Lsi03G007960 (gene) Bottle gourd (USVL1VR-Ls)
The following sequences are available for this feature:
Legend: five_prime_UTRCDS Hold the cursor over a type above to highlight its positions in the sequence below.CCACATTTCGTCCTGACACTTGTCAAATAATTTCTCCTATAAAAGAAGGCAAAAACCCAACCCTTAATTTCTCAAAACAAATTAAATCCTCAAAGAATTAAAAAGGATGGGTTCCCTTTCAAAAGTAGATGAGGAAAAACAGAAACCCCATGCAGTGCTGATTCCACATCCATCTCAAGGCCACATAACTCCCATGCTAAAGCTTGCAAAACTCCTTCGCTACAAAGGCTTCCACATAACTTTTGTCAATACAGAATACAACCATAGACGCCTCCTCAAATCTCGAGGCCCTAACTCTTTGGACGGCTTGCCTGACTTTCACTTTAGAGCCATTGCCGACGGCCTCCCCCCGTCCGACGACGACAACATCCAACATGTTCCTTCACTTTGCTATTCCATCTCCCATAATTGCTTCGCCCCATTTTGCAATCTCATTTCGGAGATCAACTCGAGTGGCAACCTTCCGTCGGTGTCGTGTATTATCGGCGACGGGATCGTGACTTTCACTATTTTCGCTGCCCGCCAATTTGGGATTCCCATTGCCATGTTTTGGACGGCCAGTGCATGTAGCTGCCTTGGATATATGCAGTATGCCAAGCTTGTTGAACAGGGCTTGGTGCCTTTTAAAGGTATCAAACCAAAATTTTCCCTTTAACTTCTAGATTCCTATTACATCTTACCTTTACATTAATAGATAAAAGTATATTATATAATTTTGGTAATATTCTTATTCCCATCCACACCCAAATGTAGTAATAATTAATTCCCACCAATCTTAGGCATTCTTAATTTCAGGCAAGGTGGAAAATCCATCGAAATCTTCGCTTGGGGAGAAATTTCGTTGTTCTCTCAATTTCCACGAAGTTTTGAGATTTCTCGAACATTTCTGATTCCCCTCCATTTTTACGAAATTTTGATATTTCGAGAACATTTCGAGAAATTTTGATGTTTCAAGAAAATTACGATTTTTTTAATTAACTATATTAACTCAGTTCAAATTTTTTAATTTTATGGTGCTAATTACAATTCTATAGTTTCACACACCAATGTCATTTTCGACAAAGGATTAAGCCTTTTTTATGTGCTACTTTTTCTAATTTTCAACTTTTCTCAATTTTTAGTTTTATTTTTTACCCTTAATTTTCATTTATAAAGAATTGAATTTGAAAAAATCATAAAAAATAACCTATATTTATTTAAACTTCATTCAAACTTTTGCATTAAATTTTTACATCATTTCACCTCAAAATTGAATTTATGTGAGCTTTTTTTCTTTTACCATATAAATTTTTCATAATATTCATATCATTTCACCTCGAAATATTCATAAATTTTATACTATTTTGTAATTATTTTTCCATTTATTTTTAATTTTGTGCTATCACATCAACATTTACACAAACATTTACAATACATGTCTAAATGTTGTCAGAAAATGTGATTAAACATGATTAATTATAGCTTATTTAAGTCACCATCAAAGTTTCATTAACTAATTATAATAATTTCTATCAATTTTCATAATTGTTCCCAAAATTTCCATCGTTATCAATATTTTCATTAAATTGGGACCTCAATATTTCCATCGACATCGATGTTTCGAACCTTCATTTTAGGGCATCTTATTGATCAATTACCCTTTTTTAGACTTAATTATTACCTTTATTTTTCTAAACATAAAATCAAAATTATTTCTTTTTGAAAGTTTGATATTTTAAGTCCTACTACTAGATGTGTATAGCTTTAAGAATTCGTGTGTGTAGGGATTATTGATCTATTAAGTCATTTATTAGAAGTTCAATTGTTATATTCATTTGTTAATTTAGTTTATGTACTTTTTCTTAATTTTGAAGTTACTAATAATTATTAGTTTGAAGTTGATTTTTATTAAAATTGATGAACTAATTATTATAACTTTTCATCCAAGGATAGGCACAATTGTTTCATTTTCTTCAACAATATGTAGAGAGAGGGATTCGAACCTCAGACTTCAATATATAGTCGTTAACATAAACTTTTAGATGAGTTGTGTTAGGCTCATGTAGACATGCTTATAGAGGAATGGTTTAACGCCAAAGCTAAAGTTAAGGGAAAAAAAAGTTAACCATAATTTAGTTGAAGGAACTAAATTTAGATATTTAAAACTAATATAGAACTCGACTCAAACTACATAGGGGGAATCAAAATGATATATATATTTTTTGTTTTTAGAAAAGTCAAAATCAAAATAGCATTTTAATTAATGTTTACTACAATATTAAGGGAAATTATTATGAATGGAAAAAATATCAAATTATTTACAAATATAAAAAAAAAAAATTTACTGTCTATCAGCGATAGACTTCTATTACTGGGCAAAACATCGTGATAGACTGTGATAGACTTCTATCACTAGGCTATAGAAATCTATTGTAGTCTATCGCCCAATGATAAAAGTCTTTCGCAGTCTATCACTGATAGTGAAATTTTTCTATATTTGTAAATATTTTGACTCAATTTTTATATTTGAAAATTATAATTTAGTAATTTATAACCATCTTATCTTTATCTTCTAGCGTTAATTATTAGATTTTAAAAAGGGTTGTTTTCGAATATAGAAAAATGAGTCAAACTATTTATAAATATAGAAAAATTTTACTGTCTATCAGCGATGGACCGCGATAGAATTCTATTGCTTGAGCGATAGACAACAATAAAAGTCACTCGCTCAAATGATAGAATTCTATCGCGGTCTATCATGGATAGACAGTAAAAGTTTTTTATATTTGTAAATAGTTTGATATTTTTTCTGTTTATAGTAATTTTCCTTTTAAAAACTTAGGGTGATTTTTCACTTTAATCATGATTACTAAAATATCAATGAATTAGAACAAATTCTTAATATAACGTTAGGAATAAAAATTACAAAATATTTGAAACTTTAAAAAATTAATATTAAATAATCAAGAAAGATTTTAAATATGATTTACACAATAAATATTCGGAGACGTTTTTTTCTTGAAAATCGAGATAGTTGAACTATTTAGATGCCTGAAATTATAGATATTTGAGATAACCATGTTTATTTGTCAAAAAAAAGATTGTAAAGATGTCTAAGAATATATTTATAGATTAGCCGCATTTAGTTTGTTGAATTTCTGAATGGAAATGTCTTGAAATTATGTAAATACACGTTTTATTTTTCAAATAATTTATATATTAATTTAAAATAATTAAAAACTTATATAACATTTAAGCATCTTTAATAATTTAATATTTAATATTTATGAAATTCAATTTATATTTGTTTTACATGTTTTTTTAAACAAAGTAAATTAATATTGTTTTAAATTTTTTTTATAAAAAGAATGATATTAAATATTGGTTTTTATTTAGATTTTAAATACTTGAACCTATTTTCTATAAAAGAAGACAATGGTATAGTTGATAATGTTTTTTTTAGTGGATTATACTTATACATTGTGAAAATAGAGAAAAATTAAGAGCAATAATTAATTTGTGTGTTTTTCTCATTGGAGGATGACTATCTGAGAAGTAAAATAAATTGAAGATTTCCCTTTAGATTTCAATTGAAAATAAACTATGTTTTATATTATACAAATTAAATGGAGCTTAATTTATAAATGAAACACATAAATATAGTTAATGACATAAAGTTATTTATATCAATTTATTTCAATTACAACATTCAAAAAAAGTGATATAATACATCAGAAAAATGAAGAACAAAAAAGTAAAAAGAATATGCTCGAGATCTCAAAGACCATTTCAGTAGGACATCATATATTACTACAAAATAAATGAGGTAATTAAACGTCTATCCCATAAAAATCTTGGATTTCTAGGAAATAAATTACCCCAAACCATTCATGTTTTGGTTTGGCTCGCTATCCTCACAAGAATTTTATGTTTATCTTTTTCTCTAATTTTGCTCTAATCTTTCTTCCATTTACTCACAACTTGGTTATTTTCTCTTGTAGATGAAGACTTCTTGACAAATGGAGATCTAGAAACGACAATTGAATGGGTCCCACCGATACCAAAAATCCGTTTGAGAGAGATCCCAAGCTTCATTAGAACAACCGACAAAAACGACATAATGCTGAACTTTTACATCCAACAATTTGAAACACTCCCCAAAGCCAATGCAATAATCATAAACACATTTGATTCCTTAGAACACCACGTTTTGGAAGCACTTTCCTCCAAATTACCTCCCATTTACCCGATTGGTCCAATCAACTCATTAGTTGCTGATTTAATTCATGATGAGAAAGTCAAAGACATCCATTCAAATCTATGGATGGAGCAATCAGAATGCATGGAATGGCTTGATTCAAAACAACCCAACTCAGTAGTTTACGCCAACTTTGGAAGCAACACTGTGATGTCCCATCATCAATTGATCGAATTTGCGTGGGGACTTGCTAATAGTGGGAAGCCGTTCTTGTGGATCATAAGGCCAAATATGGTGGAAGGGGAGACAGCAGTGTTGCCGGCGGAGTTTGTTGCGGAGACGAAAGGAAGAGGGATGTTGGGGAGTTGGTGTAATCAAGAGGAGGTTTTGAAGCATCCTGCGGTGGGAGGTTTTTTGACGCATAGTGGATGGAACTCCACGATGGAGAGTATTGTGGGAGGAGTGGCGATGATAACGTGGCCGTTCTTTTCTGAGCAACAAATGAATAGTCATTATTGTCAGATAGAGTGGGGAAATGGATTAGAGATTGGGAATGATGTGAAGAGGGAGGAAGTGGAGAAGCTTGTGCGAGAGTTGATGGAAGGAGAAAAGGGTGAAGCCATGAGGGAAAATGCCAAAGAGTGGAAGAGGAAGGCAGAGGAGGCTTGTAATATGTTTGATGGGTCGTCTTCTACAAACTTGGATCGAGTCATTTCTGATGTTCTTCTCATGAATAACACCCAAAAATAGGCATTTCTTTTACAAGATGTGGGGTGAAGGGATTGAACCGAACTACTCACTTCAAAGTTTATGTTTAATTATAATCATGTTGACATTTTTCTAAATTTGAATGAAATGGAATAATTCGCTATCTTCTTTTGTTTTATTTGTATTAATTATATTTTATTGAGAACATGTTTACCTTCTAGGAAATGTAATCATGTAATCAATGAAACGTAATTTAAGAAAGTGGGTCTCACCCAATTACCTTTCGGGTTGTTTACCTAAATTGGTAATGGGAATCAATTGTGGGCTCCACTATTTTTTTATCACACCCAAAATTACATGTGACCCACACTATTTTTTTTCACTTTACACTATTCACCTCGCGGTGCCAGACTATTGGGGCATTTTGGTCATTTGATCTCCTTTGAAGTCTTGGATGCTTTATTTAGCTCTTAAATGCTCCAAATTAATCCCGAATAGCCCGTAATGCTCATACGCCCACCCCACCCAACACCCCTACATGTGTCCCATGCTCACCCAACCCCCTACATGCGTCCTATGCCCACCCAGCCTCCTATATGCGTGCCTCATGACCAGTCAGCCCCACCCCCTGCACACTATGCCCATCCCACTTCTCTCTCATTTGATCTTTTATTATTTTTCAATTTTTTTGGCTCTCCCTCTTGCTTCCCTCTTTCACTCTCTCGCTTCCTGATGGACCAAATGTGTAAGAGTGATAAAAAAAAATGATTTTATGAGGTCTAGTGCAAGCATACACTGTCAAAAGTAGTAAATGTGAAACATGTTCCAAGTATCATATCCCAAGAGACTAGTAGTTCTTCAATTTTTCTAAAACAATACTAATATTGCAAAACCGAGGGTAACTGGTAGAAATAATTGAGTTTATGGTTGTGTGCTAAATATTAAAGTAAATAGTCGATGACAACGTGGATTAACAATAAAGTTTCAACCAACAAACTTTATACCTTGAGCTATGCAGTCGCATCAAGTCAATATCGACCAACTATAGACAAAAAATTATTCCTATTTCAATTTTGTTTCACAAGTTCTTTTAGGAGCCTAAGCAATTAGTCCTATATTTCTATGGCTAATTGAGACTTAGATTAGTTTATGCAATCTCTAAGTCCTATGGCGTACCTTATATCTAAGGTTACGTGACAACCTATGTTTAGGATTTTAGTCCCATATTCATTTGTGAAATCTGCTTTTATCCTAGCCTTCTAGTATAAAACAAAATTTACATGTTAACTTAAATGGCTAGTTTAACCACTACAAAAAAGTTGGCCTATTTCGACCATGTTTTATCGAAGGTTATAAAAAACGTTTGAAAAATGTTATATTAATTGAGGAGATTTAAAAAAGCCTTTAAAAAATATTTACTCTTTATCAAAGGTTATTGAAAATCCTTTGAAAAAGATATTATATTTATCAAAGGATATTAAGAACCTTTGAAAATTATCTACTATTTATCAAAGGTTATTGAAAACCTTTGAAAAAGATATTATATATAACAAAGGACATTAAAAATCTTTGAAAAATATATTATCCTTCATCGAAGGTCTTTAAAAAACCTTTGAAAAATATCTACTTTTTATCGAAGCTTATTGAAAATCTTTGAAAAAGATATTATATATATATCAAAGGACATTAAAAACTTCTGAAAACTATCTAGTCTTTATTAAAGGTTATTGAAAAACTTTGAAATAGATATTATATTTATCGAAGGACGTTAAAAATCTTTGAAAAATATATTATCCTTCATCAAAGGTCTTTAAAAGATCTTCGAAAAATATCTAATTTTTATCGAAGCTTATTGAAAACCTTTGAAAAAGATATTATGTGTATCAAAGACAAAACTATCTAGTCTTTATCGAATGTTATTGAAAACATTTGAAAAAATATATCATATTTATCACTCTTTATCGAAGGTAATTAAAACCTTTGAAAATACAGTACAAGAAATCTGGACTTTGATGTCGGTTGGAAAAACTAAAAACAGATGTATAATATCGGTTTCTTAATAATAAAAAAAAACGGATCTTTAATGTCGGTTTTAAACCGACATTGTAGCCTTACCTATAATGTCGGTTTAAAACCGACATTGTAGGTGGCCCTCTCTTTTGAATCTCACACAATCTTTTAATCTTCACTTTTTTTGTTTCCCTCTTTTATCCATTTTCATCTCCCTCTTAAATTTTGTTTCCCTCCTTCCCAAATTATCAATTACAAAATGAAGATGAAAATAATATATATATATATTCTCTTTTTTTCAGTAAAAGAGAAAGAGAAGGAAATCAAACCTCTTCCACCCCCTCATGTTCTTCGTCTTTTGACCACAGCGCAGCACTTTTGGCAGGAGAGTATTCAAATTCCACATTGGAAGTGTGAGCTTTTTCTTCTTCTCATTTCTTCTGCATTTTCCTTCAATTTCTCTCTTTGTAATGCTTCCTCTCCTCTAATTTCCTTCCAGTTAAGATATTTTGTTTATTTTTCCCTTGTTAATGTTGTCTCGTCCAAGAATCAAATCGAAAATTTGAGGCTAATGATTTTAGGGCTTTTATTTGCAGTGGCAAAATGGATGGGCATTTTAGCTTCTATTGGTGGTGTATTTGTCTTTAGTGGCAAAAATGGAGGAGCCTCAGGTTCCATTGCTTTTGGACCTTCAAATCTTTGGGCCTAAGTACGTCTTTGAGCCCAAAACGGTTAAGAGAATGGAGCTTTGGGTTATGTCTATTCCAATTGGAGATTAAGCGCCGTCACGCCTTTCATTTTCTCCACCACTTCATCACCGGTCTTCTTTCTTCTTCCGCCGCACATGGGGGTCATGGCGACCGTGACGACTCTCATCGTCTATTCTCAACTTCTTCCGATCTCATTCTATGCACCACACGCGGTACCTTCGATAAAAACCTGAAACCAATTTTTTTTTTTTTAAATTCAATTTATTGATTTGGTTAATATTATTTTTAATGATTTGAAATGATTTTCAGTGATCGATTTTTTGGGGTTTGCAGCGTCCACCATTGCTGTCGTCACCGTTCTCTACGCCGCTGGTGAACGATTGGATTCTCCGGCAGGTTGTAGCCATCTCCTTGCGGCGAACAGAGTCGTAAGTTTCATTAAATCAATATATGTTGGGGTTAATGTATAAAAGTTTCAAATTCTTTATTTCAGATTTATCATGTTTTTTAGTTCAAGATCTTGGACATGAAGTATATGTTTAAATCAATTGAAATATACTTTAACTTAAAATTTAATTTAATACTTAATTAGATAAATAGAAACTTTGTGAATCCTAACTGGAATGCACACTTTGTGAATCCTAGATTTCCTTGGTCAAAATTGCTCATACTTAGTTTTATGTGAGATTTTGGTTTTTGGCTTTAGAACTAGGTCTTGTGCTTAAAAAGGAAAAGAAGAAGAGTAGGAGTAGAAAACTTTGTTCTGAATTTACTAAGAGTTGTGTTTCAATTTTGTCGAACTATTTTGAATTGGAGTAGTTGAGAAATAAAGTTCTTTAAGTCATCTTGGCTTGTTGTTCATTCTAATAATTTGTTTTTTAAAATCCATATTGTAGTATGGTTTATTTAAAGTCCATAATTTATATTTTGACTTCAATGCCACAAAGTGAAATTTGTATTCCTTCAATCTATTACGAGAACAAAGCTTTTTATTTCTTCTTTTGCACTCTTGAATTTCATTTTTATAATTTGGACTCTATTACCTGAAAATTTAGTATCTTCAGGTCCCTACTGTTTGAATGAGGTTCAGAGATGGTTTTACAGTAAATGATAGCTTAGTAAACTCTTTAAGCCCTTTCTAGGTGTAATTAACATTATGTAATCAATAGATGTAGTATAAATTTAACCATTATATTAAGGTTCTTAAGATTTAGTTATGTCAGATGTCTTACCAAGGTGCTACTCATTATTCAACAGCTTCTGCAAGAAAATAAACACAGCTTCATATTACTTTGTTTCTAATTTATGTTTGTGACAAGAGATTTCTGAGCATTTCCTTGTTTTTAGAGTTTCATAGGATGATGAATATTTTGCAGATCAATTAGTTGTTGACCGAGCAACCAATGACATCTTCATTCTTTTGCAATATCGCCAGCATAATCTGAATGTGGTTGGTGTTGCGCTTCATTTTTCTTTGTTTCTAATTTATTTTATCCAAATTTATTTGTGATGCTCTTTATGTGAAACATATAAACGCTTTGGCTATCCTACAGTTATGGTAGTCAATTCATGCATTTTAAGTTTGGTTGGAGAGTGAAAGTGTCACTTGGAATTAAATTTTTGTTTAGAATTTTTTATTTTGATTTATGTACCTTTTTCAAGTTTCTCCAGTTTAGAATTATACAGTTGTGGGCTTTTTAAATTTGTTTATAACTCTTGGGTGTTCTTTATTTGTAGTTGAGACTTGATTCAACAAGTTCAAAGTGAGGTTTAAGGTTGTTTTGAGTAAGTTTGCTCATTTCGAACATCTCTGTCCGTCTGTTCCGATTCAACAACTCACATCTCCGTCGATTCCGCTCACACGTTCGTCCGACAGCTCACGTCTCCGTTGATCTTCGACCGCTGTCCAAATCTGAGAGTATTCGAGCTCCGTCAAGATCTGAGAGTTTCAGGTTCGTCCAAATAA