Lsi07G003310 (gene) Bottle gourd (USVL1VR-Ls)
The following sequences are available for this feature:
Legend: CDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGATGGAAATGAAGCAATAGCTATTGCAGCTCTTCTACAGTTTGCTGATATGTTGCAATTTAATTTGAAAACAGCAATCGCAGAAGATGCTGATTGGTCTACACGTTTTATGCCCCTAACAAAAGTGGTAAATAAGTATCTGGGTATGACCTTTAACCACTGCTCTATTCTGTAATATAATGTGACGTCTTATTTAAACCTTGATTGTAGATAATGGGAATGGTTGTAAATCAATCATTGATTAAACTGATACTGAATGCCGTAGATGAAGATGGCTCAGTCAAAGATTCTGCGGTTTGCTCCTTATAAACTTGCTGGTTTTGATTTGGTTACTTACATATGCTTTTTACATTTAGAACCCTAATAATTTTGTCTTAAACGCTCATCTTTATGTTTTAATTTCATTTGGTTATTTATGTCATTTCCTTCACATTTTTTTATGGAGAAAATATGTTAACATTTGAGTATGTAAATTTGAGTAAGTAAATTTGAGAGCATCTGTTATTCATTTATTTTATTTTTCTTAATTTACCATGGTCCATAATCTCTCTCTCTCTCTCTCTTAATTAGAGTTATGCCTTAAGAGAATCTCGAGATCAAGTTCGCAAGCTTGAAAAAAAGGTGACGTCTATTTTTCTTTTATTGAAGTTTTGAGGAAGCTTTGTTGTTTAGGGATTTGTTAATTCTTTTGACATAAGGTTTAGTTATATTTAATGAATGACAATGAGTGTAAATATTAGGCTACAACATTGGGATTCTTCAATTGGTTTTACAAATAGATAGTTAAATTTTTATATATTTGTAAATAGTTTGACTAATTTTTCTATATTCGAAAACAGTCCTTAATATTAATTTAATTAAAAATATGATGACTAATTTTTCTATATTTGAAAATAGTCCTTAATATTAATTTCATTAAAAATATATTAAATCATATTTAATATATATATAATTATGGGGGATTTTTAAAAATAGAAAAACAAGGTAAACTATAAAATTTTTAGATAGTTGTGATAAACGCTGATAGAAGTCTATCAAGGTCTATCAGGAATAGAAAGGATAGAAGTCTATCACTGATAGATGCTGATAGAAGTCTATCACTGATAGATGCTGATAGAAGTCTATCAGTGTCTATTAGTATTTGTTTTGCTATTTTCTGTAAATAGTTTTGACATTTTTTCTATATGTGAAAATTTCCCTATAATTAAACATAATTATTTAATTAACAAATTAAATATCATATATTTGATTTGATTTGAATTATATTCAAAATCTTTCTCTCACATAACTTATAGTTTTAGTATGAATCTTATTCATATAATTAATATTTGAATCTTATTCAAATATTTATCTCTCTCATAATAGAAAGTACAATTTGAATCTTATTAAAAAATAATTTTATATTATACTTATTTATATACATTATATTAATTGTATCATATATAATTAATTTCCTATTTAATTTGAACAATTCAAATTAATCCAAAATTAATTGATTCTTAATAAATCTTTAATGAGCTAGTAATGAGACCTTATGAACCTACAGATTAGAAACTCCATTGATATAAGATTAATTAATTACACTCTTTAATTAAATTGATCAGTATTCATTAACTGCATGTCATTCCACTAAAGACCTACAACTACACTCTTCGCACTGTAGATATATTTCCGTGGACACGGATATAACCAATCAACAGTAAGTCGACCCTTCATAATTGCCTGTAACTACAACTGGGTCAAATTATCGTTTTACCCTTGTTGTTACATCTAACTCTTTAAGTACTACTGACCCCTCTAATGAACAAACAATTTATAGTCCAATTATAAACTAATCCCTCTCGGGCTAGTGAGAGGGTGAGACCTCATTGTTCAAGACCTGAAATCAACCAATAAGGGAGCAATTTATCTACTTACCATAAAGACGGGATGGAGTGAATTCCCATTTTGTGAAGATATGTTTCCAGCTACCTACTCAGACAAATTCCCAAAATGGTAGACTTATTGAGTCGGCAAACTGATCACTCTCACCCATACAGATCAAAGAATTGCCCTCATAAGCAGGAGTTCACAACTCACCCAGGATTAAGGTCTAGTCACTTATGGTCATCCTATTAAATGTTGATTTTATTGATTAAAGGTGTTATAAAGAGAAATTAAACATTTCACGGTCCAATCTAATACAAACTCTGTGTATAAGATACCCCACTCACATCTCTCCACATGAACGACTAGAATCACATCGTTGGTAACACTTTACAACATTTGTAACAATTACAAAGTGGGCTGTATCCGTAGTGTCACCAACATAAGACACCTAACCTTATCTCTATACTACAGACCCTTTTGGTTATCACTTAAACATGATCCACTTGTATATCAACTACATACATGTTTAAATTTACATAAAATAACCACGGATCTTAATTTATTGGATTGATTTAATGCAATCTAAATGTCAAATAAAATAACTATTTATTTTATTAAATAAATAATTTGTATTTACAAATATTACAAACTACGAGAATCCTAGAGATTTAGGACATTAATCCCAACAACGCTAGCCTCCACAGAAAGCCACAAATCTATGTTTTTTCCTCTAATTTTGTTCTCCAAAAAAACTGACCTGAATCGAATCAGGATGGTTCAATTCAAAAATAAAAACCGCGTTGTATTCATTTTTGATCGGTTCATCAAGATTGAAAATTGGATCGAATCGAATCGAACTGTGAACACCCCTAGCTGTAGTAGATTTTTTTATTATTTTAAATTGCAAAATTTTTTATTCTCTCTAAAATTATTTTTTAAACTTATTTTTCTATGCCAGGTTCTAGAAATCTTACTGTTGATTCGAATATCCATTTTGGAAAAGACTTTGTGATGCTGGGTTTTTGTTGCTGTTCTTTTTTTTTTTTCTTATGCTTTTGAATTTACAAGGGTTTTTTTGTGCTTAATTGTTCTATCTGTTTTCTCATAAAATTAGATTTTTTGTCATAATGGTTCAGACTTATATTATTCAATATCTCAATGTTGTTAGTTAATTGGAAGCCTCAGTTTAGAATAGAAGTACGAATGCATGGCCTTACTTTTCCTTTTTCTAATTTAAAATGTTGTACAATTGTTTAAAATAATAAAAAAATTACTTCAAAGTCCTTTTTATTTTATTCTTAAAAATTTAGGAACTAAAAAGGTACATTTTGAAAATTTATAGACTAAGCACACCTATTCTTAAAAACTCAGGGACTAATAAGATAGTTTTATCAAAATATTTTATGGAGTTTGTTTGGACGCCAATCCTAGACATTTTTGTATTGCTTAGGTCATACGCCTGTTAGCTTGATGTGATCTAGGCCTAAACCATTAACAAAGGACCATGCGATGCGACTCCAGTGTCAGGGGTTTGTACATTGGCACTTTCCGTTAACATCTTTCGACAGGTTTTCATACTTACTACTCATCCCTACATTCCTTCTTCTTTCAATTGTCTAAGGAATGGAGTTACTTAAAGTATTGTAATACTCTAGATTGTTAGGAGTGCAAACAAAGTCCCACATTAGTTAGGAAGGGAATGATTATGGGTATACAAGTGAGGACAATTATCTCAATTGGTATGAGGTCTTTTGGGTGGTTCCAAAAGTAAAGTCATGAGGGTTATGCCCAAAATGACAATTGGTATGACGTCTTTTGTGTGGGTGAGATCCTCAGAGATTTTGAGCAAAAGTAGTTAGTCTTGTGGATGAATCCCCAAATTGGACAAAAAAAGCTTGAAGCAACAAACAAGTAATTACTCTATTAAGCTTACTGGTAGAGGAATAGATCTTTGTTCGAGGGGAGGAGATTAAGAGTTCGACAGGTGGTCGACACCGAGTGTATTCCACAAAAATGATTCCTGGCTGTGCTCTATTTGGCTTTGCAACTGGGCTCTTGATAAGAGCAAGCTCTTCTTAGGTGATCAACAGTGAACAAATGAGGAAAGACTCAAGGTGGTACTTTGTTTGATGGAAGGATTTTTAGGAGTTCATACAAAGTCTCACATTGGTTAGGGATGAAAATGATCGTGGGTATACAAGTATGGAGAATTATCTTCATTGTTATGAGGTCTTTTGGGTGCTTCCCAAAGTAAAGCCATAAGGGTTATGCCTAAAGTGGACATTATCATACTATTGTAGATAGGAGAGGTTTTGTTGCCCTTATCATAGATATGTTTTTATTATACTGCTATTGCACATGTAACAACATTAGCTACTAATGCAGCCAAGCAAGAGGATAAAGTTCCAAAGAAATTCAAGTGCCTTTTATTTATTTATTTTTTTAAAAGGAAACGAGTCTCTTCATTGAAATAATGAAATGAGACTAATGCTCAAGTTACAAAGAGGGATACAAGAGCGTAAACTTATGGATTAGAGAGTGCACCCAAACATCTCAACTATGTTGACATCCCCTTAGCACTCTCATCATCTCCAAAGAAGCAAACAAAACCTAATATCCAAAGACCAAACAAACAGTCCAACAGAACAAAAAATTACACCCTGAATACAATGGGGGGAAATGATTTGTAGCAAAGCGAACAAAACAGCAACAACAACCACTAGAACAAAACAAATAGAACGATATTACAAAATAAGCTCCAATACGAAGATAACAGTACAAAAGCTTCAAGACCAGTGATTTGAAAAAATGAAGGCCTTTCTATTTAGACTAAGAAATCTGCAAATTCTTTGGGGTGAGTGCAGCAAGAAGAAGCGTTGAGTCGAACTAACTCCAATCGAGCTAACCAAGAAGTTGACTGGTCATGAAAAACTGTTAGGTTCCTTTGATACCAAATTCTACGAGCAACGCTTTGATTGCATAATTTCGTAGGAAATAAACCTCTTTGATTTCTCTCGATCCATAAAACAGCCAACACTGTTTTGACTGCAATATTCCAAAAAAGGCCAACCAGAACCTACAAAATGTTGACACGAAAAGAGCTATCAAAGACCCAACTTATGCCAAAATGTTAAATCAACTTTGCCATCACTTAGCCGCATAAGAACAATCTAAAAATAAGTGCTGCTTAGATTCATTGCTTCCATACAACAGGACAGACTTTAAGAGGCCAACAAAGAGAAGGAAGATTCCAATGTAATAACTCCAAACAAATCAATGATCGAAACGCAGATTCTGAACGACACTTTATATTCAAGTGCCTTTTATTAATGGGGGCGGCCCCTTTAAATAGGCAAAGGGGCTGAAAACAGAAGCTTGACAGCTGGACAAACTAATCTTGGCAACCAACTAAAACATTACAACCTTATAAAAGACTAATTAAAACATAAAGGATAACTCTTTCAATAGGTTATTTAGAGATTTGGAAAAGGATCCTAGTAAGGTTTGGTCCTCAGTGGGGTTTCATGTTTCACTTTGGGCTTCAGTTTCGAAGATTTTTTGTAACTATTCCCTAGGTAACATTTTATTTAGTTGGAAACCCTTCCTCTAGAGAGGGTGCTTTTGTGGGCTTGTTTTTTTGGATGCCGTTGTATTCTTTTATTTTTTCTCAAGGAAAATTGTTGATTTCATAAAAAATAAAGGATAACTCCTTCAAGGATAATGTTACTCAAATCCTTGTTGGTCCGTCATTCAAGCCTCAATCCAATTTGATTTGGCCAATTGCGGTTAAAGCATTGCTTGCTGAAAATTGGTTTTTTAAGAAACCAAAGGGTCTTTCAAGTCAAATCTCTCACGTTGCTAGAGCATTCCGAAATTGCAACGCTTTTTGTTCTCTCGTGGTGTTCCTCTTGGTGCAAGTTATATGTTTGATTTGACGTGCTTTTATTTTCTTTGATTAGCTTTATTTTTGCACACTTTCGGATGCTTATTTTTGTATCCTCATTATTTCTATTCTTATTTCAGTTTTATTGTAATCTGAGCATTAGTCTCTTTTTATTTAAAAGTTCTGATTCCTTTAAAAAAAATAATAAAAAAAAATAAAATAAAGGAAAGCCCAGCAAGACAAAACTAAATGCAACATCTTTTATAGAACTCAATAAAGTTGCCAAGAACTAACAAGAATAAAAAAAGGAATCTCGAATTAATAAGAGATGTCCTACATCAGCTACCTTTATTTCTACATTGTAAGTTGCCTGCTAATGAGATTCGTAATATCATGCTGCTGCCTTTGATTCAAATAATAGAACTTTCTATGAGCTCGATGCTGTGCCCTTCTTAATATTAAATTCAACATCATTTCTTTATGTACAGTTATTTCAGTTAATGGACAGCCTCGTTAGAAATGCAAAGAGTGGAACTTCCTTTTTGGTAAGAAGCATCAGATTGGACTTGTATTAAGACTTGACTCATTTGTTTGTTTTCAAATAAGTGTTTATTTATAATGATAAGAAACATATGTAAGTTAGTGGATTGATTGTTTATCTTTCTAATGATACGCTACAATTTTGGCTTAGGAAGTGGAAATTGTTGATGGAAGGTGGTGTATAAAATCAGAGGGTGATCAATTAATGGATGTTAAGGGTCTCCTGTTGTCCAGGTTCTCATTCATTCATGTTCCGTTGCATCAGCTTATGAATTATGCTTTTTGGCCCTCTTTCTCATGCTAAGTAACGCTGGTAATGAAAATGCTGTTTATCAAATGCAGTATATTTTTATTGAAAAAAATAAGAAACCTGCAATCATATTAAAGAAGCTCTACTCTTTATATGACATCCATTGTTGCTCTATTGGACAATAGACAAACGAGAGAGAGGGAGAGCTTCCAAAATGAACCAAGAATCAGCCGCACAAGGATTCTGATAGAGAAAAAATGATTTAATTGAGGAAAACGCAAGTGCGGAGGGTCTATCCTCCACCCACTTATTCTTTAAAAAGTACGTTTCCTCCACATTGCCTAGTACACAATAAATCAAGTAAGAAAAAGAAGAGAGCCTAGTGATATTTTTTTCCATAGATTTTTGTAAGTGCCTTTGAACACACCTGATAACCACTTGGAAGGATGAGACCCATACTTGCTCACTAATCTCTGTAATTGTGTATCACTTGGTATTAGGATCAAGGGAGGAATGCTACATCTATTTAGCCTACAAGGCTTTGTTACAATCTCTTAAATGCTCTCTTTGACTTCTCCATGAAGCAAAATTCCTTTTTGATGTAGACTACGAATCTTGAAGGTCTTGAAGGAAACTCTTATTCATTAATTTTCCATACATGGGAGGAAGACTTCTTTTTATAGAGTTTTAATACAAGTGGGGGTAAAAGGGAATTAACCTAAACCTATTACCTAATTTTCCAATTTAACCACATTCTACTCACATCATTCCACCCCTCCAAAAAGAAAACTCGTCCTCGAGTTTTAAAAAGAAAAAAAATGAAACAATTAAGAAATAAAGTAAACTTGTACAACGAAGTATAGCCAAACCAGTCTCCTACATCTTGAACAAAATTATTATGTAAAAAAGTCGAAGACATAAAATTTCCATCAAGTTTCATCAAGGTCATCTAGTACCTCTGTAGCAGCTAGCAATGTCAAAAACTCCATCCAAAATTCCAAATATTCCATCTCCACTAGCTTGTAATAGTGGTGTGGGTAATTATATACTTTGTATGCTGCACATATGAGGAAACAAATGATGAAAATAAATTATTAATTAAACAATAAAATGGATATGGTTTTATTTCTAATAACGCAACTAAAAAAATTATAATACCTTCCGGGAATTTGTACATTGTTTGCTAGTGAAAAACTGGAAAGGAGTTAAATTTGAAGAATTCGTTTGCATTTCCCCCAACTTTTTTCTTATGAAAGGAGATCAGCTCCTGTTCCTCATCTGAGAAGAATGTATTATTGTAGTGCTACAGGGATTGGTTCGATCTTAGAGCCACTCTCTGCCGTTCCTTTAAATGATGAGTTGCAACAAGCAAGGGCTTCAGTGGCAAAAGCTGAGGAAGATGTTCTCTTTATGCTAACTGAAAAAGTATGGGTGAGATGGTTTGAAAATAATAGGTGATCATAAACGTCAAAAGTTAGATCACCAGCGTTAATTTTGAAAACTACGTTGTTTTTTATGCAACCATCATCCTTCTGGTGATTTTGAAGTATATTTATATATTTAGAGTATATTAGTTTATGATATGATGTTAAATCATATTTAATCCTAAAATTTTAAGCTTTTAGGTTAGAATTAATACAGTTTTAATATCAATTAATAATATTGTAAAATCTTATTTATGTTCCGTGACAGGTGAAAATGGATTTTGAAAATATTAGCAAACTCATTGGCTGTATAATTGAATTGGATGTGGTGAGTATATTTCACAACACCCTCAATCTCCTGCCTTCTCATTCCGTTATTTGGCCAATTCTAGATGTTCTTGTTGAAATAAAAAACAACACTAACTATAACTATATCTAGAAGCTTCTTGGAGTATCTAAATGAATGATCTAAATGTAACGTCTATGTAACCGCCCTTTCTTTTTTCTTTTCAAATTATCTCAATACTAAACTTGACAATTGGCATTGACATATTTATTACTGAATTTCTCTGAAAACATCACAATAACCCTGTTCTCCATTCTTATTTCTTAGTTGGAAAATTTATGTTTTTCCTTAATGGACAGGTCAATGCTCGAGCATCTTATGGTCTTTCGTTTGGGGGGACGTGTCCCAATTTAATCCTACCAGAAGGCTGCAACTCTTCTATTGCTAATGTCTGCTTATCAGGGGACCAAACATCTGAGGCATCACACTCGAAGAAGAATGAATGGGTCCTCTATTTAAAAAATGCCCATCATCCTTTACTACTTCAGCAATATAGAGAAAATTTGGAAAATGCCAAGAGGGATGTTCATAATGCTTTTTCTGTAAGCTATCCTGAGTCTGATATTGTAGACAGCAATTATTTATTAAATTGAGCTGTTCTGAGCCATCATCTTTCTCCTAGGAGATGGGGAGAAAACTTCCCGGGGGGAATATGTCATGGAAAGAAAAAGAAGTTGTAGATATTTCATTATTAAAAATGAAGGTAATTTGTTAATGTGATTTAGTCTCGGTTGATAAAATCTTCTTGCATTATCATTTAATATATTCAAATACAAAAGTGCTTCTTATTAGGTTGAACAATTGGAGCAAGGTCGTCCTGTTTCGGTTGATTTTTCAATATCTCGCAGAATCCAAGTTTTAGTTATAACAGGCCCTAATACTGGGGGTAAGACTGTTTGTTTGAAGACCATTGGATTGGCAGCCATGATGGCAAAATCAGGTATTTTTAAGAATGGTCTGGTTTCTTTTAATTTTTTTGGTCCACGACATATTTTTGTTTTCATTTATGTAACGAATTCATGCTGAGATTGGTTGCTCAGTCTTGTTAGGCCCAAGCGGGCCGTTAAATGTTAATGTGGTGGAATGGGCCTAATATATGTAACCAATTCAAAATGTGGTGGAATGAGACGCAGAGCAATATTACCTATATAATGAATAGAAAATGTGTGATATCGAAAGACCACCTCCATTATTACTATACTTCAATTTTGTCGCTTGTGATATTGGCTTTTTAAAATGGAATATTTAAATGACCTTTCTTTCCTTTGTTCACATCATAGGGCTTCATGTTTTAGCTTCAGAGTCTGTACAAATCCCTTGGTTTGATACTATTTTTGCTGATATCGGTGATGAACAGTCCCTTACCCAATCTCTGTCCACCTTTTCTGGCCATTTGAGAAAAATAAGTGTAAGTAAATTTGGATCCTAACCCTATCTTTGTCCATTTCATTCCTTTTTCGAATTATTTTATCTTTATTTGGTTTAGATACTATTCTTTTCTATATATTCTCGTGAGCTATATTTTTGTACTAAAGAAATAATTTCATTGATGTATGAAATTACGAAAAAGGGGAAAGTGATCCCAATCCAAAGGAGTTATGAAAGATGTCTCTGATTGGACAAACGAGGGGCAAAGCTATATGTAGAATATATTTGGAGAAAAGCTTAGACAAGTTACACCAAGATATCTCTGAGAAAATAACATGTTCCAAGAAAATATCAAATGACTGCCCCTTGTTGAAAATGTGGCTATTATGCTCAGACCAAACCGACCAAAAAAATACCCTGATGAGATGCATCCCTGAGAGACTCTTCCTTCCTTTGAACGGATGACCCTTAAGAATGGAAGATAAAAGACAAGGGATGTCGAGGGGTGAAGCCAAAGACCAATTGAAACAGAGAAAATGAGACTCCAAATTCTGTTGGAGAAAGGACAGAGAATAAAGAGTTCTGACTTGCTATCTGCATACAGAGAGGGCACTAACCGGGAGATATAGTCATATTAGACAAAGCAAAGCTGTTTTTGTACTCAATATTGCTTGTTTCCCTTTTGTATTTTTCCATTGTATTATATCTTCTTGTAATTCGGAGTTTTGTCATACATGAAAACTTCTCCAAAAAAACAACAATATAATTAAATATCCTATAATCTATAACTAAGTTTCTAGGTTTATTGGTCATTTGACGTGGCTTTTGAGTTGATCGATGATTTAATATAGTATCAGAGTCAGAGGTCTTGGGTTGAACTCTTGTAATATCATTTTCTCCCCTTAATATATATTTTTTGAAACGAAAACAAACCTGTTCATTGATATAATGAAATGAGACTATTGCTCAAAGTACAATAATGACATACTCGAACAAAATAAAAATTGCAAATCAATAGATGCACCAGGAATCTCAACTAGATTGATACCCCTTTAGCATCCTCATCAATACAAACAAACCAATAATAAAAAATGACAAGACAGTCCATCAATGAGAGAGCAACATAAGTGAGATACTAATAAAACTTAACCAAGAAAAATAAAAGTATGCTAATTTAGACAAGGTCTTGAATGGAAAAATCTTCAAAGGTCTTGGATAGGGTGCATCAAGATGAAGCATTCAATCGAGCCACCTCAAACTGGTCCATCCACTCAAAAAACATCTCCAAACACCCGATTAACTTTGAAAAATGAGAATAAATGCCACCAACATTTAACAACATAAGAACACCGAAAGAATAAGTGCAGCAAGTCTTCTCCTTCGGCTTCACATAGAGGACAAATAGACAGAGATAAACAATGGGATGGGAGCTTCCTTTGCATAATCGAAGAACAATTTAGATGCCCAAAAACCATGATCCATACTAGAGTGTTGACTCTCCGAGGGCTTATAGTCTTCCACAAGGCTTTAAGTAGCAATTTGTCTAAGGAGGATGATGGTGACAAGTGAGCTGAAAGGGATTTCACAGAAAACTTCCCTGATGCTTCTTAGACCACACTCTTCTGTCAAAATTATCAGATGGCCTCCTAGCTGAAATTTGCCCAAGCAAATTTTGGAATTCAATAATTTCATTGATGAAGACTAGAATCTTGGAGTAATTCTTGAAGAGAAATCTTTATTAATCGTCAAATGAGGGTGGGGGAATGTCCCTTAAATAGACCCAAAGGACAAGGGTTTGTACACACCTAACTATCTAGTTAACTAACTAAACCTAGGCCCCTTTAAATAGACCCAAAGGGGAAGGGTTGGATCACACCTAAACTAAAATAAATGCTGAAATTAAAATATTTAAAGACAATCTAAACAAATAGATTTTTCCAAAATGCCCCTCTATCAAACTTCCTCCCCTTACAAAGAATAACTTGTCTCGAGTTATGTTGATAACTTGAATTCATCTGGAGCATAGTAGGGAGTTATATCAGCTACATGAACGTGGAACTGATGTTTAAGGAAGGTGGTAGATCAACTTGATATGCATTTTCTCCAATTTTGTTGACAATTCGGAATGGGCCAAGCTTTTTGTTGGACAGTTTGTTGTGAGTGCCTGTTGGAAGTCTAGATTTCCTGAGAAAAACCATGACTAAGTCTCCTGGCTTGAAATTGTGGACTCTCCTATGCTGATCAGCTTTGGACTTGTAAGCTGCATTTGCTTTTTCTAGGTGGTCTATTACTTCTTGATGTAGTTGTTTAATTCTGTCCACCATATGTTCCGCTTCTGCACTAAGATCCACAGATGGATACTTCCCTGTTGATTTGTTTTGCATATAGTTGTATGCAAATTCAGCTTGAGCAAGGCAAGTGTCCCATTGTCGCGGTTTTTCGCTTGAAAGACATCGAAGGAGATTCCCGAATGTTCTGTTTGTAACCTCGGTTTGGCCGTCCGTTTGTGGATGGCTTGTGGTGCTGAATTTTAGACTTCTCCCAAATTTTTTCCAAAGACTTTTCTAAAAAAGACTCATAAACTTGACATCCCTGTTTGATACTATAGATTTAGGAATTCCATGTATCCTGACAATCTCTTGAAAGAAAAGGTTAGCGATATTCATGGCATCAGAAGTTTTCTTGCAAGCAAGAAAGTGTGCCATCTTGCTAAATCTATCCACCACCACAAATATAGAATGAAAACCCCTTTGCGTTCTTGGTAATTCGAGGATGAAGTCCGTGGATAAATCCTCCCATATAGAATTAGGAATTGGTAAAGGAGTATAAAGTCCAGTATTTTGGACATTGCCTTTAGATGTTTGGCAAATAAAACATCGTTTGACAAAATTATTGATGTCTTTCCTTAGTTGAGGCCAAAAAAAGCGTTCACTAATAGTAATGTGAGTTTTATCCCTACCAAAGTGCCCGGTCAAACCATTTGAATGAGCCTCTTGGATTATGGCCTCTCTAAGAGACCCTTGAGGTATACATAGTTGATGACCCTTAAAAAGGAACCCATCTAAAAGATGAAAATCTTTGCAGCTGTTATTATTAAGGCAAGATTGCCAAGTAATGTGGAAGTCAACGTCATTCTCATAAGTATTAGGGAGATGATCAAATGCTATGATCGTCCCTCGTAAGAGGGTTAATAAATGAGCTTTCCTACTCAAGGCATCAACTACCTTGTTAGAAGTTTCCAAAGTATGTTTTATTACAAACTCGAATTTTTGAATGAAAGTGATCCATCGAATGTGCATTCTACTGATGTGCTTTTGAGAATGTAAAAACTTTAGGGAGTAATGGTCAGTGAGTAAAACAAACTCTTTTCCAATCAAGTAATGCTCCCATTGTTGGAGAGCTCGAACTAATGCATAAAGTTCTTCCCGCCCATCAGATCCCTTTCACGAGGTGCTCTGATACCACTTGATGAAAACTAGAATCTTGGAGTAATTCTTGAAGAGAAATTTTTAGTAATTGTCAAATGAGGGTGGGGGAATGTCCCTTAAATAGACCCAAGGGACAAGTATTTGTACACACCTACCTATCTAGTTAACTAACTAAACCTAGACCCCTTTAAATAGACCCAAAAGGGGAAGGGTTAGATCACACCTAAACTAAAATAAATGCTGAAATTAAAATATTTAAAGACAATCTAAACAAATAGATTTTCCCAGCAAGGCTATTGTCTATAATGCAAATTGTTTCATACTCATTTATTGGAATTATCTGATACCTTTTCTTCATATGATTACTTTCTCCCATATGACAGGACATACAGTCAGTTTCAACTAGCCGGTCGTTAATACTATTGGATGAAGTAAGTATGACACTCAGTTCGGAAACAGTTGAAAAACCATCGTCAATTTTAGTCTAGTTTTTTCTGCATGGTAGGTTGGTGCAGGGACCAATCCTCTGGAGGGAGCCGCACTTGGGATGTCACTGCTGGAATCTTTTGCTAAATCTGGCGCTGCATTGACAATTGCAACAACACATCATGGAGAACTTAAAACCCTAAAATATAGGTACAGTATGCAAATTACTGATAGGATTTGA