Bhi02G000120 (gene) Wax gourd
The following sequences are available for this feature:
Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TATACATTTATTTTTTCTTCACTCTCAATCAAGGTCCATTTTTCATTAGGGTTGTTTTTGGGGGGAATATTTGATGCATTTGGGCACTAAATGCTCTTTGATAGATGGTAAATCTCTCTCCACAAGCCTTGCAATTTGCAAAAGATGAAGTCTAAAGGTTAAATCCTCTGTTTTTCTCATAAAAGTTTTTCATTTCCCTCACAATCTCAATCTCTCTCTTGTTCTTCTTTCTCTCTCCTCCATAGTCTTTTCTTCCATGGTCTTGAAGTCATACTCAGTATATTCCTTCATCCAAAAGTTTCCTCATGACTCATAAACATTCAAGTTAGTACTAACACCATAGCCTTGTTTTTGCTGATCTTATTGTTCTCATCTCAATTATCCCCTCTATTCAATTCCCTTCCATTCACTAGTTTCTACCATAATTGTGAAAACCCTAATTTTCCTTTCCGCCTTTTCTGTCTCAATTTTGATCTTTCTGAGTTGGGTTTTGTACTGGGATTACTCTTTGAACTTCTTTTCGATATCTTTGATTGATTCTTGCAGTTTCTCTCTGAACCCAGTTTTGTTAGAGCTTACTTTTTCCTACACAGCTTGATTATGGCTGTGTTTTCGTAACTAAAGGGTGTACACAGATTGTTTTTGCACGCTATGGAACCCTGCATTTCTGTAGGGTTTACCTCAAATTCAAATTGAGTCAATTAGGGAATAAAGATGATTAGATGATTTCTTGAATGGTTTTGAGTATACTGTTTTTAATCGTAAGTTGCTCGCTGCATTGCTGTTTACGCAATGTCGGATGATATGCTTCTTCATTTCTCTTCCAATTCATCCAATCAATCGGACCAGTCTTTGCCGACCAAAATGGCCAAGCTCGAAGCTCGTATGGTCGGTAAGACCTCGTCCATCCAGCCGCCTGCTCAGTCGCAGTCAACCAGGACTTCTGTCTCATCTGCTGTGAAATTTGTCGCCACTGAAAATTTGATCGAGCCCTCCACTTCGAGTGATTCTGATGATGCTGTAAGTTCCATTTACCATTCATGTGCAACTTGTATTCATTCCTCTTCGTTTCTGTATCTCGAGAATTGAGTTTTAGTTGGTTATTGAGATTGTGACTGATTAAACAACCTGCCATTCTAATTTTTCCCATTGGAACTGACTGGAGTTAGGCGTGGGAAATGAGAATGCACCAACCCACAACTAGGATAATGTACTATCACCCGTATTACTTTTGTGTGGACAATCTTTGATTTTCTTGTCTTAAATAGTGTCTAGAGTGGATTTTTTATTTTCTTGTGATACTCTGTTATTGAAAGGTTGACATCGATAACTTTGGAAAAAGTAAGCGAGATTTATTCGTGTTAGAATATAATTTTGGTGCTTTTGGCTGACCTATGAACTTTAACGTCCTTTGACAGAAAAAATGAACTTGAACGTTCTTATTTAGGATCCATATCCATTTATTTGTTTTCGTTGATAACCAAAACTTATTTTTGCTTTGTAAGTATGATAACTTAAAGTTGAGAGATTATCTATTATGGACTTGATGATTTCTTTTAGTACAATAGAGGGTGGGGGGATTCAAACTATAAATTTCTTGGTTACTAATATCTATTATATGCTCGTTGAGCTATGCTCGCATTGGCTTATTCTGGATTTGATGATATTGTATGTAATATATTGTATATTAGACTGGAGATGGATTCCTCATCCAAGCTAACACCCAAAAGCGTCAAAAACTTCAAGAGGCCAATGACCCAGTCCTTCCTGAACGTGCTGAGGTAGTTCTTATTATTTTGGTTATGGTTTGGAGTAACAATTGCTGTAGTTTAAATATGATAGACAATTCCTAAACCCTGGTTCATTGATCATAAATGTTTTTATCCAATGAAATGTTCGTGTTTCTTGTATAAGTTTTTCATTTTCTAGTTACTGCATCAAACCTTGTTGTCTTCTTTATCGAGCACTTGACTGTCTGTGCCTTCTCCGTCTTGTTAATTTTTTTTCTCCCTTTTCTTTTGATTTTCTGAGTCTATTGACCTGCAAGTTGTTTTTTGGCACCTATTATACTCCTTGGAATTTTACCTTTAATGACCAATATATATATATATAAAATAAAATTACAAGGCATTTCAGGCAGTGGAAGATGGAAGGCAAAATCTGGTGGAAGCCACAGAGACCAAAAAGAATGTGGATGTAAATAGGAAAAAACAAGCCAGAGGAAGGGGACAATCCCTCTCAAATCGAGGTCGTGGGTCAAGAGTTAATGATCAGATAAAATCACAAATTTCTCTCTCAACAATTCCACCTACCAATGGTCAACACGACAGTTTATACCTTAAGGTAAGATCTGACTGATCAGTTAGTCAAATCTGTAATGTTGTTTGTGCTTTAATTGAACAATTTTGTGTTATTTAGTTCTTTATGATGGATTGACCATTATTTAGTTCTTTATGATGGATTGACCATTTAGTTGAAGTTATTTATTTGATTGAAAGATAGTCTCCAAAATCTATTTCAGACATCTTTTTATAGGTATATATATATTTTTTTGTTTATTTATATCTTATTTAATTTCCTCGTTTTTAGAATTGGAGAGCTTCTTCTATAAATCCTTGTCTTTTTGGGCATCTTGGCTCTTTTTGTATGTTTCCTTTTTCGATGAAAATGCCACACTTTGTTTAATTGTGCTGGAGACTCTCATTCAGGCTTTGGTAATAGATGATATTTGTGAAACTGTCATCCTGCTTTTCCACAAATTTTTAGGTGTCCTACTGGGAGCACAAAGGTTCTGTCATCCTTCTTTCAATTTGTCTAGTTTAAGTAAGTGATCTTAGGAAGTTAGACACCTTCTCCAAAGTTGCATAGATTCCTTTAAAGTGGAGAATAGACAAGGATAGTGTGATCAGACAAGAGATATCCCTATCATGGGTGAGGAAGTCATCTTTAATGTGTTCCACTAAAACTCAGTTGTCGTCCAGTGTAATCAAATGGGACACTTATCAGATGGTTGCTACAAGCAATCACATAGAGGTAGTGCAGCAGGAATTGGAGGAGGAAAATGCACTAACTCAGAAAGATGACGAGGAAGCCATGGGTGCTATGTTGAAGGGGATGAAGGGGAGCATTTGTCTTACATTTCATCAACTCTTACTCATGCAAAAATTGAAATGACCTTCTCAACAGCACTCAATATTCAGGACTTGTTGCAGCAAGAATGATATGGTTGATGAAATGATTTTAGAGGTGGTGGTAGAGAGAATATGTTCCATCTCTAAGAGTTGCAAGGAGTCGATTGAGTAGCTTTTCCTCCATCCACCGTTTCGTGATAAAGGGTGCTTTTTGTGGCAGGAGGCTTTAGGGAGAGAGAAACAACATAATCTTTAGAGGGCTTGAGAGTTCCTATGACGATGTTTGGTCTCTACCAGACTCTTTTGTATTTACTTGGTCTTATTTCTCGACTGGAGCCTCTTTTGTAGTCTGACTTTTCTTTTTGTGGGGTTTTCCTTTTTTATATGTCTGACTATGCCTTCATTTTTTCTCAATGAAAGTTAAATTTTTTTCAATTCTTTTAAAAGACAGAGAATATATTTTATCTTTCCTCAGTGAAACTTTCAAGTCGACCCATGATCCATTATCCTTTGTTACCCATGCAAGATTGCATGGGTTGGAGAAGCGGATCAGGCCTATATAAATGAGCTGTTCCATTTTCTTTTTGAAAAGGTCTTCTTTCATTTTTTCTCAATGAAAGCAGTTTGTTTCTATCACAAAACGTATCAATTGAACCATAATGGGTTGGCCTAGTGGTAAATAAAGGAACATCTTCTTGGTAAAGGGCTAAGAGGTCATAAGTTCAATCTATGGTGGCCACCTACTTAGGATTCAATATCTTATGAGTTTCTTTGACACCTAAATATTGTAGGGTCAGGCGGGTTCTCCTGTGAGACTAGTCGAGGTGCGTGTAAGTTGACCTAGACACTCACGGATGTTTTAAAAAAAAAAAAAAAAAGGAAGAAGGCACTGATTGATAGTCTTTTCCTATATGGCACAGTGTTGGGATATATTTGGGTTGGTTGGTTCAACATCAATTATTCTTGTTAGTTTAAGGTATACTAAAAAGCCAACTTAAATAACAGACTTTTTAATTAAAATTGATTGTCTGAAACAGGCAAAACCAATCAAAATTGACCAATGTTTTCTATTTTTAAAAGAAGTTGCCCCATCACGATGGCTTCTAGAAAGTATGAAATATTCAATTAGCAGCTACAAAATTTCTTGGGAAGGAAGGCCGTAAGACTAAGCATGGGCCTTCGCATAGTACCCTCATTTTCTACCTGGAAGAATGAGATACCTGAGCCATTGATCAAGCTATTGCAATGCAATTCTATTAATTCATTGTCCGAATTTAAAGTCCTGTTTTCTATTAAGAAAAAAAACATTTTGGTTGATTAGTAATCAATCTCTGGTTTTGCAGGATGGTATGTGTAAAGAGCATCTTCGGGTAGATAATCGATCTCCAATGGAGGTATGGCGTTTTTCATATGTGCATGGAAGCATTCTCCAATACAGGCAAACGTACCTTTTTTCTTTTTCTTTTTTGGATAGAGATATATCCTTATGTCAAATCCCTATGAAGCATGCATCTGAATGAGTGCAAAAAAGAATTTTTATGCCCATGTAATTCGCCGGTTTGCAACCTTTGAAATAAGATTAAATGTGTTTTGTCAACATACAATTGTTGACTTGTGAAGTGTTGTTTTGTTTGTAATGAATAGTATCTCCTGTTTGGTGCATGGAAAAAGTTTTCATTATGTGGAATATCTTGCCTTGGTGCCACAACTTATTGACATCTCAAATTTTTTCTTTTTGTTGGTTGTATTTAATAGGAAGAGTTGGTTTCTTTACGGGCAAAAGTTGCTTCATTGGAGGAGGATTTGCGAAAATCACGTCAAGAGTCTTCTGAATATCAAAATCTTTACCATGAATTAGAAAAGGTACATAGATAACACCCAAGATAGTTGAAAACCTATTTGCTAGAATACATTTTCCTTATGGACTTTGTCCATGCATATGGTGGCATTCGAAAATGTTTTTCTTTTTTGGAGTATTCTAGAATGTTTCATTCATAAGTTTGTTCATTTGCAAGACATCTTCGAATTGTCTTTTCTGTTTATTAATTTTATGATTTTATCTTTTCTCTTTGATCCTGATTTACGCAGGAATTGAAGGAGCTCAAAGAGTACGAACAGCAAATGAAGCCTAAGGTTTGTTTGTCTCAAGGAATTAATCTCTTACCTGTGAGCTGAAAAAATTTATAAAAATTTAACCGTGTATAATATCCAGTTTAAGAAGCTACAAGTTCCTTAGTGAAAACATTCCATCTAGGAGCTAGGTCATGAAGTCTAAGAATTCATCTACATCTATACTCTTCCTGGGGATTTTCCAATACCTAGAAGTCCCTGAACTATCTTCGGTCAATATGTGTCTGGAAGATGACTTTGTTTTTCACTAGCATTAACAATTCTATTATCTCTGCCACTACTAACTATATTCCACCCTACTCGCACCAGTCACTGCTTGCCTTTCTTGCCCAATTTATATATGGCCCACAACCTTATCTTACTTTATGGTAGCCATTTTTCTGACCATCAAGGTTGTTTACTCCAAAGGGAGGTTATTTACCATGAAATCTAGCTGATTGCTTCTTTATAATGTTATTTGTTCTCCTATTATGAAGAGGCAAATAGAACGTGCTTTCATCATCAAGAATTTGATTTTTTGTAGACACAGATTTGTCATTAACTATTTCATCCTTCTTGTGGATTTTATTGACATTACAGAGAACAAAAGTACTATCGGATTTGCTGATATCTGTTTCAAAGGCTGAGAGGCAGGAAGCGAGGATGAAAGTCCGACAAGACTCCTTGAGACTTGGCAATGTGGGTGTAATCAGGTTAGTTTTTTCATAATCTAGTTGTTATATGCCATTGCCACGTTATATCTTGCCCTTGCTTAGTGAGGGATTTATATCCCGTCTTCTTTACCCTACTTTAACAATTATGTTCCAATTCCTGGCCTCTAGATAGCCGTGCTAATGGACGAGATTTGTGAGACTTAAGCTATGGGTTTGAAATTTTGTCTGAAACTTTGACTATTCTGGGTTTTGGATTTGGATTTGGATTTGTCAATCAAATTATTGGCTTCTTGCAATCACATTCACTTTCAAGTTTTATTCAAGGAAAAAACTGATTGCATTTTTGTATGGATGTCAGAGCTGGGACAGTCATATCTGAAACGTGGGAGGATGGACAAGCATTGAAAGATCTAAATGCTCATCTTGTACGTCATCTTTATGCTTTTGTTAACGACTTAAATTTTAGGAAGAAACTAAACTTATTAAATTTTTCTTCTTTATCGGATCAAATAAACAAGGACTTTTTATATAGAAGAAAAACCATCGACCAATAAATAAGTTTTTTATTCCAAATATGAATAATCGGTATAAACACCCAGTCACCTAATACTCAGATAATATTACAGAAGTATAAAGAAAATCCAACATAACCATATCCAAAACAAATTTGAATTTGTTTCCAATTTAATAGTAGGTTTTTTGTTTGTTTGTTTGTTTTGTTTTTCTTTTTTTAAATTATTATTTGCAAATTATAGTAGAGCATGTTGTACTTTTTAGATCTTTTGTTGTGGATAAAATATTCTCACGAGCAAAGAAAATAGGATGAACATATCATAGCCTCAGCATTTGGCGAATAGTATATTTTTACTATCTGAACAAAAAGTTTTTTTTGTCACCTACTAGATCATGTATCTTTGTTTTAGTTTTTCCAACATGGAGTTCTTGTGAGTTGTACATTTAGTCATTTGTTCATTGTGACAAATAAGTTTCTCACTTTTCAGAAACAATTACTAGAAACCAAGGAGGCTATTGAACGACAGCGCAAGTCCTTGAAGAAAAGACAGCCGGGTAAGTTTTTCTCATGCACTAGTACATGTGATCTTGCTGCAAGATTTTTTGAAATTTAAGATAAGAATATATGCTTTGTGCCTAAAATTCTAAATTCAACCATCTAGAAGTGACTGAACTTTCTATTTTATAGACAAAGGTGATGGGACCGATGTAGAGCCAGGAGCCCAAGAAGAGGACAGTTTCATTCAGGATGAAATCTATAAATCCCGTCTGGCAAGCATTAAGCGTGTTAGTTCCTTTGTCATGTCTTGTTGTCTCTTTAATTGAAAACATTTGCAATTTTATTTATTGGTTTGCTTAGATGACATATCTATCTTATCATAATTTATAAACTCTTATGCCTTTTTGTTTCTTTTGTGATAATATATTTCTTCGATGTTCTTATCAAAATAATAATAATAATACTAAAATAAATAAATAAATAAAATAAAATAAAATAAATAATTTATGAACTCTTTGTAGGAAGAGGAAACTATTCTACGTGAAAGGGACCGATATGAAATTGATAAAGGAAGGCTTATACGTGAAATGAAGCGGATACGAGATGAGGATGGTTCTCGTTTCAACAATTTTCAGATTCTAAATTGCAGATATGCCCTTTTAAACCTTCTTGGGAAAGGAGGATTCAGTGAGGTTTACAAGGTCAGAAATTTGTGCTGTATAATTATTCTTAACATTCTCTCAAAAAAACTGTTCGAGATTTAAATTGATGGGAAAAAAACAAGACCGTCTCTGCCTACATTTGGCAACTGTAAAGATATACCTTTTTGCAGTGATTTTGAAGTAAGAAATTTCCAGCAGGCTTATGACTTGGTAGAGCATAGATATGTTGCGTGTAAGCTGCATGGGTTGAATGCTCAGTGGAGTGAAGAGAAGAAGCAAAGTTATATAAGGCATGCAATTAGGGAGTACAATATCCACAAAACATTGGTGCATACTCACATTGTTCGGCTATGGGACATTTTCGAGATTGATCAAAATACATTCTGTACAGTCTTAGAATATTGTAGCGGTATATCTCTGTTTTACCATTGTATATTTCTGATGTGCTTTTCATGTTGTGCGAGGAAGCCAGTTGAAATATTCTGCTTTGAACATAAACAAAATTGACACTTGTTTTCTGGAACAATCTGAAACGCATGATTTTATCAGACTATGCATAACACTGTCTATTTTTCTTCTTATCTTCATATGAAAAGTGGTATTTTTTTTTCGTCTTGCTTTATCAGTTGCACATTTTTTTTCTCCAGGGAAGGATCTTGATGCTGTTCTCAAGTCAACACCAATATTACCTGAGAAAGAAGCCAGGATTATCATAGTTCAGATATTTCATGGCCTCGTTTACTTGAACAGAAGGACACAAAAAATTATCCATTATGACCTGAAACCTGGTAACGTTTTATTTGATGAACTAGGTGTTGCAAAAGTGACGGATTTCGGTCTGAGTAAAATAGTTGAGGATGATGTTGGATCACAGGGTATGGAACTAACATCACAGGGTGCTGGAACATATTGGTAAATGTCTATTTTAGTGTATACTTTTGGCTTTTTATATGTTTTGACATTTATATCCTGCTAAGAGTATTGAATAGGCTGTGACTTTTTGAGTTGAGTAGAATAGTTTCTTTGCTAGTTATATCAAGTTTGCTTTCCTTTCCCCTCTCCTCTTTAGTCCATTTCTGTGTCTAAATGTGTAAACCATTGTTGACCTTTTTCAAGGAGGTAATGCGTTTTATGGAGAAATTATGGTGAACGAATGGTTCTTTTTTGGATTTTAAGTCCTTGATATTGTTTGTACAAGTTTTCTTCTTATAACGCCCCCATGCATGCATTCCTACTCTGTGTAGTGTCAGTCGTTGATTTGTTTTGGCATCTGCAGGTATTTACCTCCCGAATGCTTTGAACTCAGCAAGACTCCTTTAATATCATCCAAGGTTGGTTGTTCTATAGTTTATTTTCTCTTTTCTGCTGCATTCTTGTTTATGTTATTATAGTCGTGGACAACTGAATTTTAGATATCTCCATAATGGTACGATATTGTTTACTTTAGACATAAACCTTCATGACTTTGCTTTTGGTTTCACTCAAAATGCTTAAAGACATAGAAAATGGGGTGAGGGAAGATACGATAAGTATTCCCCACTGGTCGCCACCAATCTTTCAGTGTTAGATATATCTCTAGTTGGCTTGAATTAAGAATGGTTTGTATTTACCAAAGAATCTATACAAAGAACTCTGATCCAAAAACTAGGAAAAAGAACAAGGCAGTAAGGCTAACACCACATTTGTTTTTCTAAAAAAAAACATCAAGTTTCTTGCAAGTGAGTCTCCCAATTGTGATTTGTGCAGAAAAGTGTAGTATGTACTTTACTGCCTTGCTTTTCCTAAGCTCGGGTTTTCTATAACCTACCATCTTCTGAAAACAGGTTGATGTCTGGTCAGCGGGTGTACTACTATATCAAATGCTCTTTGGCAGACGTCCATTTGGACATGATCAGACACAAGAAAGAATACTTCGTGAAGACACCATTATAAAAGCTCGTAAAGTTGATTTCCCTACTCGACCTGCTGTCTCAAACGAGGCGAAGGTGAGCTGTAGTCTGATTTGCATTTGCTCAATTCCCTTCAACATAATATAAACTATTTTTGTGCTTAATAACACATTCATAATATATTTTGGCCATCCATATTTTGATATGTCAAGGTTTCCTACATATAATTTCCTATGTTATAATGTAGAGATTCACAGCAGTCAAACAATGGTTTTTATATTAACGTAATGCAGGATTTTATACGTCGTTGTTTGACATATAACCAAGCAGAGAGACCCGATGTTTTGACGATTGCTCAAGATTCATACCTAACATATTTGAAGAAGTAATCACGTGACAGAAGTATGGTTCTGGAGATCCACATTACAGAAATTTAACAGGTTCTATCTTTCTACAGCAAGCAAAGAAAGTATAGTAACTCATTGAAACTGTATACACAAAAAAAGAGCTGGTCTGCCATCCTTTTGAGTGACTTCAGTTGTCCTATCTTCAAATAATTGGAGGTTCGCAAAGTTTGTGGTTTGGAAAGTTGCCCTTTGGGTGGAAGGCACAGTGTCCTACAATCCTTGTGGTTTAGTGTTCTGAAAATGGGCTAGAGGCCCCTAAAATGGGGGAAAATGAGGGAAGTTTTGCTTTTCTTTTGTTTGCCCATATATTATTTTTCCCTTTCGGAAAATGATTGATTTTGTTGTATTAAATATTTTCTTCAGTTTATATGGTATTGGCAGTCTCTTTTTGCCAATCGTTAGATAAACCGCATTTCCACCAAGGTTTCATGTAGATGTGCAACTCTCAAGAATGAAAAGTTCATATTTTTCTTGAAGTAATGACTATTATGAAGGTCTTCTTAGTATTGTTGAATCTCAATGTTTGCCCTGGTATTGTGAAGTTGGACTACCTAGAGGCTGTTTATATGCTGAACGGGGTCTCTTTAGACTTTACTTGGGTCTCTTTTTTCATCCTTGAGGCTAAAGTCTCAGCAGATGAGTTGGACAAATGTTTTCTTCAATCACGTTTGATGCTTTAAT TATACATTTATTTTTTCTTCACTCTCAATCAAGGTCCATTTTTCATTAGGGTTGTTTTTGGGGGGAATATTTGATGCATTTGGGCACTAAATGCTCTTTGATAGATGGTAAATCTCTCTCCACAAGCCTTGCAATTTGCAAAAGATGAAGTCTAAAGGTTAAATCCTCTGTTTTTCTCATAAAAGTTTTTCATTTCCCTCACAATCTCAATCTCTCTCTTGTTCTTCTTTCTCTCTCCTCCATAGTCTTTTCTTCCATGGTCTTGAAGTCATACTCAGTATATTCCTTCATCCAAAAGTTTCCTCATGACTCATAAACATTCAAGTTAGTACTAACACCATAGCCTTGTTTTTGCTGATCTTATTGTTCTCATCTCAATTATCCCCTCTATTCAATTCCCTTCCATTCACTAGTTTCTACCATAATTGTGAAAACCCTAATTTTCCTTTCCGCCTTTTCTGTCTCAATTTTGATCTTTCTGAGTTGGGTTTTGTACTGGGATTACTCTTTGAACTTCTTTTCGATATCTTTGATTGATTCTTGCAGTTTCTCTCTGAACCCAGTTTTGTTAGAGCTTACTTTTTCCTACACAGCTTGATTATGGCTGTGTTTTCGTAACTAAAGGGTGTACACAGATTGTTTTTGCACGCTATGGAACCCTGCATTTCTGTAGGGTTTACCTCAAATTCAAATTGAGTCAATTAGGGAATAAAGATGATTAGATGATTTCTTGAATGGTTTTGAGTATACTGTTTTTAATCGTAAGTTGCTCGCTGCATTGCTGTTTACGCAATGTCGGATGATATGCTTCTTCATTTCTCTTCCAATTCATCCAATCAATCGGACCAGTCTTTGCCGACCAAAATGGCCAAGCTCGAAGCTCGTATGGTCGGTAAGACCTCGTCCATCCAGCCGCCTGCTCAGTCGCAGTCAACCAGGACTTCTGTCTCATCTGCTGTGAAATTTGTCGCCACTGAAAATTTGATCGAGCCCTCCACTTCGAGTGATTCTGATGATGCTACTGGAGATGGATTCCTCATCCAAGCTAACACCCAAAAGCGTCAAAAACTTCAAGAGGCCAATGACCCAGTCCTTCCTGAACGTGCTGAGGCAGTGGAAGATGGAAGGCAAAATCTGGTGGAAGCCACAGAGACCAAAAAGAATGTGGATGTAAATAGGAAAAAACAAGCCAGAGGAAGGGGACAATCCCTCTCAAATCGAGGTCGTGGGTCAAGAGTTAATGATCAGATAAAATCACAAATTTCTCTCTCAACAATTCCACCTACCAATGGTCAACACGACAGTTTATACCTTAAGGATGGTATGTGTAAAGAGCATCTTCGGGTAGATAATCGATCTCCAATGGAGGAAGAGTTGGTTTCTTTACGGGCAAAAGTTGCTTCATTGGAGGAGGATTTGCGAAAATCACGTCAAGAGTCTTCTGAATATCAAAATCTTTACCATGAATTAGAAAAGGAATTGAAGGAGCTCAAAGAGTACGAACAGCAAATGAAGCCTAAGAGAACAAAAGTACTATCGGATTTGCTGATATCTGTTTCAAAGGCTGAGAGGCAGGAAGCGAGGATGAAAGTCCGACAAGACTCCTTGAGACTTGGCAATGTGGGTGTAATCAGAGCTGGGACAGTCATATCTGAAACGTGGGAGGATGGACAAGCATTGAAAGATCTAAATGCTCATCTTAAACAATTACTAGAAACCAAGGAGGCTATTGAACGACAGCGCAAGTCCTTGAAGAAAAGACAGCCGGACAAAGGTGATGGGACCGATGTAGAGCCAGGAGCCCAAGAAGAGGACAGTTTCATTCAGGATGAAATCTATAAATCCCGTCTGGCAAGCATTAAGCGTGAAGAGGAAACTATTCTACGTGAAAGGGACCGATATGAAATTGATAAAGGAAGGCTTATACGTGAAATGAAGCGGATACGAGATGAGGATGGTTCTCGTTTCAACAATTTTCAGATTCTAAATTGCAGATATGCCCTTTTAAACCTTCTTGGGAAAGGAGGATTCAGTGAGGTTTACAAGGCTTATGACTTGGTAGAGCATAGATATGTTGCGTGTAAGCTGCATGGGTTGAATGCTCAGTGGAGTGAAGAGAAGAAGCAAAGTTATATAAGGCATGCAATTAGGGAGTACAATATCCACAAAACATTGGTGCATACTCACATTGTTCGGCTATGGGACATTTTCGAGATTGATCAAAATACATTCTGTACAGTCTTAGAATATTGTAGCGGGAAGGATCTTGATGCTGTTCTCAAGTCAACACCAATATTACCTGAGAAAGAAGCCAGGATTATCATAGTTCAGATATTTCATGGCCTCGTTTACTTGAACAGAAGGACACAAAAAATTATCCATTATGACCTGAAACCTGGTAACGTTTTATTTGATGAACTAGGTGTTGCAAAAGTGACGGATTTCGGTCTGAGTAAAATAGTTGAGGATGATGTTGGATCACAGGGTATGGAACTAACATCACAGGGTGCTGGAACATATTGGTATTTACCTCCCGAATGCTTTGAACTCAGCAAGACTCCTTTAATATCATCCAAGGTTGATGTCTGGTCAGCGGGTGTACTACTATATCAAATGCTCTTTGGCAGACGTCCATTTGGACATGATCAGACACAAGAAAGAATACTTCGTGAAGACACCATTATAAAAGCTCGTAAAGTTGATTTCCCTACTCGACCTGCTGTCTCAAACGAGGCGAAGGATTTTATACGTCGTTGTTTGACATATAACCAAGCAGAGAGACCCGATGTTTTGACGATTGCTCAAGATTCATACCTAACATATTTGAAGAAGTAATCACGTGACAGAAGTATGGTTCTGGAGATCCACATTACAGAAATTTAACAGGTTCTATCTTTCTACAGCAAGCAAAGAAAGTATAGTAACTCATTGAAACTGTATACACAAAAAAAGAGCTGGTCTGCCATCCTTTTGAGTGACTTCAGTTGTCCTATCTTCAAATAATTGGAGGTTCGCAAAGTTTGTGGTTTGGAAAGTTGCCCTTTGGGTGGAAGGCACAGTGTCCTACAATCCTTGTGGTTTAGTGTTCTGAAAATGGGCTAGAGGCCCCTAAAATGGGGGAAAATGAGGGAAGTTTTGCTTTTCTTTTGTTTGCCCATATATTATTTTTCCCTTTCGGAAAATGATTGATTTTGTTGTATTAAATATTTTCTTCAGTTTATATGGTATTGGCAGTCTCTTTTTGCCAATCGTTAGATAAACCGCATTTCCACCAAGGTTTCATGTAGATGTGCAACTCTCAAGAATGAAAAGTTCATATTTTTCTTGAAGTAATGACTATTATGAAGGTCTTCTTAGTATTGTTGAATCTCAATGTTTGCCCTGGTATTGTGAAGTTGGACTACCTAGAGGCTGTTTATATGCTGAACGGGGTCTCTTTAGACTTTACTTGGGTCTCTTTTTTCATCCTTGAGGCTAAAGTCTCAGCAGATGAGTTGGACAAATGTTTTCTTCAATCACGTTTGATGCTTTAAT