![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
HG10018152 (gene) Bottle gourd (Hangzhou Gourd) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: CDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGTGTCTCGGTCTTCCGACAAGGATGTCAAAGAACAGCTTTTGGAAGCTGGCAATAAGATTGTTGACCCCCTTACTTCAGTTGAAGAACTTCTACCTCTTCTCGACGTAAGCCCTTCCGTTTTCTTCTCTATGTTTTTCAGCCGGTTGAATTTTCCGAGGGATTTTGTTTTACTGAATTGGCTTTTCAACCTGCTAGAATGCTGTCTTTGAATTTTCTTTTGCTATACCTTTCACGCTGATACTTAGTATATCTGAAGCTTTAGATTTCAAGTAGCACAACTTAAATTAGAAGATAATTTGGTTTGCATCTATTCAAGTTTACTGGAATGATACTGTTGGATAGGCTGACATATTATAACTCCACATTGAGCTGGTGGCTGGCAATATCACTTTTGGTGGTCTGGAAAGTAATGCGAATGTCTGAAAACTGTTAAGGAGGGAATTGATTGAGATTATGTGAATGTTTGAAAACTAGTGAGGAGGGGATTACTTCGAGGAATGTGGATAATGGGTCCTAATGTAATGACGGTTCATGCTGTTAAGACTAGTCAGGCAGTTCAGTATCTCTTAAGATTTCTAACTGTGACTTTTAAATCTGTCTTTCAGTTTGATTCTTTGAACTGCACATTAAATGTTTAATGGGGTACTTTCCCACCTCATTTTTTTTTTTACCCTGCTAATGTAGTTATTCTCCCTCTTCTCTTCCCTTTCTTCTGGTGAGTTGAAATATAATGGAATATTAGCAGCTATGCCTTCTAGGTCCTTGGTATTTATTTACTTATTTATTTTTGTCTATATGGATTTTAATTTTTGTGGGTAGCACTTCTCATGTTTCTTTAACTTCACAATAATCTGCCTGATTGCAGAAAATTGAGAGTTTGCTGGCAAAAGTTGAACAATCCCCTTCAAAATCAATGCAAATTGCGCTCACTCCATCACTGAAAGCCCTGGTTTCTGATCAGCTTCTAAAGCATTCGGATATTGATGTCAAAGTTTCAGTTGCTGCATGTATTAGTGAAATAACTAGGATCACTGCACCTGTTGCCCCTTACAGTGACGAACAAATGAAGGTAATTAGAAATTTGCTCTTTGAGTTGGTACAATGTCAATTTCCCACTTATCAAATTTACTTCTGAAGAGATGAATATATGCTGCTGTTCAGGAGGTGTTTCATCTTATAGTATCATCCTTTGAAGATCTCTCTGACAAGTCAAGTCGATCATATGCAAAGAGGGTATCGATTCTTGAAACCGTTGCAAAGGTCAGATCATGTGTGGTCATGCTGGATTTGGAATGTGATGCATTGATCATCGAGATGTTCCAACATTTCCTTAAGACAGTAAGGTATCATACTAGATTTTCTTTTGAAATCAAATTCCTTTTAAATTTTTACTTATAGGAGCACAGTTGTGATAACTATTAATTTTCCCACAATTCAAGTTCTTTTGTGAACAAATAGAATTTGTTTCTCAATGAAATACTACTTAGACTTCTGTACTTCATCAGAAATTGACTTATACCGGAGAACATGAGCAAAAAAAAGCAAAGTATGGATCATTATATTGGGTGTTTTGAATGATATATAGCAGTGGTATTTGAGTGCATTTGAAGGATTAGCAAGAAAAACTCGATTAAAAATATAATGCAGTGAATTAGTTGACTGTAATGTAATAAGTTTGGTTTTTAACTATTGTCTGTTAATTAGGTTTCATTTGTTGAATCCTTGTTAATTAGTGTCATGGGCTGGTAGTTGGGTTGGTTAGTAGGCAAACTTTAGAAATAAAGGAGTGTCGTTGTATTTTCAAGGCTTCTTATATGGAATAGAGTTTTCTTTGGTTGTTCCTGAGTTGTAGATGCTGCGCTGCACTAAGTTAGGTATTTCAGTGAGAAAAGGAAATGCTTGCAAGGATGGCAACAAGTAAGAATCTGGCTTTTATGGGAATGGAAAGTTCCTTTTTCTAGCTTTGCATGGTAGTGCTCATTCAGCACAGTCTCCTTCCTTTGGAGGATTTTCCTGACAACCATGACAACAAGAAGCATGGGAGGCTGCAAAGTGTCACTCAAAATTTAACTCATCAGATTGATAGTAAGATTGCAAAAGGAAAAACTTTTGGATTTTGCCAAAAAATTTGAAAGTCGTAAAATTTTCAATGACTTGGAGTTCTTGATAGAGGCTTAGGCATTTGTGTTCAATAAATGAGAAATGATGCATGAGTTTGAATGTCTTCCTCATGGATATTCAAGTGTTGACCAAACTTCTGATTTTATCAGTACTCAAAGCATTCAAGTGAATGATTCTTAGGCAGCACTGGATTTTAAAAATAATTCAATTGGAGATGACACTTTAATGGAATGGGATGGAAAATATGGTTTATGTTCTGTGGATCATCTGCTGGAGCCACAATTCAGTGGATACAGTGTCTAATTCACAAGAAACCTCTCAGACTTGGACGGGGGAAGGAATTCTTTCTTTCCTTTGATGAATATGTTGGTGAAGATGAACATGAGATGCTGTCTGTTTAAGGAGAGTTCTCCATGAATTTTTATGAACCTTTTTCTGAAAAAGAGAGTTCTTGTCTTCGTATGTATGAGTTTCATTTGAAACAATCAAAGTTTTAGCTGTGATTTTTCATCCCCAACATTTTCCCAGCATGATAATTCAATGATGAATGATTTTGTCAACAAAGTTGACATAAGCAAAGAAGGATTTTCGATGGCTCTTTTGATGGGCTATCATGGAATCTTAGTCAGGAGCGTATTGGCTTTTTAAGTCTAATACATTGTATTTTATCAGTGCCCTACAAGCTTGGAAATCAAATTTATGGGCTGGTTGTTCCATAGAAAAATCCTTCAATCTTATACGCGTGTTTTAACAAGCTTATAAAAACATTAAGGTATTGATATAGTGAAATTTCAGCCTTTTGAGCTCTTTGTTTCCTATCTAGGCTTTTCTTCACATCTTAAGCTCAAGGACAGTACATTGGATTAGTTGGATAGCATTATAATAAGTTTTAGACTTTCAATTCTTTGGTTGTAGTTGATTAGTATTTTTAAATCACCACTTAGCCCAAAAAGCATAGGCGAACGGGTTATGATTAATTTAATTATATCAATACTTTAATAGCCTCCACTCGTGGGCATGAAAATTTGTAGAAGGTCCAACAAGTGAAATCAATATTAATTGGAGGGTGACATTACATGGGTTTGAACACATAACCTCCTGCTCTGATATCATGTTATTTTTGGAGTAAATCCTTTTTCTCCTTGTACAAAGAACCCAAGAATGGGTAAATATTATGCAACAAGTGAAATTCCTATTGGAAACTAATAATAAAAGGAAAAAAATAATTAAAAGATAAAACACTAATATTTTAATTTAAACACAAATCTACAATTTCAGTTGGTTGTTTATTGTGTTGGGCATACTTTTTGGTTTGGTTGAGTTGGTTGGAAGGGAACTTCCACAAATTGGGGGAATTGGGAGGGTCTATTGCATTTTCAACACTTCTTTGAACGGAATGGAGTTGCTTTAGTTGTTCTTAGTCTAGATGCTTGGCTGCATTAAAATACATGCACATAATTGTTATTTTGCAACATGTTGCCTATAATTGTTATTGGAATAGAGCTGCGAGCATAATGAGCGATAAAAATCTGATAGGAGGTTAAGCATAAGTTCATAACTTGTAATGATGTCTTGACATATTGCTCGCTGTGCCAATTCTTTTAATTAGTTGCTGATAATTTGAAGTTAAGATGACAGCAGTAACAATAGCTCTTCCCTGGTGTTCGCAGAGTAAAAGTTGATGTGATTGATATTTATAATGGCAAGTGAAAGATTTACAAAAGCAAATTTCTGATACTCAAAACAATGTTTTTGGCAATTAATTTCTGATTAAACAGACCACCGAACTTTCTCTGATTTGATCTCATTTAGGTCTAGCATTTTCCTTCTGATAGTTTGCTTCTATTTTTTCCTAATAGTTTTGTTGAACACCTTTATTTTCCTTTTTGTTCTTGTTCTGATTAGTGAGGACTTAGCAGGTTTTATTTTGCCAAGTTGGAAGTTCTAATTTTCGAAACTTTGGTTTCCAATATGTTGTTAAGTTTTTTAACAGTGTTCTTCACCCAGAGATTATCACCCAGAGAATATATTTGCATCAATGGAGACAATTATGAGCCTTGTTTTAGAAGAAAGTGAAGATAGGGCTGTAGGGCTCCTCTCTCCTATCTTAGAAAGTGTGAAGAGACAATGGGGTAATGTGCTTTGAGTTGTTATTTGTTCCCTTTCTCTCTCTCTTTTAATTATTAATATTTTCAACCTTGATTGTCTGTTGAATCTTATAACATGATTACAGGAAATTCTACCTATTGCTCGGAAATTAGGAGAGAGAGTTCTTGATAACTTTTCTACCAAACTCAAAGCTTATTTGGTTCAAGCTGTAAAGACCTCGGGAATTTCTTTTGATGATTATAGTGATGTTGTTGGTTCCATATACAAAGATCTTTCTGGCTCTGTTGAGCCTAGTAATCTTCACGATGATGGTGAAAACATGGTAAGTTCTTAAATAATTGTTAGTCGAGTATTTTTAACAATTTATTCTAAGGTTGTGGTGCTATTTAAGTCTTTTTAATAGTCCATCCCATTTGCGCACCTCCTAATGTTGAGCATTGTACAAATGAGATTCTATATCTGCTATGACTTGGTATCATTATAAAAATGAAGATCTGTAGGTCTTCTCTCCGTTATTTGCTGGGCAGACCAGTGATTAAAATCTTTTATAATATTTGCAACCGTGTCAAACGTTTATCCCATGCAAATCTGCCATGGATACAATCTTTGATTCCCATGTTTAAAATTTATAGGATACGTGATTTGCTATATTGAATTTTCTATGAGTTTCTGTATTATAGAGGTTGGGTTTTTTTAGCTTGAGATTCTGGTTGTTGAAATATTATTCAATGCCCAAGGGTCAGCATATAAGATAAATTTAACCTCGGCGGAAGTGATCTTTATGTGATTATGACATCTTCTTTTGAATTTGAATTTTATGTAATGGTTTTTGCATTTTTCTCTGTTGATACTTTGTGCAGGTTGCTGAGACCATGTCAGCTAGAACGTATGAGGATGAGGAAATGCAACCATGCAATGCTTCTTAATGCATATTCTTTCCATATTTTATTTTATGAAGCATTTCTTCTCTTGCTAGAACAGACAGTTCTTTATAATCTCATGCGTGTAACATATGCAAAATATAACATATTAGGTTGGTATGTAGAAAGTAGTTACTTTTATTGAACTAATATTGAGTAAAATGATACGATTTCTATCAGGTTGAAAAAACCAAGACAGAAATGGCCACACCTGAGAGAGTTGACACAACCATTGAGAAACATCATGATTCAGTTAAGAGCAATGGAGTTGCACCGGTGGGTGAGGATGGCTCAGTTTCTAATTTGGAGAACAAGAAGGAAGAACACGGTGGTCAGGAGTGCAAAGAGGTGAAATCACCCAAAAGTCCTGGATCTGCTAATTTGGGCTCTGAGAAGGCTCGCAATGTGAAGGAAAGAGCAACAGAAAGAGAGAGTGATACTACCAGTGGTTTTGATGATACTAAGCTTGCAGCTGGAGATGCATCAGAAAGAGAAAGTGATACTACCAGTGATTCTGAGGCTAAGACATTGAAGCAGTCTGCTAGGAAGGGAGATGGAACCAGTAAGAGTAGTGGTGGATCTTTAGAACAATCAGAGGCTAACAGAAAGAAGGGATCAGGAAAATCTATTTCTGGAAAAACTGTGAAGAAATTGTCAGGCGATGATGATAAAAAGGTGACTGGAGTAGTGTTAATTGTATGTTTGGCTTAGTAGTGATAAAATGTTATCCCCATTGATGCATCAGTAATTGCTTGGTTGAATTGTGGTTATTCTTCTAGGAAGCAACACCTTTGCTGAAACCAACCTTGAATACCACCCAAGATGAGAAGATCTTGGACAAGAATACAACACCAGTTTCCAAGAGAAAACAAACTCCTAGCAAAGAAAAAGTATGTTCATACTGTATAGAGTTAATTAGTTCCATGTCATTATGGATGAGGAAGTTTTCACCTACTTAGAGAAAAAAACTTTAGTGATGTTGGGGTCGTTGTATTGTGGTGTGCACATGAGTGTTAAAGTTTTGTTCTCTCTCATTTAGTTGATTTGTTGGGAGGCTGACTTGGGCTCTTAAGAAGTGATTATTGCATTAAGTTCTTCATGACTCTGCTTTTATTGCCATCAATGCTCGTAGTTTGTAGGTTCAAATTCAACTTGTGTTTGTTTAAATATATACAAGAATGACTGATTTCTGTGTATTTTCCTGATTAGGTGTCAGGTCAATAATTCGTTTGTGTATTTGTGAAGCATTTTGTGAGGATGTATAAATGCTTGTCTGCCTCTTGTAGACATATTGGCTGATTCGTCCAAAGTTCTTTGTTTTGAGCGTGTGAAACTAAAATGATCTTAAAGCAACACGTTGGTGATTAGCCCATTGCACTCTTCTTTGTTGTGTTGAAAACTTAAATCTCATTTTCACTTATTGTTATTTTCAGGAGTCTGAAACCAAGAATTTTGATGAAACTTCCATTGGTTTGAAGATAAAAGTGCGGTGGCCAAAAGATTGCATGTAAGTGCCAATGGTCTCTCCTTTAGTTCTTTTGGGTTTCTTTTGTGTATGGTAGAGGCTTCTAGAGAGCTTAGGCAGGAAGACCCTCTTTCCCATCTTTCTTCATACTAGTAGTGGATATTCTTAGTAGATTAGTTGTCACGGGTGTGAACAGAGGAGCTATTGAGGGTTTTTAGGTGGGGGAGAGAGAATCTTCACCTGTTGTATCTCCATTGGGCAAATGACACTATTTTCTAGGAGTGTAAAAAATTGAACCGTATTGGTGGGCCAAATTGACCTGAACCAGTTCGGTTCGGATTGGGTCGATTTTTATCAGAATTCTAAAAGAGTTGTTCGGTTTGGTTTTGGTTTACCTGAACAATACCTTAAAAATTAGGGTTTCCTATTTTATTTAAGCCCCACATCCTTTCTCTCTCTCACACATCCCCTCTCTTCCTTTCTCTCTCTCTCATATCCCCCTCTCTCTCACATCCACTTTGTCTCTCTCTCACACGGAGAAGAAGTGTTTTTTTAAAAGATTTGTCCCACCCTGGAGAAGAAGGGGAAAATAGGAAATAGGGAAAGTAATACCTGCAATTGAAAACTCATAAAAAAAAAAAAGAAAAAGAAAAAAGAAAATGACTAATCAACGGTCATCACAAACGGCTGCACTTTGAAAAAGTCACTTCCCCTTGGACCTTCAGCAAGCAAAGCTCTTTCTCCAATTACATTTCGGACTCGTTTGGATCGACTTTCTAAGTGTTTAAATAAATGTTTATAAAAAAAATAATACCTGCAATTGAAAATTCATAAAAAAAAAAAAAAGAAAATGACTAATCAACAATCATCACAAACGGCTACACTTTGAAAAAGTCACTTCCCCTTGGACCTTGAGCAAGCAAAGCTCTTTCTCCAATTACATTTTGGACTCGTTTGGATCGACTTTCTAAGTGTTTAAATAAGTGTTTATAAGTGCAAGAAAAAGTGTTTATAAATACTTAGAAAGTCAATCCAAACAGGCCCTTCTTCTTCCTTCTCTTCTGACTTCTCTCCAATGATTAAAAAAAAAATGATGGCTACAAGAAATGTTCACAAACCAAAGGCCATTTACCTATTTCATTTTATGTTTGAGCTTATTTTTGGGTCTTAAGATTGATAGGTATAGGGGTGCGGTCTTTTGGGATTAATTGTGCGTTTAATAAGTTGAACTCTTCTCAAGCTGCTTGCGCAATGGGTCTGTTCCTTTTTACCTTGGGCTTCCTTTAGGCTGCAACCGTAAGCGTGTTTCCTTTTATGGATTTTTGGAAAGGAGGGAGGTTGACTCTTATTCAATTCATTCTTGGTGGATTCCTACGTATTTCATACCAGTTTTTAGGATTCTTGTCTTTTTCAGTAAGATTCTTGAAAAGATTGATGTGGGAAGGAGAGCTCACAAGGTTCGGTAGGGCATTGTGTCAACGACGGTCCATTAAGGAGGGTTGGGTATAGGTAATTTGAGACATCGTAATGGGATGATGTAGGCCAAATGACTGGCGTTTCCCTTTGGAATCAAATTCAATATGACGATATTAAGGGCATATTTGGTTTAACTTTTCAAGTGTTTAATTTAAAAAATAAGTAATTTTGGAAAAGATTGAACTCAAAATAGCTTTTGAAACACTTTCAAAACTTATTTTAGACAATTTTTATCAAAAGAGTTTAAATAAAAATGGCTCTTTTGAAAAACATTTTTTTTTCTCTAGTCGATCCAAACGAACACTAAGTCACTTTGAGCAAATACGACCTCAACTTATCTAAATGGGCTAGGACGTGGTTAGAAGGTACATCCAGAAATCCTTGGTTAGCAATTGCTTCAGGCGTTCGTTCCTTCTCCAAATATGTGAAGATTGTTGGGTAGGTCATAGACCCCTATGTTTGGAGTTCCCTCGTCTTTGCCATTTATCTTCTTCGAGGGTGTGATTTGTCTCTTAAATTGACTCTTTTTTGGGTTTGTCTCATTTGTTCAACTTTGGTTTGCAGTTGTTTAGAGTATTTAGTTGGAGAGGAATAATAGGATATTTAGGAGGATTAAGAGGCCTTGGAGGAGGTTTGGTCCATAGCTAGGTTTAATTTAATGTCTCGCTTTGGGAGCTGTGATTAGGGACTTTTGTAACCATTAGGTGTTATTCTGCTGGACTGGAGCCCTTTCTTGGTTTAGTTTTAGCTCTTCTGAGGGCTGGCTTTTTTGTATGCCATTTTTGGTTTGGGTGGCTTGCGGACTTTGTACTTCTTCATTTTTTATCTTAATAAGTTTCTGGATAAAGAAAGAGACTAATGCTCAAAATTAGAAATCTCCACTAAGGAAAAGAAGGACAACAAGTGAAATACAATAAAAACAAAATACCAAAGAAAAAGGCTGAGAACCCAAAACTCTGAGCATAAGAAAACTAAGAATGGAGAAGACATGAAAAACTAGGGGACAAGGATCTTCCAAGCCAACAAAATAAGAACCATGCAGCCTTGCAGGCTTCAAAAGGCTTGATAATTTTTTTTGGCCCCGTTTGATAACCATTTAGTATTTTGTTTTTGTACCAGTTTTTACCCATGTTTTAAAAAACCAAGCCAAGTTTTGGAAACTAATAGAAGTAGTTTTTTAAACTTGTTTTTGTTCTTGTTTTTGGAATTTGACAAATAATGCAAATGCTTATTTAAGAAATGTAAAAACCATGGTAAAGAAATGTGTTAAATTTTTTAAATTTAGTGTGTGGGGATATCTCATCTCTCCATCTTTTGTATGTTTCTTTTGATAATGAAAGTTTTAAGTTTCTTATCAAAAAGAAAAAACTGTAGTAAAGAAATTGGGAGGAAATAAGCATAAATTTGAAAGACAAAAAATTGAAAAAATCGTGATCAAACAAGATCTTATTTAATTTTTTTTTTCTTAATTCCATATGTATTCTGAGGCATTCTCTGGGCATTCTAAAATTTAACTTCCATAAATGACTTTCAGTGCTAGTATTTTTCATTATAACGTTTAAGTATCAGAATTTATTGTAAAGTGCTACATGCCTAAGACCAAGAGCACACACAATATATATATGATAATATTATTTTCTAAATAGCTAGAATCCGAAGGGCATGACATGATTGTAAAGTAAACGTTGTTCTAACGATCTTCAAGGAGATGAAACAAATCAAGAATAGTTATATGATTACTATTTTTGAAGTCGTTCTCAACAGTCATCCCTTTGGAAAAGAAAAGGAAATTTTATGGATTTCCTTCATTAGAGTCCTTTTTTGGCATCCATATCTAGAACGCAATCTTTATATACTACTACCCATTGGAAGAATTTTTCTTTTTTTTTTTCTTTTTTTTTTTTTTTAATTCTTAAGGACATAGTTTGCCCTCTTTTGTCATTTCATCTTATTAATAAAATGAAGGAATCGTATATTTCTCATCACAACATATTATAAAGTAAACATTCTTGTTTATATTCAAAGTTCTTTCAGGTTACAAGCTTATCTTAGTTTCTAATATTTACATTTGAAAGATAAGAAATAGAAACCTCGAGAAAAACTAAAGGGGTGTTTGGGGTAAGGAGTGGAATAGTAAGCTCCAAAGAGTTATGAAGTCTAGGGAGTTGTGAACTCCTGGAGCCCACGGTACTGTAAGGAGTTGAAAAGGTATAAAATTGATGTTTTTTTAGTAGTGGGACCCACAAATTCCATGGTCTAGACAAGGAGTGGAGTTCACAACTCCTACTTCTCAATTGCTTTCCAACTCATTTGGCCAAACACACCCTAAAAGACTCCTCTCCCTTCAGACTTCCTCTTGAGAACTATCCTTCTTTTCTCGAGCTCGTCATTTTTCTAGTTTCTTGCTAAATGCTCTTAAGGATAGTGAAAAATTTTACCTTTTGAAATAATCTACTAACCTCGAAAAAGAGGGTGCTAGAGCATCCCATGATGAGGTGACAATCTTGTTTGGAGCAGGAACCAACCCTAGTTGCGTTTTTTTTTTTGGGAAAGAGAAACAATGTCATTTTTTCTTTGAAAGGAAACAATACTTTTCATTGAAAAAATGAAAAGTAACTAATGCTAAAACATACATTAACCTTCAAGAGAAGAGAGAAACTGAGAAAAATAAAAGAAGGCAATACTAGTGAGATACAACGAAGAGAAAACACCAAAAAGCAAAATTTTCAAACCTAACAAACCAACTCTAGAAAAAAAATCTAAAGCTAGAGAATACATACACTTTAAAGCCAAAACCGACTAAAGACCATGGAGCAGACAAGGAAAGAAGTCCCTTTAAGACCAAAAGTGAGAGGACCAAACTACAAAGTAAACAAACTTCAACACTATCGCTTCTAAGCTTGCTATGATCACTGAAAAATGAAATGGGAATGAAGAACTTCCATGTTGCTTACTATGATCTTGTGATGATTTAGTTAGTACTTTGTAGATAAAAATTCAAGCAAATGAAATTCAAATTCCATACACTATGGATTTAGTTAGCAGGCATATTACAAACATAGTACATATGTAGTAGTTTTTCAAACAATCCATACAAACGTAAGTAGACTTAATAGAGTTCATACAAAAAATATAAGTTATAACGAATGGTTCATGAAACCAATAGCCAAATCCAGGGTTCAGTGAAGTAGGGTCAAGGTGTTTCATTCGGAGCTTGCCCAAGGACTTTCATGCAATAATTAAGCTTCCATTGCGCTGGGAAGTCCACAAAATAGCTTAGCAACATAGAATCTGCAAGCAATGAACGTGCAACCACTAGGTCGTCTTGCATTGATAGTTCAGGGATTGATTGCAGCTCGACATACAATTCTCTATGTTGACGCCTTGCCATGTCATCCTTCACGACGGGCCACTGTGAAATCGTGCCAATAAAGTTTGTTGTGACCTGAAACCCTTCTCGTAACATGTCATTCAACCGTCGCCTGGAGATTACACTAATATGTTACGAGAAGGGATTCAACAAACTTTATTGGCGCGATTTCACAGTGTCTCCAGGCAACGGTTGAAGGACATGTTACGAGAAAGGATTCAACTCACAACAAACTCTATTGGCGCAACTGCACAGTGGCCCGTCGTGAAGGATGACATGGCAAGGCGTCAATATAGAGAATTGTACGCCGAGTTGCAACGAATCCCTGAACTATCAATGCAAGATGACCTAGTAGTTGCATGCTCATTTCTTGTAGATCCTATTCTGCTGAGCCATTTTATGGACTTTGTAATGGAAGTCCTTGGGCGAGCTTCGAATGAAACACCTTGA ATGGTGTCTCGGTCTTCCGACAAGGATGTCAAAGAACAGCTTTTGGAAGCTGGCAATAAGATTGTTGACCCCCTTACTTCAGTTGAAGAACTTCTACCTCTTCTCGACAAAATTGAGAGTTTGCTGGCAAAAGTTGAACAATCCCCTTCAAAATCAATGCAAATTGCGCTCACTCCATCACTGAAAGCCCTGGTTTCTGATCAGCTTCTAAAGCATTCGGATATTGATGTCAAAGTTTCAGTTGCTGCATGTATTAGTGAAATAACTAGGATCACTGCACCTGTTGCCCCTTACAGTGACGAACAAATGAAGGAGGTGTTTCATCTTATAGTATCATCCTTTGAAGATCTCTCTGACAAGTCAAGTCGATCATATGCAAAGAGGGTATCGATTCTTGAAACCGTTGCAAAGGTCAGATCATGTGTGGTCATGCTGGATTTGGAATGTGATGCATTGATCATCGAGATGTTCCAACATTTCCTTAAGACAGTAAGAGATTATCACCCAGAGAATATATTTGCATCAATGGAGACAATTATGAGCCTTGTTTTAGAAGAAAGTGAAGATAGGGCTGTAGGGCTCCTCTCTCCTATCTTAGAAAGTGTGAAGAGACAATGGGGTAATGAAATTCTACCTATTGCTCGGAAATTAGGAGAGAGAGTTCTTGATAACTTTTCTACCAAACTCAAAGCTTATTTGGTTCAAGCTGTAAAGACCTCGGGAATTTCTTTTGATGATTATAGTGATGTTGTTGGTTCCATATACAAAGATCTTTCTGGCTCTGTTGAGCCTAGTAATCTTCACGATGATGGTGAAAACATGGTTGAAAAAACCAAGACAGAAATGGCCACACCTGAGAGAGTTGACACAACCATTGAGAAACATCATGATTCAGTTAAGAGCAATGGAGTTGCACCGGTGGGTGAGGATGGCTCAGTTTCTAATTTGGAGAACAAGAAGGAAGAACACGGTGGTCAGGAGTGCAAAGAGGTGAAATCACCCAAAAGTCCTGGATCTGCTAATTTGGGCTCTGAGAAGGCTCGCAATGTGAAGGAAAGAGCAACAGAAAGAGAGAGTGATACTACCAGTGGTTTTGATGATACTAAGCTTGCAGCTGGAGATGCATCAGAAAGAGAAAGTGATACTACCAGTGATTCTGAGGCTAAGACATTGAAGCAGTCTGCTAGGAAGGGAGATGGAACCAGTAAGAGTAGTGGTGGATCTTTAGAACAATCAGAGGCTAACAGAAAGAAGGGATCAGGAAAATCTATTTCTGGAAAAACTGTGAAGAAATTGTCAGGCGATGATGATAAAAAGGTGACTGGAGTAGTGTTAATTGAAGCAACACCTTTGCTGAAACCAACCTTGAATACCACCCAAGATGAGAAGATCTTGGACAAGAATACAACACCAGTTTCCAAGAGAAAACAAACTCCTAGCAAAGAAAAAGAGTCTGAAACCAAGAATTTTGATGAAACTTCCATTGGTTTGAAGATAAAAGTGCGGTGGCCAAAAGATTGCATTGTCTCCAGGCAACGGTTGAAGGACATGTTACGAGAAAGGATTCAACTCACAACAAACTCTATTGGCGCAACTGCACAGTGGCCCGTCGTGAAGGATGACATGGCAAGGCGTCAATATAGAGAATTGTACGCCGAGTTGCAACGAATCCCTGAACTATCAATGCAAGATGACCTAGTAGTTGCATGCTCATTTCTTGTAGATCCTATTCTGCTGAGCCATTTTATGGACTTTGTAATGGAAGTCCTTGGGCGAGCTTCGAATGAAACACCTTGA