Lsi11G000100 (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.ATAACCCAACTTTCAACAAAAAGCTCAAATTACAACAACTCTCCAAGGAAGAAAAAAAAAAAAAAAATACCCAAATGCTTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCCCAATCCTCAAAATTTTGCTCTGTCAAACAACCCATCTCTCCCCTTTTTGTCTCCTCAATTTCATGTTCCACTCTTTCAAAACTCTAAATCTCTGTGCTTAGCTGTTTGTTTTTTTATATATATATGTTGTCCCCTTTTTCTTTTGGGTATTCAACACTCTCTGTATTTGATTATTTTATGCAGCACAGACAGTGAACGTGCTCCTCTTTGTCAGATTGCCGCTTCCTTCTCCTCCCCAACTAAGCTTCACGTTCAAGGAAGCACATGATTGCAGCTTTGTATTTTACATTTGTTTTTATATGTTATTAATTGATATTCCCATTTGCCCCATTTGTAATCTTCTTGTGAATAATATTCATGGTCAAAAGCTAGAGTCGTTTGAAGTGGGATGTAGTTTGAAGAGTTGGGAAAGAGGTATAAAGAAGGAATACTTTGGAGTTTGGGCTTTTTTTTTTCTCTTTTTACATCTTTTGAGAGTCTTGCTTCTTCTGGGAATTGGGAAATTTTTTCTTTGCTTCTTCAATTATGCCTCTCTCTGCCTCTTCCTTCCTATCTCTATAATGGGGTTTCAGTGAAATAGAGCCATAGAGGGAAGTGAGAGAGAGAGAGAGAGAGAGAGAGAGCTTGTGTGTTTCTTGAAATGGGGTTCTTGAATGATTGTCAGTTTTGTTACAGAAGAAGTGACCTTATACTTGTGTATCTCTCTGTTCAACTTTAATATGAGGTTATTAAGGAGGGAGATAAAGGAGGAAGAAGGGAGAGAGAAAAGGTAGAAAAGACAAGTGTTGGGATTAGTATGAAGATGCAGCAGAGCCACCACTCAGTGGCTGTGAGGTTTAATGAGCAAATTGGGAGTAAAAAAGGGGTCACATTCATTCAAGCCAACAGGGCTTGGCTTCCTAAGTTCCTATTGCTTTGGGTTCTATTGGTGGCATTCATCAGTATGCTAATCTACAAGGGAATGGATGCTGACAACAAAGTTAGAAGAAAGGAAGTTTTGGGAAGCATGTGTGACCAGAGGGCAAGGATGCTTCAGGATCAATTCAGTGTCAGTGTCAACCATGTCCATGCTTTGGCCATTCTCATTTCCACTTTCCACTACTCCAAAAACATATCAGCAATTGATCAGGTAGTCGCGTTTCGATTTCTGTCTTTGATTCAACTCAGTTAGTTAGGCTTAAGAGTGTGAGAGAGAATTCATTTTTCTGGTTTTCTGCTAGAAATTACCTTGATGTTTTGATTCTCAGTTTTTAGGGGCGTTTGGTTTGTTTGAATGCAGGAAACTTTTGCTGAGTACACAGCCAGAACAGCTTTCGAGCGGCCTTTGCTTAGTGGCGTGGCATTTGCACAAAGAGTGGTGCACTTTGAGCGAGAGAAATTTGAGAAGCAACATGGGTGGACTATAAAAACAATGGAAAGGGAACCATCACCTATAAGGGATGAGTATGCGCCAGTCATATTTTCCCAGGAGACTGTTTCCTACATTGAATCTCTTGATATGATGTCTGGAGAGGTAGTTTGAATTATAATCATAGGTTTTAGTTGTTTATATCTCCATTGGGAGTAGGCTTCTTGTTTGGACTTTGGTACTTGCAAATATAATATTTTTTTTAATGCATTGCATTGTAGGAGGACCGCGAGAACATTTTGAGGTCAAGAGAAACAGGTAAAGCTGTTTTAACGAGCCCTTTCAGGCTACTGGGGTCTCATCATCTTGGAGTTGTGTTGACGATCCCTGTTTATAAAACCAAACTTCCTGCAAATCCAACTATGGATGAAAGAACTCGAGCAACGGCAGGGTAAGTTCAGTAAATAGTTTTTCTTTTTTCTTGGGGGGGGGGAAACCAATTTTTGGAAAAGTAGTGAGAATCAGCTTTCATTGAAATGAGTGAACACAGAAGGAAAGAAATATATTTGTATACTCAAGGTTACACCAATCATCCAACAAGCAGTATCCATAACTGCAATTTTTTCTAATGAAGAACAAAGAGGAAAAAACCTTAACTGTTCAGAGGATGAAAATCAATTTGCTCTGTGTATTCTCGAGTTGAAATTTGGTGTTGACTGCACGTAGAAGACTGTTGAATAAGCACCATGTGAAAAGCAACGATAAGAAACTTGAGATCGAGAAGTCAACTTAAGGGGCTGCTTTATTATTTTCTGTTCTACCATATTATTTTATACTTGTTGCCACTATCTTTTGATCCCCACAAATAGTAGTGTGGAAACATATAACCCCTAATGTAATTGTATATAGGTTTATATAAGATTTTTTGTACCAGATATTGATAAATTATAGCTAAGATATTTATCATTAAACATCGTCAATGAGGGTGTTATCAAATTTTGGTTAAACTTCCATCTCTATGCTTCAATTGTCAATTTGTATGATAAGATTAAGGACAATCCACAGAAATATGATTTTTTTCTTGATCATAAATTGTAAAACTAAAACAAGGTCTCAAGGACATACGGCATATGTGTGCAACATGTTATACCTTAATGTAATTCGTGTGATTTCTGGTCTGCTTCACAGTGAAAATACCTCCTCTCTGCTTATGTTGTTGCAGTTGACTGCCCAATTCCATCAACTCATATTGCATGCCAATAACAAGATTTCTAGAATATCATTCATCTTTACCATGATGCTATTTATGTTTCAAAGGACTTTACAATCTCTCTAATGCCTAATTCTAAAGAAATTTAAGGCAGAAGTTTCATTTATAGCTGAAAGATTATGGTTCCAACTGGGGAGCTCCTCTATCTCTCTCAAATGTCTCCCAGACTTTTCCCAACTTCCTTCCCACACACTATGATTTACCTATATTACTTAGAATTAGTTACATGGGTATCAACTCCGTTCATTCTTCTAACCACTTCACGCACTTGACATCCCACTGTTTCCATTTCTAACTCCTTCCCTTAGATAGGGTAGCTAAGTGAATCTAAGTACTTGTACTTTAGTTTGCATGAATTTCTTGGTTGAGAAATATTTATTCTTGAAGCATGTTATTGTAGTCTAATATTTTGGTAGAATGAGAAAGACTAGTTCTCATGTTATTTTGGTTGTGATTTCTCTTGTTGCATTTATAATTTTTTTGTAAAGCAGTTACCTTGGTGGAGCATTTGATGTGGAATCGCTTGTGGAAAATTTACTTGGGCAACTTGCTGGAAATCAGGCCATTTTGGTGAATGTATATGATGTCACGAACTACTCCGATCCCCTAGTAATGTATGGTCATCAATATGAAGATGGTGACATGTCTCTTTCACATGAAAGCAAACTAGATTTTGGAGATCCATTTAGGAAGCATCAGATGATATGCAGGTAAATGAAACGAATGTCAAATGTTTGCATTGTAATTGGAATGTATTTGTGCATTTTCCCGTTGAATCCTTATGGTTGGAATTTTGAGCAGATATCATCAGAAAGCACCAACATTATGGACGGCACTTACTACTGCATTCTTATTCTTTGTGATCGGATTGTTAGTGGGATATATCTTATACGGTGCAGCAACTCATATTGTTAAAGTTGAGGATGATTTCCATGAAATGCAAGAACTGAAAGTTCGAGCTGAAGCTGCTGATGTTGCAAAATCTCAGGTATTTCTTAAAGCCTTTCATTCCCCAATTCCATGCTACAATTTTCTGATTTAACTTTTTCGTCTTATGCCAGTTTCTTGCTACCGTCTCTCATGAAATCAGGACACCCATGAATGGCATCCTTGGTGAGTATTTATCTCTTATGGAATTCTTTTGGAAGAGTATTAATTATTAGATGTGTTATCCAATGATTTTGTTAGGAAAGACATTGGGGTAGTTCGGATTAGTGTTAGTAAAGTAAGGGTACATAGTATCTAAAGAGTTTTTAGTTGGAGTAGGTTTTAAATGGAGAGAGTGGGGAGGGGATGAAGATATATATAGGTAATACTGTGGCTGTTCAAGCTTGAGTGTGCTCAAGAGAGAGAGGGTCTAAGTACATCGAATTAATTGGGAGTCATCTTTTTGTTAATTCTTCATTATCGATATACATCTCTGGTTCCCATCGAATTTACTTCTATTTTCAATTGTAGGAATGCTTGCGCTACTTCTTGACACTGAACTGAGTTCAACTCAAAGGGATTATGCTCAAACTGCCCAGGCCTGTGGAAAAGCACTGATAGCATTAATAAATGAGGTGCTTGACCGGGCAAAAATTGAAGCTGGGAAGTTGGAGCTTGAAGCGGTTCCTTTTGACCTTAGATTGATACTAGATGATGTTCTGTCTTTGTTTTCTGAAAAGTCAAGGCACAAGGGAGTAGAGGTAAGATCCTGGAAGATCTAATTTTTTTTTTTTTTTAACAAGAAACAAATCTTTTTATTGAGTAAGTGAAAAGAGGTGAACACTCAAAGATACAAACTCCAGTACAAAATGAAAAAGAAAACAAGTGATTTTTCCTTTTCTTTTTCCTTATTTGCTGTAAATATTTTCTAAAATAACACCTGATGATGGACTAATGAAGCTTTCTCCTTGACATAAATAAAATCTGCATCCATCTTATGGATGATTACTTTAAAACAGGATGACGATTATGGTTATGTTTCTGATTATTTCTTTTTGAATTTTGAGAACCCGTGATTAATCTTGCTCTCTTATCTTTTTTGCCATGGTGGCTTCTGTGCGTTTCTGGATGGCTATTTCCATGGTCTGCTCTCCTTTTATTACACTAATTGTGGACATGAAGTTGGCAGTCTTCGTTTCTGACAAAGTTCCTGAAATTGTTATGGGGGATCCCGGAAGGTTCAGACAAGTAATCACAAATCTTGTGGGTAACTCTGTGAAAGTAAGTTCTCTTCCATTCTCCCTCAAGTCACCCTAATAGGTCTTATGAATCATTTTCATTGAACTTTCTCATTAGTTTAAAAGTCTTTCTTATTGCACTTTGCTTCTCAATATGAGTGATATCTCATTACTTGGAGCATTTGACAGTTCACAGAACAAGGACATATATTCGTCAAAGTTCAATTAGCCGAACAATCAATGAGCTCTAAGAATATCAAATCCGAAACTCACGTGAACGGAAGCTTAGAGGATGGTGCATCACACAATAAACATCAGTTTGAAACCTTAAGTGGATGTGAGGCAGCTGATAACCAAAACAGTTGGGACACTTTTAAGCACCTAGCAAATGAGGAATTCCAACCGAATGGTTCAAGCAATCTCATGGCTACAAATGAAAGTTCTGATATTGTTACTGTCATGATATCTGTGGAAGATACTGGAATCGGGATTCCGTTGTGCGCTCAAGGTCGAGTTTTTATGCCGTTCATGCAAGCAGATAGCTCAACCTCCAGAAACTATGGTGGAACTGGTATTGGCTTAAGCATCAGTAAGTGTTTAGTTGAACTAATGGGTGGCCAGATAAACTTTGTAAGTCGGCCTCAGGTTGGAAGCACATTCTCGTTCACTGCTGTATTTGGGAGATGTGAGAAGAAAGCGACAGTCAACATCAAAAAGTCTAATTTGGAGGAACTTCCTTCTGCATTTAGAGGATTGAAAGCTGTTGTAGTTGACGGGAAACCAGTTAGAGCTGCTGTTACCAAATACCATTTGAAGAGACTTGGCATCCTGGTTGAAGTTGCCAGTAGTGTCAAGATGGCTGCAGCTTTATGGGGAAAAAATGGATCAGTTAGAGCAAGGTAAGCATAATACATAAGAAACAAGTTGCAAAGTTTTTTATAAAAGTAGTAGTACCATGTATATATAGTTGCAATATTCTAAACTTGATTTAAAAAATATAATAATTTCAAAAAGATGTTTATACGGTTGATCTGAAAGCTTTTACAAAGATCCTTTTGTAGATATATCATGGCGCAGCTTTGTGACATGAATTATTTATTGGGTATTGCAGTAATATACTTCATCCTGACGTAATTCTTCTTGAGAAAGATATCTTTATTTCAAATGAGGAATGTGGTTCTTCTAATCTGCTTCATCAACTAGACTGGAAGCAGAATGGTCATACCTTAAAATTGCCAAAATTGATCCTTCTTGCAACCAGCGTGAGCACGGTGGAATTTGATAAAGCAAAGGAAGTGGGTTTCTCTGACACATTGATCATGAAACCATTGAGAGCAAGCATGATAGGCGCATGTCTTCAACAGGTGCTTGGCTCGGGAAAGAAACGACAGCTTGGAAAGGACATGGCTAATGGCTCTAACTTTCTTAAAGGGCTGCTCTGTGGTAAGAAAATATTGGTTGTTGATGACAATAGGGTAAACCGAAGAGTTGCTGCAGGTGCTTTGAAGAAATTTGGTGCTGATGTAGAGTGTGTTGAGAGCGGGAAAGCTGCGCTGGCATTGCTTCAACTGCCACACAATTTTGATGCTTGCTTTATGGATATTCAAATGCCAGAAATGGATGGGTATGTTTAAGCAAATTTTCTCTATTGCCACCGATTCCCCTACCCCCCTAACTGTTAACATTGTCAAGATAAAAACATCATTAGAGCCATCAAGTTCAACTGCCAAAACTCTGAAGTTTACTTTGCTTTTAAATACCTTATTGGAAAAAATATCGATGTTCAAACTACTAAACTTGAAGTTGAACTGGCATTGTCGTAGGCGATTAAAATGGTACCTGGTTAGTAATCAGCAGTTACTAGTGATTACTGATTACTGATATGATATGAAACAGAACTTCTCTTAGATGGTGTGTTCTTTTTTATCATTAAGGCTAAAGTATCTTCTTGTAGATCACTTTTCATTTATAACTGCATGCTTAGGCATCAAGCTGTCTTCTCAAGTATAGCAGCAGTTTGCAAACTTGAGCATCAAGGGACTGTTTGAAAATTGATTTCAGGAATGATTTTTTTATTAAAACTAAAGTACACTGAAACAATATGGGTCAATTGTTTTTATGTTAATTTGTTTTCTCAGGTTGGCTACCTTTTAGATTCAAGTAGTTCTCTTTGGGAACCACAGATAGGTAAATAGTTGCACAATAATTTTAGCATCTATGTGCTAAATTTGTTCCATTGAAGAAGCTACCATACAGCCCTTAAATTTACAGTGTTCTGGATGAAATAAGTTTCAATATCTGTCTCAATCCTTTGTTGGAGGAGCATATAGCCATGTTTTGCTTGATTTTAGAAAAGTAATTGAAGTGAGAATTTTTGGGATTGTACTGAGTTTTGTCTGACATGAGAATTTGTTCCCTTTCCTTTTGTTAAACATATGATTCAAATGTAATGTGTTTTCTTCAACTGCAGATTTGAAGCAACCCGAAGAATCAGGCTGATGGAGAGCAAAGAAAATGAGGTACTGATTAGGGAATCTGGTGGCAAAGAAAATGCAAGGAAAGATGAGTGGCATGTTCCAATATTAGCCATGACCGCAGACGTAATTCACGCAACATACGACGAGTGCCTGAAATGTGGGATGGATGGATACGTATCAAAGCCATTCGAGGAAGAGAATCTTTACCAGGCAGTTGCCAAGTTTTTCAAATCAAAGCCCATCACTGATTCATGACACATGACCATTGAACTCGACGCACCTGTCAACTCCAACATGGAAAGGCATTTGTTCTGGGATTGGTTAGTACAACATTTTACAGCAGATGCTCACAAGACTTGGTTTCAAGGAATCTTAATCAATTGAAGGGGCCACCATATGTTGTACTTCTGGGCATTATTTGTACATTAACTATCAGACCCTGCTGCTGCGTCCTTGTATGTGCTGTGCTGTAGGCCCTTTGAGTTGTGGCTTTTGGGCTGGGGGCTGCTGTAAAGGGTGTAAATTCATTATGATTATGATTATTTTATGCTTACATCATCTC ATAACCCAACTTTCAACAAAAAGCTCAAATTACAACAACTCTCCAAGGAAGAAAAAAAAAAAAAAAATACCCAAATGCTTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCCCAATCCTCAAAATTTTGCTCTGTCAAACAACCCATCTCTCCCCTTTTTGTCTCCTCAATTTCATGTTCCACTCTTTCAAAACTCTAAATCTCTGTGCTTAGCTGTTTGTTTTTTTATATATATATGTTGTCCCCTTTTTCTTTTGGGTATTCAACACTCTCTGTATTTGATTATTTTATGCAGCACAGACAGTGAACGTGCTCCTCTTTGTCAGATTGCCGCTTCCTTCTCCTCCCCAACTAAGCTTCACGTTCAAGGAAGCACATGATTGCAGCTTTGTATTTTACATTTGTTTTTATATGTTATTAATTGATATTCCCATTTGCCCCATTTGTAATCTTCTTGTGAATAATATTCATGGTCAAAAGCTAGAGTCGTTTGAAGTGGGATGTAGTTTGAAGAGTTGGGAAAGAGGTATAAAGAAGGAATACTTTGGAGTTTGGGCTTTTTTTTTTCTCTTTTTACATCTTTTGAGAGTCTTGCTTCTTCTGGGAATTGGGAAATTTTTTCTTTGCTTCTTCAATTATGCCTCTCTCTGCCTCTTCCTTCCTATCTCTATAATGGGGTTTCAGTGAAATAGAGCCATAGAGGGAAGTGAGAGAGAGAGAGAGAGAGAGAGAGAGCTTGTGTGTTTCTTGAAATGGGGTTCTTGAATGATTGTCAGTTTTGTTACAGAAGAAGTGACCTTATACTTGTGTATCTCTCTGTTCAACTTTAATATGAGGTTATTAAGGAGGGAGATAAAGGAGGAAGAAGGGAGAGAGAAAAGGTAGAAAAGACAAGTGTTGGGATTAGTATGAAGATGCAGCAGAGCCACCACTCAGTGGCTGTGAGGTTTAATGAGCAAATTGGGAGTAAAAAAGGGGTCACATTCATTCAAGCCAACAGGGCTTGGCTTCCTAAGTTCCTATTGCTTTGGGTTCTATTGGTGGCATTCATCAGTATGCTAATCTACAAGGGAATGGATGCTGACAACAAAGTTAGAAGAAAGGAAGTTTTGGGAAGCATGTGTGACCAGAGGGCAAGGATGCTTCAGGATCAATTCAGTGTCAGTGTCAACCATGTCCATGCTTTGGCCATTCTCATTTCCACTTTCCACTACTCCAAAAACATATCAGCAATTGATCAGGAAACTTTTGCTGAGTACACAGCCAGAACAGCTTTCGAGCGGCCTTTGCTTAGTGGCGTGGCATTTGCACAAAGAGTGGTGCACTTTGAGCGAGAGAAATTTGAGAAGCAACATGGGTGGACTATAAAAACAATGGAAAGGGAACCATCACCTATAAGGGATGAGTATGCGCCAGTCATATTTTCCCAGGAGACTGTTTCCTACATTGAATCTCTTGATATGATGTCTGGAGAGGAGGACCGCGAGAACATTTTGAGGTCAAGAGAAACAGGTAAAGCTGTTTTAACGAGCCCTTTCAGGCTACTGGGGTCTCATCATCTTGGAGTTGTGTTGACGATCCCTGTTTATAAAACCAAACTTCCTGCAAATCCAACTATGGATGAAAGAACTCGAGCAACGGCAGGTTACCTTGGTGGAGCATTTGATGTGGAATCGCTTGTGGAAAATTTACTTGGGCAACTTGCTGGAAATCAGGCCATTTTGGTGAATGTATATGATGTCACGAACTACTCCGATCCCCTAGTAATGTATGGTCATCAATATGAAGATGGTGACATGTCTCTTTCACATGAAAGCAAACTAGATTTTGGAGATCCATTTAGGAAGCATCAGATGATATGCAGATATCATCAGAAAGCACCAACATTATGGACGGCACTTACTACTGCATTCTTATTCTTTGTGATCGGATTGTTAGTGGGATATATCTTATACGGTGCAGCAACTCATATTGTTAAAGTTGAGGATGATTTCCATGAAATGCAAGAACTGAAAGTTCGAGCTGAAGCTGCTGATGTTGCAAAATCTCAGTTTCTTGCTACCGTCTCTCATGAAATCAGGACACCCATGAATGGCATCCTTGTCTTCGTTTCTGACAAAGTTCCTGAAATTGTTATGGGGGATCCCGGAAGGTTCAGACAAGTAATCACAAATCTTGTGGGTAACTCTGTGAAATTCACAGAACAAGGACATATATTCGTCAAAGTTCAATTAGCCGAACAATCAATGAGCTCTAAGAATATCAAATCCGAAACTCACGTGAACGGAAGCTTAGAGGATGGTGCATCACACAATAAACATCAGTTTGAAACCTTAAGTGGATGTGAGGCAGCTGATAACCAAAACAGTTGGGACACTTTTAAGCACCTAGCAAATGAGGAATTCCAACCGAATGGTTCAAGCAATCTCATGGCTACAAATGAAAGTTCTGATATTGTTACTGTCATGATATCTGTGGAAGATACTGGAATCGGGATTCCGTTGTGCGCTCAAGGTCGAGTTTTTATGCCGTTCATGCAAGCAGATAGCTCAACCTCCAGAAACTATGGTGGAACTGGTATTGGCTTAAGCATCAGTAAGTGTTTAGTTGAACTAATGGGTGGCCAGATAAACTTTGTAAGTCGGCCTCAGGTTGGAAGCACATTCTCGTTCACTGCTGTATTTGGGAGATGTGAGAAGAAAGCGACAGTCAACATCAAAAAGTCTAATTTGGAGGAACTTCCTTCTGCATTTAGAGGATTGAAAGCTGTTGTAGTTGACGGGAAACCAGTTAGAGCTGCTGTTACCAAATACCATTTGAAGAGACTTGGCATCCTGGTTGAAGTTGCCAGTAGTGTCAAGATGGCTGCAGCTTTATGGGGAAAAAATGGATCAGTTAGAGCAAGTAATATACTTCATCCTGACGTAATTCTTCTTGAGAAAGATATCTTTATTTCAAATGAGGAATGTGGTTCTTCTAATCTGCTTCATCAACTAGACTGGAAGCAGAATGGTCATACCTTAAAATTGCCAAAATTGATCCTTCTTGCAACCAGCGTGAGCACGGTGGAATTTGATAAAGCAAAGGAAGTGGGTTTCTCTGACACATTGATCATGAAACCATTGAGAGCAAGCATGATAGGCGCATGTCTTCAACAGGTGCTTGGCTCGGGAAAGAAACGACAGCTTGGAAAGGACATGGCTAATGGCTCTAACTTTCTTAAAGGGCTGCTCTGTGGTAAGAAAATATTGGTTGTTGATGACAATAGGGTAAACCGAAGAGTTGCTGCAGGTGCTTTGAAGAAATTTGGTGCTGATGTAGAGTGTGTTGAGAGCGGGAAAGCTGCGCTGGCATTGCTTCAACTGCCACACAATTTTGATGCTTGCTTTATGGATATTCAAATGCCAGAAATGGATGGATTTGAAGCAACCCGAAGAATCAGGCTGATGGAGAGCAAAGAAAATGAGGTACTGATTAGGGAATCTGGTGGCAAAGAAAATGCAAGGAAAGATGAGTGGCATGTTCCAATATTAGCCATGACCGCAGACGTAATTCACGCAACATACGACGAGTGCCTGAAATGTGGGATGGATGGATACGTATCAAAGCCATTCGAGGAAGAGAATCTTTACCAGGCAGTTGCCAAGTTTTTCAAATCAAAGCCCATCACTGATTCATGACACATGACCATTGAACTCGACGCACCTGTCAACTCCAACATGGAAAGGCATTTGTTCTGGGATTGGTTAGTACAACATTTTACAGCAGATGCTCACAAGACTTGGTTTCAAGGAATCTTAATCAATTGAAGGGGCCACCATATGTTGTACTTCTGGGCATTATTTGTACATTAACTATCAGACCCTGCTGCTGCGTCCTTGTATGTGCTGTGCTGTAGGCCCTTTGAGTTGTGGCTTTTGGGCTGGGGGCTGCTGTAAAGGGTGTAAATTCATTATGATTATGATTATTTTATGCTTACATCATCTC ATGAAGATGCAGCAGAGCCACCACTCAGTGGCTGTGAGGTTTAATGAGCAAATTGGGAGTAAAAAAGGGGTCACATTCATTCAAGCCAACAGGGCTTGGCTTCCTAAGTTCCTATTGCTTTGGGTTCTATTGGTGGCATTCATCAGTATGCTAATCTACAAGGGAATGGATGCTGACAACAAAGTTAGAAGAAAGGAAGTTTTGGGAAGCATGTGTGACCAGAGGGCAAGGATGCTTCAGGATCAATTCAGTGTCAGTGTCAACCATGTCCATGCTTTGGCCATTCTCATTTCCACTTTCCACTACTCCAAAAACATATCAGCAATTGATCAGGAAACTTTTGCTGAGTACACAGCCAGAACAGCTTTCGAGCGGCCTTTGCTTAGTGGCGTGGCATTTGCACAAAGAGTGGTGCACTTTGAGCGAGAGAAATTTGAGAAGCAACATGGGTGGACTATAAAAACAATGGAAAGGGAACCATCACCTATAAGGGATGAGTATGCGCCAGTCATATTTTCCCAGGAGACTGTTTCCTACATTGAATCTCTTGATATGATGTCTGGAGAGGAGGACCGCGAGAACATTTTGAGGTCAAGAGAAACAGGTAAAGCTGTTTTAACGAGCCCTTTCAGGCTACTGGGGTCTCATCATCTTGGAGTTGTGTTGACGATCCCTGTTTATAAAACCAAACTTCCTGCAAATCCAACTATGGATGAAAGAACTCGAGCAACGGCAGGTTACCTTGGTGGAGCATTTGATGTGGAATCGCTTGTGGAAAATTTACTTGGGCAACTTGCTGGAAATCAGGCCATTTTGGTGAATGTATATGATGTCACGAACTACTCCGATCCCCTAGTAATGTATGGTCATCAATATGAAGATGGTGACATGTCTCTTTCACATGAAAGCAAACTAGATTTTGGAGATCCATTTAGGAAGCATCAGATGATATGCAGATATCATCAGAAAGCACCAACATTATGGACGGCACTTACTACTGCATTCTTATTCTTTGTGATCGGATTGTTAGTGGGATATATCTTATACGGTGCAGCAACTCATATTGTTAAAGTTGAGGATGATTTCCATGAAATGCAAGAACTGAAAGTTCGAGCTGAAGCTGCTGATGTTGCAAAATCTCAGTTTCTTGCTACCGTCTCTCATGAAATCAGGACACCCATGAATGGCATCCTTGTCTTCGTTTCTGACAAAGTTCCTGAAATTGTTATGGGGGATCCCGGAAGGTTCAGACAAGTAATCACAAATCTTGTGGGTAACTCTGTGAAATTCACAGAACAAGGACATATATTCGTCAAAGTTCAATTAGCCGAACAATCAATGAGCTCTAAGAATATCAAATCCGAAACTCACGTGAACGGAAGCTTAGAGGATGGTGCATCACACAATAAACATCAGTTTGAAACCTTAAGTGGATGTGAGGCAGCTGATAACCAAAACAGTTGGGACACTTTTAAGCACCTAGCAAATGAGGAATTCCAACCGAATGGTTCAAGCAATCTCATGGCTACAAATGAAAGTTCTGATATTGTTACTGTCATGATATCTGTGGAAGATACTGGAATCGGGATTCCGTTGTGCGCTCAAGGTCGAGTTTTTATGCCGTTCATGCAAGCAGATAGCTCAACCTCCAGAAACTATGGTGGAACTGGTATTGGCTTAAGCATCAGTAAGTGTTTAGTTGAACTAATGGGTGGCCAGATAAACTTTGTAAGTCGGCCTCAGGTTGGAAGCACATTCTCGTTCACTGCTGTATTTGGGAGATGTGAGAAGAAAGCGACAGTCAACATCAAAAAGTCTAATTTGGAGGAACTTCCTTCTGCATTTAGAGGATTGAAAGCTGTTGTAGTTGACGGGAAACCAGTTAGAGCTGCTGTTACCAAATACCATTTGAAGAGACTTGGCATCCTGGTTGAAGTTGCCAGTAGTGTCAAGATGGCTGCAGCTTTATGGGGAAAAAATGGATCAGTTAGAGCAAGTAATATACTTCATCCTGACGTAATTCTTCTTGAGAAAGATATCTTTATTTCAAATGAGGAATGTGGTTCTTCTAATCTGCTTCATCAACTAGACTGGAAGCAGAATGGTCATACCTTAAAATTGCCAAAATTGATCCTTCTTGCAACCAGCGTGAGCACGGTGGAATTTGATAAAGCAAAGGAAGTGGGTTTCTCTGACACATTGATCATGAAACCATTGAGAGCAAGCATGATAGGCGCATGTCTTCAACAGGTGCTTGGCTCGGGAAAGAAACGACAGCTTGGAAAGGACATGGCTAATGGCTCTAACTTTCTTAAAGGGCTGCTCTGTGGTAAGAAAATATTGGTTGTTGATGACAATAGGGTAAACCGAAGAGTTGCTGCAGGTGCTTTGAAGAAATTTGGTGCTGATGTAGAGTGTGTTGAGAGCGGGAAAGCTGCGCTGGCATTGCTTCAACTGCCACACAATTTTGATGCTTGCTTTATGGATATTCAAATGCCAGAAATGGATGGATTTGAAGCAACCCGAAGAATCAGGCTGATGGAGAGCAAAGAAAATGAGGTACTGATTAGGGAATCTGGTGGCAAAGAAAATGCAAGGAAAGATGAGTGGCATGTTCCAATATTAGCCATGACCGCAGACGTAATTCACGCAACATACGACGAGTGCCTGAAATGTGGGATGGATGGATACGTATCAAAGCCATTCGAGGAAGAGAATCTTTACCAGGCAGTTGCCAAGTTTTTCAAATCAAAGCCCATCACTGATTCATGA MKMQQSHHSVAVRFNEQIGSKKGVTFIQANRAWLPKFLLLWVLLVAFISMLIYKGMDADNKVRRKEVLGSMCDQRARMLQDQFSVSVNHVHALAILISTFHYSKNISAIDQETFAEYTARTAFERPLLSGVAFAQRVVHFEREKFEKQHGWTIKTMEREPSPIRDEYAPVIFSQETVSYIESLDMMSGEEDRENILRSRETGKAVLTSPFRLLGSHHLGVVLTIPVYKTKLPANPTMDERTRATAGYLGGAFDVESLVENLLGQLAGNQAILVNVYDVTNYSDPLVMYGHQYEDGDMSLSHESKLDFGDPFRKHQMICRYHQKAPTLWTALTTAFLFFVIGLLVGYILYGAATHIVKVEDDFHEMQELKVRAEAADVAKSQFLATVSHEIRTPMNGILVFVSDKVPEIVMGDPGRFRQVITNLVGNSVKFTEQGHIFVKVQLAEQSMSSKNIKSETHVNGSLEDGASHNKHQFETLSGCEAADNQNSWDTFKHLANEEFQPNGSSNLMATNESSDIVTVMISVEDTGIGIPLCAQGRVFMPFMQADSSTSRNYGGTGIGLSISKCLVELMGGQINFVSRPQVGSTFSFTAVFGRCEKKATVNIKKSNLEELPSAFRGLKAVVVDGKPVRAAVTKYHLKRLGILVEVASSVKMAAALWGKNGSVRASNILHPDVILLEKDIFISNEECGSSNLLHQLDWKQNGHTLKLPKLILLATSVSTVEFDKAKEVGFSDTLIMKPLRASMIGACLQQVLGSGKKRQLGKDMANGSNFLKGLLCGKKILVVDDNRVNRRVAAGALKKFGADVECVESGKAALALLQLPHNFDACFMDIQMPEMDGFEATRRIRLMESKENEVLIRESGGKENARKDEWHVPILAMTADVIHATYDECLKCGMDGYVSKPFEEENLYQAVAKFFKSKPITDS