ATGGATGGAAATGAAGCAATAGCTATTGCAGCTCTTCTACAGTTTGCTGATATGTTGCAATTTAATTTGAAAACAGCAATCGCAGAAGATGCTGATTGGTCTACACGTTTTATGCCCCTAACAAAAGTGATAATGGGAATGGTTGTAAATCAATCATTGATTAAACTGATACTGAATGCCGTAGATGAAGATGGCTCAGTCAAAGATTCTGCGAGTTATGCCTTAAGAGAATCTCGAGATCAAGTTCGCAAGCTTGAAAAAAAGTTATTTCAGTTAATGGACAGCCTCGTTAGAAATGCAAAGAGTGGAACTTCCTTTTTGGAAGTGGAAATTGTTGATGGAAGGTGGTGTATAAAATCAGAGGGTGATCAATTAATGGATGTTAAGGGTCTCCTGTTGTCCAGTGCTACAGGGATTGGTTCGATCTTAGAGCCACTCTCTGCCGTTCCTTTAAATGATGAGTTGCAACAAGCAAGGGCTTCAGTGGCAAAAGCTGAGGAAGATGTTCTCTTTATGCTAACTGAAAAAGTGAAAATGGATTTTGAAAATATTAGCAAACTCATTGGCTGTATAATTGAATTGGATGTGGTCAATGCTCGAGCATCTTATGGTCTTTCGTTTGGGGGGACGTGTCCCAATTTAATCCTACCAGAAGGCTGCAACTCTTCTATTGCTAATGTCTGCTTATCAGGGGACCAAACATCTGAGGCATCACACTCGAAGAAGAATGAATGGGTCCTCTATTTAAAAAATGCCCATCATCCTTTACTACTTCAGCAATATAGAGAAAATTTGGAAAATGCCAAGAGGGATGTTCATAATGCTTTTTCTGAGATGGGGAGAAAACTTCCCGGGGGGAATATGTCATGGAAAGAAAAAGAAGTTGTAGATATTTCATTATTAAAAATGAAGGTTGAACAATTGGAGCAAGGTCGTCCTGTTTCGGTTGATTTTTCAATATCTCGCAGAATCCAAGTTTTAGTTATAACAGGCCCTAATACTGGGGGTAAGACTGTTTGTTTGAAGACCATTGGATTGGCAGCCATGATGGCAAAATCAGGGCTTCATGTTTTAGCTTCAGAGTCTGTACAAATCCCTTGGTTTGATACTATTTTTGCTGATATCGGTGATGAACAGTCCCTTACCCAATCTCTGTCCACCTTTTCTGGCCATTTGAGAAAAATAAGTGACATACAGTCAGTTTCAACTAGCCGGTCGTTAATACTATTGGATGAAGTTGGTGCAGGGACCAATCCTCTGGAGGGAGCCGCACTTGGGATGTCACTGCTGGAATCTTTTGCTAAATCTGGCGCTGCATTGACAATTGCAACAACACATCATGGAGAACTTAAAACCCTAAAATATAGGTACAGTATGCAAATTACTGATAGGATTTGA ATGGATGGAAATGAAGCAATAGCTATTGCAGCTCTTCTACAGTTTGCTGATATGTTGCAATTTAATTTGAAAACAGCAATCGCAGAAGATGCTGATTGGTCTACACGTTTTATGCCCCTAACAAAAGTGATAATGGGAATGGTTGTAAATCAATCATTGATTAAACTGATACTGAATGCCGTAGATGAAGATGGCTCAGTCAAAGATTCTGCGAGTTATGCCTTAAGAGAATCTCGAGATCAAGTTCGCAAGCTTGAAAAAAAGTTATTTCAGTTAATGGACAGCCTCGTTAGAAATGCAAAGAGTGGAACTTCCTTTTTGGAAGTGGAAATTGTTGATGGAAGGTGGTGTATAAAATCAGAGGGTGATCAATTAATGGATGTTAAGGGTCTCCTGTTGTCCAGTGCTACAGGGATTGGTTCGATCTTAGAGCCACTCTCTGCCGTTCCTTTAAATGATGAGTTGCAACAAGCAAGGGCTTCAGTGGCAAAAGCTGAGGAAGATGTTCTCTTTATGCTAACTGAAAAAGTGAAAATGGATTTTGAAAATATTAGCAAACTCATTGGCTGTATAATTGAATTGGATGTGGTCAATGCTCGAGCATCTTATGGTCTTTCGTTTGGGGGGACGTGTCCCAATTTAATCCTACCAGAAGGCTGCAACTCTTCTATTGCTAATGTCTGCTTATCAGGGGACCAAACATCTGAGGCATCACACTCGAAGAAGAATGAATGGGTCCTCTATTTAAAAAATGCCCATCATCCTTTACTACTTCAGCAATATAGAGAAAATTTGGAAAATGCCAAGAGGGATGTTCATAATGCTTTTTCTGAGATGGGGAGAAAACTTCCCGGGGGGAATATGTCATGGAAAGAAAAAGAAGTTGTAGATATTTCATTATTAAAAATGAAGGTTGAACAATTGGAGCAAGGTCGTCCTGTTTCGGTTGATTTTTCAATATCTCGCAGAATCCAAGTTTTAGTTATAACAGGCCCTAATACTGGGGGTAAGACTGTTTGTTTGAAGACCATTGGATTGGCAGCCATGATGGCAAAATCAGGGCTTCATGTTTTAGCTTCAGAGTCTGTACAAATCCCTTGGTTTGATACTATTTTTGCTGATATCGGTGATGAACAGTCCCTTACCCAATCTCTGTCCACCTTTTCTGGCCATTTGAGAAAAATAAGTGACATACAGTCAGTTTCAACTAGCCGGTCGTTAATACTATTGGATGAAGTTGGTGCAGGGACCAATCCTCTGGAGGGAGCCGCACTTGGGATGTCACTGCTGGAATCTTTTGCTAAATCTGGCGCTGCATTGACAATTGCAACAACACATCATGGAGAACTTAAAACCCTAAAATATAGGTACAGTATGCAAATTACTGATAGGATTTGA MDGNEAIAIAALLQFADMLQFNLKTAIAEDADWSTRFMPLTKVIMGMVVNQSLIKLILNAVDEDGSVKDSASYALRESRDQVRKLEKKLFQLMDSLVRNAKSGTSFLEVEIVDGRWCIKSEGDQLMDVKGLLLSSATGIGSILEPLSAVPLNDELQQARASVAKAEEDVLFMLTEKVKMDFENISKLIGCIIELDVVNARASYGLSFGGTCPNLILPEGCNSSIANVCLSGDQTSEASHSKKNEWVLYLKNAHHPLLLQQYRENLENAKRDVHNAFSEMGRKLPGGNMSWKEKEVVDISLLKMKVEQLEQGRPVSVDFSISRRIQVLVITGPNTGGKTVCLKTIGLAAMMAKSGLHVLASESVQIPWFDTIFADIGDEQSLTQSLSTFSGHLRKISDIQSVSTSRSLILLDEVGAGTNPLEGAALGMSLLESFAKSGAALTIATTHHGELKTLKYRYSMQITDRI