ATGGTGTCTCGGTCTTCCGACAAGGATGTCAAAGAACAGCTTTTGGAAGCTGGCAATAAGATTGTTGACCCCCTTACTTCAGTTGAAGAACTTCTACCTCTTCTCGACAAAATTGAGAGTTTGCTGGCAAAAGTTGAACAATCCCCTTCAAAATCAATGCAAATTGCGCTCACTCCATCACTGAAAGCCCTGGTTTCTGATCAGCTTCTAAAGCATTCGGATATTGATGTCAAAGTTTCAGTTGCTGCATGTATTAGTGAAATAACTAGGATCACTGCACCTGTTGCCCCTTACAGTGACGAACAAATGAAGGAGGTGTTTCATCTTATAGTATCATCCTTTGAAGATCTCTCTGACAAGTCAAGTCGATCATATGCAAAGAGGGTATCGATTCTTGAAACCGTTGCAAAGGTCAGATCATGTGTGGTCATGCTGGATTTGGAATGTGATGCATTGATCATCGAGATGTTCCAACATTTCCTTAAGACAGTAAGAGATTATCACCCAGAGAATATATTTGCATCAATGGAGACAATTATGAGCCTTGTTTTAGAAGAAAGTGAAGATAGGGCTGTAGGGCTCCTCTCTCCTATCTTAGAAAGTGTGAAGAGACAATGGGGTAATGAAATTCTACCTATTGCTCGGAAATTAGGAGAGAGAGTTCTTGATAACTTTTCTACCAAACTCAAAGCTTATTTGGTTCAAGCTGTAAAGACCTCGGGAATTTCTTTTGATGATTATAGTGATGTTGTTGGTTCCATATACAAAGATCTTTCTGGCTCTGTTGAGCCTAGTAATCTTCACGATGATGGTGAAAACATGGTTGAAAAAACCAAGACAGAAATGGCCACACCTGAGAGAGTTGACACAACCATTGAGAAACATCATGATTCAGTTAAGAGCAATGGAGTTGCACCGGTGGGTGAGGATGGCTCAGTTTCTAATTTGGAGAACAAGAAGGAAGAACACGGTGGTCAGGAGTGCAAAGAGGTGAAATCACCCAAAAGTCCTGGATCTGCTAATTTGGGCTCTGAGAAGGCTCGCAATGTGAAGGAAAGAGCAACAGAAAGAGAGAGTGATACTACCAGTGGTTTTGATGATACTAAGCTTGCAGCTGGAGATGCATCAGAAAGAGAAAGTGATACTACCAGTGATTCTGAGGCTAAGACATTGAAGCAGTCTGCTAGGAAGGGAGATGGAACCAGTAAGAGTAGTGGTGGATCTTTAGAACAATCAGAGGCTAACAGAAAGAAGGGATCAGGAAAATCTATTTCTGGAAAAACTGTGAAGAAATTGTCAGGCGATGATGATAAAAAGGTGACTGGAGTAGTGTTAATTGAAGCAACACCTTTGCTGAAACCAACCTTGAATACCACCCAAGATGAGAAGATCTTGGACAAGAATACAACACCAGTTTCCAAGAGAAAACAAACTCCTAGCAAAGAAAAAGAGTCTGAAACCAAGAATTTTGATGAAACTTCCATTGGTTTGAAGATAAAAGTGCGGTGGCCAAAAGATTGCATTGTCTCCAGGCAACGGTTGAAGGACATGTTACGAGAAAGGATTCAACTCACAACAAACTCTATTGGCGCAACTGCACAGTGGCCCGTCGTGAAGGATGACATGGCAAGGCGTCAATATAGAGAATTGTACGCCGAGTTGCAACGAATCCCTGAACTATCAATGCAAGATGACCTAGTAGTTGCATGCTCATTTCTTGTAGATCCTATTCTGCTGAGCCATTTTATGGACTTTGTAATGGAAGTCCTTGGGCGAGCTTCGAATGAAACACCTTGA MVSRSSDKDVKEQLLEAGNKIVDPLTSVEELLPLLDKIESLLAKVEQSPSKSMQIALTPSLKALVSDQLLKHSDIDVKVSVAACISEITRITAPVAPYSDEQMKEVFHLIVSSFEDLSDKSSRSYAKRVSILETVAKVRSCVVMLDLECDALIIEMFQHFLKTVRDYHPENIFASMETIMSLVLEESEDRAVGLLSPILESVKRQWGNEILPIARKLGERVLDNFSTKLKAYLVQAVKTSGISFDDYSDVVGSIYKDLSGSVEPSNLHDDGENMVEKTKTEMATPERVDTTIEKHHDSVKSNGVAPVGEDGSVSNLENKKEEHGGQECKEVKSPKSPGSANLGSEKARNVKERATERESDTTSGFDDTKLAAGDASERESDTTSDSEAKTLKQSARKGDGTSKSSGGSLEQSEANRKKGSGKSISGKTVKKLSGDDDKKVTGVVLIEATPLLKPTLNTTQDEKILDKNTTPVSKRKQTPSKEKESETKNFDETSIGLKIKVRWPKDCIVSRQRLKDMLRERIQLTTNSIGATAQWPVVKDDMARRQYRELYAELQRIPELSMQDDLVVACSFLVDPILLSHFMDFVMEVLGRASNETP Homology
BLAST of HG10018152 vs. NCBI nr
Match: XP_038884574.1 (titin homolog [Benincasa hispida]) HSP 1 Score: 669.8 bits (1727), Expect = 2.1e-188 Identity = 418/652 (64.11%), Postives = 444/652 (68.10%), Query Frame = 0