ATGTCGGATGATATGCTTCTTCATTTCTCTTCCAATTCATCCAATCAATCGGACCAGTCTTTGCCGACCAAAATGGCCAAGCTCGAAGCTCGTATGGTCGGTAAGACCTCGTCCATCCAGCCGCCTGCTCAGTCGCAGTCAACCAGGACTTCTGTCTCATCTGCTGTGAAATTTGTCGCCACTGAAAATTTGATCGAGCCCTCCACTTCGAGTGATTCTGATGATGCTACTGGAGATGGATTCCTCATCCAAGCTAACACCCAAAAGCGTCAAAAACTTCAAGAGGCCAATGACCCAGTCCTTCCTGAACGTGCTGAGGCAGTGGAAGATGGAAGGCAAAATCTGGTGGAAGCCACAGAGACCAAAAAGAATGTGGATGTAAATAGGAAAAAACAAGCCAGAGGAAGGGGACAATCCCTCTCAAATCGAGGTCGTGGGTCAAGAGTTAATGATCAGATAAAATCACAAATTTCTCTCTCAACAATTCCACCTACCAATGGTCAACACGACAGTTTATACCTTAAGGATGGTATGTGTAAAGAGCATCTTCGGGTAGATAATCGATCTCCAATGGAGGAAGAGTTGGTTTCTTTACGGGCAAAAGTTGCTTCATTGGAGGAGGATTTGCGAAAATCACGTCAAGAGTCTTCTGAATATCAAAATCTTTACCATGAATTAGAAAAGGAATTGAAGGAGCTCAAAGAGTACGAACAGCAAATGAAGCCTAAGAGAACAAAAGTACTATCGGATTTGCTGATATCTGTTTCAAAGGCTGAGAGGCAGGAAGCGAGGATGAAAGTCCGACAAGACTCCTTGAGACTTGGCAATGTGGGTGTAATCAGAGCTGGGACAGTCATATCTGAAACGTGGGAGGATGGACAAGCATTGAAAGATCTAAATGCTCATCTTAAACAATTACTAGAAACCAAGGAGGCTATTGAACGACAGCGCAAGTCCTTGAAGAAAAGACAGCCGGACAAAGGTGATGGGACCGATGTAGAGCCAGGAGCCCAAGAAGAGGACAGTTTCATTCAGGATGAAATCTATAAATCCCGTCTGGCAAGCATTAAGCGTGAAGAGGAAACTATTCTACGTGAAAGGGACCGATATGAAATTGATAAAGGAAGGCTTATACGTGAAATGAAGCGGATACGAGATGAGGATGGTTCTCGTTTCAACAATTTTCAGATTCTAAATTGCAGATATGCCCTTTTAAACCTTCTTGGGAAAGGAGGATTCAGTGAGGTTTACAAGGCTTATGACTTGGTAGAGCATAGATATGTTGCGTGTAAGCTGCATGGGTTGAATGCTCAGTGGAGTGAAGAGAAGAAGCAAAGTTATATAAGGCATGCAATTAGGGAGTACAATATCCACAAAACATTGGTGCATACTCACATTGTTCGGCTATGGGACATTTTCGAGATTGATCAAAATACATTCTGTACAGTCTTAGAATATTGTAGCGGGAAGGATCTTGATGCTGTTCTCAAGTCAACACCAATATTACCTGAGAAAGAAGCCAGGATTATCATAGTTCAGATATTTCATGGCCTCGTTTACTTGAACAGAAGGACACAAAAAATTATCCATTATGACCTGAAACCTGGTAACGTTTTATTTGATGAACTAGGTGTTGCAAAAGTGACGGATTTCGGTCTGAGTAAAATAGTTGAGGATGATGTTGGATCACAGGGTATGGAACTAACATCACAGGGTGCTGGAACATATTGGTATTTACCTCCCGAATGCTTTGAACTCAGCAAGACTCCTTTAATATCATCCAAGGTTGATGTCTGGTCAGCGGGTGTACTACTATATCAAATGCTCTTTGGCAGACGTCCATTTGGACATGATCAGACACAAGAAAGAATACTTCGTGAAGACACCATTATAAAAGCTCGTAAAGTTGATTTCCCTACTCGACCTGCTGTCTCAAACGAGGCGAAGGATTTTATACGTCGTTGTTTGACATATAACCAAGCAGAGAGACCCGATGTTTTGACGATTGCTCAAGATTCATACCTAACATATTTGAAGAAGTAA MSDDMLLHFSSNSSNQSDQSLPTKMAKLEARMVGKTSSIQPPAQSQSTRTSVSSAVKFVATENLIEPSTSSDSDDATGDGFLIQANTQKRQKLQEANDPVLPERAEAVEDGRQNLVEATETKKNVDVNRKKQARGRGQSLSNRGRGSRVNDQIKSQISLSTIPPTNGQHDSLYLKDGMCKEHLRVDNRSPMEEELVSLRAKVASLEEDLRKSRQESSEYQNLYHELEKELKELKEYEQQMKPKRTKVLSDLLISVSKAERQEARMKVRQDSLRLGNVGVIRAGTVISETWEDGQALKDLNAHLKQLLETKEAIERQRKSLKKRQPDKGDGTDVEPGAQEEDSFIQDEIYKSRLASIKREEETILRERDRYEIDKGRLIREMKRIRDEDGSRFNNFQILNCRYALLNLLGKGGFSEVYKAYDLVEHRYVACKLHGLNAQWSEEKKQSYIRHAIREYNIHKTLVHTHIVRLWDIFEIDQNTFCTVLEYCSGKDLDAVLKSTPILPEKEARIIIVQIFHGLVYLNRRTQKIIHYDLKPGNVLFDELGVAKVTDFGLSKIVEDDVGSQGMELTSQGAGTYWYLPPECFELSKTPLISSKVDVWSAGVLLYQMLFGRRPFGHDQTQERILREDTIIKARKVDFPTRPAVSNEAKDFIRRCLTYNQAERPDVLTIAQDSYLTYLKK