BLAST of Lsi07G003310 vs. Swiss-Prot
Match: MUTS2_SYNY3 (Endonuclease MutS2 OS=Synechocystis sp. (strain PCC 6803 / Kazusa) GN=mutS2 PE=3 SV=1) HSP 1 Score: 152.9 bits (385), Expect = 8.5e-36 Identity = 88/168 (52.38%), Postives = 114/168 (67.86%), Query Frame = 1
BLAST of Lsi07G003310 vs. Swiss-Prot
Match: MUTS2_SYMTH (Endonuclease MutS2 OS=Symbiobacterium thermophilum (strain T / IAM 14863) GN=mutS2 PE=3 SV=1) HSP 1 Score: 152.1 bits (383), Expect = 1.5e-35 Identity = 83/151 (54.97%), Postives = 102/151 (67.55%), Query Frame = 1
BLAST of Lsi07G003310 vs. Swiss-Prot
Match: MUTS2_HALOH (Endonuclease MutS2 OS=Halothermothrix orenii (strain H 168 / OCM 544 / DSM 9562) GN=mutS2 PE=3 SV=1) HSP 1 Score: 151.4 bits (381), Expect = 2.5e-35 Identity = 74/144 (51.39%), Postives = 103/144 (71.53%), Query Frame = 1
BLAST of Lsi07G003310 vs. Swiss-Prot
Match: MUTS2_BREBN (Endonuclease MutS2 OS=Brevibacillus brevis (strain 47 / JCM 6285 / NBRC 100599) GN=mutS2 PE=3 SV=1) HSP 1 Score: 151.0 bits (380), Expect = 3.2e-35 Identity = 114/364 (31.32%), Postives = 183/364 (50.27%), Query Frame = 1
BLAST of Lsi07G003310 vs. Swiss-Prot
Match: MUTS2_PELTS (Endonuclease MutS2 OS=Pelotomaculum thermopropionicum (strain DSM 13744 / JCM 10971 / SI) GN=mutS2 PE=3 SV=1) HSP 1 Score: 150.6 bits (379), Expect = 4.2e-35 Identity = 81/144 (56.25%), Postives = 100/144 (69.44%), Query Frame = 1
BLAST of Lsi07G003310 vs. TrEMBL
Match: A0A0A0KVU2_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_4G119250 PE=4 SV=1) HSP 1 Score: 709.5 bits (1830), Expect = 2.6e-201 Identity = 371/410 (90.49%), Postives = 385/410 (93.90%), Query Frame = 1
BLAST of Lsi07G003310 vs. TrEMBL
Match: F6H7A2_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_16s0098g00680 PE=4 SV=1) HSP 1 Score: 595.9 bits (1535), Expect = 4.2e-167 Identity = 312/456 (68.42%), Postives = 379/456 (83.11%), Query Frame = 1
BLAST of Lsi07G003310 vs. TrEMBL
Match: A0A067LMH3_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_14917 PE=4 SV=1) HSP 1 Score: 570.9 bits (1470), Expect = 1.5e-159 Identity = 295/452 (65.27%), Postives = 363/452 (80.31%), Query Frame = 1
BLAST of Lsi07G003310 vs. TrEMBL
Match: A0A061G3J4_THECC (DNA mismatch repair protein MutS, putative OS=Theobroma cacao GN=TCM_015545 PE=4 SV=1) HSP 1 Score: 549.7 bits (1415), Expect = 3.5e-153 Identity = 286/457 (62.58%), Postives = 368/457 (80.53%), Query Frame = 1
BLAST of Lsi07G003310 vs. TrEMBL
