Lsi05G009800 (gene) Bottle gourd (USVL1VR-Ls)
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TTTATTTGGTTTCTAATTCCATTGGAATCTGTCCTCCCAAATCAAACTTACATCCTCTTGTTCTTCTTCTTTTCTGTCCTTTTCGTTCCTTCTCCTTTCCCTTTTTCTTGCTGATGATCCTCCAGCTACAAACAAGGTAAGCATATGTTCATAACATTTGATTTCATTTTCAAAAATTGTATTTAAGGGCATTTCTTGTTTGTTTCATATAGGATTTGAGGGTTTCTTATGCAAATTCATCTGGGTTGTATTGCTTCTTTGTTTTTGTTTGGTGGGTTGAGATTATTCTGATTAAACTTCCCAGCTTCTTTGGTTTTTCTCAATATCCAAACAAATTGGGATTTGGGTTTTTGTGGGATCAGGAAATCTTATGCATTGTCGTATTCAATTTGATTTTTCTATCTCACGTTTATGCCTCATTTGGGTGATTTTTTTCTGGCCACATTCTTTTTCTTTCTTCTTAATATAATCATGGGTTGATTTAGGGCCTAATATTGAAGATTTTGAGATTGGGATTGGCTTTTTTCTTCTCTTTTTGTTTTCAGCTAATCTGCATTCTGGCATTATTTGAACGTTCTCCAATCCACATTTAGAGCGTTACTTTTAGAACAACTTTGAATCAACTTCCTCTCTCTATTTCTCTCCCACAAGGAAATGAAAATCCTCTATGAGCACTCAATCTTCTTTATTATCATTGTTTTCAGGGAGTAAAGAATATAGTGCAGTTTTCACAAAAATCTCTATTTGCTTAGTAGTTTTCCTTGCATTCGTCTTAATTTATATCCCTTTTATCATTTTCGTTTTCTTGTAAAGTATTCCTCAGTAGGTGGATTTCGTCTCCCTAACTAAAGGTTCCATACACCATTGCTTCATTCTCGAATTTTCGTTTTCATTCTAGATAATACCGCTTTAATGGCCAACTTTGGATGATTATTTCCGGGGTCAATTGTATATCTTATTTTCCTTTTTATGTTGGGATTCAGTATTCACATTAGGTGATCCAATTCAGGACAGGATGCTTAAAAATACAATTGAAACATGGGAGGATCGATAATCTTCATCGTCTAAAGGTTTTCTGGTTGGCAGAGAGATGGTAGCCTCGTGAAATTCTAGAGCAATGGCAGCAAAAGGAAAACCATTTTGTAAAGCTCAGAGGAGTGTACAGGGGTTTTCAGCCATTCTAAAAGCTGCAGCTTGTGAATGGTTTCTCATTTTTCTAATGCTTATTGATGCTTTGTTGTCATATGCTTTGACTAAATTTGCACATATTTGCAACTTGCAAACGCCTTGCATTTTGTGCTCCAGGCTTGATCATCTCTTGGGCAAAGAAAAATCTAATAATTATAGGAATCTTCTCTGTACCAACCATAAATTGGAGATATCATCTTTAGTTTCTTGCCACAAACATAATAAGCTTGTTGATGGCAATGAGATGTGTGATGCATGTCTTTGTTCATTCGCTACAACAAACAACAAACTTAAGCTCAACTCCAAAATGCAAAGGTTGACAGTGGGAAAGTTGAGGTCAGATACTTGTGGAAATGGAGCTCATGGAAACTTACTAACTAGGGATTCAGTTCCTCATTGTATTAAGACAAGGCCTTGTTCTTGTTGCAACAAGCCTTGGAAGACAAGGCCAAATGCTCAAGGATTACTGCAACTGAAATCTTCTTTGAATGTGGCCACTAAACCCAATATTCCTTATCCACTCCGCTTAAATAGTCGAGATAGCTTGAAAAAGAGGAGGGATAAAATTTTTGGTTCAGTAACCTTACAACACCCTGGAAAAACTGGTTTCAATCTGTTGTCTCATGTAGGATTCAGTGAGCTGAGGATCACCTCTGATTCTGAGTTAGAGGTTATGCTTTCAGAAGAAGATGATGATAAAACTTTAATATGTGAAAATAGTGTGCTTAAAGAAGATTCTGTTCTTCAATCTATAACACAAATTCAACTCAAGCGTCATTGCAATAATTGTGATCAGGTTAAGCCATCCATTAATTTTGTTGATCCAAGGCCTTCACCTTTAGAATCATATGTGCAGGTTGATGTGCAAAAGCCCCATGACGTGAAATCTCTTGCTTGTGATGCTACTTTTCATGGATTGAATGAGTTGAATTGGCTGCCCTGGCCAGCCAATCCGACTGCCAACCTTTCTACATGGGCTGAACTTATTTCCCTGGATGATGCATCATCCGTTGCATCCAATGTCTTGGGACTTTCTCGTGCAAATTCAATGGAGAAAAGCGAGCTTACAGATTCTCTCAACCAGGAGTCAACAATCTCCTGCTGTCAGCAGTTCATCGCATTACATGATGACCCACAAGTTGTGGGAAAGTTAACGACATGTGAGTTGTATTTGTCTCTATTCTTGTATCTCCGAATGTGGTAGTTACTATTGCCTTTGCTTTCCCATTTGTTGTATGTTTTTCATGCCTCTAGGATTTCTCACATTCTTGCCTAATTTCTTTTACCCTTTTTATATATGGCAGCTAAGGAGACAGGAACAGATAACATGGGAATTGCATCTCCCAGTGAGCACGGGGATCATTCAACATCCATAAGCACAAAAGTTGAAAAGCGTCCTAAAATTGATGAAGTGGTTAATGAATCTTCTTCTGGAAAAACTAACGATGGATCAGATCATAGCAGTGATAGTGAATCTTCAGAAAGTGATAATGAGCATGAAGCTAATTTGGCTACAAGACAACCCTTGGATTCTTCTTCTGGGAACACTAATGATGATTCAAATCATAACAGCGATAGTGAGTCATCTGAGAGTGATAAGGAACATAAAGTTAATTTTGCCACAAGACAACCTTTGGAGTCTTCTTCTGGGAACACTAATGATGATTCAAATCATAATAGTGATAGTGAGTCCTCCGAGAATGGTAAGGAACATGAAGTCAATTTTGCTACAAGACAACCTTTGGAGAAGGAAGCTGATATAGTTTCCAATGATATGAAGCAGCCTCCATCGATTAGTATTAGTGTTCAAGAGTGTTTCAAAACTGATGAGGTGGTCTATGAATCTGCTATTAAGAACACTAATGATGATATGGACCATAACAGTGCTAGGGAGTCCTCCGAAAGCGATAAGGAACAAGAAGTCTTCAATTTTACTGCAGATCAACCTTTGGAGAAGGAAATTGATGCAGTTACTAATGATTTGAAGCAATCTCCTATGGTCAGCACAACAATTGAAGAGTGTCCTAAAATTGATGAGGTGGTTTATGTATCTGATAATAGGAACACCAATAATGATCTGGATCAGAACAGTGTTAGTGAGTACTTCGAGAGCGATAAGGAACGAGAAGTTTCCAATTTTGCTATAGGACAATCTTCAAAGAAGGAAATTGATATAGTTACTGATGATTTGAAGCAGACTCCATTGATCAACACAACAGTTGAAGAGTGTTCTAAAACTGATGTGGTGGCCTATGAATTTGCTATTAATAACATTAATGATGATATGGATAGCGTTAGTGAGTCCATTGAGAGTGGTAAAGAACATGAAATCCTCAATTTTTCTATAGGGCAATCTTCAGAGAAGGAAACGAATCTAGTTACTAATGATTTGAAGCAGTCAACATTGATTAGCACGACCATTGAAGAGTGTCCTAAAACTAACGAGGTTATAGATGAATCTGCTATTAAGAACATTAATGATGATATAGACAACGTTAGCGAGTCCATCGAGAGGGATAACGAACATGAAATCTTCAATTTTTCTATAGGGCAGTCTACGGAGAATGAAGTAGATGTAGTAGCTAATGATTTGAAGCATTCTCCATTGATCAGCACAACAGTCGAAGACTGTTCTAAAACTGATGACATGGCCTATGAATTTACTATTAAGAACATCCATGATGGTATGGACAACGTTAGCGAGTCTACCGAGAGTGATAAAGGACATGCAATCTTCAATTTTTCTCTAGGACAATCTTCTGAGAAGGAAACTGATCTAGTTGCTGATGATCTAAAGCAGTCTCTATTGATCAGCACAACAATTGAAAAGTGTCCTACAATTGATGAGGTTGTCTATGAATCTGCTATTATGAACAGTAATGATGATATGGATCATAGCAGCATTAGCGAGTCTTCTGTGAGTGATAAGCAACAAGAAGTCTCCAATTTTACTACAAAAAAGCCTTCGAAGACGGAACCTGATATAGTTACTAATGATATGGAGCAATTTTCATTGCAAGAGAATCCTGTTGAACTTGTTAATCAACCATTCCCAGATGATGAAAGCCAAAATTTTAGCACTTCTTATGATGATTTACAAGAAGAATTTGGCTCGAGATTTAACATGATTCCGACATTTTATCGGTCAGTTTCAATGGAATCAGTTGAATCACAAGATGGAAGCAATGTAAGTGAAATTGAAGGTGAAAATATTGTTGATAGGTTAAAGCGACAAGTTGAATATGATAAGAAATGTATAAATTCTTTGTATAAAGAGTTGGAAGAAGAACGAAGTGCTTCTGAGGTTGCTGCAAGTCAAGCCATGGCCATGATTACAAGGTTGCAAGAGGAGAAGGCAGCAATGCACATGGAGGCTCTTCATTACTTGAGAATGATGGAAGAGCAAGCAGAGTATGATGTAGAAGCTCTAGAGAAAGCAAACGAACTCCTGAATGAAAAGGAGAGAGACATCCAAGATTTAGAAGCAGAGCTCGAATACTACAGATCTAATTACATGGTCAACACAATAGCTGAGACTGAGACTGAGCATGAAAAAAGTGATGGTGCAAATGAAGAAAATATCACTGCAGAGAATGAGAGTGTAGAATACCATGAATATAATGGCAATTATTCCTTTAAATCAACAATGGCGGAGTCATCAAAAGGAAGCTACAGATCTTTCAATAATCAAAATTCATCTTTAGAATTTGAAGATGAAAAAGTCTACATCCAGCTATGTTTGAAGAGCTTGGAGGATAAGATCAACAAAATATTTAATAATGGCCTTTTAGCCCGGGTACCTAATGGCATTGACAATGGAGAAGAGGTGAATCCTGAACAAAAAGGGGAAGAGGGTATTGATGCTGAGAGGTCTCAAAGAAATAATGAAGGCAATGGTCCATCCAAGCACATAGACCAAAAAAACTGTAATGGAGCAGTTACACCAGAATGCGAGTTGGTCGATCCGGATAAAAATGGTCATTTTAGCAGTGATGAAAACTTCTATGATGTGAAAGGCCAAATAAGTTATGCAAACAAAAGAGAGGAGGTTGACTTCCTTGCTCTTGAACATAAAATTTCAGACCTTACTAGCAAGTTGGAAGCACTACAAGCTGGTTATGATTTTCTTGAGCACTCTCTTAATTCTCTTCGCTACGGTGAGGAAGGTTTGCAATTTGCTCAAAATATCGTTCATCAGCTACAAGAATTGTGTAAACTCGGGATTATACTAGATCGTCAACCTGGCTCCTAAGTTCTTCATGCAGCATGATATGGTATGAATTACTAACAAAGAAAAAAGTTTTATGTTCAAAGTTCAGAATTCTTTGTTTATGCAAGCTTTTAAAATCCCACATTTCACTGCCCACAAGTAGTCTCATTGAACTTCTCTAAATCTTAGGTATCATGATTTGTTGTTTGGGCTCCATCTATTAACCTAATTTCATTCATTGATGAACAAACTATGTTTCTTCTTTGCTGGATATTGCCATATTAATTTTTAGACTGACGTGAAAACCAACGACACCACGACACCATGATTTTTTGCCACATTGATTTTCATTTTCCATGTGCTGGGAACCTAACTATACCATGAAGTGAAGTGTTAAATATAATACATTATTAAATTTCTCCTAATCCAAAGACTTAAAGTTTCGATCTAGTGGTACTTTGAGAGATTTTAGCAATGAGGGCCATACCAATATTGCATTAGTCGTCGCCGATTGGGTTTATTGTGTCTAGCAGAATTAGGAGAAACCAAGCAGTAGATCATTATCTTTATGAGGGAAAATTGATTTCTTGGAGTATTTTAAAGCTTTTTGAATCATTGAAACTTCATACTTAATTTCTGATGATGTTGTGAATATTAAAATGTGGTTGATACCATTATCCTGTATTGTGTTCCTAAACGATTTCTTGGTCTTGTTTCTGCAGATATTTTAAAATGGGAATCAGCAATCATTTTGGACCATCATCATTAAAACATTCAAAGTGCAAAGTCAATTGAGAAAAGTCATGGATCATCCCTTTTTGTTGGGCTGCAATGCATGAGCTTGAGTATGGCCATTGCAGAGAAGGTTCAGAGTAGAGGAAAAATGGTATGTTGTAAATTTGTACCATCAAATCACCATGGAAGTTGAGTCTTCCATCTTTTGAGCTTTTCATTTTTGTGAGGGTTAGTGAATTTTACTTGCCAAGGAGCTCATGATTCTTGTACCTCTCTATATATATACATGTTCTTGAGGTTGCCCTTTCTCAAACCAAATAAATTATTCTTCAGCATAGCATTCTTTTCAGTCTGGATGATGCTCATGGATTAAAAAGGAGGAATCTCAACCAATCAAGATCAAAATATTTGCTTGTATG TTTATTTGGTTTCTAATTCCATTGGAATCTGTCCTCCCAAATCAAACTTACATCCTCTTGTTCTTCTTCTTTTCTGTCCTTTTCGTTCCTTCTCCTTTCCCTTTTTCTTGCTGATGATCCTCCAGCTACAAACAAGTATTCACATTAGGTGATCCAATTCAGGACAGGATGCTTAAAAATACAATTGAAACATGGGAGGATCGATAATCTTCATCGTCTAAAGGTTTTCTGGTTGGCAGAGAGATGGTAGCCTCGTGAAATTCTAGAGCAATGGCAGCAAAAGGAAAACCATTTTGTAAAGCTCAGAGGAGTGTACAGGGGTTTTCAGCCATTCTAAAAGCTGCAGCTTGTGAATGGTTTCTCATTTTTCTAATGCTTATTGATGCTTTGTTGTCATATGCTTTGACTAAATTTGCACATATTTGCAACTTGCAAACGCCTTGCATTTTGTGCTCCAGGCTTGATCATCTCTTGGGCAAAGAAAAATCTAATAATTATAGGAATCTTCTCTGTACCAACCATAAATTGGAGATATCATCTTTAGTTTCTTGCCACAAACATAATAAGCTTGTTGATGGCAATGAGATGTGTGATGCATGTCTTTGTTCATTCGCTACAACAAACAACAAACTTAAGCTCAACTCCAAAATGCAAAGGTTGACAGTGGGAAAGTTGAGGTCAGATACTTGTGGAAATGGAGCTCATGGAAACTTACTAACTAGGGATTCAGTTCCTCATTGTATTAAGACAAGGCCTTGTTCTTGTTGCAACAAGCCTTGGAAGACAAGGCCAAATGCTCAAGGATTACTGCAACTGAAATCTTCTTTGAATGTGGCCACTAAACCCAATATTCCTTATCCACTCCGCTTAAATAGTCGAGATAGCTTGAAAAAGAGGAGGGATAAAATTTTTGGTTCAGTAACCTTACAACACCCTGGAAAAACTGGTTTCAATCTGTTGTCTCATGTAGGATTCAGTGAGCTGAGGATCACCTCTGATTCTGAGTTAGAGGTTATGCTTTCAGAAGAAGATGATGATAAAACTTTAATATGTGAAAATAGTGTGCTTAAAGAAGATTCTGTTCTTCAATCTATAACACAAATTCAACTCAAGCGTCATTGCAATAATTGTGATCAGGTTAAGCCATCCATTAATTTTGTTGATCCAAGGCCTTCACCTTTAGAATCATATGTGCAGGTTGATGTGCAAAAGCCCCATGACGTGAAATCTCTTGCTTGTGATGCTACTTTTCATGGATTGAATGAGTTGAATTGGCTGCCCTGGCCAGCCAATCCGACTGCCAACCTTTCTACATGGGCTGAACTTATTTCCCTGGATGATGCATCATCCGTTGCATCCAATGTCTTGGGACTTTCTCGTGCAAATTCAATGGAGAAAAGCGAGCTTACAGATTCTCTCAACCAGGAGTCAACAATCTCCTGCTGTCAGCAGTTCATCGCATTACATGATGACCCACAAGTTGTGGGAAAGTTAACGACATCTAAGGAGACAGGAACAGATAACATGGGAATTGCATCTCCCAGTGAGCACGGGGATCATTCAACATCCATAAGCACAAAAGTTGAAAAGCGTCCTAAAATTGATGAAGTGGTTAATGAATCTTCTTCTGGAAAAACTAACGATGGATCAGATCATAGCAGTGATAGTGAATCTTCAGAAAGTGATAATGAGCATGAAGCTAATTTGGCTACAAGACAACCCTTGGATTCTTCTTCTGGGAACACTAATGATGATTCAAATCATAACAGCGATAGTGAGTCATCTGAGAGTGATAAGGAACATAAAGTTAATTTTGCCACAAGACAACCTTTGGAGTCTTCTTCTGGGAACACTAATGATGATTCAAATCATAATAGTGATAGTGAGTCCTCCGAGAATGGTAAGGAACATGAAGTCAATTTTGCTACAAGACAACCTTTGGAGAAGGAAGCTGATATAGTTTCCAATGATATGAAGCAGCCTCCATCGATTAGTATTAGTGTTCAAGAGTGTTTCAAAACTGATGAGGTGGTCTATGAATCTGCTATTAAGAACACTAATGATGATATGGACCATAACAGTGCTAGGGAGTCCTCCGAAAGCGATAAGGAACAAGAAGTCTTCAATTTTACTGCAGATCAACCTTTGGAGAAGGAAATTGATGCAGTTACTAATGATTTGAAGCAATCTCCTATGGTCAGCACAACAATTGAAGAGTGTCCTAAAATTGATGAGGTGGTTTATGTATCTGATAATAGGAACACCAATAATGATCTGGATCAGAACAGTGTTAGTGAGTACTTCGAGAGCGATAAGGAACGAGAAGTTTCCAATTTTGCTATAGGACAATCTTCAAAGAAGGAAATTGATATAGTTACTGATGATTTGAAGCAGACTCCATTGATCAACACAACAGTTGAAGAGTGTTCTAAAACTGATGTGGTGGCCTATGAATTTGCTATTAATAACATTAATGATGATATGGATAGCGTTAGTGAGTCCATTGAGAGTGGTAAAGAACATGAAATCCTCAATTTTTCTATAGGGCAATCTTCAGAGAAGGAAACGAATCTAGTTACTAATGATTTGAAGCAGTCAACATTGATTAGCACGACCATTGAAGAGTGTCCTAAAACTAACGAGGTTATAGATGAATCTGCTATTAAGAACATTAATGATGATATAGACAACGTTAGCGAGTCCATCGAGAGGGATAACGAACATGAAATCTTCAATTTTTCTATAGGGCAGTCTACGGAGAATGAAGTAGATGTAGTAGCTAATGATTTGAAGCATTCTCCATTGATCAGCACAACAGTCGAAGACTGTTCTAAAACTGATGACATGGCCTATGAATTTACTATTAAGAACATCCATGATGGTATGGACAACGTTAGCGAGTCTACCGAGAGTGATAAAGGACATGCAATCTTCAATTTTTCTCTAGGACAATCTTCTGAGAAGGAAACTGATCTAGTTGCTGATGATCTAAAGCAGTCTCTATTGATCAGCACAACAATTGAAAAGTGTCCTACAATTGATGAGGTTGTCTATGAATCTGCTATTATGAACAGTAATGATGATATGGATCATAGCAGCATTAGCGAGTCTTCTGTGAGTGATAAGCAACAAGAAGTCTCCAATTTTACTACAAAAAAGCCTTCGAAGACGGAACCTGATATAGTTACTAATGATATGGAGCAATTTTCATTGCAAGAGAATCCTGTTGAACTTGTTAATCAACCATTCCCAGATGATGAAAGCCAAAATTTTAGCACTTCTTATGATGATTTACAAGAAGAATTTGGCTCGAGATTTAACATGATTCCGACATTTTATCGGTCAGTTTCAATGGAATCAGTTGAATCACAAGATGGAAGCAATGTAAGTGAAATTGAAGGTGAAAATATTGTTGATAGGTTAAAGCGACAAGTTGAATATGATAAGAAATGTATAAATTCTTTGTATAAAGAGTTGGAAGAAGAACGAAGTGCTTCTGAGGTTGCTGCAAGTCAAGCCATGGCCATGATTACAAGGTTGCAAGAGGAGAAGGCAGCAATGCACATGGAGGCTCTTCATTACTTGAGAATGATGGAAGAGCAAGCAGAGTATGATGTAGAAGCTCTAGAGAAAGCAAACGAACTCCTGAATGAAAAGGAGAGAGACATCCAAGATTTAGAAGCAGAGCTCGAATACTACAGATCTAATTACATGGTCAACACAATAGCTGAGACTGAGACTGAGCATGAAAAAAGTGATGGTGCAAATGAAGAAAATATCACTGCAGAGAATGAGAGTGTAGAATACCATGAATATAATGGCAATTATTCCTTTAAATCAACAATGGCGGAGTCATCAAAAGGAAGCTACAGATCTTTCAATAATCAAAATTCATCTTTAGAATTTGAAGATGAAAAAGTCTACATCCAGCTATGTTTGAAGAGCTTGGAGGATAAGATCAACAAAATATTTAATAATGGCCTTTTAGCCCGGGTACCTAATGGCATTGACAATGGAGAAGAGGTGAATCCTGAACAAAAAGGGGAAGAGGGTATTGATGCTGAGAGGTCTCAAAGAAATAATGAAGGCAATGGTCCATCCAAGCACATAGACCAAAAAAACTGTAATGGAGCAGTTACACCAGAATGCGAGTTGGTCGATCCGGATAAAAATGGTCATTTTAGCAGTGATGAAAACTTCTATGATGTGAAAGGCCAAATAAGTTATGCAAACAAAAGAGAGGAGGTTGACTTCCTTGCTCTTGAACATAAAATTTCAGACCTTACTAGCAAGTTGGAAGCACTACAAGCTGGTTATGATTTTCTTGAGCACTCTCTTAATTCTCTTCGCTACGGTGAGGAAGGTTTGCAATTTGCTCAAAATATCGTTCATCAGCTACAAGAATTGTGTAAACTCGGGATTATACTAGATCGTCAACCTGGCTCCTAAGTTCTTCATGCAGCATGATATGATATTTTAAAATGGGAATCAGCAATCATTTTGGACCATCATCATTAAAACATTCAAAGTGCAAAGTCAATTGAGAAAAGTCATGGATCATCCCTTTTTGTTGGGCTGCAATGCATGAGCTTGAGTATGGCCATTGCAGAGAAGGTTCAGAGTAGAGGAAAAATGGTATGTTGTAAATTTGTACCATCAAATCACCATGGAAGTTGAGTCTTCCATCTTTTGAGCTTTTCATTTTTGTGAGGGTTAGTGAATTTTACTTGCCAAGGAGCTCATGATTCTTGTACCTCTCTATATATATACATGTTCTTGAGGTTGCCCTTTCTCAAACCAAATAAATTATTCTTCAGCATAGCATTCTTTTCAGTCTGGATGATGCTCATGGATTAAAAAGGAGGAATCTCAACCAATCAAGATCAAAATATTTGCTTGTATG ATGGCAGCAAAAGGAAAACCATTTTGTAAAGCTCAGAGGAGTGTACAGGGGTTTTCAGCCATTCTAAAAGCTGCAGCTTGTGAATGGTTTCTCATTTTTCTAATGCTTATTGATGCTTTGTTGTCATATGCTTTGACTAAATTTGCACATATTTGCAACTTGCAAACGCCTTGCATTTTGTGCTCCAGGCTTGATCATCTCTTGGGCAAAGAAAAATCTAATAATTATAGGAATCTTCTCTGTACCAACCATAAATTGGAGATATCATCTTTAGTTTCTTGCCACAAACATAATAAGCTTGTTGATGGCAATGAGATGTGTGATGCATGTCTTTGTTCATTCGCTACAACAAACAACAAACTTAAGCTCAACTCCAAAATGCAAAGGTTGACAGTGGGAAAGTTGAGGTCAGATACTTGTGGAAATGGAGCTCATGGAAACTTACTAACTAGGGATTCAGTTCCTCATTGTATTAAGACAAGGCCTTGTTCTTGTTGCAACAAGCCTTGGAAGACAAGGCCAAATGCTCAAGGATTACTGCAACTGAAATCTTCTTTGAATGTGGCCACTAAACCCAATATTCCTTATCCACTCCGCTTAAATAGTCGAGATAGCTTGAAAAAGAGGAGGGATAAAATTTTTGGTTCAGTAACCTTACAACACCCTGGAAAAACTGGTTTCAATCTGTTGTCTCATGTAGGATTCAGTGAGCTGAGGATCACCTCTGATTCTGAGTTAGAGGTTATGCTTTCAGAAGAAGATGATGATAAAACTTTAATATGTGAAAATAGTGTGCTTAAAGAAGATTCTGTTCTTCAATCTATAACACAAATTCAACTCAAGCGTCATTGCAATAATTGTGATCAGGTTAAGCCATCCATTAATTTTGTTGATCCAAGGCCTTCACCTTTAGAATCATATGTGCAGGTTGATGTGCAAAAGCCCCATGACGTGAAATCTCTTGCTTGTGATGCTACTTTTCATGGATTGAATGAGTTGAATTGGCTGCCCTGGCCAGCCAATCCGACTGCCAACCTTTCTACATGGGCTGAACTTATTTCCCTGGATGATGCATCATCCGTTGCATCCAATGTCTTGGGACTTTCTCGTGCAAATTCAATGGAGAAAAGCGAGCTTACAGATTCTCTCAACCAGGAGTCAACAATCTCCTGCTGTCAGCAGTTCATCGCATTACATGATGACCCACAAGTTGTGGGAAAGTTAACGACATCTAAGGAGACAGGAACAGATAACATGGGAATTGCATCTCCCAGTGAGCACGGGGATCATTCAACATCCATAAGCACAAAAGTTGAAAAGCGTCCTAAAATTGATGAAGTGGTTAATGAATCTTCTTCTGGAAAAACTAACGATGGATCAGATCATAGCAGTGATAGTGAATCTTCAGAAAGTGATAATGAGCATGAAGCTAATTTGGCTACAAGACAACCCTTGGATTCTTCTTCTGGGAACACTAATGATGATTCAAATCATAACAGCGATAGTGAGTCATCTGAGAGTGATAAGGAACATAAAGTTAATTTTGCCACAAGACAACCTTTGGAGTCTTCTTCTGGGAACACTAATGATGATTCAAATCATAATAGTGATAGTGAGTCCTCCGAGAATGGTAAGGAACATGAAGTCAATTTTGCTACAAGACAACCTTTGGAGAAGGAAGCTGATATAGTTTCCAATGATATGAAGCAGCCTCCATCGATTAGTATTAGTGTTCAAGAGTGTTTCAAAACTGATGAGGTGGTCTATGAATCTGCTATTAAGAACACTAATGATGATATGGACCATAACAGTGCTAGGGAGTCCTCCGAAAGCGATAAGGAACAAGAAGTCTTCAATTTTACTGCAGATCAACCTTTGGAGAAGGAAATTGATGCAGTTACTAATGATTTGAAGCAATCTCCTATGGTCAGCACAACAATTGAAGAGTGTCCTAAAATTGATGAGGTGGTTTATGTATCTGATAATAGGAACACCAATAATGATCTGGATCAGAACAGTGTTAGTGAGTACTTCGAGAGCGATAAGGAACGAGAAGTTTCCAATTTTGCTATAGGACAATCTTCAAAGAAGGAAATTGATATAGTTACTGATGATTTGAAGCAGACTCCATTGATCAACACAACAGTTGAAGAGTGTTCTAAAACTGATGTGGTGGCCTATGAATTTGCTATTAATAACATTAATGATGATATGGATAGCGTTAGTGAGTCCATTGAGAGTGGTAAAGAACATGAAATCCTCAATTTTTCTATAGGGCAATCTTCAGAGAAGGAAACGAATCTAGTTACTAATGATTTGAAGCAGTCAACATTGATTAGCACGACCATTGAAGAGTGTCCTAAAACTAACGAGGTTATAGATGAATCTGCTATTAAGAACATTAATGATGATATAGACAACGTTAGCGAGTCCATCGAGAGGGATAACGAACATGAAATCTTCAATTTTTCTATAGGGCAGTCTACGGAGAATGAAGTAGATGTAGTAGCTAATGATTTGAAGCATTCTCCATTGATCAGCACAACAGTCGAAGACTGTTCTAAAACTGATGACATGGCCTATGAATTTACTATTAAGAACATCCATGATGGTATGGACAACGTTAGCGAGTCTACCGAGAGTGATAAAGGACATGCAATCTTCAATTTTTCTCTAGGACAATCTTCTGAGAAGGAAACTGATCTAGTTGCTGATGATCTAAAGCAGTCTCTATTGATCAGCACAACAATTGAAAAGTGTCCTACAATTGATGAGGTTGTCTATGAATCTGCTATTATGAACAGTAATGATGATATGGATCATAGCAGCATTAGCGAGTCTTCTGTGAGTGATAAGCAACAAGAAGTCTCCAATTTTACTACAAAAAAGCCTTCGAAGACGGAACCTGATATAGTTACTAATGATATGGAGCAATTTTCATTGCAAGAGAATCCTGTTGAACTTGTTAATCAACCATTCCCAGATGATGAAAGCCAAAATTTTAGCACTTCTTATGATGATTTACAAGAAGAATTTGGCTCGAGATTTAACATGATTCCGACATTTTATCGGTCAGTTTCAATGGAATCAGTTGAATCACAAGATGGAAGCAATGTAAGTGAAATTGAAGGTGAAAATATTGTTGATAGGTTAAAGCGACAAGTTGAATATGATAAGAAATGTATAAATTCTTTGTATAAAGAGTTGGAAGAAGAACGAAGTGCTTCTGAGGTTGCTGCAAGTCAAGCCATGGCCATGATTACAAGGTTGCAAGAGGAGAAGGCAGCAATGCACATGGAGGCTCTTCATTACTTGAGAATGATGGAAGAGCAAGCAGAGTATGATGTAGAAGCTCTAGAGAAAGCAAACGAACTCCTGAATGAAAAGGAGAGAGACATCCAAGATTTAGAAGCAGAGCTCGAATACTACAGATCTAATTACATGGTCAACACAATAGCTGAGACTGAGACTGAGCATGAAAAAAGTGATGGTGCAAATGAAGAAAATATCACTGCAGAGAATGAGAGTGTAGAATACCATGAATATAATGGCAATTATTCCTTTAAATCAACAATGGCGGAGTCATCAAAAGGAAGCTACAGATCTTTCAATAATCAAAATTCATCTTTAGAATTTGAAGATGAAAAAGTCTACATCCAGCTATGTTTGAAGAGCTTGGAGGATAAGATCAACAAAATATTTAATAATGGCCTTTTAGCCCGGGTACCTAATGGCATTGACAATGGAGAAGAGGTGAATCCTGAACAAAAAGGGGAAGAGGGTATTGATGCTGAGAGGTCTCAAAGAAATAATGAAGGCAATGGTCCATCCAAGCACATAGACCAAAAAAACTGTAATGGAGCAGTTACACCAGAATGCGAGTTGGTCGATCCGGATAAAAATGGTCATTTTAGCAGTGATGAAAACTTCTATGATGTGAAAGGCCAAATAAGTTATGCAAACAAAAGAGAGGAGGTTGACTTCCTTGCTCTTGAACATAAAATTTCAGACCTTACTAGCAAGTTGGAAGCACTACAAGCTGGTTATGATTTTCTTGAGCACTCTCTTAATTCTCTTCGCTACGGTGAGGAAGGTTTGCAATTTGCTCAAAATATCGTTCATCAGCTACAAGAATTGTGTAAACTCGGGATTATACTAGATCGTCAACCTGGCTCCTAA MAAKGKPFCKAQRSVQGFSAILKAAACEWFLIFLMLIDALLSYALTKFAHICNLQTPCILCSRLDHLLGKEKSNNYRNLLCTNHKLEISSLVSCHKHNKLVDGNEMCDACLCSFATTNNKLKLNSKMQRLTVGKLRSDTCGNGAHGNLLTRDSVPHCIKTRPCSCCNKPWKTRPNAQGLLQLKSSLNVATKPNIPYPLRLNSRDSLKKRRDKIFGSVTLQHPGKTGFNLLSHVGFSELRITSDSELEVMLSEEDDDKTLICENSVLKEDSVLQSITQIQLKRHCNNCDQVKPSINFVDPRPSPLESYVQVDVQKPHDVKSLACDATFHGLNELNWLPWPANPTANLSTWAELISLDDASSVASNVLGLSRANSMEKSELTDSLNQESTISCCQQFIALHDDPQVVGKLTTSKETGTDNMGIASPSEHGDHSTSISTKVEKRPKIDEVVNESSSGKTNDGSDHSSDSESSESDNEHEANLATRQPLDSSSGNTNDDSNHNSDSESSESDKEHKVNFATRQPLESSSGNTNDDSNHNSDSESSENGKEHEVNFATRQPLEKEADIVSNDMKQPPSISISVQECFKTDEVVYESAIKNTNDDMDHNSARESSESDKEQEVFNFTADQPLEKEIDAVTNDLKQSPMVSTTIEECPKIDEVVYVSDNRNTNNDLDQNSVSEYFESDKEREVSNFAIGQSSKKEIDIVTDDLKQTPLINTTVEECSKTDVVAYEFAINNINDDMDSVSESIESGKEHEILNFSIGQSSEKETNLVTNDLKQSTLISTTIEECPKTNEVIDESAIKNINDDIDNVSESIERDNEHEIFNFSIGQSTENEVDVVANDLKHSPLISTTVEDCSKTDDMAYEFTIKNIHDGMDNVSESTESDKGHAIFNFSLGQSSEKETDLVADDLKQSLLISTTIEKCPTIDEVVYESAIMNSNDDMDHSSISESSVSDKQQEVSNFTTKKPSKTEPDIVTNDMEQFSLQENPVELVNQPFPDDESQNFSTSYDDLQEEFGSRFNMIPTFYRSVSMESVESQDGSNVSEIEGENIVDRLKRQVEYDKKCINSLYKELEEERSASEVAASQAMAMITRLQEEKAAMHMEALHYLRMMEEQAEYDVEALEKANELLNEKERDIQDLEAELEYYRSNYMVNTIAETETEHEKSDGANEENITAENESVEYHEYNGNYSFKSTMAESSKGSYRSFNNQNSSLEFEDEKVYIQLCLKSLEDKINKIFNNGLLARVPNGIDNGEEVNPEQKGEEGIDAERSQRNNEGNGPSKHIDQKNCNGAVTPECELVDPDKNGHFSSDENFYDVKGQISYANKREEVDFLALEHKISDLTSKLEALQAGYDFLEHSLNSLRYGEEGLQFAQNIVHQLQELCKLGIILDRQPGS
BLAST of Lsi05G009800 vs. Swiss-Prot
Match: MYOB4_ARATH (Probable myosin-binding protein 4 OS=Arabidopsis thaliana GN=MYOB4 PE=3 SV=1) HSP 1 Score: 180.6 bits (457), Expect = 1.1e-43 Identity = 116/250 (46.40%), Postives = 144/250 (57.60%), Query Frame = 1
BLAST of Lsi05G009800 vs. Swiss-Prot
Match: MYOB1_ARATH (Myosin-binding protein 1 OS=Arabidopsis thaliana GN=MYOB1 PE=1 SV=1) HSP 1 Score: 144.1 bits (362), Expect = 1.2e-32 Identity = 85/241 (35.27%), Postives = 130/241 (53.94%), Query Frame = 1
BLAST of Lsi05G009800 vs. Swiss-Prot
Match: MYOB2_ARATH (Myosin-binding protein 2 OS=Arabidopsis thaliana GN=MYOB2 PE=1 SV=1) HSP 1 Score: 118.6 bits (296), Expect = 5.3e-25 Identity = 134/508 (26.38%), Postives = 238/508 (46.85%), Query Frame = 1
BLAST of Lsi05G009800 vs. Swiss-Prot
Match: MYOB6_ARATH (Probable myosin-binding protein 6 OS=Arabidopsis thaliana GN=MYOB6 PE=2 SV=1) HSP 1 Score: 110.9 bits (276), Expect = 1.1e-22 Identity = 75/176 (42.61%), Postives = 108/176 (61.36%), Query Frame = 1
BLAST of Lsi05G009800 vs. Swiss-Prot
Match: MYOB5_ARATH (Probable myosin-binding protein 5 OS=Arabidopsis thaliana GN=MYOB5 PE=2 SV=1) HSP 1 Score: 93.6 bits (231), Expect = 1.8e-17 Identity = 118/382 (30.89%), Postives = 176/382 (46.07%), Query Frame = 1
BLAST of Lsi05G009800 vs. TrEMBL
Match: A0A0A0KHP0_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_6G410080 PE=4 SV=1) HSP 1 Score: 1105.5 bits (2858), Expect = 0.0e+00 Identity = 665/1023 (65.00%), Postives = 756/1023 (73.90%), Query Frame = 1
BLAST of Lsi05G009800 vs. TrEMBL
Match: W9RM96_9ROSA (Cytochrome P450 94A1 OS=Morus notabilis GN=L484_005750 PE=4 SV=1) HSP 1 Score: 282.3 bits (721), Expect = 3.1e-72 Identity = 192/452 (42.48%), Postives = 251/452 (55.53%), Query Frame = 1
BLAST of Lsi05G009800 vs. TrEMBL
Match: A0A061DNZ1_THECC (Uncharacterized protein OS=Theobroma cacao GN=TCM_004165 PE=4 SV=1) HSP 1 Score: 278.1 bits (710), Expect = 5.9e-71 Identity = 195/500 (39.00%), Postives = 274/500 (54.80%), Query Frame = 1
BLAST of Lsi05G009800 vs. TrEMBL
Match: A5AJ61_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VITISV_031407 PE=4 SV=1) HSP 1 Score: 272.3 bits (695), Expect = 3.2e-69 Identity = 172/363 (47.38%), Postives = 218/363 (60.06%), Query Frame = 1
