFSTFIKGVDTKDSRAGTFSDSKFGELIVQLDLSFSWAFGVKWSPSGNTLAYAGHNSMIYFVDEVGPSPLAQNVAFRDLPLRDVGVGFDCNPMAFAADERGIWSFIRFLGERKTASGSKYGSQFSEAFGKLYGQPRQGVGNDSVESSRLRGCVHENCIRKDAPFPLNNCLYREAFTEKACCIVPLKESGVSTIKRFSTSGFFSLLCALYSAANMLSTLQPPRCSLSRFPLHLPSKPFFYHSKQTPLSSPHPIPNSALTDQFSTSNSSQSLHSQILSIRHSLLSRQITATQLAESYLNRLRALEPHLKSFLHVSETVLSDAREIDDKIHRNEELGPLAGVLVGVKDNICTAGMPSTGGSRILDGYRPPFDATAVKRIKELGGIVVGKTNLDEFGMGSSTEGSAFQVTANPWDLSRVPGGSSGGSASAVSARQCVVALGSDTGGSVRQPASFCGVVGLKPTYGRVSRFGLMAYASSLDVIGCLSTTVADAGILLHAISGHDTLDATSSKREVPDFTSQFSAVDSLESKPLKGLRIGLIRETLENGVDGQVNSAIRAAASHLEELGCFINEVSLPSFSLGLPAYYILASSESSSNLARYDGVRYGNQAVADELTGLYENSRASGFGSEVKMRILMGTYALSAGYYDAYYKRAQQVRTIIQKSFRAALDENDILISPAAPSAAYKIGEKMDDPLAMYAGDIMTVNVNLAGLPALVLPCGFVQDGSPNLPVGLQMIGAAFDEGKLLKVGHIFEQTLADCRFVPPLLADDIVG Homology
BLAST of Lsi11G016520 vs. ExPASy Swiss-Prot
Match: E0CTY1 (Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial OS=Vitis vinifera OX=29760 GN=GATA PE=3 SV=1) HSP 1 Score: 789.6 bits (2038), Expect = 3.8e-227 Identity = 419/552 (75.91%), Postives = 463/552 (83.88%), Query Frame = 0
BLAST of Lsi11G016520 vs. ExPASy Swiss-Prot
Match: Q9LI77 (Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial OS=Arabidopsis thaliana OX=3702 GN=GATA PE=2 SV=1) HSP 1 Score: 783.5 bits (2022), Expect = 2.7e-225 Identity = 412/550 (74.91%), Postives = 462/550 (84.00%), Query Frame = 0
BLAST of Lsi11G016520 vs. ExPASy Swiss-Prot
Match: B6U151 (Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial OS=Zea mays OX=4577 GN=GATA PE=2 SV=1) HSP 1 Score: 701.8 bits (1810), Expect = 1.0e-200 Identity = 370/549 (67.40%), Postives = 438/549 (79.78%), Query Frame = 0
BLAST of Lsi11G016520 vs. ExPASy Swiss-Prot
Match: C5Y8Z8 (Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial OS=Sorghum bicolor OX=4558 GN=GATA PE=3 SV=1) HSP 1 Score: 701.0 bits (1808), Expect = 1.8e-200 Identity = 361/512 (70.51%), Postives = 424/512 (82.81%), Query Frame = 0
BLAST of Lsi11G016520 vs. ExPASy Swiss-Prot
Match: Q7X8Z8 (Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial OS=Oryza sativa subsp. japonica OX=39947 GN=GATA PE=3 SV=3) HSP 1 Score: 698.4 bits (1801), Expect = 1.1e-199 Identity = 353/495 (71.31%), Postives = 414/495 (83.64%), Query Frame = 0
BLAST of Lsi11G016520 vs. ExPASy TrEMBL
Match: A0A540LVD0 (Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial OS=Malus baccata OX=106549 GN=GATA PE=3 SV=1) HSP 1 Score: 1362.1 bits (3524), Expect = 0.0e+00 Identity = 700/969 (72.24%), Postives = 779/969 (80.39%), Query Frame = 0
BLAST of Lsi11G016520 vs. ExPASy TrEMBL
Match: A0A1S3BM64 (Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial OS=Cucumis melo OX=3656 GN=LOC103491372 PE=3 SV=1) HSP 1 Score: 1006.9 bits (2602), Expect = 5.6e-290 Identity = 522/554 (94.22%), Postives = 532/554 (96.03%), Query Frame = 0
BLAST of Lsi11G016520 vs. ExPASy TrEMBL
Match: A0A6J1GKE9 (Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial OS=Cucurbita moschata OX=3662 GN=LOC111455124 PE=3 SV=1) HSP 1 Score: 1006.5 bits (2601), Expect = 7.3e-290 Identity = 518/554 (93.50%), Postives = 536/554 (96.75%), Query Frame = 0