Match: M5XS10_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa001618mg PE=4 SV=1) HSP 1 Score: 547.0 bits (1408), Expect = 2.3e-152 Identity = 291/455 (63.96%), Postives = 356/455 (78.24%), Query Frame = 1
BLAST of Lsi07G003310 vs. TAIR10
Match: AT5G54090.1 (AT5G54090.1 DNA mismatch repair protein MutS, type 2) HSP 1 Score: 437.6 bits (1124), Expect = 9.8e-123 Identity = 242/464 (52.16%), Postives = 323/464 (69.61%), Query Frame = 1
BLAST of Lsi07G003310 vs. TAIR10
Match: AT1G65070.2 (AT1G65070.2 DNA mismatch repair protein MutS, type 2) HSP 1 Score: 145.2 bits (365), Expect = 1.0e-34 Identity = 71/142 (50.00%), Postives = 102/142 (71.83%), Query Frame = 1
BLAST of Lsi07G003310 vs. TAIR10
Match: AT3G24320.1 (AT3G24320.1 MUTL protein homolog 1) HSP 1 Score: 76.3 bits (186), Expect = 5.7e-14 Identity = 48/123 (39.02%), Postives = 71/123 (57.72%), Query Frame = 1
BLAST of Lsi07G003310 vs. TAIR10
Match: AT4G25540.1 (AT4G25540.1 homolog of DNA mismatch repair protein MSH3) HSP 1 Score: 72.0 bits (175), Expect = 1.1e-12 Identity = 42/123 (34.15%), Postives = 69/123 (56.10%), Query Frame = 1
BLAST of Lsi07G003310 vs. TAIR10
Match: AT3G18524.1 (AT3G18524.1 MUTS homolog 2) HSP 1 Score: 69.3 bits (168), Expect = 7.0e-12 Identity = 40/126 (31.75%), Postives = 68/126 (53.97%), Query Frame = 1
BLAST of Lsi07G003310 vs. NCBI nr
Match: gi|449438987|ref|XP_004137269.1| (PREDICTED: uncharacterized protein LOC101220812 isoform X1 [Cucumis sativus]) HSP 1 Score: 815.1 bits (2104), Expect = 6.4e-233 Identity = 425/455 (93.41%), Postives = 440/455 (96.70%), Query Frame = 1
BLAST of Lsi07G003310 vs. NCBI nr
Match: gi|659125864|ref|XP_008462895.1| (PREDICTED: uncharacterized protein LOC103501168 isoform X1 [Cucumis melo]) HSP 1 Score: 813.5 bits (2100), Expect = 1.9e-232 Identity = 425/455 (93.41%), Postives = 439/455 (96.48%), Query Frame = 1
BLAST of Lsi07G003310 vs. NCBI nr
Match: gi|778692046|ref|XP_011653396.1| (PREDICTED: uncharacterized protein LOC101220812 isoform X2 [Cucumis sativus]) HSP 1 Score: 808.9 bits (2088), Expect = 4.6e-231 Identity = 424/455 (93.19%), Postives = 439/455 (96.48%), Query Frame = 1
BLAST of Lsi07G003310 vs. NCBI nr
Match: gi|659125866|ref|XP_008462896.1| (PREDICTED: uncharacterized protein LOC103501168 isoform X2 [Cucumis melo]) HSP 1 Score: 807.4 bits (2084), Expect = 1.3e-230 Identity = 424/455 (93.19%), Postives = 438/455 (96.26%), Query Frame = 1
BLAST of Lsi07G003310 vs. NCBI nr
Match: gi|659125868|ref|XP_008462897.1| (PREDICTED: uncharacterized protein LOC103501168 isoform X3 [Cucumis melo]) HSP 1 Score: 755.7 bits (1950), Expect = 4.6e-215 Identity = 403/455 (88.57%), Postives = 417/455 (91.65%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of Lagenaria siceraria
Date Performed: 2017-09-18
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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