BLAST of HG10018152 vs. NCBI nr
Match: XP_011649845.2 (uncharacterized protein LOC101205018 [Cucumis sativus] >KAE8652211.1 hypothetical protein Csa_022436 [Cucumis sativus]) HSP 1 Score: 664.5 bits (1713), Expect = 8.9e-187 Identity = 415/644 (64.44%), Postives = 440/644 (68.32%), Query Frame = 0
BLAST of HG10018152 vs. NCBI nr
Match: XP_022961960.1 (protein starmaker-like isoform X1 [Cucurbita moschata]) HSP 1 Score: 659.4 bits (1700), Expect = 2.9e-185 Identity = 407/646 (63.00%), Postives = 441/646 (68.27%), Query Frame = 0
BLAST of HG10018152 vs. NCBI nr
Match: XP_022961961.1 (protein starmaker-like isoform X2 [Cucurbita moschata]) HSP 1 Score: 659.4 bits (1700), Expect = 2.9e-185 Identity = 406/641 (63.34%), Postives = 441/641 (68.80%), Query Frame = 0
BLAST of HG10018152 vs. NCBI nr
Match: KAG6598548.1 (hypothetical protein SDJN03_08326, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 658.7 bits (1698), Expect = 4.9e-185 Identity = 407/646 (63.00%), Postives = 440/646 (68.11%), Query Frame = 0
BLAST of HG10018152 vs. ExPASy Swiss-Prot
Match: Q04264 (Sister chromatid cohesion protein PDS5 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=PDS5 PE=1 SV=1) HSP 1 Score: 84.0 bits (206), Expect = 6.5e-15 Identity = 65/221 (29.41%), Postives = 111/221 (50.23%), Query Frame = 0
BLAST of HG10018152 vs. ExPASy Swiss-Prot
Match: Q5U241 (Sister chromatid cohesion protein PDS5 homolog B-B OS=Xenopus laevis OX=8355 GN=pds5b-b PE=2 SV=2) HSP 1 Score: 78.6 bits (192), Expect = 2.7e-13 Identity = 61/246 (24.80%), Postives = 117/246 (47.56%), Query Frame = 0
BLAST of HG10018152 vs. ExPASy Swiss-Prot
Match: A1L1F4 (Sister chromatid cohesion protein PDS5 homolog A OS=Danio rerio OX=7955 GN=pds5a PE=2 SV=1) HSP 1 Score: 78.6 bits (192), Expect = 2.7e-13 Identity = 63/246 (25.61%), Postives = 121/246 (49.19%), Query Frame = 0
BLAST of HG10018152 vs. ExPASy Swiss-Prot
Match: Q5F3U9 (Sister chromatid cohesion protein PDS5 homolog B OS=Gallus gallus OX=9031 GN=PDS5B PE=2 SV=3) HSP 1 Score: 77.0 bits (188), Expect = 7.9e-13 Identity = 60/246 (24.39%), Postives = 117/246 (47.56%), Query Frame = 0
BLAST of HG10018152 vs. ExPASy Swiss-Prot
Match: Q9NTI5 (Sister chromatid cohesion protein PDS5 homolog B OS=Homo sapiens OX=9606 GN=PDS5B PE=1 SV=1) HSP 1 Score: 77.0 bits (188), Expect = 7.9e-13 Identity = 60/246 (24.39%), Postives = 117/246 (47.56%), Query Frame = 0
BLAST of HG10018152 vs. ExPASy TrEMBL
Match: A0A6J1HDP8 (protein starmaker-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111462578 PE=4 SV=1) HSP 1 Score: 659.4 bits (1700), Expect = 1.4e-185 Identity = 407/646 (63.00%), Postives = 441/646 (68.27%), Query Frame = 0
BLAST of HG10018152 vs. ExPASy TrEMBL
