![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
MS017600 (gene) Bitter gourd (TR) 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.GGTATCTCCGGCAGGACTCTTTTTAAAGTCAACACCATGCCAATACAGACATCAAGTGTTGACCAGTTGGAATCTGATTCAAGTCAGCATAAATTAGAAAGATCAAAGACTGAGATGCACAAACATAAGTTTCTTGCTGAAGAGGCAGCTAAAATTTTTGATGACAAGATTCCTGTTCATAGGAAGGTATAATACTGCAGAAACAATAACAAATTATTTTGTCTAACATAAGGTACATTGCAGATTACAATTTAGCCCTGTAGGGCTACACCTAGAAGTTTTATGTTGTTCTCTGTTTATTCTTCTAATCAGAAGTCTGCAATTGTTTTACTCTAAACATAATTGCATTTAGATAACTCCATTTCAGGTATATTGGAGGATACCTATTTGGTGCAAACGATGAATTTTAATTAATGCTTTATAAATTGGCCACTCCTTGACCACTCCTTGATTATTGAATCAAATGACCTCATCTGGACGCTGAGCATTGCAGTTTAACAATACCTCATATATTTTGTATATTCTTCTTTTGTCTAGAGAACTCCTAGGGTCACTCTCGAAAGATTTATTTAACTAAAATGATGAAATAGGATAATGTAACTGATCTCGGAAGAACAAATTCTTAGAAATTTTATAATATTCTTCCCAGACAAATAAGCTGAATATTTAAAGGTATTTTTGACAGATTGTACCTGGTATTACTCGTAATTGAACAGTATAGACAATTGCCCCACAGTAAATAAATAGCAGCAAAAAAAAATCCAAAAGAAACCTCAAGCCTTTAAAGTTGACTATGATTTACACCAGCCTGCGTCGTATTTTCTCGAATGAAGAAAATGTTAACACTTTTGGGCTAAAGAATACCCTCTTTCACTCTTCATGTGAAACTTTAATCTACATGGTAAGGAATGAAATCAAGATTATATTCATTGTTTCAAACTATGTTTGTTGCTTTATAGGAGTTTACCAATCACGTTAATGTTAGATGGTTAGCTATATACTATGTCTTTGAACTTTTCTGCAAATGTGTTATTTCTTTTCGCATTCATGGTGATGATTCACATTTAAAAATTTTTCTTTATGACATTTTTAACTGGCATGTTTGCAATGAGAAAATGCAGCTTACATTTTTTTCTTTCTACTGGCGACGCCGTGGTGCAGAACCCAGAACGTGTTCCCCCTTTGCTTAAAAATTACTGTAAAATTCCTAGAACAAGGTTTTCTATACTAACTTTTTAAAACCGTACAGCTTAAATTGTTAAACAGAATAGCCACGGTGAAAGACAATGGAACTGTGGAATTTGAAGTCCATGAAGACATTGAACCTCATACTCTTGATGTTGGACCAAAGGAAGCCTATCATGAAACAAATGAAGAAGAACCTCTGGAAGCAACAGACCTCCAGGATATACCACCTCTGCAAATAGTAATGCTTATAGTTGGAACACGTGGAGATGTACAGCCATTTATTGCAATTGGAAAACGTTTACAGGTATGGAACTTTTATGAGTATCTCTTTAATTTTGCTTACTAAACAATTTATTTTTAACGTGTTTGGAGCTCTTCAGTTTATAGTTTTCTCCCAGCGGGGTGTCTGACCTTTAGGTTGTTTCCTTTTGCTGTCTCAAAATATATTTTCCGATTCTTATTAGAAAAAAAAACACATTTGGATCTCATTGGTTAAATGGCATAAAAGCTACTAAAGAAGCAAGAGAACTTTTTGAGGATATATAGAGACTTTGGGTTTGTAGGGAGATATTTGGTTCCCTAATGGCTTGGCTGAATGATTAAGGTGGTAATTTCTTCAAAGAGAAGAAGAAGTATCATTTGGTGTTGCAGTATCATTGGTGTTCTCTTTCTGAGCCATTCTCACGTTATTCACTTTCTCTTATTTTTAACAGTTGTGATGTTTTTATTTGGCCTTGTAATTCAGTTGTTTAGATTCTGTATTTTTATCTTTATGTTTCTTTTTCACTCTTTCGAGAGTTTGTATCCTTGAACAATTATTGTTCATTTTCATCTTTTCAATGAAAAGTTCATATTTGTTCAAAAAAAGAAAAAAAAGTATCTTTGCAATTTTTTAGCAGGTGTTAAGGAAATAGACAACCTAAGGGCAGAGGGTTGAGATCACCCTCCCCGGGAAACTAAACGATAGCAACCTTCCAATTTCTAACTATCAAGTATAGGTTATAATTACAAAAGAATTTCATGTGGTTTATAGACCACCACGAAGCAATATGCTATACATTGCTATAAAAAACATCCTCCAAGGACCTTTTATCTAAAAAACCTACTGTTACTTTCTCTCCAAATGAGCCATAATGCTCGCAGCACAATTCCGCTAAACAAAAGCCTTGCCTTTAAGAAGGCCTCCCCAAAATTTTCGAGGATCAAGTTATCAATCTTACGTGTGGGACAAAAAGATAACCTGAACTTGGTACATACAAAAAGCCCAAACCTTGGCCACAAAAGCCTTCTTTATCTATTTCTTATTGAATTACCCTATTTCTACAACCATAGTCAATTTGACAGTCTATTTGTAACTCCTTGGCATTTTTGAGGCTTTGTTATGTATTTCATGAAATTCGTTTTCCTGTTAAAAATGATAGAAAAAACACTTTGTCTACCCTGAAAATCCGGTTTGGAAGATATTAAGCTTGGGTTGTCCAAGAGTCATTCTAAGGATAGTGAAATACTTTGTCCACCCTCTATTGCCTTAGATAAGGAAGCTCTTCTGCATTATTTTGAAGAAATTGGATTTAATCTTTGTGAAATAAAGCCGAAGGGTTCACGTTAGTTTTCGAGGAGATCTCTTTGTGGATTCTCATGTTGCTCTACTTTGCTTTGGTGGTGTTGGTAGGCTGACATTTTTACTTTGGATCTTGTTATAGGCTGAAATTTGTGAAGTTTTGATGGCTGTGGTTTTTCTTGGTTCTTTGATTTTAGCTGGTTTTTGTTCAGAGCCAGTGGTTGACATCTTTTAGTTTGGTGCCGTAGGTTTGATTGGAAACTTGTTAGGTTTGAAGAGCTTGTTTTGCTATGTTTTGTTATTTTGTTTGGTTGTATTGTTTTTTTCTTTTCACTCTCTGTGGGAGTTTGTATCTTCCAACATTTTTATTCTTTTCATCCATCCATGAAAATTTTGTTTCTTGTTAAAAAATGATAGAAAAAACATGCAATCAAATATTATTATAATTTTTATTTAATATATCTGAGGTAATAATTATTCTCATGTGTGTTTACAATGTTTGCAGGATTATGGTCATCGTGTTAGACTTGCTACTCATTCAAATTTCAAGGAGTTTGTTTTAACTGCTGGGCTGGAGTTTTATCCACTTGGTGGAGATCCGAAGATTCTTGCGAGCTGTAAGTTCACCATAAACATTCTACCTTGTGCTTTAGTGTCTTCCTGAGCTCAAGCACGTTAAAAGTAGAGGTCAGAGAAACTATTTTGGTACAATACTTTAATCAGTAGTTGCTTAATATAGTGCCTATGGAACATCTGGAGATCCCACAACTTCCTCATTCTTTCTTTTCTTCTTCTTTCTGTCCCCTCAAAATCTCCTAACGAGAAACAATTTCTGTTAATCTCATGTTAACCTTGTCAAGGCCAAGTTCGAACTTGCTTTATTTATTTTTATTGAAATTAATTCTTGATTATGCCCGAGTTGGTAGCAAGCAATGCTCCATTTCTTATGTATGATATTTCTCGAGGAAGAAAACATTATTGAAATAAGGGACATGTACTTGTGCTTTAGAATCATGTACGGAAAATGAAGAGATCAAATAAATGAGGAAAAAAGTAACATAAATGAAAAGAGAATCAGATTCTATTTGTAATGTATCAAATTTTTTTTTGATTGCATGCTAGTGATCTCCCATTTTTACTTATATTTCTTTTGTCAGGAATTTTCACTTGTACCTGATAGAGGAAATTTGTTTCTCCTCTCTTTATGAGACCTTCCATTTTTATCTTTTATTGCTGGGAAGATATTAATTATGGTTCTCTCCCCTTGCAATTTTTATTTTAATTTCAATTGTTATCTTCCCAGCTCATGTTTGATTCATCATTAGATTTATGAATCTTAGTGCCCCGTGCAAGTCTATGAACAACTCTTTATTTGTACGTGGCTTGTTCAAAGCTAAGTGTTTCTTTTACTGTCACGAGCTGCCTTTTCTTCTGAGTTTAGGTATAATATGATGACAAATATTCTGCCAACCGTCCGATGATCTAATCATTCAAATGATTGAATATTTATCTGATTTACTTATTAACTTCTGTTAGAGAATTTAGACAATTGTTTTCCATTTATTGTTTTGTGAGCAATTTATTACCCTTATGCAACAGACATGGTGAAAAACAAGGGTTTCTTGCCCTCGGGGCCTTCTGAGATACCCATTCAAAGGAATCAAATGAAAGAAATCATTTATTCGTTACTTCCAGCTTGCAAAGAACCTGATATTGATTCTGGCATTGCCTTTGAAGCTGATGCTATCATTGCCAACCCACCAGCTTATGGTAAGACCCTCCCACTAAATATATATATACGCCCTTTTTTCTCTCCTAAGAAACATGAACTTTTACATCTGAAAGTTACAAAGTAAACCATTGTCCTTTAGAAGGAACAACAAAGAACAATGTTACCGCCTTCTGTAAGAGATAAAACCTCTCTCAGGTTTCATTTTGTTATTCTACTATGCTTTTGCTTAATATTTGTGGAAAGCATTAGTTCTCTTTACTTCTCCACTTTTTTCAGTCTTTCTCATCCTGGGCAGAGGGTTCTTGGAATGAGGTTGTAAGACGGTGGCACATTTTTCCATTGTCATCTAAGCTCATTTAAATTCTCGTGTGACAATCTAATTTGTTATTTTGTGAAGAAACTCTTTACAATTACCTCTTCAATGCTTCTATAGGACATACCCATGTGGCAGAGGCACTTAACATTCCAATTCACATTTTTTTTACAATGCCATGGACGTAAGTTTGCCCTAGACAACGTACTTTTGTTTTTCTTTTTTGACGGAGATACTATTACTGAGTTATATTGTATGAATACTACATTTGTGCCATGTGCTCTGTGAGAAAGTTTGAAACATGTATTATTTCCTCCTCTTACCAGGCCAACAAGTGAATTTCCTCATCCTTTATCCCGTGTCAAGCAACAGGCTGGCTATCGGGTAATTCTATCACGGCTGCCTTCTGCCTTTTCACACACACACACACACACACATCATGTTGACTTATTTTTTCACCTTCACCAAATTTAGTCAAATCTAGTTTGACCTTTGACTCTTTGTAATTTCCAGCTCTCATATCAAATTGTAGACTCCTTAATTTGGCTTGGGATACGGGACATGATTAATGATCTTAGGAAGAAAAGGTTGAAGCTACGACCTGTCACTTATTTAAGTGGCTCTCATGCCTCTGAATCAAATGTGCCACATGGATATATATGGAGCCCGCATCTTGTTCCTAAACCAAAAGGTTCATTCTTGAAATTATTAATTGTTGTTTGTACTGTAAAGCATTATTAACAAGTTACTCTTTAAGAAATTTACCGTGTTGTTTCATAATATAAAACAGCATGCTTGCAGGATCTGTAATTTTTTCATTTGGAAAAGAATATAGAATGTGTCATTCTTGATCATTAGCACATAGAATCTTATGGTTCTAGCTTTAAAACTTGGGTTTTTTCAGATTGGGGGTCTAAGGTGGACGTGGTCGGATTTTGCTTCCTTGATCTTGCATCAAATTATGAACCTCCTGAGACGCTTGTAAATTGGCTTCAGGCTGGTGACAAGCCTATTTATATTGGTTTTGGTAGCCTTGTGAGTGTTTCATATTACTCCCTCCATTCAATTTGATATTTCAGTTTTTAAAAGTTTCTCCTTTCTCTGCATTGAAAGCCTGGCTCCTCTTTTCTGGGGTGGGTATGAAAGAGGTTGTATATTTTTAATTTTAGTTTATTTTGCTATGGAATGAAACTCTTTTTTTTTTCCTTCCTTTTGGTTTAGAAACCTTAGATATATAAAACAAAAGAGCAAAACAGCCTAAGGGCAGGGGGAAGAGAGATCCCCTCCCAATAACTACTTAAGAATGAAACTTTCATTAAGAAATTAATTGTACAAAGTTCAAATAGATATCCTTCCATGTGATGTCGTGGAATTGGCACAATGGGTAAAAAATAGTGGTGAAGATGTAAATCGTTTATTCATCTGGTTCCCTCTTCTTGGAAGATGCCTTTATTCCTTTCAAGCCAAATGTCCACATTATAGCAAGAGAACCATTTAGTTACAGAACTTTAGTCTTCTCTTTTTTGAATAAGAGACAATTCATTGAACAAGAACCAAAAGAAACAGCCTAATGATGGGGGCTGAGACAACCTCCTCCCAAAAAGAGAAAAAACTAGAACTAAACGGGAAAGAACTTTAGACTTCTCAATAAATGAATGGCCTAAAAATATTTGAATGAAGAATTCTTTTAGATTTTATCATTTTACGGAAAGACCCAATTGATGTTAAGCCTTGATCACTTAAAATGAGAAGGGGCACTGGAGAAACAAGAACTTGATACATTCATTGGTACCCTTTCACATATTGCACCACCATACGAGTAGAACTAAGAAAAACTCGGACTCCTAGACTGCATTTTATCATTAGTGTTAATCTGTTGGGCCCCCGATTGTAAAAACTCAGTAGAAAGGGTAAAGAAGTAATTGGGTAGACATAGGCCAAAACAGCCCAGAGAGAGAAATGCTTAGATAGGGGCAGGGGAGTGTGTCCTTTTAAGGGGGAAGGAATGTCGTTATGGATCATCTTCTCCTCCTCCGTCAGTTTCTGAATCTCGAAGTAGCGTTCAGCGCTGAATATCCACGCTTCGAGTTCTTCTCCTCCGAAAATAGGCATTTCTACCTTTTTGAAACGGTTCCTGTCATTCCCTTGGTTTCCATTATTGTTCTCGGCCACTTCTCCTGTGGTCGCCTTCCCTTTCAATGTCGAGGTCTCTCTTGTTACTGACGAAATAGGACGGGGACTCCCGCCGATTATCTCAGCCATGAACGCTTTAAGCGTTACGTGAATATTTTCACTCAGCTTCTGTTGCTCATCAAGCTTCAGGTGTATCGCCGTGATTTCTTACTTCACACCGGCGATTTCCTTTTCTACTATTTCACACCTAGTTTCTAGTTCTTTCACCGTCANCCTTGTCCCCAAGGTGAAATTCCGGAAACTGCTTGCTGATTTCACGCACGAACTCCCACGTTGCTTCTTCTTTTGCCAAACCTTTCGAGCTAATCAATGCTTCTCTTTCTTCTGTTGTCGTGTTAGTTTGGAAATCAAACACAGACTCGGGTTCTGCCATCCATTCCCAGGTTTCAGAGAGTTGACTCGGGATGTGTTGTGAGGTGGAGGACTCACCAACCGCCTTTTTGAGCTGGGACACATGGAAAACTGGATGGACTTTCACTTCTGCTAGTGCTGGCAAATTCAATCGATAGGCCACTTTTCCGATCCTCTGTAAGACTTCATAAGGCCCGAAGTATTTGGGACTCAGTTTTTCGTTCCTTCGTTTGGCCAAGGTTCGCTGTCTGTAGGGACGAACCTTGAGATACATTTTCTCTCTAACCTCATATTCAACCTCCCAGTGATGCTTGTCCACCTGCTTCTTTATTCGGTCTTGGGCCTGCCTCAAATGGTCCTTCAAATGTTCTAATGCCTGGTCTCTTTCGACCAGCTGTTGGTCGAGAGTTGCATTCATTGTCTTCTGGTTTCTATACATGATCAGAGGGTGCCCGCCCATACACTGCCTGGAATGGAGTAGTGTTTAGAGACTCGTGATAAGTTGTGTTGTACCAGTATTCCACCCACGATAACCACTGGCTCCAATGTTTGGGGTGCTCACTGCTGAAACACCGGAGGTAAGTCTCCAAACAGCGATTGACGATTTCCATCTGTCCATCCGTTTGAGGGTGGTAAGCAGTACTGCGCTTCAATGTAGTCTCTTGTAGCGTGAACATCTCAGTCCAAAAGTGATTGATAAAAACCTTGTCCCTATCCGATATGATGGACCTAGGGAAACCATGTAATTGGACTATTTCTTGTATGAACGTCGCAGCGACTCCCTTGGCAGTGAATGGGTGATGTAGGGGAATGAAATGAGCATACTTGCTCAATCTATCGACAACCACGAGTACGGTGTCATTCCCCTGGGATTTAGGTAATGCCTCCACGAAATCCATGGTCAGGTCTTCCCATATCCGGTCTGAGAGAGGTATGGGTTGTAGTAGCCCTGCTGGAGCTAGTGCCTCTGTCTTGTTTCTTTGGCATATCTCACACTCATTAACATACTTTTGTTCTTTGGCATATCTCACACTCATTAACATACTTTTTAACATCTTCTTTCATTCCAGCCCAATAGAGTTCGCTAGTCAACCGCTTATAGGTTCTCAAGAAACCCAAGTGACCCCCTAACACGGAGTTGTGGTACATATGCAATATGGCAGGAATAAGAGAAAGAGGACTTTGAGAGTACCAACCTGTTCTTGTAGTATAAGGTTCCTTGTTGCAGATGGAACTTTGTCATATTCTCTGGATCTTCGGTCAAACTAGCTATCACTTGGGCCAAGTGGGGATCGACTGCTACTTCTTGTCGAATGATCTCTGTATCGATCACCGCAGGGGCTGATAGCATTGCCAATTGAGGAGATTCCGACATTCGAGATAGAGCATCCGCCGCCTTGTTTTCCAGCCCTGATTTATATTGTATTTCGAAGTCATATCCCAGAAGCTTAGAGATCCACTTTTGATATTCAGGTTGCACTATCCTCTGCTCTAGCAAGTACTTCAACGCCTGTTGGTTGGTTCAGACAACAAACTTCTGTCCCAACAGGTAGGGCCGCCAGCACTGGATAGCTAAAACTACTGCCATGAGTTCCCTTTCGTAAATCGATTTGGCCTGGTTTTGCAGTGACAGTGTATCCCTCCAGAAACAAAGACCACCTAGACAATTTGACCTTTCACATTTGATGTTAACTTGACATTCTGCTTATCTCCGACATTTTCTTTTCAGTTTCAATTGTCAGTAGCATCTTGAAACATCTCATGATATTACTAATTGGCGATCAATTTCTTTGATAACAGCATTATCATGTTCTCAAGAAACAACCTTCTTAATTAATAGGTTTCTCACATTCTCAACCTAATTTTTTATTGTATGTCAGCCTGTTCAAGAACCTGAAAAGATAACCCAAATAATTGTAGAAGCGCTGGAAATTACTGGGCAGAGAGGCATCATCAACAAAGGCTGGGGCGGTCTTGGAAATTGTAAGTTTCTGAATTTCTCTCAGTATGTTCTACTGACACATCATATACGATTGTAACTAGCACTACATATGCACTCCCCTCCCCTGAAATTTTGTTGCTTGGAAAATATAGCTTTTGGGAGATTTGATTTATTTAGCTTAAATTTTATTTCTTCCCAGTGGCAGAACCGAAGGACTTTGTGTATTTATTGGACAATTGCCCTCATGATTGGCTATTCTTACAGTGCAAGGCTGTGGTGAGTCTGCATAGTTACAGTGCAAGGTTCTCCTTTTATTTGAAAATGATCATGTATCTGTACAAATAAGAGGTCTTCACAAAGTAAGGTTCAAGGATACATATCCTTCACCTGAAAGAAGCTGAGAAAACAAATAATCTGCCTCATTATTTATATTCTTGTTTCTTGTTTCTTTATATTTTTTTTCAATTCAAAAAAATATTCTTGACCATTTTCTTGAGGAATTAGAATGGTGGACCTGGAATGGAGATTTATGGATCAAGTTGTTTTGTTGGTGGAAAGGCCATCATGATGATTCAGAACTAATTGGTGTGGCTTTTAGCTTGAACAAGTTTGAATGGGGGGTCCGAAGTCATAGTTGTCTCTTGTAAAAAAAAGTTCTAGGTGTTGGCATGTTTCGCTTGAGCACATTCTTTTTATGTATTCAGACCTGAAGTTGTGAGTTTCCTTTTTCATCTAATCAACAATACAATATACTAATCAAGAACTTCGATTCAATAATAAGCTAAACAAAGAGGTGGGAGTATAGTGAAAAATTAATGTGGAGCTTTCAGCCAAATTAGTTGAGGCAGAATGCCGAACCTTCCTATAGGTTAATGCACATGCAAATAAGTTAGATATATGGTTGTGAACGCCTTATTAAATTTTGTTCAGATTACCTTCTTTTCATCCAAAAAAATCACTTACAACAGCATACTTGGCCCCAGAATTCGGAGATGAAGATTTCTGGAGAGGTGGGTTGGAAATTTGAGAGAAGATGCAGATAAATTCGTGGGTTGAATTTTGTGGCTTAGCTTGGGTTGATAAAGGTCTGAAGAAGTATGATGTAATAAAACAAATTTGAAAAAAAAAACTTAAGTTGTATTAGTAAATGAAGAAAATGAAAATGTATAAAGGATTGGGAGATAGGGTATCCGCCCAAACTCAAGAAATTAAAATGGATTTTTATTTTGACAGGAAACAAAATATTTCATTGATGTGAGGAAATATTACCAAAGATATGGAAAAAACAAACCCAAGCTATAGAGGCCTAATTTGCCTAAGGATAGCTGGATCATTTAAGCAGGAAAGTTACAAATTTTGCTGGAGAATCTGTTCTACCCTTTTTTTTTCCTCTTCTTCTTTTTTTGATAGGAAACTTGAGATATGTAATAATCACACAAAAATGGAATAAGCTACGGGCTTGGGTCTGTAATTTTGACCGTGATTTCAAATAACAGAAGGTTCATAAATACGTGTGAAGTTTATCAATATTTTTTTTCCTTCTGTAACTAAAAGGTTGGATATTCTATAATGTATGCTATGACTATTTGCATATTGACTATGTTTGCTTGTTTTTAACCTGTTTCCTGCATCTAAAAGGGTTTCCCCTATGTTGTATCTTGTTTACAGGTGCATCATGGTGGTGCTGGAACAACAGCTGCCGGACTAAAAGCTGCTGTAATGGCTTCACGTTGGAAAACTTGTCTTTTCGGTACCGCATGATTGATTTTTGCTAACTTTCAGTCCTTTTTTTCCTTCTTTTTTTCATTGTAGTGCCCTACAACGATCATCCCTATTTTTGGAGATCAACCATTTTGGGGTGAGCGGGTACATGCTAGAGGAGTTGGTCCTGCACCTATCCCAATTGATGAGTTATCACTTGACAAATTGGTTGGTGCTATGAAGTTCATGCTAGATCCAAAGGTAAGTTTTGAATGGTTATGCTGATGCCTATGATGCCTATGCTGATTTTTTTTTTCTTTTCCAGAAATCGGAACTAATCAAATTTGAATGACTTTCAAGATGCAAATTATTGATTATCTTTGCTTTTATTTAATTAATTAATTAATCTATTTGAACTCTTAGTAGGAAAATATGAAAAGAATAAGATGCTGTCGTAGAAGCTTTGCCCCTTGTTTTACAGAGATTGTTATGAACTTATGTGTCATTCCAGGTAAAAGAGTCTGCGCTCGAGCTTGCCAAGGCCATGGAGAACGAAGATGGAGTAGAAGGAGCTGTGAAGGCCTTCTTTAAGCATTATTGTCCAAGAAAGACCGAACCAGAGTCAGAGTCAGATGAGCCAACCGTTTTCTCTATACGTAGATGTTTTGGTTGTTCT GGTATCTCCGGCAGGACTCTTTTTAAAGTCAACACCATGCCAATACAGACATCAAGTGTTGACCAGTTGGAATCTGATTCAAGTCAGCATAAATTAGAAAGATCAAAGACTGAGATGCACAAACATAAGTTTCTTGCTGAAGAGGCAGCTAAAATTTTTGATGACAAGATTCCTGTTCATAGGAAGCTTAAATTGTTAAACAGAATAGCCACGGTGAAAGACAATGGAACTGTGGAATTTGAAGTCCATGAAGACATTGAACCTCATACTCTTGATGTTGGACCAAAGGAAGCCTATCATGAAACAAATGAAGAAGAACCTCTGGAAGCAACAGACCTCCAGGATATACCACCTCTGCAAATAGTAATGCTTATAGTTGGAACACGTGGAGATGTACAGCCATTTATTGCAATTGGAAAACGTTTACAGGATTATGGTCATCGTGTTAGACTTGCTACTCATTCAAATTTCAAGGAGTTTGTTTTAACTGCTGGGCTGGAGTTTTATCCACTTGGTGGAGATCCGAAGATTCTTGCGAGCTACATGGTGAAAAACAAGGGTTTCTTGCCCTCGGGGCCTTCTGAGATACCCATTCAAAGGAATCAAATGAAAGAAATCATTTATTCGTTACTTCCAGCTTGCAAAGAACCTGATATTGATTCTGGCATTGCCTTTGAAGCTGATGCTATCATTGCCAACCCACCAGCTTATGGACATACCCATGTGGCAGAGGCACTTAACATTCCAATTCACATTTTTTTTACAATGCCATGGACGCCAACAAGTGAATTTCCTCATCCTTTATCCCGTGTCAAGCAACAGGCTGGCTATCGGCTCTCATATCAAATTGTAGACTCCTTAATTTGGCTTGGGATACGGGACATGATTAATGATCTTAGGAAGAAAAGGTTGAAGCTACGACCTGTCACTTATTTAAGTGGCTCTCATGCCTCTGAATCAAATGTGCCACATGGATATATATGGAGCCCGCATCTTGTTCCTAAACCAAAAGATTGGGGGTCTAAGGTGGACGTGGTCGGATTTTGCTTCCTTGATCTTGCATCAAATTATGAACCTCCTGAGACGCTTGTAAATTGGCTTCAGGCTGGTGACAAGCCTATTTATATTGGTTTTGGTAGCCTTCCTGTTCAAGAACCTGAAAAGATAACCCAAATAATTGTAGAAGCGCTGGAAATTACTGGGCAGAGAGGCATCATCAACAAAGGCTGGGGCGGTCTTGGAAATTTGGCAGAACCGAAGGACTTTGTGTATTTATTGGACAATTGCCCTCATGATTGGCTATTCTTACAGTGCAAGGCTGTGGTGCATCATGGTGGTGCTGGAACAACAGCTGCCGGACTAAAAGCTGCTTGCCCTACAACGATCATCCCTATTTTTGGAGATCAACCATTTTGGGGTGAGCGGGTACATGCTAGAGGAGTTGGTCCTGCACCTATCCCAATTGATGAGTTATCACTTGACAAATTGGTTGGTGCTATGAAGTTCATGCTAGATCCAAAGGTAAAAGAGTCTGCGCTCGAGCTTGCCAAGGCCATGGAGAACGAAGATGGAGTAGAAGGAGCTGTGAAGGCCTTCTTTAAGCATTATTGTCCAAGAAAGACCGAACCAGAGTCAGAGTCAGATGAGCCAACCGTTTTCTCTATACGTAGATGTTTTGGTTGTTCT