BLAST of Bhi02G000120 vs. Swiss-Prot
Match: sp|Q39238|TSL_ARATH (Serine/threonine-protein kinase TOUSLED OS=Arabidopsis thaliana OX=3702 GN=TOUSLED PE=1 SV=1) HSP 1 Score: 851.3 bits (2198), Expect = 7.5e-246 Identity = 476/696 (68.39%), Postives = 536/696 (77.01%), Query Frame = 0
BLAST of Bhi02G000120 vs. Swiss-Prot
Match: sp|Q9UKI8|TLK1_HUMAN (Serine/threonine-protein kinase tousled-like 1 OS=Homo sapiens OX=9606 GN=TLK1 PE=1 SV=2) HSP 1 Score: 412.5 bits (1059), Expect = 8.9e-114 Identity = 238/515 (46.21%), Postives = 317/515 (61.55%), Query Frame = 0
BLAST of Bhi02G000120 vs. Swiss-Prot
Match: sp|Q1ECX4|TLK2_DANRE (Serine/threonine-protein kinase tousled-like 2 OS=Danio rerio OX=7955 GN=tlk2 PE=2 SV=2) HSP 1 Score: 409.5 bits (1051), Expect = 7.5e-113 Identity = 243/545 (44.59%), Postives = 323/545 (59.27%), Query Frame = 0
BLAST of Bhi02G000120 vs. Swiss-Prot
Match: sp|Q90ZY6|TLK1B_DANRE (Serine/threonine-protein kinase tousled-like 1-B OS=Danio rerio OX=7955 GN=tlk1b PE=2 SV=1) HSP 1 Score: 406.8 bits (1044), Expect = 4.9e-112 Identity = 227/487 (46.61%), Postives = 304/487 (62.42%), Query Frame = 0
BLAST of Bhi02G000120 vs. Swiss-Prot
Match: sp|O55047|TLK2_MOUSE (Serine/threonine-protein kinase tousled-like 2 OS=Mus musculus OX=10090 GN=Tlk2 PE=1 SV=2) HSP 1 Score: 400.2 bits (1027), Expect = 4.6e-110 Identity = 242/566 (42.76%), Postives = 331/566 (58.48%), Query Frame = 0
BLAST of Bhi02G000120 vs. TAIR10
Match: AT5G20930.1 (Protein kinase superfamily protein) HSP 1 Score: 851.3 bits (2198), Expect = 4.2e-247 Identity = 476/696 (68.39%), Postives = 536/696 (77.01%), Query Frame = 0
BLAST of Bhi02G000120 vs. TAIR10
Match: AT2G45490.1 (ataurora3) HSP 1 Score: 115.2 bits (287), Expect = 1.6e-25 Identity = 90/271 (33.21%), Postives = 130/271 (47.97%), Query Frame = 0
BLAST of Bhi02G000120 vs. TAIR10
Match: AT2G25880.1 (ataurora2) HSP 1 Score: 112.5 bits (280), Expect = 1.1e-24 Identity = 83/260 (31.92%), Postives = 123/260 (47.31%), Query Frame = 0
BLAST of Bhi02G000120 vs. TAIR10
Match: AT4G32830.1 (ataurora1) HSP 1 Score: 112.1 bits (279), Expect = 1.4e-24 Identity = 82/260 (31.54%), Postives = 123/260 (47.31%), Query Frame = 0
BLAST of Bhi02G000120 vs. TAIR10
Match: AT3G49370.1 (Calcium-dependent protein kinase (CDPK) family protein) HSP 1 Score: 109.8 bits (273), Expect = 6.8e-24 Identity = 80/225 (35.56%), Postives = 120/225 (53.33%), Query Frame = 0
BLAST of Bhi02G000120 vs. TrEMBL
