Csor.00g094210 (gene) Silver-seed gourd (wild; sororia) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: CDSstart_codoninitialpolypeptideintroninternalterminalstop_codon Hold the cursor over a type above to highlight its positions in the sequence below.ATGCGGGAAGAAAAGAAGCCAGGAATTGTGTGGCGGAATATTGGACACCTTGAAGCTTCTGATCATCGAAGCTTCAGCACTGCCGACAGTCAACCACTGTGGAATAGCAACAAGCGATTTGGCGCCAGTGGTGGTAGTGATAGTGATGGCAATGGTAGTAGCTTTACATTTGCCTGCATTACTGTTGTGGAAAAGAGAAACCGGAAGGAGTTCGCGCCGACGCCGGCTCAGCTGCTCAAGCATCCATTGTCAGTTCTAGCCTTGGTGCACAGAGAAGCAACGCTCTTCGTCGCTGCCGCCGTATCGGGGGCGGTCGCTAAGACTGCGACAGCTCCTCTAGACAGAATCAAGCTTCTTATGCAGGTTATAGCCTCGCTGTTCGTCTCCAGCAACTTCGCTTTTTCGTCAATTGAATTGGATTCATATCGCAAAGTAGCATTTCTTTAGCTATGTTTTACGGCAACAGTCTCCATTTTATTTGTAGAATTTTAACGCGGAAATCTCTTAGATAACCTATATTGTACGGCCACTGCTATTTTAGTTTTCGGTCCTCTTGTAGGCATCTATAAGTTCATTTTAGGATGAATGCATAGAAATTCGGATCTCCTTACGTGTTTTAAGCATACACTGTATTAAGAGAGGTCTCGCTAATTCATCTAACTTGTTTTGTACTCTGAATTCGCTTGTTTGCAGACTCATGGAGCAAGAATTGCGCAAGAAGGAGCTAAGAAGTCGATTGGTTTTATCGAGGTATGAAAAGAAGCACCTTAATTGGCACTTCAACGTCTATTTATTTATTTATTTGCGTTGATGATTCTTGGTGCCACATCAATATGTCAAGGTGTTAGCAAATTGTTTTTGTATATTTTTAACATCTTCAATGTTTCTTAGCTACTCTCCATTGAAGATAGACAGATTAGAGGCGTCATTTAATTGCTAAATCTTCATGGTTTTTAACGTATTAGTATGAACTCTAAAGGACACTGCTATCTGTGTTGATTGGTGGTTTGCATGGACGAATTGCAGGCAGTGGCAACCATAATAAAGGTGGAAGGAGTTAGAGGACTTTGGAAAGGCAACTTTCCTCAGGTTGTTGCTTTCAGTTGATTTTTTTATTAATATTATTCTTTTAGTGTTGTCGGTGAGTTTTATGAGCTCTAGAACAATTATACCTATGGACATTATTAATGTCCAAACATAATCTTGCTTTCCTGATGTATTGCTGATTTGTTAGTTTAACATTCTGAAACGCAATACCTGGTTATGGTTTGCCTTCTACGTTCCAGGTTATACGCATCATACCATATAGTGCTATCCAACTCTTTGCGTATGAAAAGTTTAAGGTAAAGTTTGTATCTCAAGATGAATCTTAAACAGAAATCAAATATGGTAAAACTCTGTCATATATACCAGAATTTATAGAACTTTTTCAGGGGAGAAGATGACAAACTTTCTGTGATTGGAAGACTTGCTGCTGGTGCTTGTGCTGGCATGACATCCACCTTCGTAAGCATGACATATCTTATTCGTTAATTGTTCGTTTTCATTGTTTTATTTTTCAAGGCTGCAACTTCCTAACTCTTCTTCAATTGAATATCTTCCTTGGAAGATTTTCAGATTAAAAAGAAGAAGAGGAAATAAATCAGATTATGACTTTTCAATTTTGGCTTCCTGACTGGCCTTTCTTGTGTGCATTATTAATCAATCTTATCTTCATAGATGACATATCCATTAGATGTTTTGAGGTTACGCATGGCAGTTGACCCTGGGTTTCGAACGGCATCTGAGGTTGCTCGACTTGCCCTTCTATATATATATAGAAATTTTTCATATGTAAATTATGGATAATTTTTGGTTTCTAGATAGCCTTGAGTATGCTACGAGAGGAAGGCATTACATCCTACTACAGTGGTCTTGGACCATCCCTTTTTGGCATAGCTCCTTACATTGCCGTGAACTTTTGCATTTTTGACTTGTAGGTGCTCATTGGTTCTTTCTTGTATTACCTTCAATGAAAATAAGATCTTGCTCTTTAATGATATGTTTTGTGTACAACAGGGTAAAAAATCTTTTCCAGAAGAAACTCAAAGGAGAACTCAAACATCTTTATTCACAGCCTTGCTTTCAGCATCCCTAGCTACACTCATGTGCTATCCTTTGGATACTGTGAGAAGACAGATGCAAATGAAGGGTACACCTTACAACACAGTTTTCGATGCTTTTGCAGGTGATTTAGTATTAGTTCCTTTTAAGTTTGAAGTAAAATTACATATCTTCTTTGGGCTTTCCCTTAAAATTACATATCTTCTTTGGGCTTTCCCTTTCGAGCTTTCCCTCCAAACTTTAAAACGCGTCTACTAGGGGAAGGTTTCCACACCCTTTATGAAGGGTATTTTGTTCTCCTCTCCAATCCAGGTGGGACATCACAATCCACCCCCTTTAGGGCTCAGCGTCCTTACTGGCACTCGTTCTTTTCTCCAATTAATGTGGGACTGCCATCAAATCTACCCCCTTCGGGGCCCAGCGTCCTTACTGGCATACCACCTTGTATCTATCCCCTTCGGGGAACAACCTACTCGCTGGCACATGGTCTGATGTCTGGCTCTGATACAATTTGTAACGACCTAAATCCACCGCTAATAGATATTGTCTTATTTGGGCTTTTCCTTTCGAGCTTCCCCTCAAGGCTTTAAAACGTGTCTGTTAGGGGAAGGTTTCCACACCCTTATAAAGGGTGTTTTGTTCTCCTCTCCGACCAACGTGGAACATCGCTATACATGATAACAATAATTATTATTAGGAGTGAAATCTGGGAATGCTTGGAGACTAAAACGCTCTGACATACAAAATTTATGTGCTTGTTCAATGTCTAAATTTTCTTGTTGAGTTGTAGCTTAGGAATCATTCCCTCAATCTGAATTGATGTTTGATGCAGGTATATGGGATGGAGATGGATTTATTGGATTTTACAGGGGTTTACTGCCCAACTTCCTGAAAATTTACCTAGCAGCAGGTTTATTTCATATCCGAATAACCCAGAGAATTTCCCTTTATTTTTTCTTTTTTATTTATTATTTATTTTTTTGTTGTTGTTGAATATTTTAACTAACCTTAAAATTCTCGGCACTCTTTCTTTCATGAAATTGTTTCCACTCTTGTTCTTGGGTTACCTCCCTTCCTTTCTTTTACTGCAGCATCAAGCTTACCACATATGACTTTGTCAAGCGGCTTGTTGAGACCAGTGAAAATGAGTACCAGAGAATCATCAAGGAAAATCGTGAAAAGCATAATCAGAAGTTCAGTGATTAAATTTTCCTGAAATCTGTTCTTAGCGTATGGCTCTTCGCCATCCTTACCCATCAAGTTTTTGTTGCGGTTCAATGGAAAGCCAGAGCTAGGTATGGTTTTTGGGTTTTGTAATTGCTAAAATAGAGATGTTGTATCATAGTTCAACCATTGCAGAGTGGGACCTTTGGAATGACAACCCTTTGGATACCAAACAAAAGCATGCACCTGCTAGAAAAGAATTCAGGTTTTTGTTAGGATACCAATTACATGGAACAAAAATATAACTGGATTGAAACATCAAAAGAGAGATTACAATATGAATAGGAGAGAGCTATCTCTCTCCCATGATCTATCTATTTTGGATCGTTAGGAGAAGAGCCTCGCATCAGCTAACTAAGGAGTTGATCATGGATTTATAAGTAACGAACACATCTTCATTGGTATAAGACCTCTTAGAAAAACCAAAAGCAAAGCCACGAGAGTTTATGTTCAAAATAGGACAGAGTTTCCAAAGTGATGCCTACTGCCCACTCAACATTAAATCCCCTTTCTTTTTAATCACCCCACCATAATAATGTTCCTAATATAACCCTTGCTATCCTTTAAACTTTCTAGCTCCTTATGGCAGAATAGATTTTGGACTTTAAAAGTGTCCAACAAGCTTTTGAATCTTTTATTTTATGTTTAATATGGAAACTTTCAATTATACGTATGAGATCTGGTAGAGAATAGTTAACCCAGGAGTTCCTCCAAATCTCTTCTAGCTGACTCTTGTTATTTTGGTATTAAACTTTGTATGCCCGATTGCTTGGTTTTTCTATGACAACTATGCACAGTGGTTGCTTTTGAAACTTGAAGAACAATAATTGTTGTGATCGTAAAATGAAAGCAAAGCTGCCGTAGATTCTGCTAGATTGGATCACTTATTTTTTTCTTTGTTGTTGAGAATCCATATTTAACGTGTGCTTGCTGTTTTACCTTTTTCTAATCTGTATAAAGCAATGATTAGTGGAGGCTACTGAAGGCCGGACCCTCAATAATTTTACTTCTCATTCATTGATCTTCACGTACAAGTGAGGTCTACCATTTTGTTGGGCAGAGTCTCTGAAAATGTAGGCGATTTTACTAGTGTTTACTTACCATTTAATTTATTTTGGTTTGAAACATTTTGAAAATATTCTTGTAACTTTTAGCACCAAGTTTAAGATTTTCATCCTAACTTTTTATTATGGTATGATAAAACGATATAATCTTTGATTATTTCTTGTCTTAGTTTGATTTTTCTTTTTTAACATTAAACTGTTTACTTGTTTTAGTCTATTTTTGTAAATGTTTGTAAATCTAATCCTAGGTTTTGAAAATTTTAAAAATTTAGATTTTATTTTGATGATTATTTAGTTTTTGAAAATAGTGATTATTTTTTTCACTTTTTCTTTTTTTTACATTGGCGTTCATCTTTCCTAGTGTATATTTGAATTATTAGTTGAATTCAAAAGGCAAAAACGAGTGTTTTAAAACTTTTTTTTTTCTAATTTTAAAAACTTTACATGGATTTTGAAATCATTGTTAGAAAGTTCTGGCCAAACAAAGAAATTCTATTTATAGGCTTATTTTTGAAAAAAAAATCTAATTAGTTAAAACAAAAAATCTTTTTTTTTTTTAATTCTGAAAAAAAAAACCCATTTTGGTGGTTAGAACTTTCAAAATATATATTCTAATGTTCTTTTTACAATAAGAATAACTATTTTGTTGTTACGTATCTAATACTGTATTAAAAATAATTAAAAAAAAGTTTAAGAAATTCTTTGAGTCAAACTGCAATCACCCATGTCACGCATGAAAATGTAAAATATTAGTAGATTTTACATTCACCTTATTAAATAAATATTATTTTATTTCATGAATTAAATAATTATTTTATCATTGGTACTATACACGAAATTCTAGGAAATTTGTACCAAGATATAACAAATAAATTATGTATAATAAAGCCATTAAAATGTGGGGCCCGCTCCACATACGGATGAGAATCAGTCATGCATGCTTGCCGCGTTTCATTGAAGGCGGCGATAAATATCAGGCCGTACACGTGTGAGGAATTGACGAAAGGCCATCAATCAATTTACACACAGCTTTTACTTTTATTATTATCGTCACACTGCAAGTGACGCAACTCCGCCACTGCTGCCCTAAGCAGGTGACAGGTCAGCGGAATCATGGCCCATAAGATATAACGAAGTCCAATGAGATTTGCAAGTTGAATGACTGTGACGGTACAGGGTGAGAATAGTAGGAGAGTGTGTAGGAATTTGGAGGCAAGTACGAGGGTATTTTGGTAAATTAAGTATCTGGAATCTACCTGCTTCTTCGTGACTATTAAAGCAACTGAGGTGGTTCTGTTACGTGTTCGCTAAGCGAAAGCCAAGGCAGTCCCACTCCCCTTCTCCACGGCTGTTTCACTTCTCGAATTGGCAAATTTACTTTGGAAACCCTCTGGCGAAGAACTACACAGAAAGGGGATTTCCCAATTTCATAGGTTGGATTTCTCTCGGAGTGTGCTGTTGAAGTCGAACGAGGCGTAAAGAAAATTTCGCTTGCAGATGGCAGAGGTAATTTTGTATTTTTGGCTGTGTTTGGGTTTCGTTTTTGTGTTCTTTTTGGTTTCTTCTGAATTGAATGGAGATTTATCGATTGATTTGAATTAGATAAGGTAGGAGTTGTCGCTGCTGATACTGGAAGTGGTGGATGGGAGTTTGAGTGTGGAAATCAAGTCAAAATGAGGAAATCTTTCAAGGATTCCCTTAAGGCACTCGAGGCTGATATTCAGTTCGCCAATACCTTGTAATCTCTCCATATGCTATTCCTTATTGTTTGATATTTTGTAATCCGTTTCTTGACAATCACTCTGGAGTCTGTCAGAACTGCTATTGCAATGTTCGCGTTTCTCACTGTCTGGAAATTATCCACTATGTTTGATTGATTTCTATGATCGAAACTGCATCGAGTTTCAATAATTCGTATCTCAAGATCCAGGTTTTCTCCATGCTTAGATTAGATGCCACTCGTGTTGGATTCATTGCGTTAGAATTTGAAGTTCAGGAAAATTGTTCTGAATATGCAGTTCAATCGATATGCCGTCTAAGAGAGTTGCAAGTCTTATATTTTGCTCCTCAATATCTGTAAATTCTCTCATCTCTATGTGGATTAGAAATTGATCGCTTCGATCTTATTTCTTGAATTGTTCTGCTCCCGTACATGTATGTTGTTTCCTGCTCTAAGATTAATGGAATTGTTTATTTTAGATTCATTAATAAATGTTATGCACTTGATTTTCTGAATGTTAATTTTAATGGTCATTTTCTTCCTTTTGCGTGGGTTATCTTGTATGTCTAGGTGGTTTTGTAAACTGTAGCATTGTCCTGCTAGTAGTTTTGTAAGTTATCTCGACTTCTCAGGATTGTGTGACTGCTAGTAGTCTGTAAGGTTTCTTTCAAATTTTGAGATTTTGTTACTTTTAGTGCACAATAGTTCCATCTGAGGTTCATTTAATTCGTAAGCATTGACAAAAAAGAACACTCAATTCTGAACAGGGCTTCTGATTATCCCAAGGAATACGGTGGAGCATGCCTTCAAATGAGATTATCATACAGTCCGGCTGCGCAGTTCTTTCTCTTCTTCGTGCAATGGACTGATTGCCACCTTGCTGGCGCATTGGGTCTGCTCAGAATTCTGATATACAAGGTACGGCAACCTGCATGACAAAAATTTTACACTCATACCTCCTACATTGTCCGAGTGTGGTGATTGAAATTGGTTCAAATTGATCACTCAAAGATAAAAATCTTCAGAAGTAGCTTATCTTGTCAAGCTTGTGAATGTGCTAAATTTGTTTCAGGCATATGAAGATGGGAAGACTACCATGTCTATTCAGGAAAGAAAGGCTAGTCTCAAGGAGTTCTATGGTAAGTGGCTAAGAAGATAAAAGCTGCCCTTTCTTCAAATTGAGGTGTATTAAAATTTGTCTGTCTTGCGAATCCTATTTTTTAGTCTTGCAAATGCAGGGGTGATATTTCCTTCTCTGGTGCTACTTCAAAGAGGAACTAATGACATAGAAGATAGACAACATAGAGAAGCTTATGCGGCCAAATACAAAAGAAAAGATCAGTTGGACAAAGGAAAGATCTCTGAAATAGACTTGGAAAGAGAGGAAGAATGTGGTATTTGCATGGAGCTAAACAGCAAGGTTGTGTTGCCTACTTGCTGTCATTCAATGTGCATGAAGTGTTACAGGAGTTGGTAAGCTTTCTGCTGTTTCTTATGTGCTATCAGCTGCTAATTATTTGGAGCTGATTTTTGCAACTTGTTATGTTACCTTTGTTTCAGGCGCGCTCGGTCTCAATCATGCCCCTTCTGCCGTGACAGTCTCAGGAGAGTCAACTCGGGAGATCTTTGGATCTGTACGAGTAGCAGCGAAATTGTGGACTTGCCCTTCATCTCTAGTGAAAATTTGAAGAGGTTGTTCATGTTCATTGATAAGTTGCCTCTTATTGTTCCAGATCCAAAACTCATCTCTTATTATCTCAATCACTATTAGATGCGGGAAGAAAAGAAGCCAGGAATTGTGTGGCGGAATATTGGACACCTTGAAGCTTCTGATCATCGAAGCTTCAGCACTGCCGACAGTCAACCACTGTGGAATAGCAACAAGCGATTTGGCGCCAGTGGTGGTAGTGATAGTGATGGCAATGGTAGTAGCTTTACATTTGCCTGCATTACTGTTGTGGAAAAGAGAAACCGGAAGGAGTTCGCGCCGACGCCGGCTCAGCTGCTCAAGCATCCATTGTCAGTTCTAGCCTTGGTGCACAGAGAAGCAACGCTCTTCGTCGCTGCCGCCGTATCGGGGGCGGTCGCTAAGACTGCGACAGCTCCTCTAGACAGAATCAAGCTTCTTATGCAGACTCATGGAGCAAGAATTGCGCAAGAAGGAGCTAAGAAGTCGATTGGTTTTATCGAGGCAGTGGCAACCATAATAAAGGTGGAAGGAGTTAGAGGACTTTGGAAAGGCAACTTTCCTCAGGTTATACGCATCATACCATATAGTGCTATCCAACTCTTTGCGTATGAAAAGTTTAAGAACTTTTTCAGGGGAGAAGATGACAAACTTTCTGTGATTGGAAGACTTGCTGCTGGTGCTTGTGCTGGCATGACATCCACCTTCATGACATATCCATTAGATGTTTTGAGGTTACGCATGGCAGTTGACCCTGGGTTTCGAACGGCATCTGAGATAGCCTTGAGTATGCTACGAGAGGAAGGCATTACATCCTACTACAGTGGTCTTGGACCATCCCTTTTTGGCATAGCTCCTTACATTGCCGGTAAAAAATCTTTTCCAGAAGAAACTCAAAGGAGAACTCAAACATCTTTATTCACAGCCTTGCTTTCAGCATCCCTAGCTACACTCATGTGCTATCCTTTGGATACTGTGAGAAGACAGATGCAAATGAAGGGTACACCTTACAACACAGTTTTCGATGCTTTTGCAGGTATATGGGATGGAGATGGATTTATTGGATTTTACAGGGGTTTACTGCCCAACTTCCTGAAAATTTACCTAGCAGCAGCGTATGGCTCTTCGCCATCCTTACCCATCAAGTTTTTGTTGCGGTTCAATGGAAAGCCAGAGCTAGAGTGGGACCTTTGGAATGACAACCCTTTGGATACCAAACAAAAGCATGCACCTGCTAGAAAAGAATTCAGGGTGAGAATAGTAGGAGAGTGTGTAGGAATTTGGAGGCAAGTTGGATTTCTCTCGGAGTGTGCTGTTGAAGTCGAACGAGGCGTAAAGAAAATTTCGCTTGCAGATGGCAGAGATAAGGTAGGAGTTGTCGCTGCTGATACTGGAAGTGGTGGATGGGAGTTTGAGTGTGGAAATCAAGTCAAAATGAGGAAATCTTTCAAGGATTCCCTTAAGGCACTCGAGGCTGATATTCAGTTCGCCAATACCTTGGCTTCTGATTATCCCAAGGAATACGGTGGAGCATGCCTTCAAATGAGATTATCATACAGTCCGGCTGCGCAGTTCTTTCTCTTCTTCGTGCAATGGACTGATTGCCACCTTGCTGGCGCATTGGGTCTGCTCAGAATTCTGATATACAAGGCATATGAAGATGGGAAGACTACCATGTCTATTCAGGAAAGAAAGGCTAGTCTCAAGGAGTTCTATGGGGTGATATTTCCTTCTCTGGTGCTACTTCAAAGAGGAACTAATGACATAGAAGATAGACAACATAGAGAAGCTTATGCGGCCAAATACAAAAGAAAAGATCAGTTGGACAAAGGAAAGATCTCTGAAATAGACTTGGAAAGAGAGGAAGAATGTGGTATTTGCATGGAGCTAAACAGCAAGGTTGTGTTGCCTACTTGCTGTCATTCAATGTGCATGAAGTGTTACAGGAGTTGGCGCGCTCGGTCTCAATCATGCCCCTTCTGCCGTGACAGTCTCAGGAGAGTCAACTCGGGAGATCTTTGGATCTGTACGAGTAGCAGCGAAATTGTGGACTTGCCCTTCATCTCTAGTGAAAATTTGAAGAGGTTGTTCATGTTCATTGATAAGTTGCCTCTTATTGTTCCAGATCCAAAACTCATCTCTTATTATCTCAATCACTATTAG ATGCGGGAAGAAAAGAAGCCAGGAATTGTGTGGCGGAATATTGGACACCTTGAAGCTTCTGATCATCGAAGCTTCAGCACTGCCGACAGTCAACCACTGTGGAATAGCAACAAGCGATTTGGCGCCAGTGGTGGTAGTGATAGTGATGGCAATGGTAGTAGCTTTACATTTGCCTGCATTACTGTTGTGGAAAAGAGAAACCGGAAGGAGTTCGCGCCGACGCCGGCTCAGCTGCTCAAGCATCCATTGTCAGTTCTAGCCTTGGTGCACAGAGAAGCAACGCTCTTCGTCGCTGCCGCCGTATCGGGGGCGGTCGCTAAGACTGCGACAGCTCCTCTAGACAGAATCAAGCTTCTTATGCAGACTCATGGAGCAAGAATTGCGCAAGAAGGAGCTAAGAAGTCGATTGGTTTTATCGAGGCAGTGGCAACCATAATAAAGGTGGAAGGAGTTAGAGGACTTTGGAAAGGCAACTTTCCTCAGGTTATACGCATCATACCATATAGTGCTATCCAACTCTTTGCGTATGAAAAGTTTAAGAACTTTTTCAGGGGAGAAGATGACAAACTTTCTGTGATTGGAAGACTTGCTGCTGGTGCTTGTGCTGGCATGACATCCACCTTCATGACATATCCATTAGATGTTTTGAGGTTACGCATGGCAGTTGACCCTGGGTTTCGAACGGCATCTGAGATAGCCTTGAGTATGCTACGAGAGGAAGGCATTACATCCTACTACAGTGGTCTTGGACCATCCCTTTTTGGCATAGCTCCTTACATTGCCGGTAAAAAATCTTTTCCAGAAGAAACTCAAAGGAGAACTCAAACATCTTTATTCACAGCCTTGCTTTCAGCATCCCTAGCTACACTCATGTGCTATCCTTTGGATACTGTGAGAAGACAGATGCAAATGAAGGGTACACCTTACAACACAGTTTTCGATGCTTTTGCAGGTATATGGGATGGAGATGGATTTATTGGATTTTACAGGGGTTTACTGCCCAACTTCCTGAAAATTTACCTAGCAGCAGCGTATGGCTCTTCGCCATCCTTACCCATCAAGTTTTTGTTGCGGTTCAATGGAAAGCCAGAGCTAGAGTGGGACCTTTGGAATGACAACCCTTTGGATACCAAACAAAAGCATGCACCTGCTAGAAAAGAATTCAGGGTGAGAATAGTAGGAGAGTGTGTAGGAATTTGGAGGCAAGTTGGATTTCTCTCGGAGTGTGCTGTTGAAGTCGAACGAGGCGTAAAGAAAATTTCGCTTGCAGATGGCAGAGATAAGGTAGGAGTTGTCGCTGCTGATACTGGAAGTGGTGGATGGGAGTTTGAGTGTGGAAATCAAGTCAAAATGAGGAAATCTTTCAAGGATTCCCTTAAGGCACTCGAGGCTGATATTCAGTTCGCCAATACCTTGGCTTCTGATTATCCCAAGGAATACGGTGGAGCATGCCTTCAAATGAGATTATCATACAGTCCGGCTGCGCAGTTCTTTCTCTTCTTCGTGCAATGGACTGATTGCCACCTTGCTGGCGCATTGGGTCTGCTCAGAATTCTGATATACAAGGCATATGAAGATGGGAAGACTACCATGTCTATTCAGGAAAGAAAGGCTAGTCTCAAGGAGTTCTATGGGGTGATATTTCCTTCTCTGGTGCTACTTCAAAGAGGAACTAATGACATAGAAGATAGACAACATAGAGAAGCTTATGCGGCCAAATACAAAAGAAAAGATCAGTTGGACAAAGGAAAGATCTCTGAAATAGACTTGGAAAGAGAGGAAGAATGTGGTATTTGCATGGAGCTAAACAGCAAGGTTGTGTTGCCTACTTGCTGTCATTCAATGTGCATGAAGTGTTACAGGAGTTGGCGCGCTCGGTCTCAATCATGCCCCTTCTGCCGTGACAGTCTCAGGAGAGTCAACTCGGGAGATCTTTGGATCTGTACGAGTAGCAGCGAAATTGTGGACTTGCCCTTCATCTCTAGTGAAAATTTGAAGAGGTTGTTCATGTTCATTGATAAGTTGCCTCTTATTGTTCCAGATCCAAAACTCATCTCTTATTATCTCAATCACTATTAG MREEKKPGIVWRNIGHLEASDHRSFSTADSQPLWNSNKRFGASGGSDSDGNGSSFTFACITVVEKRNRKEFAPTPAQLLKHPLSVLALVHREATLFVAAAVSGAVAKTATAPLDRIKLLMQTHGARIAQEGAKKSIGFIEAVATIIKVEGVRGLWKGNFPQVIRIIPYSAIQLFAYEKFKNFFRGEDDKLSVIGRLAAGACAGMTSTFMTYPLDVLRLRMAVDPGFRTASEIALSMLREEGITSYYSGLGPSLFGIAPYIAGKKSFPEETQRRTQTSLFTALLSASLATLMCYPLDTVRRQMQMKGTPYNTVFDAFAGIWDGDGFIGFYRGLLPNFLKIYLAAAYGSSPSLPIKFLLRFNGKPELEWDLWNDNPLDTKQKHAPARKEFRVRIVGECVGIWRQVGFLSECAVEVERGVKKISLADGRDKVGVVAADTGSGGWEFECGNQVKMRKSFKDSLKALEADIQFANTLASDYPKEYGGACLQMRLSYSPAAQFFLFFVQWTDCHLAGALGLLRILIYKAYEDGKTTMSIQERKASLKEFYGVIFPSLVLLQRGTNDIEDRQHREAYAAKYKRKDQLDKGKISEIDLEREEECGICMELNSKVVLPTCCHSMCMKCYRSWRARSQSCPFCRDSLRRVNSGDLWICTSSSEIVDLPFISSENLKRLFMFIDKLPLIVPDPKLISYYLNHY Homology
