Lsi10G014640.1 (mRNA) 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.ATGGGTTGGGCCCTTGCCTTTTTTCCTCTCTAATTTCTTCTTGACCTTAAACTTTCTCCTTATGGCCCATATCCTGCTATTTCACCTGCAAATATTAATTACATCCTCTGGTCCAAAATTTCTCATAACAAAACTATAATGGGTTTGGTCATTCAAATAGTCAAATAACAAATTAAAGACATTGTGTGGCTCACAAATGTTTGAATCTCATTAAAAATAGGAAAATTGGGAAAAAAAAAGGATTGACAGCAGTGAAATTGGACATAAGTAAGACTTATGACAGAGTTGAATGGACTTTTTTAAAGAATATTATGATTCATCTTGGTTTTGATATCGTTTGATTGAACTTATTATGGATTATGTTACAACAGTTCTGTTTATATAAATAGCGAGAGTAATGGATCAATTGTACTAAGTAGAGGCTTGAGACAAGGTGATTCATTATCTCCTTACTTGTCTCTAATGCAGGACACAAACAAGAATGGATTACTAGAAGACATTACTTTCTCTCATTCAAGTCCTTTGGGAGGTGTTTGGTGGCCTGTAATGGAATGAGAATGTAATGTAATCCAAAATCCATGTTTGAATATAGCGTTTTGAGTTTGACTTGTAATACAAAACTCATTTAGTTCTGACAGTTTTCAATCCAGCCATCTTTCTCACACAACCTCATTTCCTTCCAACACTCCTCTAATTCTAATTATCAGTAATCTTGATTACATTACAGCTCTCCAAACACCCTCTTAATGTCTCACTTATTGTTTGCAGACAACAGTTTAATCTTTTGCAAAGCTGACGAAAAAAATTTATTGAATCTTAAGAATATTCTAAATCTATATAAGAGGACATAGGTGAAAGTATCAACTTGTCTAAATTCGTAATTGTCTTTTCTCTTAATGTAGGAGAGGATAGAGGAGATTTCTTAAGCAACATCTTAGAAGTTAAAAGGAAAAGGAAGTGTGACATGGGCCCTTATCTTGGTCTCCCTTTACATTTTCAAACAAAGTCCAAAGACTTTCGGCATATCCTTAGACACTCATAAAAAAGAAGAAATACATAAATAAGTCTTTTCCAATTTCCAAAAAAAAATTATGTGATGAGATAACTAGAAAATTTGCAAGATTTTGGTGGGATCAACTGAAGGAAAAGAAGAAATACATTGAAAAAGTTGGGAGTTTTTATGTCTTTTCCAATCATTGGGTGGTTTAAATGTTAGAGATCTCCCGAGCTTCAATCAAGCACTTATGTCAAAACAGGTATGGAGATTATTATCAATTCAAATTCATTTGTATAAAAAATCTTGAAAAGCATCTACTTCCAGAATGGTTCAATCCTAGAAGCCAATTTGGGATCTAATCCTTCATACCACTGGAAAAGCTTAATGTGGGGTAGAGAAATACTAAATTTAGGCCTCAGATATTGCATTGGTAATGGCAAGACTACAAGGATGTTTCAAGACCCTGGATTCCTAGATGTTCTACCTTCAAACCTATTCTCATAAACCGAACGACTCAGAAGCACCGGATCTGAGATGTGGCGGAGGATCTGACCCACGAACAGGTTTCAGGATCTGTGTGCGCTGATTTCGGGTTGACGACACACGGATCGGAACAGACAGGTCGACGGCGAAGGATCTGGACTGACGGCGACGGACGGAGGCAGATCGGGAGCGGGAGCGGGAGCGGGAGCGGAAGATCTACATGATCTACACGATGCAAGCGGGAAAGGCGGAAGAACTACACAAACCGAGATCGGGAGCGGCGGATCTGATCTGTCTCCGCCGATAGCGGCCGTCGGCGGAGACAGAGATGGTGGCGGCTAGAATTGAATAAGACAAAACCCTATAGCGTGAGAAATTTGTATATTATTATTATTGAATAATTAACTTCATAATCAAACTTTAGAAGGTGAATAAATAGACCATTAAACCAATAAAGACAAATATTAATTACGGAAAAATACAAGAAAGGAAACCTAATTATAATAAACCATAATTTTTGCTAACAGTAACAAGTAAGATGAGTTATTATTATTATTTTTTAAAATTTTAGTTTATGAAATATACATATAAAACCAAATTAACCATAATTATTCCAGCCCGTTATACTTTCATACGATTAAACATCTAGCTTTCAATTCCTAGCGTTTTGAAGGTGATGAATGCATAAACAGTTCGCTCTTTCTATATACAATAATAACTCATCTAATCAAGTACACAAAGTGTTCTTCTTCCTTAGAGGTTTCTTCTGTAAATAAATGCAAAAAACGATAACGATATTTGTGTAACATTCATCAACTCCCTATAAATTCATGCACCAATTTGGTAAAGATGAATATCAAAGAACAACAAGAACTTTGAAAGAATAATTGCAATGGCACGAGCTAATTATCTCATTGTTGCTCTATCACTCCACATAATTTGGCTGCTATTTTTTAGCAGACCGAGCAGCGCTTTGGCATCTGAAAGTTCTCGATCTTTTTCCGCCATTCTCATATTCGGTGATTCTACAGTGGATACTGGAAATAACAACTTCATCCCCACAATTTTCAAGGCTAATTACTCTCCATACGGCAAAGATTTTCCTAACCATGTTGCCACTGGAAGGTTCAGTGATGGAAAACTCATTCCTGACATGGTGGCATCTAAGTTGGGGATAAAGGAGCTTGTTCCACCATTCCTGAATCCTCAACTATCGGATGATGATGTGAAAACCGGGGTTAGTTTTGCATCCGCCGGCACGGGGTTTGATGATCTGACAGCCGCTATATCTAAAGTCATTCCTGTGATGAAACAAATTGATATGTTCAAGAACTATATTCAAAGGCTTCAAAGAATTGTGGGTGTGGATGAAAGTAAGAGGATTATTGACAGTGCTTTGGCTGTCATTAGTGTAGGAACCAATGACTTAACCTTCAATTTCTACGACATTCCAACCAGGCAGTTGCAATACAATATTAGTGGCTACCAAGATTTTCTACAGAATAGGCTACAAAGCTTGATCAAGGTAAATGATACATAATATGCACTCATTAATCTTAACCAATATTATAAAAAATCTTGATTTAGAAAACACCCTTATTTTTTTTCAAAAGTTGAAACATTATATTTGACCTCACATAAACATTTTAGAACTAGAAATTCTTTAGAATTTTGGAGTTTATTTCAGAATTAGAAATCTTTTAAAATTTTGGACGTTATTGAGAAACAAGACGGTGTGGCGGTAATCTAAAATGAAAATTTAGATTGTCACACCATTTCAGGTAGTTTTGAAACATTTATTAAAAGTCAAAATAATGTTATAACTTTTTGAAAGAATAAGCGTTTTTTAGCAAATACGAGTATTGTTTATAATTTAGCCTTAAAATAATAATCACCAGTGCTTCAATTATAAGTTCCACATCTTCAGTTTTGTAAACTCTTTAGTCCTATTCTTGAAAAGTTTTCGACTCTATTTTACAATGGACAGGAAATTTACCAGCTTGGATGTCGCACTATAGTGGTAGCCGGGCTCCCTCCAATTGGTTGCCTTCCAATTCAAGAGACCATATCATTCCCAATTCCTCTAAATCGAAAATGTTTGGAAGATCAAAACAAAGATTCCGAGGCCTACAATCAGAAGCTTTCAAAGTTGTTGGGAAACCTACAGTCACAGCTCCCAGGAAGCAAAATTTTGTATGCTGACATTTACACTCCTCTCATGGACATGATCAATAACCCTCAAAAATATGGTAAGCCAGTATAAATATTTAAGGGAAATCAAGTTCTGAATAAAAAATCAATTTAATTAACCTGAAATTTGTTTGGGGCATTTCGTCGAACAGGTTTTGAGCAGACGAACAGAGGTTGCTGTGGAACTGGATTGGCTGAAGCAGGCCCTCTATGTAATGCAGTAACTCCAACGTGTGAAAACCCATCAAAATTTATGTTCTGGGATAGCATCCATCCGACTGAAGCAACTTATAGGTTCATCACAGAGTCGCTTCTCAAGCAATTTTCCGACCACTTGAATCGGAAGTGAAGGATTTTGAGCTGAGTTCTGGGGTCCAAGGCTTAAAAATCTTCATCTAATTTGTCTCCTTCATTGTATTCACAAAGTCGCTATATGTTTCAAGTCCGAGTGAGAAAGCAAAAGTTTCTTTTACCTATTTTTCTCCATTTCTTAAAATTTTTATTAAATTATAAATTTAGTTAATCTAACTGTGAGATTTGTGTCTATTTAGTCTTATGGTTTTCAAAAATACAGATTTAGCCTTTGAACTTTTGTACATTTTAAAATTTATTCATCTGTTATACACGAAATTGAAAGTTTTGAATTTTATCATACCTAAAATTTAAATTTATATCTCAATAAGTCAAATAATTTTTAAAATTTCTCATAGACACAAAATTAAAAAAAAAAAAAGATAATTATTAAATACATTTAAAAGCCCAAAAGACTAAATACATTAAAATTTAAAAGTTCAAGGACTTTTACTCTTACAATTTTTTTTCCTCCTCTGTTGTTTCTCAATTCACCAAATATCATATCATGCAAGCATGCCTTTAACATCAACAAGGGACTAAGGAAAGAGATAATTAATACGTAAGGGGCCAAATTTAAAACTTGTAAACAGTAAATACCAAGTTGAACAAATAGCTTAAAAATACCCTTGGATCCCTAAACTTCAATGAAAGTAATAATTTAGTCAATAAACTTTAGTTCGTTACAATTTAATCTCTTATACTTTCAAATTTGTAATAATTTAGTCCACGAACTTTAATAAGTAAAAATTTAGTCTTTGTACTTTATAAATTAAATTGTTACAAATGTCAAAGTATAACACTTAGTTTCTAACGATTATTGTTACTTATTAAAACTAAGAGATTAAATTGTTATAAATTTAAAAGTCCAGAGATTAAATCGTTACCAATATTTTTGGGACTAAATTGTTACTTTCATAAAAATTTAGAGACCAAAAGTGTTTTTAAATAAAAAAAAATACAAAATATTAGTAACTAAAACATTAAGTTAAGCTTATTATATTATTACCTTCATTGAACCCATATTTTGTAAACCTTACAAAAATCAATGTGTGTAAAATTATTTCATTGATTAATCCATTGAAATTTGACAACCCGAGCACAGAATTAGGACATATACTCTATTGGCCAATAAGTTGGAAGTTTGAATCCTTACCGAGCTCATCAAAGAACAATAATAATGCTTTTGACAATATCTTTTTGTAAATTAAAAGTTAAAATTTCATTACTTTTTAACGGTGTGGTAATATTATCAATAGTCTATTTAGCTAATTTGAACATAGCGGGAAAGGCATATATAATCAACTAGTATAATGTCCAAGGTTCAAATCATGACCCCTAGACATGTTAAATAAATTCACTTAGAATCTTATCAATCATCCACGTAGTGTTAGTGTCGCCAATCTACATGTCCAATTAGCCAATGTAGGCCTAAAACAATTGATTAATCGATTAAAAACTTTGACTAAACCGAGATATCCATCTTCGTGGTTTTATCCATGGCTTTCTTTGGATAAATCGTGGGAGTAATTCTGTTGCTCATGATTTAGCTATTCATGCTCGTAGATTTCGACATTCACTGTGTGACTAGAAGACCACCCTCCATAGGCAGATTTTGCCCTTCTTTTTTATTCCATGGTCAACTTTGAGATTCAAAACATACATCTTGAACTGGAGGGGGTAAATCAATTGTGAAGGGGAAAAAAAACATAAAAACAAAACAAACATAATTGCTTCAACCAATAACTTACGTTCAAACATATGGCTTTCATTGGCCTTAAATTGCCATAAATGGTTAGCAGTTACATATTTTGTATACAATAACTCAACATTTCAGTAAAAGAATTCTTTTTCATTTTAACGGTTTCTTCTGTAAACCAAGTAAAAACCATAGAGAGCTGAGTGTTTGAACAACCAATTTGCAAAGATGAATATCAAACACAAAGAACTTGAAGAACACCAGCAATGGCACCAACAAATCACCTCATTGTTGCTTTATCACTCAACATAATTTGGTTGCTATTTCTTAGCAAACCATGCAGTGCTTTAGAGGCTAAAATTTCTCAATCGTTTCCTGCCATTCTCATATTTGGTGATTCCACAGTGGATACTGGAAATAACAACTTCATTTCCACAATTTTCAAGGCTAATTACTCCCCATATGGCAAAGATTTTCCTAACCATGTTGCCACTGGAAGATTCAGTGATGGAAAACTCATTCCTGACATGGTGACATCTAAGTTAGGGATAAAGGAGCTTGTTCCACCATTCTTGGATCCTAAACTCTCGGATGATGATGTGAAAACAGGGGTTAGTTTTGCATCCGCCGGCACAGGGTTCGATGATCTGACAGCCGCTATATCTAAAGTCATTCCTGTGATGAAACAAATTGATATGTTCAAGAACTACATTCAAAGGCTTCAAAGAATTGTGGGTATGGATGAAAGTAAGAGTATTATTGGCAGTGCTTTGACTGTCATTAGTGTAGGAACCAATGACTTAACATTCAATTTCTACGACATTCCAACCAGGCAGTTGCAATACAATATTAGTGGCTACCATGATTTTCTACAGAATAGGCTACAAAGCTTGATCAAGGTAAATGATATACAATATGCACTCATTAATCTTAACCAATATTTGACACTTATACAAAATCTTGATTTCAAAAATACCCTTGTTTTTTTTCAAAAGTTGTAACGTTATATTTGACCTCACATAAACATTTCAGAACTAGAAATCCTTTAGAATATTGGAGTTTATTTCGAACTAGAAATCTTTTAGAATTTCGGACGTCATTGGAATACAAAACGGTGTGGCGGTGACCTAAAATGAAAATTTTGATCATTTCAGGTAGTTTTGAAACATTTATTAAAGGTTAAAGATAATATTGTAACTTTCAAAAGAATAAGCGTATTTTAAAAATAAATAGCAAAGTTAGGAGTATTGTTTATAGTTTAGCCTTGACATAATAATCACCCTGTTTCAATTATAAGATCCACATTTTCAGACTTGTAAACTTTAGTCCTATTCTTGAAAAGTTTTTTATTCTTCAAAGTTGGATTTATTCTAATAAACTTATCAACTACTCCCTTTTTGAAATGAACACTTGTTTAACTTTGTTTTACATGGACAGGAAATTTACCAGCTTGGATGTCGCACTATAGTGGTCGCTGGGCTCCCTCCAATTGGTTGTCTTCCAATTCAAGAGACCATATCATTCCCAATTCCTCTAAATCGAAAATGTTTGGAAGATCAAAACACAGATGCCAAAGCCTACAATCAAAAGCTTTCAAAGTTGTTGGGAAGTTTACCGCCACAGCTCCCAGGAAGCACAATTTTGTATGTTGACATTTACACTCCTCTTATGGACATGATCAATAATCCTCAAAAATATGGTAAGCCGGTATAAATATTTAAGGGAAATCAAATTCTGAAGAAAAAATCAATTTAATTAACCTAAAATTTGTTTGGGGCATTTCGTCGAACAGGTTTTTTGCAAACAAACAGAGGCTGCTGTGGAACTGGATTGGCTGAAGCAGGCCCTCTATGTAATGCAGTAAGTCCAACGTGTGAAGACCCATCAAAATTTATGTTCTGGGATAGCATTCATCCGACTGAAGCAACCTACAAATTCATCACAGAGTCACTTCTCAAACAATTTTCCGATCACTTGAATCAGAAGTGA ATGGGAGAGGATAGAGGAGATTTCTTAAGCAACATCTTAGAAGTTAAAAGGAAAAGGAAACCGAGCAGCGCTTTGGCATCTGAAAGTTCTCGATCTTTTTCCGCCATTCTCATATTCGGTGATTCTACAGTGGATACTGGAAATAACAACTTCATCCCCACAATTTTCAAGGCTAATTACTCTCCATACGGCAAAGATTTTCCTAACCATGTTGCCACTGGAAGGTTCAGTGATGGAAAACTCATTCCTGACATGGTGGCATCTAAGTTGGGGATAAAGGAGCTTGTTCCACCATTCCTGAATCCTCAACTATCGGATGATGATGTGAAAACCGGGGTTAGTTTTGCATCCGCCGGCACGGGGTTTGATGATCTGACAGCCGCTATATCTAAAGTCATTCCTGTGATGAAACAAATTGATATGTTCAAGAACTATATTCAAAGGCTTCAAAGAATTGTGGGTGTGGATGAAAGTAAGAGGATTATTGACAGTGCTTTGGCTGTCATTAGTGTAGGAACCAATGACTTAACCTTCAATTTCTACGACATTCCAACCAGGCAGTTGCAATACAATATTAGTGGCTACCAAGATTTTCTACAGAATAGGCTACAAAGCTTGATCAAGGAAATTTACCAGCTTGGATGTCGCACTATAGTGGTAGCCGGGCTCCCTCCAATTGGTTGCCTTCCAATTCAAGAGACCATATCATTCCCAATTCCTCTAAATCGAAAATGTTTGGAAGATCAAAACAAAGATTCCGAGGCCTACAATCAGAAGCTTTCAAAGTTGTTGGGAAACCTACAGTCACAGCTCCCAGGAAGCAAAATTTTGTATGCTGACATTTACACTCCTCTCATGGACATGATCAATAACCCTCAAAAATATGGTTTTGAGCAGACGAACAGAGGTTGCTGTGGAACTGGATTGGCTGAAGCAGGCCCTCTATGTAATGCAGTAACTCCAACGTGTGAAAACCCATCAAAATTTATGTTCTGGGATAGCATCCATCCGACTGAAGCAACTTATAGGTTCATCACAGAGTCGCTTCTCAAGCAATTTTCCGACCACTTGAATCGGAAAACACCAGCAATGGCACCAACAAATCACCTCATTGTTGCTTTATCACTCAACATAATTTGGTTGCTATTTCTTAGCAAACCATGCAGTGCTTTAGAGGCTAAAATTTCTCAATCGTTTCCTGCCATTCTCATATTTGGTGATTCCACAGTGGATACTGGAAATAACAACTTCATTTCCACAATTTTCAAGGCTAATTACTCCCCATATGGCAAAGATTTTCCTAACCATGTTGCCACTGGAAGATTCAGTGATGGAAAACTCATTCCTGACATGGTGACATCTAAGTTAGGGATAAAGGAGCTTGTTCCACCATTCTTGGATCCTAAACTCTCGGATGATGATGTGAAAACAGGGGTTAGTTTTGCATCCGCCGGCACAGGGTTCGATGATCTGACAGCCGCTATATCTAAAGTCATTCCTGTGATGAAACAAATTGATATGTTCAAGAACTACATTCAAAGGCTTCAAAGAATTGTGGGTATGGATGAAAGTAAGAGTATTATTGGCAGTGCTTTGACTGTCATTAGTGTAGGAACCAATGACTTAACATTCAATTTCTACGACATTCCAACCAGGCAGTTGCAATACAATATTAGTGGCTACCATGATTTTCTACAGAATAGGCTACAAAGCTTGATCAAGGAAATTTACCAGCTTGGATGTCGCACTATAGTGGTCGCTGGGCTCCCTCCAATTGGTTGTCTTCCAATTCAAGAGACCATATCATTCCCAATTCCTCTAAATCGAAAATGTTTGGAAGATCAAAACACAGATGCCAAAGCCTACAATCAAAAGCTTTCAAAGTTGTTGGGAAGTTTACCGCCACAGCTCCCAGGAAGCACAATTTTGTATGTTGACATTTACACTCCTCTTATGGACATGATCAATAATCCTCAAAAATATGGTTTTTTGCAAACAAACAGAGGCTGCTGTGGAACTGGATTGGCTGAAGCAGGCCCTCTATGTAATGCAGTAAGTCCAACGTGTGAAGACCCATCAAAATTTATGTTCTGGGATAGCATTCATCCGACTGAAGCAACCTACAAATTCATCACAGAGTCACTTCTCAAACAATTTTCCGATCACTTGAATCAGAAGTGA ATGGGAGAGGATAGAGGAGATTTCTTAAGCAACATCTTAGAAGTTAAAAGGAAAAGGAAACCGAGCAGCGCTTTGGCATCTGAAAGTTCTCGATCTTTTTCCGCCATTCTCATATTCGGTGATTCTACAGTGGATACTGGAAATAACAACTTCATCCCCACAATTTTCAAGGCTAATTACTCTCCATACGGCAAAGATTTTCCTAACCATGTTGCCACTGGAAGGTTCAGTGATGGAAAACTCATTCCTGACATGGTGGCATCTAAGTTGGGGATAAAGGAGCTTGTTCCACCATTCCTGAATCCTCAACTATCGGATGATGATGTGAAAACCGGGGTTAGTTTTGCATCCGCCGGCACGGGGTTTGATGATCTGACAGCCGCTATATCTAAAGTCATTCCTGTGATGAAACAAATTGATATGTTCAAGAACTATATTCAAAGGCTTCAAAGAATTGTGGGTGTGGATGAAAGTAAGAGGATTATTGACAGTGCTTTGGCTGTCATTAGTGTAGGAACCAATGACTTAACCTTCAATTTCTACGACATTCCAACCAGGCAGTTGCAATACAATATTAGTGGCTACCAAGATTTTCTACAGAATAGGCTACAAAGCTTGATCAAGGAAATTTACCAGCTTGGATGTCGCACTATAGTGGTAGCCGGGCTCCCTCCAATTGGTTGCCTTCCAATTCAAGAGACCATATCATTCCCAATTCCTCTAAATCGAAAATGTTTGGAAGATCAAAACAAAGATTCCGAGGCCTACAATCAGAAGCTTTCAAAGTTGTTGGGAAACCTACAGTCACAGCTCCCAGGAAGCAAAATTTTGTATGCTGACATTTACACTCCTCTCATGGACATGATCAATAACCCTCAAAAATATGGTTTTGAGCAGACGAACAGAGGTTGCTGTGGAACTGGATTGGCTGAAGCAGGCCCTCTATGTAATGCAGTAACTCCAACGTGTGAAAACCCATCAAAATTTATGTTCTGGGATAGCATCCATCCGACTGAAGCAACTTATAGGTTCATCACAGAGTCGCTTCTCAAGCAATTTTCCGACCACTTGAATCGGAAAACACCAGCAATGGCACCAACAAATCACCTCATTGTTGCTTTATCACTCAACATAATTTGGTTGCTATTTCTTAGCAAACCATGCAGTGCTTTAGAGGCTAAAATTTCTCAATCGTTTCCTGCCATTCTCATATTTGGTGATTCCACAGTGGATACTGGAAATAACAACTTCATTTCCACAATTTTCAAGGCTAATTACTCCCCATATGGCAAAGATTTTCCTAACCATGTTGCCACTGGAAGATTCAGTGATGGAAAACTCATTCCTGACATGGTGACATCTAAGTTAGGGATAAAGGAGCTTGTTCCACCATTCTTGGATCCTAAACTCTCGGATGATGATGTGAAAACAGGGGTTAGTTTTGCATCCGCCGGCACAGGGTTCGATGATCTGACAGCCGCTATATCTAAAGTCATTCCTGTGATGAAACAAATTGATATGTTCAAGAACTACATTCAAAGGCTTCAAAGAATTGTGGGTATGGATGAAAGTAAGAGTATTATTGGCAGTGCTTTGACTGTCATTAGTGTAGGAACCAATGACTTAACATTCAATTTCTACGACATTCCAACCAGGCAGTTGCAATACAATATTAGTGGCTACCATGATTTTCTACAGAATAGGCTACAAAGCTTGATCAAGGAAATTTACCAGCTTGGATGTCGCACTATAGTGGTCGCTGGGCTCCCTCCAATTGGTTGTCTTCCAATTCAAGAGACCATATCATTCCCAATTCCTCTAAATCGAAAATGTTTGGAAGATCAAAACACAGATGCCAAAGCCTACAATCAAAAGCTTTCAAAGTTGTTGGGAAGTTTACCGCCACAGCTCCCAGGAAGCACAATTTTGTATGTTGACATTTACACTCCTCTTATGGACATGATCAATAATCCTCAAAAATATGGTTTTTTGCAAACAAACAGAGGCTGCTGTGGAACTGGATTGGCTGAAGCAGGCCCTCTATGTAATGCAGTAAGTCCAACGTGTGAAGACCCATCAAAATTTATGTTCTGGGATAGCATTCATCCGACTGAAGCAACCTACAAATTCATCACAGAGTCACTTCTCAAACAATTTTCCGATCACTTGAATCAGAAGTGA MGEDRGDFLSNILEVKRKRKPSSALASESSRSFSAILIFGDSTVDTGNNNFIPTIFKANYSPYGKDFPNHVATGRFSDGKLIPDMVASKLGIKELVPPFLNPQLSDDDVKTGVSFASAGTGFDDLTAAISKVIPVMKQIDMFKNYIQRLQRIVGVDESKRIIDSALAVISVGTNDLTFNFYDIPTRQLQYNISGYQDFLQNRLQSLIKEIYQLGCRTIVVAGLPPIGCLPIQETISFPIPLNRKCLEDQNKDSEAYNQKLSKLLGNLQSQLPGSKILYADIYTPLMDMINNPQKYGFEQTNRGCCGTGLAEAGPLCNAVTPTCENPSKFMFWDSIHPTEATYRFITESLLKQFSDHLNRKTPAMAPTNHLIVALSLNIIWLLFLSKPCSALEAKISQSFPAILIFGDSTVDTGNNNFISTIFKANYSPYGKDFPNHVATGRFSDGKLIPDMVTSKLGIKELVPPFLDPKLSDDDVKTGVSFASAGTGFDDLTAAISKVIPVMKQIDMFKNYIQRLQRIVGMDESKSIIGSALTVISVGTNDLTFNFYDIPTRQLQYNISGYHDFLQNRLQSLIKEIYQLGCRTIVVAGLPPIGCLPIQETISFPIPLNRKCLEDQNTDAKAYNQKLSKLLGSLPPQLPGSTILYVDIYTPLMDMINNPQKYGFLQTNRGCCGTGLAEAGPLCNAVSPTCEDPSKFMFWDSIHPTEATYKFITESLLKQFSDHLNQK
BLAST of Lsi10G014640.1 vs. Swiss-Prot
Match: GDL42_ARATH (GDSL esterase/lipase At2g30310 OS=Arabidopsis thaliana GN=At2g30310 PE=2 SV=1) HSP 1 Score: 385.6 bits (989), Expect = 1.2e-105 Identity = 190/315 (60.32%), Postives = 230/315 (73.02%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. Swiss-Prot
Match: GDL44_ARATH (GDSL esterase/lipase At2g31550 OS=Arabidopsis thaliana GN=At2g31550 PE=3 SV=3) HSP 1 Score: 383.6 bits (984), Expect = 4.6e-105 Identity = 184/319 (57.68%), Postives = 237/319 (74.29%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. Swiss-Prot
Match: GDL41_ARATH (GDSL esterase/lipase At2g30220 OS=Arabidopsis thaliana GN=At2g30220 PE=3 SV=1) HSP 1 Score: 380.2 bits (975), Expect = 5.1e-104 Identity = 188/337 (55.79%), Postives = 237/337 (70.33%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. Swiss-Prot