Match: A0A6J1HBT1 (protein starmaker-like isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111462578 PE=4 SV=1) HSP 1 Score: 659.4 bits (1700), Expect = 1.4e-185 Identity = 406/641 (63.34%), Postives = 441/641 (68.80%), Query Frame = 0
BLAST of HG10018152 vs. ExPASy TrEMBL
Match: A0A6J1KAT2 (protein starmaker-like isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111491697 PE=4 SV=1) HSP 1 Score: 656.0 bits (1691), Expect = 1.5e-184 Identity = 406/641 (63.34%), Postives = 440/641 (68.64%), Query Frame = 0
BLAST of HG10018152 vs. ExPASy TrEMBL
Match: A0A6J1K1Y9 (protein starmaker-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111491697 PE=4 SV=1) HSP 1 Score: 656.0 bits (1691), Expect = 1.5e-184 Identity = 407/646 (63.00%), Postives = 440/646 (68.11%), Query Frame = 0
BLAST of HG10018152 vs. ExPASy TrEMBL
Match: A0A6J1GHY4 (ABC transporter F family member 4-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111454101 PE=4 SV=1) HSP 1 Score: 655.2 bits (1689), Expect = 2.6e-184 Identity = 409/646 (63.31%), Postives = 441/646 (68.27%), Query Frame = 0
BLAST of HG10018152 vs. TAIR 10
Match: AT4G31880.1 (LOCATED IN: cytosol, chloroplast; EXPRESSED IN: 24 plant structures; EXPRESSED DURING: 14 growth stages; BEST Arabidopsis thaliana protein match is: Tudor/PWWP/MBT superfamily protein (TAIR:AT1G15940.1); Has 137162 Blast hits to 70781 proteins in 2973 species: Archae - 289; Bacteria - 24182; Metazoa - 56725; Fungi - 20130; Plants - 6559; Viruses - 758; Other Eukaryotes - 28519 (source: NCBI BLink). ) HSP 1 Score: 327.0 bits (837), Expect = 3.1e-89 Identity = 232/505 (45.94%), Postives = 312/505 (61.78%), Query Frame = 0
BLAST of HG10018152 vs. TAIR 10
Match: AT4G31880.2 (LOCATED IN: cytosol; EXPRESSED IN: 24 plant structures; EXPRESSED DURING: 14 growth stages; BEST Arabidopsis thaliana protein match is: Tudor/PWWP/MBT superfamily protein (TAIR:AT1G15940.1). ) HSP 1 Score: 325.1 bits (832), Expect = 1.2e-88 Identity = 228/503 (45.33%), Postives = 313/503 (62.23%), Query Frame = 0
BLAST of HG10018152 vs. TAIR 10
Match: AT1G15940.1 (Tudor/PWWP/MBT superfamily protein ) HSP 1 Score: 201.8 bits (512), Expect = 1.5e-51 Identity = 195/589 (33.11%), Postives = 292/589 (49.58%), Query Frame = 0
BLAST of HG10018152 vs. TAIR 10
Match: AT1G80810.1 (Tudor/PWWP/MBT superfamily protein ) HSP 1 Score: 180.3 bits (456), Expect = 4.7e-45 Identity = 162/522 (31.03%), Postives = 250/522 (47.89%), Query Frame = 0
BLAST of HG10018152 vs. TAIR 10
Match: AT1G80810.2 (Tudor/PWWP/MBT superfamily protein ) HSP 1 Score: 180.3 bits (456), Expect = 4.7e-45 Identity = 162/522 (31.03%), Postives = 250/522 (47.89%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bottle gourd (Hangzhou Gourd) v1
Date Performed: 2022-08-01 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.
|