Match: tr|A0A1S3BWF2|A0A1S3BWF2_CUCME (LOW QUALITY PROTEIN: serine/threonine-protein kinase TOUSLED OS=Cucumis melo OX=3656 GN=LOC103494200 PE=4 SV=1) HSP 1 Score: 1251.1 bits (3236), Expect = 0.0e+00 Identity = 651/683 (95.31%), Postives = 662/683 (96.93%), Query Frame = 0
BLAST of Bhi02G000120 vs. TrEMBL
Match: tr|A0A0A0LPS0|A0A0A0LPS0_CUCSA (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G025770 PE=4 SV=1) HSP 1 Score: 1189.5 bits (3076), Expect = 0.0e+00 Identity = 625/683 (91.51%), Postives = 635/683 (92.97%), Query Frame = 0
BLAST of Bhi02G000120 vs. TrEMBL
Match: tr|A0A1Q3ATN8|A0A1Q3ATN8_CEPFO (Pkinase domain-containing protein OS=Cephalotus follicularis OX=3775 GN=CFOL_v3_02631 PE=4 SV=1) HSP 1 Score: 1037.7 bits (2682), Expect = 1.1e-299 Identity = 545/683 (79.80%), Postives = 595/683 (87.12%), Query Frame = 0
BLAST of Bhi02G000120 vs. TrEMBL
Match: tr|A0A2P6QEU3|A0A2P6QEU3_ROSCH (Uncharacterized protein OS=Rosa chinensis OX=74649 GN=RchiOBHm_Chr5g0049381 PE=4 SV=1) HSP 1 Score: 1030.0 bits (2662), Expect = 2.4e-297 Identity = 545/681 (80.03%), Postives = 592/681 (86.93%), Query Frame = 0
BLAST of Bhi02G000120 vs. TrEMBL
Match: tr|D7T1L4|D7T1L4_VITVI (Uncharacterized protein OS=Vitis vinifera OX=29760 GN=VIT_06s0009g01060 PE=4 SV=1) HSP 1 Score: 1018.8 bits (2633), Expect = 5.5e-294 Identity = 542/681 (79.59%), Postives = 581/681 (85.32%), Query Frame = 0
BLAST of Bhi02G000120 vs. NCBI nr
Match: XP_008453516.1 (PREDICTED: LOW QUALITY PROTEIN: serine/threonine-protein kinase TOUSLED [Cucumis melo]) HSP 1 Score: 1251.1 bits (3236), Expect = 0.0e+00 Identity = 651/683 (95.31%), Postives = 662/683 (96.93%), Query Frame = 0
BLAST of Bhi02G000120 vs. NCBI nr
Match: XP_022921556.1 (serine/threonine-protein kinase TOUSLED-like isoform X2 [Cucurbita moschata]) HSP 1 Score: 1243.8 bits (3217), Expect = 0.0e+00 Identity = 644/683 (94.29%), Postives = 664/683 (97.22%), Query Frame = 0
BLAST of Bhi02G000120 vs. NCBI nr
Match: XP_022988492.1 (serine/threonine-protein kinase TOUSLED-like isoform X2 [Cucurbita maxima]) HSP 1 Score: 1243.0 bits (3215), Expect = 0.0e+00 Identity = 644/683 (94.29%), Postives = 661/683 (96.78%), Query Frame = 0
BLAST of Bhi02G000120 vs. NCBI nr
Match: XP_022921555.1 (serine/threonine-protein kinase TOUSLED-like isoform X1 [Cucurbita moschata]) HSP 1 Score: 1239.2 bits (3205), Expect = 0.0e+00 Identity = 644/684 (94.15%), Postives = 664/684 (97.08%), Query Frame = 0
BLAST of Bhi02G000120 vs. NCBI nr
Match: XP_022988491.1 (serine/threonine-protein kinase TOUSLED-like isoform X1 [Cucurbita maxima]) HSP 1 Score: 1238.4 bits (3203), Expect = 0.0e+00 Identity = 644/684 (94.15%), Postives = 661/684 (96.64%), Query Frame = 0
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 wax gourd
Date Performed: 2019-11-17
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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