Match: GDL39_ARATH (GDSL esterase/lipase At2g24560 OS=Arabidopsis thaliana GN=At2g24560 PE=2 SV=2) HSP 1 Score: 380.2 bits (975), Expect = 5.1e-104 Identity = 185/325 (56.92%), Postives = 241/325 (74.15%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. Swiss-Prot
Match: GDL43_ARATH (GDSL esterase/lipase At2g31540 OS=Arabidopsis thaliana GN=At2g31540 PE=2 SV=1) HSP 1 Score: 379.4 bits (973), Expect = 8.8e-104 Identity = 183/328 (55.79%), Postives = 243/328 (74.09%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. TrEMBL
Match: A0A0A0KF79_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_6G180980 PE=4 SV=1) HSP 1 Score: 645.6 bits (1664), Expect = 7.3e-182 Identity = 317/361 (87.81%), Postives = 332/361 (91.97%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. TrEMBL
Match: B9R8D0_RICCO (Zinc finger protein, putative OS=Ricinus communis GN=RCOM_1598680 PE=4 SV=1) HSP 1 Score: 592.0 bits (1525), Expect = 9.6e-166 Identity = 286/693 (41.27%), Postives = 438/693 (63.20%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. TrEMBL
Match: A0A0A0LNE2_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_2G431080 PE=4 SV=1) HSP 1 Score: 592.0 bits (1525), Expect = 9.6e-166 Identity = 291/362 (80.39%), Postives = 316/362 (87.29%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. TrEMBL
Match: A0A165Y116_DAUCA (Uncharacterized protein OS=Daucus carota subsp. sativus GN=DCAR_013884 PE=4 SV=1) HSP 1 Score: 556.6 bits (1433), Expect = 4.5e-155 Identity = 290/728 (39.84%), Postives = 433/728 (59.48%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. TrEMBL
Match: A0A0D9XB67_9ORYZ (Uncharacterized protein OS=Leersia perrieri PE=4 SV=1) HSP 1 Score: 537.0 bits (1382), Expect = 3.7e-149 Identity = 280/689 (40.64%), Postives = 408/689 (59.22%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. TAIR10
Match: AT2G30310.1 (AT2G30310.1 GDSL-like Lipase/Acylhydrolase family protein) HSP 1 Score: 385.6 bits (989), Expect = 6.9e-107 Identity = 190/315 (60.32%), Postives = 230/315 (73.02%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. TAIR10
Match: AT2G30220.1 (AT2G30220.1 GDSL-like Lipase/Acylhydrolase family protein) HSP 1 Score: 380.2 bits (975), Expect = 2.9e-105 Identity = 188/337 (55.79%), Postives = 237/337 (70.33%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. TAIR10
Match: AT2G24560.1 (AT2G24560.1 GDSL-like Lipase/Acylhydrolase family protein) HSP 1 Score: 380.2 bits (975), Expect = 2.9e-105 Identity = 185/325 (56.92%), Postives = 241/325 (74.15%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. TAIR10
Match: AT2G31540.1 (AT2G31540.1 GDSL-like Lipase/Acylhydrolase superfamily protein) HSP 1 Score: 379.4 bits (973), Expect = 4.9e-105 Identity = 183/328 (55.79%), Postives = 243/328 (74.09%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. TAIR10
Match: AT1G06990.1 (AT1G06990.1 GDSL-like Lipase/Acylhydrolase superfamily protein) HSP 1 Score: 372.5 bits (955), Expect = 6.0e-103 Identity = 167/320 (52.19%), Postives = 230/320 (71.88%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. NCBI nr
Match: gi|659127674|ref|XP_008463828.1| (PREDICTED: GDSL esterase/lipase At2g30310-like [Cucumis melo]) HSP 1 Score: 648.7 bits (1672), Expect = 1.2e-182 Identity = 320/361 (88.64%), Postives = 333/361 (92.24%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. NCBI nr
Match: gi|449450950|ref|XP_004143225.1| (PREDICTED: GDSL esterase/lipase At2g30310 [Cucumis sativus]) HSP 1 Score: 645.6 bits (1664), Expect = 1.0e-181 Identity = 317/361 (87.81%), Postives = 332/361 (91.97%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. NCBI nr
Match: gi|731430015|ref|XP_010664850.1| (PREDICTED: uncharacterized protein LOC100264374 [Vitis vinifera]) HSP 1 Score: 604.7 bits (1558), Expect = 2.0e-169 Identity = 291/696 (41.81%), Postives = 446/696 (64.08%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. NCBI nr
Match: gi|659127676|ref|XP_008463830.1| (PREDICTED: GDSL esterase/lipase At2g30310-like [Cucumis melo]) HSP 1 Score: 599.7 bits (1545), Expect = 6.6e-168 Identity = 289/362 (79.83%), Postives = 326/362 (90.06%), Query Frame = 1
BLAST of Lsi10G014640.1 vs. NCBI nr
Match: gi|720034811|ref|XP_010266839.1| (PREDICTED: GDSL esterase/lipase EXL3-like [Nelumbo nucifera]) HSP 1 Score: 594.7 bits (1532), Expect = 2.1e-166 Identity = 297/703 (42.25%), Postives = 446/703 (63.44%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this mRNA:
GO Assignments
This mRNA is annotated with the following GO terms.
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
Analysis Name: InterPro Annotations of Lagenaria siceraria
Date Performed: 2017-09-18
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