CCACATTTCGTCCTGACACTTGTCAAATAATTTCTCCTATAAAAGAAGGCAAAAACCCAACCCTTAATTTCTCAAAACAAATTAAATCCTCAAAGAATTAAAAAGGATGGGTTCCCTTTCAAAAGTAGATGAGGAAAAACAGAAACCCCATGCAGTGCTGATTCCACATCCATCTCAAGGCCACATAACTCCCATGCTAAAGCTTGCAAAACTCCTTCGCTACAAAGGCTTCCACATAACTTTTGTCAATACAGAATACAACCATAGACGCCTCCTCAAATCTCGAGGCCCTAACTCTTTGGACGGCTTGCCTGACTTTCACTTTAGAGCCATTGCCGACGGCCTCCCCCCGTCCGACGACGACAACATCCAACATGTTCCTTCACTTTGCTATTCCATCTCCCATAATTGCTTCGCCCCATTTTGCAATCTCATTTCGGAGATCAACTCGAGTGGCAACCTTCCGTCGGTGTCGTGTATTATCGGCGACGGGATCGTGACTTTCACTATTTTCGCTGCCCGCCAATTTGGGATTCCCATTGCCATGTTTTGGACGGCCAGTGCATGTAGCTGCCTTGGATATATGCAGTATGCCAAGCTTGTTGAACAGGGCTTGGTGCCTTTTAAAGATGAAGACTTCTTGACAAATGGAGATCTAGAAACGACAATTGAATGGGTCCCACCGATACCAAAAATCCGTTTGAGAGAGATCCCAAGCTTCATTAGAACAACCGACAAAAACGACATAATGCTGAACTTTTACATCCAACAATTTGAAACACTCCCCAAAGCCAATGCAATAATCATAAACACATTTGATTCCTTAGAACACCACGTTTTGGAAGCACTTTCCTCCAAATTACCTCCCATTTACCCGATTGGTCCAATCAACTCATTAGTTGCTGATTTAATTCATGATGAGAAAGTCAAAGACATCCATTCAAATCTATGGATGGAGCAATCAGAATGCATGGAATGGCTTGATTCAAAACAACCCAACTCAGTAGTTTACGCCAACTTTGGAAGCAACACTGTGATGTCCCATCATCAATTGATCGAATTTGCGTGGGGACTTGCTAATAGTGGGAAGCCGTTCTTGTGGATCATAAGGCCAAATATGGTGGAAGGGGAGACAGCAGTGTTGCCGGCGGAGTTTGTTGCGGAGACGAAAGGAAGAGGGATGTTGGGGAGTTGGTGTAATCAAGAGGAGGTTTTGAAGCATCCTGCGGTGGGAGGTTTTTTGACGCATAGTGGATGGAACTCCACGATGGAGAGTATTGTGGGAGGAGTGGCGATGATAACGTGGCCGTTCTTTTCTGAGCAACAAATGAATAGTCATTATTGTCAGATAGAGTGGGGAAATGGATTAGAGATTGGGAATGATGTGAAGAGGGAGGAAGTGGAGAAGCTTGTGCGAGAGTTGATGGAAGGAGAAAAGGGTGAAGCCATGAGGGAAAATGCCAAAGAGTGGAAGAGGAAGGCAGAGGAGGCTTGTAATATGTTTGATGGGTCGTCTTCTACAAACTTGGATCGAGTCATTTCTGATTGGCAAAAATGGAGGAGCCTCAGGTTCCATTGCTTTTGGACCTTCAAATCTTTGGGCCTAAGTACGTCTTTGAGCCCAAAACGGTTAAGAGAATGGAGCTTTGGGTTATGTCTATTCCAATTGGAGATTAAGCGCCGTCACGCCTTTCATTTTCTCCACCACTTCATCACCGGTCTTCTTTCTTCTTCCGCCGCACATGGGGGTCATGGCGACCGTGACGACTCTCATCGTCTATTCTCAACTTCTTCCGATCTCATTCTATGCACCACACGCGTGATCGATTTTTTGGGGTTTGCAGCGTCCACCATTGCTGTCGTCACCGTTCTCTACGCCGCTGGTGAACGATTGGATTCTCCGGCAGGTTGTAGCCATCTCCTTGCGGCGAACAGAGTCCTCACGTCTCCGTTGATCTTCGACCGCTGTCCAAATCTGAGAGTATTCGAGCTCCGTCAAGATCTGAGAGTTTCAGGTTCGTCCAAATAA ATGGGTTCCCTTTCAAAAGTAGATGAGGAAAAACAGAAACCCCATGCAGTGCTGATTCCACATCCATCTCAAGGCCACATAACTCCCATGCTAAAGCTTGCAAAACTCCTTCGCTACAAAGGCTTCCACATAACTTTTGTCAATACAGAATACAACCATAGACGCCTCCTCAAATCTCGAGGCCCTAACTCTTTGGACGGCTTGCCTGACTTTCACTTTAGAGCCATTGCCGACGGCCTCCCCCCGTCCGACGACGACAACATCCAACATGTTCCTTCACTTTGCTATTCCATCTCCCATAATTGCTTCGCCCCATTTTGCAATCTCATTTCGGAGATCAACTCGAGTGGCAACCTTCCGTCGGTGTCGTGTATTATCGGCGACGGGATCGTGACTTTCACTATTTTCGCTGCCCGCCAATTTGGGATTCCCATTGCCATGTTTTGGACGGCCAGTGCATGTAGCTGCCTTGGATATATGCAGTATGCCAAGCTTGTTGAACAGGGCTTGGTGCCTTTTAAAGATGAAGACTTCTTGACAAATGGAGATCTAGAAACGACAATTGAATGGGTCCCACCGATACCAAAAATCCGTTTGAGAGAGATCCCAAGCTTCATTAGAACAACCGACAAAAACGACATAATGCTGAACTTTTACATCCAACAATTTGAAACACTCCCCAAAGCCAATGCAATAATCATAAACACATTTGATTCCTTAGAACACCACGTTTTGGAAGCACTTTCCTCCAAATTACCTCCCATTTACCCGATTGGTCCAATCAACTCATTAGTTGCTGATTTAATTCATGATGAGAAAGTCAAAGACATCCATTCAAATCTATGGATGGAGCAATCAGAATGCATGGAATGGCTTGATTCAAAACAACCCAACTCAGTAGTTTACGCCAACTTTGGAAGCAACACTGTGATGTCCCATCATCAATTGATCGAATTTGCGTGGGGACTTGCTAATAGTGGGAAGCCGTTCTTGTGGATCATAAGGCCAAATATGGTGGAAGGGGAGACAGCAGTGTTGCCGGCGGAGTTTGTTGCGGAGACGAAAGGAAGAGGGATGTTGGGGAGTTGGTGTAATCAAGAGGAGGTTTTGAAGCATCCTGCGGTGGGAGGTTTTTTGACGCATAGTGGATGGAACTCCACGATGGAGAGTATTGTGGGAGGAGTGGCGATGATAACGTGGCCGTTCTTTTCTGAGCAACAAATGAATAGTCATTATTGTCAGATAGAGTGGGGAAATGGATTAGAGATTGGGAATGATGTGAAGAGGGAGGAAGTGGAGAAGCTTGTGCGAGAGTTGATGGAAGGAGAAAAGGGTGAAGCCATGAGGGAAAATGCCAAAGAGTGGAAGAGGAAGGCAGAGGAGGCTTGTAATATGTTTGATGGGTCGTCTTCTACAAACTTGGATCGAGTCATTTCTGATTGGCAAAAATGGAGGAGCCTCAGGTTCCATTGCTTTTGGACCTTCAAATCTTTGGGCCTAAGTACGTCTTTGAGCCCAAAACGGTTAAGAGAATGGAGCTTTGGGTTATGTCTATTCCAATTGGAGATTAAGCGCCGTCACGCCTTTCATTTTCTCCACCACTTCATCACCGGTCTTCTTTCTTCTTCCGCCGCACATGGGGGTCATGGCGACCGTGACGACTCTCATCGTCTATTCTCAACTTCTTCCGATCTCATTCTATGCACCACACGCGTGATCGATTTTTTGGGGTTTGCAGCGTCCACCATTGCTGTCGTCACCGTTCTCTACGCCGCTGGTGAACGATTGGATTCTCCGGCAGGTTGTAGCCATCTCCTTGCGGCGAACAGAGTCCTCACGTCTCCGTTGATCTTCGACCGCTGTCCAAATCTGAGAGTATTCGAGCTCCGTCAAGATCTGAGAGTTTCAGGTTCGTCCAAATAA MGSLSKVDEEKQKPHAVLIPHPSQGHITPMLKLAKLLRYKGFHITFVNTEYNHRRLLKSRGPNSLDGLPDFHFRAIADGLPPSDDDNIQHVPSLCYSISHNCFAPFCNLISEINSSGNLPSVSCIIGDGIVTFTIFAARQFGIPIAMFWTASACSCLGYMQYAKLVEQGLVPFKDEDFLTNGDLETTIEWVPPIPKIRLREIPSFIRTTDKNDIMLNFYIQQFETLPKANAIIINTFDSLEHHVLEALSSKLPPIYPIGPINSLVADLIHDEKVKDIHSNLWMEQSECMEWLDSKQPNSVVYANFGSNTVMSHHQLIEFAWGLANSGKPFLWIIRPNMVEGETAVLPAEFVAETKGRGMLGSWCNQEEVLKHPAVGGFLTHSGWNSTMESIVGGVAMITWPFFSEQQMNSHYCQIEWGNGLEIGNDVKREEVEKLVRELMEGEKGEAMRENAKEWKRKAEEACNMFDGSSSTNLDRVISDWQKWRSLRFHCFWTFKSLGLSTSLSPKRLREWSFGLCLFQLEIKRRHAFHFLHHFITGLLSSSAAHGGHGDRDDSHRLFSTSSDLILCTTRVIDFLGFAASTIAVVTVLYAAGERLDSPAGCSHLLAANRVLTSPLIFDRCPNLRVFELRQDLRVSGSSK
BLAST of Lsi03G007960 vs. Swiss-Prot
Match: UGT2_GARJA (7-deoxyloganetin glucosyltransferase OS=Gardenia jasminoides GN=UGT85A24 PE=1 SV=1) HSP 1 Score: 603.6 bits (1555), Expect = 2.5e-171 Identity = 286/480 (59.58%), Postives = 367/480 (76.46%), Query Frame = 1
