Lsi04G011470 (gene) Bottle gourd (USVL1VR-Ls)
The following sequences are available for this feature:
Legend: CDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGTCTCAAACAAAGATTCCAAGAGTTCTTCACAACACATGGCTCTTGAACAACAATAAAAAATGGAGCATTATTCATGCATTGGATTCTTCTTCTTCTTCTCATTCCTTGAAGCACTCAAACTTTGCTGTATTCTTAACTTTAATTTTTCTTATATCTTTCTTTTTTCTCAATGTAAAAAGTTGATTCTAATTATCTAATGATTAACTTGAATATGTGTAGGATGGGTTTGGGGTTGAAGATGGTAAAGCTAAAATAATGGATATTTTAAGGCAAGTATTGAGAGATCACCAAAGTGGAGAATCCTTGGAATATTTGGATCTTATTGATGCTACTCAACGCCTAGGAATTGATTATCATTTCCAAGAGGAGATTGAAGTTTTTCTCAAAAGGCTTTATGTGTTGTCTAACGCACAAATATTGGATCCCCACACTAATCATCTTCACAAGACCTCCCTCCTCTTTCGACTCTTGAGACAACAAGGTTATCTAATGTCTACATGTTGGTATTTTATTTTGGTTAAATTACAAAATTAGTCTATGAAGTTGTTTGTATCTAGGTCCTTAAACTTTCAAGTTCTAAATTTAATCTCTTAATTAACTTTGAAGTTTTTGAAATTCACAGATCTAACAACATAAATCGAAAGTTTAGGGTTCCATCGGACAAATTTCAAAAAATTTTATTCAATAGGTCAATTAATTGAAATTTTGAATTTGTCAGGAACATATTAGGTAAAAAAAATAATATTTAGAGATCTATTAGACGCAAAATTAAAAGTCTAGAAATTTATTATATACTTTGAAAGAAAATTCATGGACTAAATATATACAAAACTTCAGTTTAGAGACAGAACATCTGGTATATCTTTTATAATCCTGCATATAAAAGCTTTGTTTTGCTAGTACAGTTTTTTGGAATGCTTTGAGAATATGTACTTTTAGATATTATATTTTAATTTGGACAAGTTTAGGGTTAAAATTGATTATTTAATTTTTTTCAATTTTTTTTAATATTATTCTTAAAATTTCACATGGATCAATACAATCAAGTTTAACTTAAACTAAAGATATATTTGAAAGAATTAATTTTCAAAGTGCTTAAAAAATATTTTTAAACTAATCAATCTAAATTAATGTCTTAAAAGTTGTATTGCTCTACTAATACAATTTCATAAAGCACTTAGTTCTTTTGACTTTTAAATTACGTAAATTTGAGTTTCCCACATTAGAAAAAAATAAAAGACCTTACAATCTTTTTACGATAAATGGACTACTCCTCTCATAGTCTAATTAGTTTTGAGATAAAATTTTATGTAATCTCATATGGTATCAGAATCCAATATAAAAACATATGGCACCCTTTTTTGAGGAGGCATGTTGAGTTTTCTACCTTGAAAAAATCAAGAAACCTCACCATCTTTATAAGATAGATGGATTAATTACTTCTTTCATTGTCAATTAGCTTTGAAATGAAACTTCATGTTATCTAATATACGTTACTTTCAAGCATATAAATTAATTTATAATTTATAGTGAGATGATTACTTTTGATATGGGTAAAGCAATCCCAAATTAAACATAATATTATTTGAATCTTCCTGATCACTGTTTGGGTTATTTGAAAGAACAGATGTGTTCAAAGTTTTCTTGGACGATAAGGGAAAGTTCAATGAAGAGCTAAAACAAGACGTAAAGGGGTTGACGAGCTTATATGAAGCTTCACAACTATGTATGCATGGAGATGATAATGTACTTGAAGAAGCTGAAAATTTTAGTAGCAATAGCCTCAATGTTTGGCTTCAAGCTCATCTTGATCATCATTTGGCTAATTTTGTGCACAACACTTTAGCCCATCCCCACCACAAAAGTGTAGCTAAATTGATGGTGGCTGCCTACTTTGGAGATACACAATGGACAAACAAATGGATATATGTTTTGCAAGATGTTGCAAAAATGGATTTCAATACAACTCAACAGCTTCACCAAAATGAAATTCTTCAGTTTTTAAAGTAATTAACATTATTATTAATATTCCTTTATGATCTACAACTTTTGCTCTCTTTAATTTCCCTTTGTTGTTTCCTTCTATGAAGCTCTTGTGTTCCTGATCATGCATGTTGGTGTTTGTTTAGATGGTGGAATGAAACAGGTTTGGCCAAAGAGTTAAAGTTTGCTAGAGATCAATCAACTAAATGGTATTTCAGCTCATTAGTTTGTCTCACAGATTCATGCTATTCCCAACAAAGACTCCAACTTGCAAAATCTATCTCTTTTGTTTATCTCATTGATGACCTTTTTGATGTGTTTGGAAATCTCAACGATCTCACCTTCTTCACTCAAGCTGTCTCTAGGTTGGAATTGAAGGCTAGCTACATTGCTCACTTTTATTGTTATATGAAATTCCATGTCATATTCTCTTTCGGTTAAAATTACAAATTTATTCTCTAAACTTTTGAAGCTTATTCCGTGTCTATTAGGTTTTTAAACTTTTAAAATTACAAATTCTTGACACAAAATTGAAAGTTTAGAGTTTCATTAGACATAAAACACAAATTTGTATCTGATACATTGATTAGTTTTTTAAATTTCTGAATTGACTAGAGAGACCTATTATAAGATTAAAAGAATAGGAATTTATTAAACACTTTTAAAATTTTAAGGAACAAATAGACACGAACCTCAAAATCTAGAGACTAAACTTGTAATTTAATCTATTTCTTTCTATTTTGATATATGTTTTATATGTATATATTGAAATCAACATTGTTCATTCATTGTAGATGGGACTTGGGTGCTGCTAAAGGATTGCCTAATTGCATGGAAATTTGTTTCCAATCACTATTTGAAGTTACCAATGAAATATGTTACAAGATCTATGAGAAACATGGTTGGAATCCCATTGGTTTCTTAAGTAAAGCGGTACATATTTTCAATTTTGATAAGTTAGATGTTAGAGATTATAAGTTTTTGTCAACAACTTTCACGATTGCGTATTTTTTTAAGTCCTGTTTGGTAATTATTTGGTTTTTAATTTTTTATTTTAAAAATTAAGTCTATTTCTTATCGATATTTTTCTCATAAAATTCATCTTTCTTAAATAAAATGGTTGAATTCTTAGTCAAATTTCAAAAAGAAAAACAAATTTTAAAAATTATATATTTTTTTTAGTTTTCAAATTTTGATTTGGTTTTTGAAAACATTGGTAAAAAAAGTAGAAAATAAAACAAAGAAACTTAGAGGTGAAAGATGTAATTATATATATATATATATATATATATATTTAATTTTAAAAAACAAAAAATCAAATAATTATCCAACAAAATTAAATTTCAAATAGCAAACTTGTGGTGGGGAGATCTTTGACAATAGAGAAACTGGTAGAGATGTTTTAATTGATTATTAACATATATTCTCATGTTGACTAAATTATTAACATTACTAACTTGACGTAATCTTTAAATAATACAATCAATGCGCATTGAATTAATGAAACTTAAACAAGGCAAGTGCTCTCATAATTTAAGAATTTAAGTACATTTTAATTACGATTTAAAGAGCACAATCTTAATTAAGAAACCAAACTACTATTAGAAAAATATTTTAAAGGAAAAAATACCTTCTCGGTTAGATTTTAGCTCTTTGTTTTTAGGGTGTGTTTGGAATATATTTTTAAGTGTTTAATTTAAAATATAAGTTATTTTAAAAAATAATTGGACTGTTTAGCAACCACTCAAAATAAATTTTGAAGTGTATTTTAAACAATTTTTATCAAAAGAGTTTAAATAAAAATGAGTTTTTTGAAAAACATTTTTTTCTCATGTCAATCCAAACGGGTCCTTTATTGACCCATATGTTTCAAAATATTAGACTTTTAATCTTCTTTTTTTTTTTAATTTTGATTTCGATTTAATCTCTAGGTTTCAAAATGATACAATTTTACTAATCAGGTTTGATTTTTGTTTCAATTTGGTTTATAGGTTTCAAGATTTACACTTTTAACCTTAATTTTTTTTTCTTCTAAATACTCACTTTTGGCCTTTACTATTAATGTCTATTAAATTATTTAAAAGAATTAAACAAATCATAACCATTAAGTTTCACAATTTTTTCATCACTATTAAAATTATTTTTAACATTTTCCTTCATGTTATTTTTAGGGGGAAGTTTTAAAAACAGAAGAATAAGGTAAACTATTTACACAAAATAGCAAAATTTTTAAATAGTTGTAATAGATGCTGATAGAAGTCTATCAGGATCTATCAGCAATAGAAATGATAGATGTTTATTACTGATAGATGCTGATAGAAGTCTATCAATGTCTATCAGTATTCTTTTTGCTATTTTATGTAAATAGTTTGATATTTTTTTTATTTGTAAAAATTTCCCTATTTTTAGGCTACATTAGAAGAAATACCCTTGAACTTTGTAATTTGTGTAAAAAAAATATCCCTAAACTTTCAAGAGTTTTAAAGATTCCCTTAAACTTTCAAAAATAGTTCAAAAATACCCTTAATGTTAGTTTTGGATGGAAAATATTAGGGTTTTGTTTCAAAAATACACCCGAACTTTCAACAGTTTAAAAAATACCCTTAAACTAAAAGAAGAGTTAAAAAATATCTTTATTGTTAGTATATGAATAAAAATCGTTAATACCTCGTTGTAAAATACTTCTAGACTTTCAAAAGTTAGCCCTTACCTTAAAAAAAGAAAAAAGAAAAAAGAAAAAAGAAAAAAAAAGTTGAAGCATGCTCTTACCATTTATCTACACCACATGGCATCTCTCTTCCTTTTTCTATCTCTCCCCTACTTCAATATATGACCTAATACTTCTCTATTTTTTCTTTTTTTTCTTCTTCTTGCTCTTCTTCAATACCCTTTAAATGTCCATCTTTGTTAATTGTTTGACCTTTTGTTTATCTTAGAAAAAAATATAAAAAATGTGCCTCCTTTAGTTAAGGTAATATAGACTATAACAATTAGAAGAGAATAATGGAACTGCAAAGGAATCTTAGGATGAATTTTTTTTTATTATGTTGTATATGCTAATAGTTGAGTATGTGTTAATAACCAAATACATCCCCTTTTATTTGGCTATTTATCGTTTTGGTGAGTTTGAAGGGACGGTTTTGATATGGGAAGTCATACTAACAATAGGAGCATTTTTTAACTTCTTTTTAAATGATAAGAGTACTCATGCAACTTTTGAAAGTTCAAGGATATTTTTAAAATGAGACATTAAAAGTTTCTGTTCATATACTAATGATAATAGTATTTTTAGAATTTTAATTTTTAAAGTTTCAAGGTATTATTGAAACTTTTAAAAGTTTAAGGGTATTTTTGAAAGTATTAACAGTTTCCATTCAAATCTAACAATAAGAGTATTCTTTAACTTTTCTTGAATGTTTAAAGATATTATCGAAACTTTTAGAAGTTCAGGTGTATTTTTGACACAAAATACAAATGTTTAGGTGTATTTTCCTTAATTTAACCTTATTTTTAATCAATTAATAGATATCAATGTCAAACACTGAAAGTGAGTATTTAGTAAAAGATCAAGGTTAAAAGTGTAAACCTTGAAACCTAAGGACCAATTAAAACAAAACTCAAACTTCTAAGAGTAAAATTCAAATGTCATTTTGAAACCTAATGTCTTATTAAATTGAAATCAAACTCAAAACTCAAAAACTAATTAAAATGTAACATTTTGAAACCTAAGGACCAAATGGAAATTAAACGTAAACTAATAAAAGTGTAACATTTTAAAAAGTACAAGACTATATAAACACAAACACTATAAAAAGACTTATAATAAAACAATATAAATGTATATTTAGGAATGATTCTTAAATTGTTAAAATCACTTTTGACCTGTTCAAAATCACTTTGAAACACACCTTTAATTACTCAAAATTAATTAAAATTTTAATATTACACTTTTAAACGCAATTTTCGCATCATCAAAATTGACTTAGATTATTTAAATAATTTAAAATATGTTTAAGAACGATTTTAAAAACAACCATAATAGTTTTAACCATTTTAAAATCACTCCAAAACCTACCTTAAATTTACATCAACCATATCCTCTATAATTAAGTGGCTAAATAAGTTTAATCATGTGTGTAGTGGGCTAAATTATGCAAGGCCTTTTTAATGGAAGCTGAATGGATGAGTTGTGGGCATTCACCAAGTGCAGAAGAATATTTGAGGAATGGCATTATTAGCAGTGGCATCCCCATTGTTTTACTACATGTTTTCTTTCTATTAGGGCATAAAATAAGCAAGCGAACTGTGGAGATTTTGGATGATGATTTAGACATTATTTCGTCTAGTGGCATGATTCTACGACTTTGGGATGACATGGGTACTGCAAAGGTCAATTATGCTTAACCAAACTTCAACCATGCATTTTAATACTTCAAAAATAAACGGTTAAATTATGAATTTAGTTTCTATAATTTAAAACGTAGTTACTGTGGTTTTAAAAGTTAAAATTTAGTATCGGTGATTTGAGTTTGGTTTCAATATGGTCTCTTTACCAATTTAAAATTTTTCTATTTAGTCTTTGTGGTTATATCAAGCTGTTGGGAAAAAGCCTCCCACTTTATTACTGTAGCAACAAGTAGAAAATAATTGAGAGATTAAAAGAAAAAAAGAAAACACTGGAATTTACGTTGAAAACTACTCCAAAACCGAAGTAAAACCATGTCTAATCATAAAGAAATCCACCATGTGATAAAAATTGTTACAATCACACATAATTCTCTTTCATATCCCAATTACAAGAGCACTTTCTCAAAACTTTTCTACTGCACTCACACTCTTTTTCCATTCTCAAACTAGAAATACAAAAGCTAGAGCTAACACATATAAGCTTAAAGTGTTTTTAGCTGGAACAATTTGAAATCAGAAATATCACATACAATAACATTAAAAAAAATATTATTATAGACTTTCTATAGCGTTTTTTAGATGCTATCATAGCCCATGTTATTGAAAGTCTCCAGTTTTCAATAGCGTTTTTTTAACGCTATAAAAAGTGCTTTCAATAGCGTAAATTTAATATTAGGGAAAGTTTATATACCATTAGAAAAATGAAAAGAAACACACTATAGAAAGTCTTTTATAGCGTTTTTGTAGAAGTAAAATAACGATCTAAAAGACGTTCTATAGCATTTTTTATAGTGGTAAAACACTATAAAAGACTTTCTATAGCGTCTTTAGACATGCAGTTGTAGCTCATATTATTGAAAGTCATCGACTTTCCATAGGCTTTTCTTAACATAACTTGAATGCTATGGAAACGTTTCATAATGTTAGCGAAAAACACTGTAGAAAGCCTATATTTGTTATATCAATAAAAAAAATGCTATCAAAGACCTTATATGACTTTTTAATAGTGTAATATAATGTGATAAAACACTTTTTTATAGCATTTTTAGGCATATGAAAGTCTCTGATAGCATTTTTTTACCACCACAAGGTCCTTTTATACCTAGTTGGAACCCCTTACCTTGCTACCACGTTTGGTTGTAGGAACATGTTCCTATTTCTTTTATAGGTAGGAACTTATGACTTTCCTATTCCTTTGAGTTGTAGGATTTATCTCTTAAAATATTTGGCCAAAAATACAACAAATTTCATTTTGGCGAGATATTTGAAGCACTCATAACTACTGTTGCATCCATTATCTTTACTAATAATGATAATTCTAAACTTAGAGAACTACAACTTACTCCACCATAAGATTAGACTACTTGGAATACCAATTTTCAAGATATTTCTTTTTTATCACGTATCGATAAAATCTACTGAAACTTATGCTGCAACTTCCACCTACTTGGCTCACTCGAAAGTTCTTCAGCCATCGACATAATTTTCACTACACACCTTGTGTAACTGTCAAACCAATGCTCGTGTGCAAACTTGTAGGACCGTTGACATCACATCATCTATCATTATAAAGCGGGCATACCGTGAGGATGGATTCTTTCTTTCCTCAAAATAACAATTAGCCATCTTCAGAGACAACATTAGCATTCATTCCAAACCACTTTGACGAGCATGCACTGTTAGAACAATCCATTTTCATATTTCAAGACTATCTACATTCATAGGGACCTTTCTTCTACACTATCTCTTTCTTCTTAGTTCACTTGCTAGCTATCAATATTGAATCCTATCATGAAGTACGCCCTTCACTCTTATGTCTTCTTTCCTCTGATAGAAGTTTACTAGTAGCCTCAGAAAAATCTAACGTCTTCTTCCCATACATTAAGATTTGCTTCATGTGTTCATAAGAAAGTGAAAGTGAGAAGATGAGTTTAAGTATATTAAATTCATCATCTATCTTCACTCCATGCACATGCACAAGAACAATTTTAGCTATTAGCTTTATTGCATTTGCAGCTCTTAAATCCATTTCCTCCCAATCTTCATCGCTCATGCTGGACTTTTTAAAACCTCTACTAGAACCACTGTAAACTCCGTTAGACTACCATCACAACTTAACTTTTCAAAAGCACCATTGCTTGATATTCCCTTCAAAGCCTTGTGTAACCCAAATGTATTAGCACATTCTTGTTGCACTTAGCACAAGTTAAAGTTGATTCTTCCATCAAATTTCTCCACATCAAACTTTATTAGACGACTCATAAAGCTTGACATATTTGTCTCACACTACTAAAGCTCTAATATCAACTTGTTGGGAAAACTCTTCCACTTCTACTGCAGGAACAAGCAGAAAATAATTGAAAAATTAACAGAAAACAATAAAACTAAGAAACAGAAGAATTGAAGTAAAAAACTCCAAAACTAGAGAAATATCACGACCTACCATAAAGAAATTCACTATGTGAAAAATTGTTACAATCATAAAGAATTCTTTTTTTGATCCCAACTACAAGAGCACATATACCATTCATGCTCTTTTCTTCACTCTCAAACTACAGAGTACAAAAAGAGAATTTAACTAGAGTTAACCCACCTAAGCTTAAAAGTGTTTTTATTTGAGAGAATTTGAAATCAAAGTCATAGAGTTACTTTATACTAATTGGAACCCTTACCTTCCTACCCCTTTTGAAGTAGGGCCTATTCTTATTTCTTTTAGATGCAGGAATTCATGTCTTTCTTCAACTATTTTGCCAAAACCTCACAAATCGCCTTTGGTTTTACGACCATATTGACACATTTTTTATGTGTTAATGAACAACTGCCTTCAATTTGGTTGTATTATTTGACTATATATATTAACGGTATATATTTATGTGACTTTATTTGTTAATAAAATAAAATTTAAAGATGATTTGTGAGGTTTAATCAAACTATCAAAACAAAAATAAAAAATAAAAAAATATGTAAGAACTAAATTGAAACAAAGTTTAAATTTACAAAGACTAAATTGAAAATATGAAGACTAAATTCTCTCCAAATTTTTTTTGTTTCATGATCTAAGTATAATAAATGAAGTTGAGAAATGCTACTAATATATCTCTTTAGAACTATTTAATTAAATCTTTAATAGATAAACACCAACATGCATTTACCTATCGTCCACAGGACGAGAATCAAGAGGGCATGATGGATCATATCTTAAATATTACATGAATGAGCATCCAAGTATCTCCGATGAGGCCACACAACATCATATTGTGGAGAGAATTTCTCAAGCATGGAAGACTCTCAATAGAGAATGTGTCTTATCCAACACATTTTCAACCAAGTTCACTCAAGCTTCTCTCAACATTGCAAGATTTGTCCCCTTGGCATATAATTATGGTAGAAACCAATCCATTGTAACCCTCGAGAAACTTATGGAACAATTGCTCTTTCGTGGTGTGTAG ATGTCTCAAACAAAGATTCCAAGAGTTCTTCACAACACATGGCTCTTGAACAACAATAAAAAATGGAGCATTATTCATGCATTGGATTCTTCTTCTTCTTCTCATTCCTTGAAGCACTCAAACTTTGCTGATGGGTTTGGGGTTGAAGATGGTAAAGCTAAAATAATGGATATTTTAAGGCAAGTATTGAGAGATCACCAAAGTGGAGAATCCTTGGAATATTTGGATCTTATTGATGCTACTCAACGCCTAGGAATTGATTATCATTTCCAAGAGGAGATTGAAGTTTTTCTCAAAAGGCTTTATGTGTTAACAGATGTGTTCAAAGTTTTCTTGGACGATAAGGGAAAGTTCAATGAAGAGCTAAAACAAGACGTAAAGGGGTTGACGAGCTTATATGAAGCTTCACAACTATGTATGCATGGAGATGATAATGTACTTGAAGAAGCTGAAAATTTTAGTAGCAATAGCCTCAATGTTTGGCTTCAAGCTCATCTTGATCATCATTTGGCTAATTTTGTGCACAACACTTTAGCCCATCCCCACCACAAAAGTGTAGCTAAATTGATGGTGGCTGCCTACTTTGGAGATACACAATGGACAAACAAATGGATATATGTTTTGCAAGATGTTGCAAAAATGGATTTCAATACAACTCAACAGCTTCACCAAAATGAAATTCTTCAGTTTTTAAAATGGTGGAATGAAACAGGTTTGGCCAAAGAGTTAAAGTTTGCTAGAGATCAATCAACTAAATGGTATTTCAGCTCATTAGTTTGTCTCACAGATTCATGCTATTCCCAACAAAGACTCCAACTTGCAAAATCTATCTCTTTTGTTTATCTCATTGATGACCTTTTTGATGTGTTTGGAAATCTCAACGATCTCACCTTCTTCACTCAAGCTGTCTCTAGATGGGACTTGGGTGCTGCTAAAGGATTGCCTAATTGCATGGAAATTTGTTTCCAATCACTATTTGAAGTTACCAATGAAATATGTTACAAGATCTATGAGAAACATGGTTGGAATCCCATTGGTTTCTTAAGGCATAAAATAAGCAAGCGAACTGTGGAGATTTTGGATGATGATTTAGACATTATTTCGTCTAGTGGCATGATTCTACGACTTTGGGATGACATGGGACGAGAATCAAGAGGGCATGATGGATCATATCTTAAATATTACATGAATGAGCATCCAAGTATCTCCGATGAGGCCACACAACATCATATTGTGGAGAGAATTTCTCAAGCATGGAAGACTCTCAATAGAGAATGTGTCTTATCCAACACATTTTCAACCAAGTTCACTCAAGCTTCTCTCAACATTGCAAGATTTGTCCCCTTGGCATATAATTATGGTAGAAACCAATCCATTGTAACCCTCGAGAAACTTATGGAACAATTGCTCTTTCGTGGTGTGTAG ATGTCTCAAACAAAGATTCCAAGAGTTCTTCACAACACATGGCTCTTGAACAACAATAAAAAATGGAGCATTATTCATGCATTGGATTCTTCTTCTTCTTCTCATTCCTTGAAGCACTCAAACTTTGCTGATGGGTTTGGGGTTGAAGATGGTAAAGCTAAAATAATGGATATTTTAAGGCAAGTATTGAGAGATCACCAAAGTGGAGAATCCTTGGAATATTTGGATCTTATTGATGCTACTCAACGCCTAGGAATTGATTATCATTTCCAAGAGGAGATTGAAGTTTTTCTCAAAAGGCTTTATGTGTTAACAGATGTGTTCAAAGTTTTCTTGGACGATAAGGGAAAGTTCAATGAAGAGCTAAAACAAGACGTAAAGGGGTTGACGAGCTTATATGAAGCTTCACAACTATGTATGCATGGAGATGATAATGTACTTGAAGAAGCTGAAAATTTTAGTAGCAATAGCCTCAATGTTTGGCTTCAAGCTCATCTTGATCATCATTTGGCTAATTTTGTGCACAACACTTTAGCCCATCCCCACCACAAAAGTGTAGCTAAATTGATGGTGGCTGCCTACTTTGGAGATACACAATGGACAAACAAATGGATATATGTTTTGCAAGATGTTGCAAAAATGGATTTCAATACAACTCAACAGCTTCACCAAAATGAAATTCTTCAGTTTTTAAAATGGTGGAATGAAACAGGTTTGGCCAAAGAGTTAAAGTTTGCTAGAGATCAATCAACTAAATGGTATTTCAGCTCATTAGTTTGTCTCACAGATTCATGCTATTCCCAACAAAGACTCCAACTTGCAAAATCTATCTCTTTTGTTTATCTCATTGATGACCTTTTTGATGTGTTTGGAAATCTCAACGATCTCACCTTCTTCACTCAAGCTGTCTCTAGATGGGACTTGGGTGCTGCTAAAGGATTGCCTAATTGCATGGAAATTTGTTTCCAATCACTATTTGAAGTTACCAATGAAATATGTTACAAGATCTATGAGAAACATGGTTGGAATCCCATTGGTTTCTTAAGGCATAAAATAAGCAAGCGAACTGTGGAGATTTTGGATGATGATTTAGACATTATTTCGTCTAGTGGCATGATTCTACGACTTTGGGATGACATGGGACGAGAATCAAGAGGGCATGATGGATCATATCTTAAATATTACATGAATGAGCATCCAAGTATCTCCGATGAGGCCACACAACATCATATTGTGGAGAGAATTTCTCAAGCATGGAAGACTCTCAATAGAGAATGTGTCTTATCCAACACATTTTCAACCAAGTTCACTCAAGCTTCTCTCAACATTGCAAGATTTGTCCCCTTGGCATATAATTATGGTAGAAACCAATCCATTGTAACCCTCGAGAAACTTATGGAACAATTGCTCTTTCGTGGTGTGTAG MSQTKIPRVLHNTWLLNNNKKWSIIHALDSSSSSHSLKHSNFADGFGVEDGKAKIMDILRQVLRDHQSGESLEYLDLIDATQRLGIDYHFQEEIEVFLKRLYVLTDVFKVFLDDKGKFNEELKQDVKGLTSLYEASQLCMHGDDNVLEEAENFSSNSLNVWLQAHLDHHLANFVHNTLAHPHHKSVAKLMVAAYFGDTQWTNKWIYVLQDVAKMDFNTTQQLHQNEILQFLKWWNETGLAKELKFARDQSTKWYFSSLVCLTDSCYSQQRLQLAKSISFVYLIDDLFDVFGNLNDLTFFTQAVSRWDLGAAKGLPNCMEICFQSLFEVTNEICYKIYEKHGWNPIGFLRHKISKRTVEILDDDLDIISSSGMILRLWDDMGRESRGHDGSYLKYYMNEHPSISDEATQHHIVERISQAWKTLNRECVLSNTFSTKFTQASLNIARFVPLAYNYGRNQSIVTLEKLMEQLLFRGV
BLAST of Lsi04G011470 vs. Swiss-Prot
Match: NES1_FRAVE ((3S,6E)-nerolidol synthase 1, chloroplastic OS=Fragaria vesca PE=1 SV=1) HSP 1 Score: 342.4 bits (877), Expect = 7.8e-93 Identity = 204/498 (40.96%), Postives = 277/498 (55.62%), Query Frame = 1
BLAST of Lsi04G011470 vs. Swiss-Prot