GGTATCTCCGGCAGGACTCTTTTTAAAGTCAACACCATGCCAATACAGACATCAAGTGTTGACCAGTTGGAATCTGATTCAAGTCAGCATAAATTAGAAAGATCAAAGACTGAGATGCACAAACATAAGTTTCTTGCTGAAGAGGCAGCTAAAATTTTTGATGACAAGATTCCTGTTCATAGGAAGCTTAAATTGTTAAACAGAATAGCCACGGTGAAAGACAATGGAACTGTGGAATTTGAAGTCCATGAAGACATTGAACCTCATACTCTTGATGTTGGACCAAAGGAAGCCTATCATGAAACAAATGAAGAAGAACCTCTGGAAGCAACAGACCTCCAGGATATACCACCTCTGCAAATAGTAATGCTTATAGTTGGAACACGTGGAGATGTACAGCCATTTATTGCAATTGGAAAACGTTTACAGGATTATGGTCATCGTGTTAGACTTGCTACTCATTCAAATTTCAAGGAGTTTGTTTTAACTGCTGGGCTGGAGTTTTATCCACTTGGTGGAGATCCGAAGATTCTTGCGAGCTACATGGTGAAAAACAAGGGTTTCTTGCCCTCGGGGCCTTCTGAGATACCCATTCAAAGGAATCAAATGAAAGAAATCATTTATTCGTTACTTCCAGCTTGCAAAGAACCTGATATTGATTCTGGCATTGCCTTTGAAGCTGATGCTATCATTGCCAACCCACCAGCTTATGGACATACCCATGTGGCAGAGGCACTTAACATTCCAATTCACATTTTTTTTACAATGCCATGGACGCCAACAAGTGAATTTCCTCATCCTTTATCCCGTGTCAAGCAACAGGCTGGCTATCGGCTCTCATATCAAATTGTAGACTCCTTAATTTGGCTTGGGATACGGGACATGATTAATGATCTTAGGAAGAAAAGGTTGAAGCTACGACCTGTCACTTATTTAAGTGGCTCTCATGCCTCTGAATCAAATGTGCCACATGGATATATATGGAGCCCGCATCTTGTTCCTAAACCAAAAGATTGGGGGTCTAAGGTGGACGTGGTCGGATTTTGCTTCCTTGATCTTGCATCAAATTATGAACCTCCTGAGACGCTTGTAAATTGGCTTCAGGCTGGTGACAAGCCTATTTATATTGGTTTTGGTAGCCTTCCTGTTCAAGAACCTGAAAAGATAACCCAAATAATTGTAGAAGCGCTGGAAATTACTGGGCAGAGAGGCATCATCAACAAAGGCTGGGGCGGTCTTGGAAATTTGGCAGAACCGAAGGACTTTGTGTATTTATTGGACAATTGCCCTCATGATTGGCTATTCTTACAGTGCAAGGCTGTGGTGCATCATGGTGGTGCTGGAACAACAGCTGCCGGACTAAAAGCTGCTTGCCCTACAACGATCATCCCTATTTTTGGAGATCAACCATTTTGGGGTGAGCGGGTACATGCTAGAGGAGTTGGTCCTGCACCTATCCCAATTGATGAGTTATCACTTGACAAATTGGTTGGTGCTATGAAGTTCATGCTAGATCCAAAGGTAAAAGAGTCTGCGCTCGAGCTTGCCAAGGCCATGGAGAACGAAGATGGAGTAGAAGGAGCTGTGAAGGCCTTCTTTAAGCATTATTGTCCAAGAAAGACCGAACCAGAGTCAGAGTCAGATGAGCCAACCGTTTTCTCTATACGTAGATGTTTTGGTTGTTCT GISGRTLFKVNTMPIQTSSVDQLESDSSQHKLERSKTEMHKHKFLAEEAAKIFDDKIPVHRKLKLLNRIATVKDNGTVEFEVHEDIEPHTLDVGPKEAYHETNEEEPLEATDLQDIPPLQIVMLIVGTRGDVQPFIAIGKRLQDYGHRVRLATHSNFKEFVLTAGLEFYPLGGDPKILASYMVKNKGFLPSGPSEIPIQRNQMKEIIYSLLPACKEPDIDSGIAFEADAIIANPPAYGHTHVAEALNIPIHIFFTMPWTPTSEFPHPLSRVKQQAGYRLSYQIVDSLIWLGIRDMINDLRKKRLKLRPVTYLSGSHASESNVPHGYIWSPHLVPKPKDWGSKVDVVGFCFLDLASNYEPPETLVNWLQAGDKPIYIGFGSLPVQEPEKITQIIVEALEITGQRGIINKGWGGLGNLAEPKDFVYLLDNCPHDWLFLQCKAVVHHGGAGTTAAGLKAACPTTIIPIFGDQPFWGERVHARGVGPAPIPIDELSLDKLVGAMKFMLDPKVKESALELAKAMENEDGVEGAVKAFFKHYCPRKTEPESESDEPTVFSIRRCFGCS Homology
BLAST of MS017600 vs. NCBI nr
Match: XP_022158063.1 (sterol 3-beta-glucosyltransferase UGT80A2-like [Momordica charantia]) HSP 1 Score: 1161.0 bits (3002), Expect = 0.0e+00 Identity = 559/562 (99.47%), Postives = 560/562 (99.64%), Query Frame = 0