BLAST of Lsi03G007960 vs. Swiss-Prot
Match: UGT6_CATRO (7-deoxyloganetin glucosyltransferase OS=Catharanthus roseus GN=UGT85A23 PE=1 SV=1) HSP 1 Score: 589.0 bits (1517), Expect = 6.4e-167 Identity = 275/480 (57.29%), Postives = 365/480 (76.04%), Query Frame = 1
BLAST of Lsi03G007960 vs. Swiss-Prot
Match: U85A8_STERE (UDP-glycosyltransferase 85A8 OS=Stevia rebaudiana GN=UGT85A8 PE=2 SV=1) HSP 1 Score: 575.9 bits (1483), Expect = 5.6e-163 Identity = 270/471 (57.32%), Postives = 354/471 (75.16%), Query Frame = 1
BLAST of Lsi03G007960 vs. Swiss-Prot
Match: U85A7_ARATH (UDP-glycosyltransferase 85A7 OS=Arabidopsis thaliana GN=UGT85A7 PE=2 SV=1) HSP 1 Score: 570.9 bits (1470), Expect = 1.8e-161 Identity = 267/476 (56.09%), Postives = 350/476 (73.53%), Query Frame = 1
BLAST of Lsi03G007960 vs. Swiss-Prot
Match: U85A5_ARATH (UDP-glycosyltransferase 85A5 OS=Arabidopsis thaliana GN=UGT85A5 PE=2 SV=1) HSP 1 Score: 562.8 bits (1449), Expect = 4.9e-159 Identity = 260/468 (55.56%), Postives = 342/468 (73.08%), Query Frame = 1
BLAST of Lsi03G007960 vs. TrEMBL
Match: A0A0A0K1Z5_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_7G059660 PE=4 SV=1) HSP 1 Score: 821.6 bits (2121), Expect = 6.6e-235 Identity = 388/480 (80.83%), Postives = 435/480 (90.62%), Query Frame = 1
BLAST of Lsi03G007960 vs. TrEMBL
Match: A0A0A0K793_CUCSA (UDP-glucuronosyltransferase OS=Cucumis sativus GN=Csa_7G058650 PE=4 SV=1) HSP 1 Score: 704.9 bits (1818), Expect = 8.9e-200 Identity = 344/456 (75.44%), Postives = 390/456 (85.53%), Query Frame = 1
BLAST of Lsi03G007960 vs. TrEMBL
Match: M5XDV1_PRUPE (Glycosyltransferase OS=Prunus persica GN=PRUPE_ppa004909mg PE=3 SV=1) HSP 1 Score: 615.9 bits (1587), Expect = 5.5e-173 Identity = 291/469 (62.05%), Postives = 364/469 (77.61%), Query Frame = 1
BLAST of Lsi03G007960 vs. TrEMBL
Match: A0A061E344_THECC (Glycosyltransferase OS=Theobroma cacao GN=TCM_007442 PE=3 SV=1) HSP 1 Score: 614.0 bits (1582), Expect = 2.1e-172 Identity = 291/493 (59.03%), Postives = 379/493 (76.88%), Query Frame = 1
BLAST of Lsi03G007960 vs. TrEMBL
Match: F6H0R9_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_18s0001g06120 PE=4 SV=1) HSP 1 Score: 613.2 bits (1580), Expect = 3.5e-172 Identity = 288/479 (60.13%), Postives = 367/479 (76.62%), Query Frame = 1
BLAST of Lsi03G007960 vs. TAIR10
Match: AT1G22340.1 (AT1G22340.1 UDP-glucosyl transferase 85A7) HSP 1 Score: 570.9 bits (1470), Expect = 1.0e-162 Identity = 267/476 (56.09%), Postives = 350/476 (73.53%), Query Frame = 1