Match: NES2_FRAAN ((3S,6E)-nerolidol synthase 2, chloroplastic/mitochondrial OS=Fragaria ananassa PE=1 SV=1) HSP 1 Score: 317.8 bits (813), Expect = 2.0e-85 Identity = 163/319 (51.10%), Postives = 212/319 (66.46%), Query Frame = 1
BLAST of Lsi04G011470 vs. Swiss-Prot
Match: NES1_FRAAN ((3S,6E)-nerolidol synthase 1 OS=Fragaria ananassa PE=1 SV=1) HSP 1 Score: 309.7 bits (792), Expect = 5.6e-83 Identity = 159/319 (49.84%), Postives = 211/319 (66.14%), Query Frame = 1
BLAST of Lsi04G011470 vs. Swiss-Prot
Match: TPS4_RICCO (Probable terpene synthase 4 OS=Ricinus communis GN=TPS4 PE=3 SV=1) HSP 1 Score: 283.1 bits (723), Expect = 5.6e-75 Identity = 179/500 (35.80%), Postives = 256/500 (51.20%), Query Frame = 1
BLAST of Lsi04G011470 vs. Swiss-Prot
Match: TPS13_RICCO (Probable terpene synthase 13 OS=Ricinus communis GN=TPS13 PE=3 SV=1) HSP 1 Score: 260.8 bits (665), Expect = 3.0e-68 Identity = 143/361 (39.61%), Postives = 208/361 (57.62%), Query Frame = 1
BLAST of Lsi04G011470 vs. TrEMBL
Match: A0A0A0LUC8_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_1G068570 PE=3 SV=1) HSP 1 Score: 503.1 bits (1294), Expect = 3.8e-139 Identity = 271/514 (52.72%), Postives = 336/514 (65.37%), Query Frame = 1
BLAST of Lsi04G011470 vs. TrEMBL
Match: E5GAH4_VITVI ((3S)-linalool/(E)-nerolidol /(E,E)-geranyl linalool synthase OS=Vitis vinifera PE=2 SV=1) HSP 1 Score: 396.4 bits (1017), Expect = 5.0e-107 Identity = 227/542 (41.88%), Postives = 307/542 (56.64%), Query Frame = 1
BLAST of Lsi04G011470 vs. TrEMBL
Match: F6H896_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_00s0572g00020 PE=3 SV=1) HSP 1 Score: 394.4 bits (1012), Expect = 1.9e-106 Identity = 219/505 (43.37%), Postives = 289/505 (57.23%), Query Frame = 1
BLAST of Lsi04G011470 vs. TrEMBL
Match: F6I7A6_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_00s0266g00010 PE=3 SV=1) HSP 1 Score: 393.7 bits (1010), Expect = 3.3e-106 Identity = 218/505 (43.17%), Postives = 290/505 (57.43%), Query Frame = 1
BLAST of Lsi04G011470 vs. TrEMBL
Match: F6H868_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_00s0372g00040 PE=3 SV=1) HSP 1 Score: 392.1 bits (1006), Expect = 9.5e-106 Identity = 219/505 (43.37%), Postives = 289/505 (57.23%), Query Frame = 1
BLAST of Lsi04G011470 vs. TAIR10
Match: AT1G61680.1 (AT1G61680.1 terpene synthase 14) HSP 1 Score: 203.0 bits (515), Expect = 4.1e-52 Identity = 121/307 (39.41%), Postives = 166/307 (54.07%), Query Frame = 1