BLAST of Lsi11G000100 vs. Swiss-Prot
Match: AHK4_ARATH (Histidine kinase 4 OS=Arabidopsis thaliana GN=AHK4 PE=1 SV=1) HSP 1 Score: 627.9 bits (1618), Expect = 1.8e-178 Identity = 321/403 (79.65%), Postives = 355/403 (88.09%), Query Frame = 1
BLAST of Lsi11G000100 vs. Swiss-Prot
Match: OHK4_ORYSJ (Probable histidine kinase 4 OS=Oryza sativa subsp. japonica GN=HK4 PE=2 SV=1) HSP 1 Score: 537.7 bits (1384), Expect = 2.4e-151 Identity = 306/536 (57.09%), Postives = 372/536 (69.40%), Query Frame = 1
BLAST of Lsi11G000100 vs. Swiss-Prot
Match: OHK6_ORYSJ (Probable histidine kinase 6 OS=Oryza sativa subsp. japonica GN=HK6 PE=1 SV=1) HSP 1 Score: 509.6 bits (1311), Expect = 7.1e-143 Identity = 288/530 (54.34%), Postives = 367/530 (69.25%), Query Frame = 1
BLAST of Lsi11G000100 vs. Swiss-Prot
Match: AHK2_ARATH (Histidine kinase 2 OS=Arabidopsis thaliana GN=AHK2 PE=1 SV=1) HSP 1 Score: 467.6 bits (1202), Expect = 3.1e-130 Identity = 263/522 (50.38%), Postives = 349/522 (66.86%), Query Frame = 1
BLAST of Lsi11G000100 vs. Swiss-Prot
Match: OHK5_ORYSJ (Probable histidine kinase 5 OS=Oryza sativa subsp. japonica GN=HK5 PE=2 SV=1) HSP 1 Score: 451.4 bits (1160), Expect = 2.3e-125 Identity = 258/528 (48.86%), Postives = 350/528 (66.29%), Query Frame = 1
BLAST of Lsi11G000100 vs. TrEMBL
Match: A0A0A0KM87_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_5G256680 PE=4 SV=1) HSP 1 Score: 996.5 bits (2575), Expect = 2.1e-287 Identity = 503/527 (95.45%), Postives = 513/527 (97.34%), Query Frame = 1
BLAST of Lsi11G000100 vs. TrEMBL
Match: B9F2W6_ORYSJ (Uncharacterized protein OS=Oryza sativa subsp. japonica GN=OsJ_08314 PE=4 SV=1) HSP 1 Score: 919.1 bits (2374), Expect = 4.3e-264 Identity = 511/914 (55.91%), Postives = 639/914 (69.91%), Query Frame = 1
BLAST of Lsi11G000100 vs. TrEMBL
Match: F6HFB2_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_01s0011g06190 PE=4 SV=1) HSP 1 Score: 770.4 bits (1988), Expect = 2.5e-219 Identity = 392/529 (74.10%), Postives = 451/529 (85.26%), Query Frame = 1
BLAST of Lsi11G000100 vs. TrEMBL
Match: B8QJH0_BETPN (Cytokinin receptor 1 (Fragment) OS=Betula pendula GN=CRE1 PE=2 SV=1) HSP 1 Score: 768.1 bits (1982), Expect = 1.2e-218 Identity = 393/529 (74.29%), Postives = 445/529 (84.12%), Query Frame = 1
BLAST of Lsi11G000100 vs. TrEMBL
Match: M5XKX9_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa000804mg PE=4 SV=1) HSP 1 Score: 765.8 bits (1976), Expect = 6.2e-218 Identity = 398/546 (72.89%), Postives = 456/546 (83.52%), Query Frame = 1
BLAST of Lsi11G000100 vs. TAIR10
Match: AT2G01830.2 (AT2G01830.2 CHASE domain containing histidine kinase protein) HSP 1 Score: 627.9 bits (1618), Expect = 1.0e-179 Identity = 321/403 (79.65%), Postives = 355/403 (88.09%), Query Frame = 1
BLAST of Lsi11G000100 vs. TAIR10
Match: AT5G35750.1 (AT5G35750.1 histidine kinase 2) HSP 1 Score: 467.6 bits (1202), Expect = 1.8e-131 Identity = 263/522 (50.38%), Postives = 349/522 (66.86%), Query Frame = 1
BLAST of Lsi11G000100 vs. TAIR10
Match: AT1G27320.1 (AT1G27320.1 histidine kinase 3) HSP 1 Score: 445.3 bits (1144), Expect = 9.3e-125 Identity = 266/529 (50.28%), Postives = 345/529 (65.22%), Query Frame = 1
BLAST of Lsi11G000100 vs. TAIR10
Match: AT2G17820.1 (AT2G17820.1 histidine kinase 1) HSP 1 Score: 86.3 bits (212), Expect = 1.1e-16 Identity = 97/403 (24.07%), Postives = 172/403 (42.68%), Query Frame = 1
BLAST of Lsi11G000100 vs. TAIR10
Match: AT5G10720.1 (AT5G10720.1 histidine kinase 5) HSP 1 Score: 80.1 bits (196), Expect = 7.9e-15 Identity = 45/143 (31.47%), Postives = 78/143 (54.55%), Query Frame = 1
BLAST of Lsi11G000100 vs. NCBI nr
Match: gi|659114017|ref|XP_008456868.1| (PREDICTED: histidine kinase 4-like [Cucumis melo]) HSP 1 Score: 1000.7 bits (2586), Expect = 1.6e-288 Identity = 504/527 (95.64%), Postives = 515/527 (97.72%), Query Frame = 1
BLAST of Lsi11G000100 vs. NCBI nr
Match: gi|449445312|ref|XP_004140417.1| (PREDICTED: histidine kinase 4 [Cucumis sativus]) HSP 1 Score: 996.5 bits (2575), Expect = 3.1e-287 Identity = 503/527 (95.45%), Postives = 513/527 (97.34%), Query Frame = 1
BLAST of Lsi11G000100 vs. NCBI nr
Match: gi|700195598|gb|KGN50775.1| (hypothetical protein Csa_5G256680 [Cucumis sativus]) HSP 1 Score: 996.5 bits (2575), Expect = 3.1e-287 Identity = 503/527 (95.45%), Postives = 513/527 (97.34%), Query Frame = 1
BLAST of Lsi11G000100 vs. NCBI nr
Match: gi|222623641|gb|EEE57773.1| (hypothetical protein OsJ_08314 [Oryza sativa Japonica Group]) HSP 1 Score: 919.1 bits (2374), Expect = 6.2e-264 Identity = 511/914 (55.91%), Postives = 639/914 (69.91%), Query Frame = 1
BLAST of Lsi11G000100 vs. NCBI nr
Match: gi|731369055|ref|XP_002285117.3| (PREDICTED: histidine kinase 4 isoform X1 [Vitis vinifera]) HSP 1 Score: 770.4 bits (1988), Expect = 3.6e-219 Identity = 392/529 (74.10%), Postives = 451/529 (85.26%), 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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