BLAST of MS017600 vs. NCBI nr
Match: XP_038887947.1 (sterol 3-beta-glucosyltransferase UGT80A2-like isoform X1 [Benincasa hispida]) HSP 1 Score: 1047.7 bits (2708), Expect = 3.5e-302 Identity = 502/562 (89.32%), Postives = 530/562 (94.31%), Query Frame = 0
BLAST of MS017600 vs. NCBI nr
Match: XP_008447324.1 (PREDICTED: sterol 3-beta-glucosyltransferase UGT80A2 isoform X1 [Cucumis melo]) HSP 1 Score: 1040.4 bits (2689), Expect = 5.6e-300 Identity = 500/563 (88.81%), Postives = 527/563 (93.61%), Query Frame = 0
BLAST of MS017600 vs. NCBI nr
Match: XP_004152017.1 (sterol 3-beta-glucosyltransferase UGT80A2 isoform X1 [Cucumis sativus] >KGN58338.1 hypothetical protein Csa_017533 [Cucumis sativus]) HSP 1 Score: 1036.9 bits (2680), Expect = 6.2e-299 Identity = 497/563 (88.28%), Postives = 527/563 (93.61%), Query Frame = 0
BLAST of MS017600 vs. NCBI nr
Match: XP_022930951.1 (sterol 3-beta-glucosyltransferase UGT80A2-like isoform X1 [Cucurbita moschata] >KAG6606327.1 Sterol 3-beta-glucosyltransferase UGT80A2, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1030.8 bits (2664), Expect = 4.4e-297 Identity = 497/562 (88.43%), Postives = 527/562 (93.77%), Query Frame = 0
BLAST of MS017600 vs. ExPASy Swiss-Prot
Match: Q9M8Z7 (Sterol 3-beta-glucosyltransferase UGT80A2 OS=Arabidopsis thaliana OX=3702 GN=UGT80A2 PE=1 SV=1) HSP 1 Score: 884.8 bits (2285), Expect = 5.1e-256 Identity = 431/567 (76.01%), Postives = 482/567 (85.01%), Query Frame = 0
BLAST of MS017600 vs. ExPASy Swiss-Prot
Match: Q9XIG1 (Sterol 3-beta-glucosyltransferase UGT80B1 OS=Arabidopsis thaliana OX=3702 GN=UGT80B1 PE=2 SV=1) HSP 1 Score: 621.3 bits (1601), Expect = 1.1e-176 Identity = 283/496 (57.06%), Postives = 369/496 (74.40%), Query Frame = 0
BLAST of MS017600 vs. ExPASy Swiss-Prot
Match: Q54IL5 (UDP-sugar-dependent glycosyltransferase 52 OS=Dictyostelium discoideum OX=44689 GN=ugt52 PE=2 SV=1) HSP 1 Score: 275.0 bits (702), Expect = 1.9e-72 Identity = 165/484 (34.09%), Postives = 256/484 (52.89%), Query Frame = 0
BLAST of MS017600 vs. ExPASy Swiss-Prot
Match: Q6C8M8 (Sterol 3-beta-glucosyltransferase OS=Yarrowia lipolytica (strain CLIB 122 / E 150) OX=284591 GN=ATG26 PE=3 SV=3) HSP 1 Score: 273.5 bits (698), Expect = 5.4e-72 Identity = 160/432 (37.04%), Postives = 241/432 (55.79%), Query Frame = 0
BLAST of MS017600 vs. ExPASy Swiss-Prot
Match: P0CN91 (Sterol 3-beta-glucosyltransferase OS=Cryptococcus neoformans var. neoformans serotype D (strain B-3501A) OX=283643 GN=ATG26 PE=3 SV=1) HSP 1 Score: 265.8 bits (678), Expect = 1.1e-69 Identity = 167/499 (33.47%), Postives = 249/499 (49.90%), Query Frame = 0
BLAST of MS017600 vs. ExPASy TrEMBL