BLAST of Lsi04G011470 vs. TAIR10
Match: AT4G16730.1 (AT4G16730.1 terpene synthase 02) HSP 1 Score: 147.5 bits (371), Expect = 2.1e-35 Identity = 94/308 (30.52%), Postives = 150/308 (48.70%), Query Frame = 1
BLAST of Lsi04G011470 vs. TAIR10
Match: AT4G16740.1 (AT4G16740.1 terpene synthase 03) HSP 1 Score: 146.0 bits (367), Expect = 6.0e-35 Identity = 96/315 (30.48%), Postives = 159/315 (50.48%), Query Frame = 1
BLAST of Lsi04G011470 vs. TAIR10
Match: AT2G24210.1 (AT2G24210.1 terpene synthase 10) HSP 1 Score: 134.4 bits (337), Expect = 1.8e-31 Identity = 83/255 (32.55%), Postives = 127/255 (49.80%), Query Frame = 1
BLAST of Lsi04G011470 vs. TAIR10
Match: AT5G23960.1 (AT5G23960.1 terpene synthase 21) HSP 1 Score: 127.1 bits (318), Expect = 2.9e-29 Identity = 96/347 (27.67%), Postives = 157/347 (45.24%), Query Frame = 1
BLAST of Lsi04G011470 vs. NCBI nr
Match: gi|778664893|ref|XP_011648432.1| (PREDICTED: (3S,6E)-nerolidol synthase 1-like [Cucumis sativus]) HSP 1 Score: 503.1 bits (1294), Expect = 5.5e-139 Identity = 271/514 (52.72%), Postives = 336/514 (65.37%), Query Frame = 1
BLAST of Lsi04G011470 vs. NCBI nr
Match: gi|700209493|gb|KGN64589.1| (hypothetical protein Csa_1G068570 [Cucumis sativus]) HSP 1 Score: 503.1 bits (1294), Expect = 5.5e-139 Identity = 271/514 (52.72%), Postives = 336/514 (65.37%), Query Frame = 1
BLAST of Lsi04G011470 vs. NCBI nr
Match: gi|313755444|gb|ADR74213.1| ((3S)-linalool/(E)-nerolidol /(E,E)-geranyl linalool synthase [Vitis vinifera]) HSP 1 Score: 396.4 bits (1017), Expect = 7.2e-107 Identity = 227/542 (41.88%), Postives = 307/542 (56.64%), Query Frame = 1
BLAST of Lsi04G011470 vs. NCBI nr
Match: gi|359497064|ref|XP_003635413.1| (PREDICTED: (3S,6E)-nerolidol synthase 1-like [Vitis vinifera]) HSP 1 Score: 394.8 bits (1013), Expect = 2.1e-106 Identity = 227/542 (41.88%), Postives = 306/542 (56.46%), Query Frame = 1
BLAST of Lsi04G011470 vs. NCBI nr
Match: gi|359496176|ref|XP_003635168.1| (PREDICTED: (3S,6E)-nerolidol synthase 1-like [Vitis vinifera]) HSP 1 Score: 394.4 bits (1012), Expect = 2.7e-106 Identity = 226/542 (41.70%), Postives = 307/542 (56.64%), 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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