BLAST of Lsi03G007960 vs. TAIR10
Match: AT1G22370.2 (AT1G22370.2 UDP-glucosyl transferase 85A5) HSP 1 Score: 562.8 bits (1449), Expect = 2.8e-160 Identity = 260/468 (55.56%), Postives = 342/468 (73.08%), Query Frame = 1
BLAST of Lsi03G007960 vs. TAIR10
Match: AT1G22360.1 (AT1G22360.1 UDP-glucosyl transferase 85A2) HSP 1 Score: 555.8 bits (1431), Expect = 3.4e-158 Identity = 256/469 (54.58%), Postives = 346/469 (73.77%), Query Frame = 1
BLAST of Lsi03G007960 vs. TAIR10
Match: AT1G22400.1 (AT1G22400.1 UDP-Glycosyltransferase superfamily protein) HSP 1 Score: 551.6 bits (1420), Expect = 6.4e-157 Identity = 255/477 (53.46%), Postives = 347/477 (72.75%), Query Frame = 1
BLAST of Lsi03G007960 vs. TAIR10
Match: AT1G22380.1 (AT1G22380.1 UDP-glucosyl transferase 85A3) HSP 1 Score: 543.9 bits (1400), Expect = 1.3e-154 Identity = 254/476 (53.36%), Postives = 343/476 (72.06%), Query Frame = 1
BLAST of Lsi03G007960 vs. NCBI nr
Match: gi|778724290|ref|XP_011658777.1| (PREDICTED: 7-deoxyloganetin glucosyltransferase-like [Cucumis sativus]) HSP 1 Score: 821.6 bits (2121), Expect = 9.4e-235 Identity = 388/480 (80.83%), Postives = 435/480 (90.62%), Query Frame = 1
BLAST of Lsi03G007960 vs. NCBI nr
Match: gi|659110456|ref|XP_008455233.1| (PREDICTED: UDP-glycosyltransferase 85A5-like [Cucumis melo]) HSP 1 Score: 815.8 bits (2106), Expect = 5.2e-233 Identity = 387/481 (80.46%), Postives = 435/481 (90.44%), Query Frame = 1
BLAST of Lsi03G007960 vs. NCBI nr
Match: gi|778724282|ref|XP_011658773.1| (PREDICTED: 7-deoxyloganetin glucosyltransferase-like [Cucumis sativus]) HSP 1 Score: 704.9 bits (1818), Expect = 1.3e-199 Identity = 344/456 (75.44%), Postives = 390/456 (85.53%), Query Frame = 1
BLAST of Lsi03G007960 vs. NCBI nr
Match: gi|645225164|ref|XP_008219456.1| (PREDICTED: UDP-glycosyltransferase 85A2-like [Prunus mume]) HSP 1 Score: 617.1 bits (1590), Expect = 3.5e-173 Identity = 292/469 (62.26%), Postives = 364/469 (77.61%), Query Frame = 1
BLAST of Lsi03G007960 vs. NCBI nr
Match: gi|596140914|ref|XP_007222427.1| (hypothetical protein PRUPE_ppa004909mg [Prunus persica]) HSP 1 Score: 615.9 bits (1587), Expect = 7.8e-173 Identity = 291/469 (62.05%), Postives = 364/469 (77.61%), 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: None The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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