Match: A0A6J1DV25 (sterol 3-beta-glucosyltransferase UGT80A2-like OS=Momordica charantia OX=3673 GN=LOC111024636 PE=4 SV=1) HSP 1 Score: 1161.0 bits (3002), Expect = 0.0e+00 Identity = 559/562 (99.47%), Postives = 560/562 (99.64%), Query Frame = 0
BLAST of MS017600 vs. ExPASy TrEMBL
Match: A0A1S3BH51 (sterol 3-beta-glucosyltransferase UGT80A2 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103489798 PE=4 SV=1) HSP 1 Score: 1040.4 bits (2689), Expect = 2.7e-300 Identity = 500/563 (88.81%), Postives = 527/563 (93.61%), Query Frame = 0
BLAST of MS017600 vs. ExPASy TrEMBL
Match: A0A0A0L919 (Glyco_transf_28 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_3G624060 PE=4 SV=1) HSP 1 Score: 1036.9 bits (2680), Expect = 3.0e-299 Identity = 497/563 (88.28%), Postives = 527/563 (93.61%), Query Frame = 0
BLAST of MS017600 vs. ExPASy TrEMBL
Match: A0A6J1ESC0 (sterol 3-beta-glucosyltransferase UGT80A2-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111437289 PE=4 SV=1) HSP 1 Score: 1030.8 bits (2664), Expect = 2.1e-297 Identity = 497/562 (88.43%), Postives = 527/562 (93.77%), Query Frame = 0
BLAST of MS017600 vs. ExPASy TrEMBL
Match: A0A6J1K8G2 (sterol 3-beta-glucosyltransferase UGT80A2-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111491605 PE=4 SV=1) HSP 1 Score: 1027.3 bits (2655), Expect = 2.4e-296 Identity = 495/562 (88.08%), Postives = 527/562 (93.77%), Query Frame = 0
BLAST of MS017600 vs. TAIR 10
Match: AT3G07020.2 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 884.8 bits (2285), Expect = 3.7e-257 Identity = 431/567 (76.01%), Postives = 482/567 (85.01%), Query Frame = 0
BLAST of MS017600 vs. TAIR 10
Match: AT3G07020.1 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 880.6 bits (2274), Expect = 6.9e-256 Identity = 430/567 (75.84%), Postives = 481/567 (84.83%), Query Frame = 0
BLAST of MS017600 vs. TAIR 10
Match: AT1G43620.1 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 621.3 bits (1601), Expect = 7.5e-178 Identity = 283/496 (57.06%), Postives = 369/496 (74.40%), Query Frame = 0
BLAST of MS017600 vs. TAIR 10
Match: AT1G43620.2 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 621.3 bits (1601), Expect = 7.5e-178 Identity = 283/496 (57.06%), Postives = 369/496 (74.40%), Query Frame = 0
BLAST of MS017600 vs. TAIR 10
Match: AT1G43620.3 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 621.3 bits (1601), Expect = 7.5e-178 Identity = 283/496 (57.06%), Postives = 369/496 (74.40%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (TR) v1
Date Performed: 2021-10-25 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.
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