BLAST of Lsi11G016520 vs. ExPASy TrEMBL
Match: A0A6J1HZN2 (Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial OS=Cucurbita maxima OX=3661 GN=LOC111468379 PE=3 SV=1) HSP 1 Score: 1005.7 bits (2599), Expect = 1.2e-289 Identity = 518/554 (93.50%), Postives = 537/554 (96.93%), Query Frame = 0
BLAST of Lsi11G016520 vs. ExPASy TrEMBL
Match: A0A0A0KEN8 (Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial OS=Cucumis sativus OX=3659 GN=GATA PE=3 SV=1) HSP 1 Score: 1004.2 bits (2595), Expect = 3.6e-289 Identity = 520/554 (93.86%), Postives = 531/554 (95.85%), Query Frame = 0
BLAST of Lsi11G016520 vs. NCBI nr
Match: TQD90348.1 (hypothetical protein C1H46_024115 [Malus baccata]) HSP 1 Score: 1362.1 bits (3524), Expect = 0.0e+00 Identity = 700/969 (72.24%), Postives = 779/969 (80.39%), Query Frame = 0
BLAST of Lsi11G016520 vs. NCBI nr
Match: KAG7012030.1 (Actin-related protein 2/3 complex subunit 1A, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 1284.2 bits (3322), Expect = 0.0e+00 Identity = 660/767 (86.05%), Postives = 676/767 (88.14%), Query Frame = 0
BLAST of Lsi11G016520 vs. NCBI nr
Match: XP_038888240.1 (glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial [Benincasa hispida]) HSP 1 Score: 1040.0 bits (2688), Expect = 1.2e-299 Identity = 534/554 (96.39%), Postives = 543/554 (98.01%), Query Frame = 0
BLAST of Lsi11G016520 vs. NCBI nr
Match: XP_023530701.1 (glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial-like isoform X2 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1010.0 bits (2610), Expect = 1.4e-290 Identity = 517/554 (93.32%), Postives = 538/554 (97.11%), Query Frame = 0
BLAST of Lsi11G016520 vs. NCBI nr
Match: XP_023553746.1 (glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1007.7 bits (2604), Expect = 6.7e-290 Identity = 520/554 (93.86%), Postives = 536/554 (96.75%), Query Frame = 0
BLAST of Lsi11G016520 vs. TAIR 10
Match: AT3G25660.1 (Amidase family protein ) HSP 1 Score: 783.5 bits (2022), Expect = 1.9e-226 Identity = 412/550 (74.91%), Postives = 462/550 (84.00%), Query Frame = 0
BLAST of Lsi11G016520 vs. TAIR 10
Match: AT2G31300.1 (actin-related protein C1B ) HSP 1 Score: 552.7 bits (1423), Expect = 5.5e-157 Identity = 277/409 (67.73%), Postives = 317/409 (77.51%), Query Frame = 0
BLAST of Lsi11G016520 vs. TAIR 10
Match: AT2G30910.1 (actin-related protein C1A ) HSP 1 Score: 552.4 bits (1422), Expect = 7.2e-157 Identity = 275/405 (67.90%), Postives = 316/405 (78.02%), Query Frame = 0
BLAST of Lsi11G016520 vs. TAIR 10
Match: AT2G30910.3 (actin-related protein C1A ) HSP 1 Score: 552.4 bits (1422), Expect = 7.2e-157 Identity = 275/405 (67.90%), Postives = 316/405 (78.02%), Query Frame = 0
BLAST of Lsi11G016520 vs. TAIR 10
Match: AT2G30910.2 (actin-related protein C1A ) HSP 1 Score: 528.5 bits (1360), Expect = 1.1e-149 Identity = 267/405 (65.93%), Postives = 306/405 (75.56%), 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 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.
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