BLAST of Lsi05G009800 vs. TrEMBL
Match: F6GXN0_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_07s0141g00860 PE=4 SV=1) HSP 1 Score: 271.9 bits (694), Expect = 4.2e-69 Identity = 179/386 (46.37%), Postives = 230/386 (59.59%), Query Frame = 1
BLAST of Lsi05G009800 vs. TAIR10
Match: AT2G30690.1 (AT2G30690.1 Protein of unknown function, DUF593) HSP 1 Score: 180.6 bits (457), Expect = 6.5e-45 Identity = 116/250 (46.40%), Postives = 144/250 (57.60%), Query Frame = 1
BLAST of Lsi05G009800 vs. TAIR10
Match: AT1G08800.1 (AT1G08800.1 Protein of unknown function, DUF593) HSP 1 Score: 144.1 bits (362), Expect = 6.7e-34 Identity = 85/241 (35.27%), Postives = 130/241 (53.94%), Query Frame = 1
BLAST of Lsi05G009800 vs. TAIR10
Match: AT1G70750.1 (AT1G70750.1 Protein of unknown function, DUF593) HSP 1 Score: 118.6 bits (296), Expect = 3.0e-26 Identity = 134/508 (26.38%), Postives = 238/508 (46.85%), Query Frame = 1
BLAST of Lsi05G009800 vs. TAIR10
Match: AT1G74830.1 (AT1G74830.1 Protein of unknown function, DUF593) HSP 1 Score: 110.9 bits (276), Expect = 6.3e-24 Identity = 75/176 (42.61%), Postives = 108/176 (61.36%), Query Frame = 1
BLAST of Lsi05G009800 vs. TAIR10
Match: AT1G18990.1 (AT1G18990.1 Protein of unknown function, DUF593) HSP 1 Score: 93.6 bits (231), Expect = 1.0e-18 Identity = 118/382 (30.89%), Postives = 176/382 (46.07%), Query Frame = 1
BLAST of Lsi05G009800 vs. NCBI nr
Match: gi|659098016|ref|XP_008449933.1| (PREDICTED: LOW QUALITY PROTEIN: probable GPI-anchored adhesin-like protein PGA55 [Cucumis melo]) HSP 1 Score: 1251.9 bits (3238), Expect = 0.0e+00 Identity = 718/979 (73.34%), Postives = 804/979 (82.12%), Query Frame = 1
BLAST of Lsi05G009800 vs. NCBI nr
Match: gi|778716207|ref|XP_011657520.1| (PREDICTED: myosin-binding protein 1-like isoform X1 [Cucumis sativus]) HSP 1 Score: 1105.5 bits (2858), Expect = 0.0e+00 Identity = 665/1023 (65.00%), Postives = 756/1023 (73.90%), Query Frame = 1
BLAST of Lsi05G009800 vs. NCBI nr
Match: gi|778716215|ref|XP_011657522.1| (PREDICTED: myosin-binding protein 1-like isoform X2 [Cucumis sativus]) HSP 1 Score: 1083.9 bits (2802), Expect = 0.0e+00 Identity = 639/937 (68.20%), Postives = 728/937 (77.69%), Query Frame = 1
BLAST of Lsi05G009800 vs. NCBI nr
Match: gi|1009147336|ref|XP_015891356.1| (PREDICTED: probable myosin-binding protein 4 [Ziziphus jujuba]) HSP 1 Score: 301.2 bits (770), Expect = 9.3e-78 Identity = 200/477 (41.93%), Postives = 270/477 (56.60%), Query Frame = 1
BLAST of Lsi05G009800 vs. NCBI nr
Match: gi|703112265|ref|XP_010100076.1| (Cytochrome P450 94A1 [Morus notabilis]) HSP 1 Score: 282.3 bits (721), Expect = 4.5e-72 Identity = 192/452 (42.48%), Postives = 251/452 (55.53%), 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: |