BLAST of Csor.00g094210 vs. ExPASy Swiss-Prot
Match: O65023 (Probable envelope ADP,ATP carrier protein, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=EAAC PE=2 SV=2) HSP 1 Score: 404.1 bits (1037), Expect = 3.3e-111 Identity = 198/290 (68.28%), Postives = 240/290 (82.76%), Query Frame = 0
BLAST of Csor.00g094210 vs. ExPASy Swiss-Prot
Match: Q9M024 (Thylakoid ADP,ATP carrier protein, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=TAAC PE=1 SV=1) HSP 1 Score: 378.6 bits (971), Expect = 1.5e-103 Identity = 194/345 (56.23%), Postives = 251/345 (72.75%), Query Frame = 0
BLAST of Csor.00g094210 vs. ExPASy Swiss-Prot
Match: Q9M022 (E3 ubiquitin-protein ligase AIRP2 OS=Arabidopsis thaliana OX=3702 GN=AIRP2 PE=1 SV=1) HSP 1 Score: 362.8 bits (930), Expect = 8.4e-99 Identity = 171/237 (72.15%), Postives = 200/237 (84.39%), Query Frame = 0
BLAST of Csor.00g094210 vs. ExPASy Swiss-Prot
Match: Q54MZ4 (Mitochondrial substrate carrier family protein B OS=Dictyostelium discoideum OX=44689 GN=mcfB PE=3 SV=1) HSP 1 Score: 174.1 bits (440), Expect = 5.5e-42 Identity = 104/288 (36.11%), Postives = 159/288 (55.21%), Query Frame = 0
BLAST of Csor.00g094210 vs. ExPASy Swiss-Prot
Match: Q05AQ3 (Mitochondrial coenzyme A transporter SLC25A42 OS=Xenopus tropicalis OX=8364 GN=slc25a42 PE=2 SV=1) HSP 1 Score: 149.8 bits (377), Expect = 1.1e-34 Identity = 102/264 (38.64%), Postives = 146/264 (55.30%), Query Frame = 0
BLAST of Csor.00g094210 vs. NCBI nr
Match: KAG6580477.1 (putative envelope ADP,ATP carrier protein, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1387 bits (3589), Expect = 0.0 Identity = 692/692 (100.00%), Postives = 692/692 (100.00%), Query Frame = 0
BLAST of Csor.00g094210 vs. NCBI nr
Match: XP_022934470.1 (probable envelope ADP,ATP carrier protein, chloroplastic [Cucurbita moschata]) HSP 1 Score: 659 bits (1699), Expect = 1.29e-231 Identity = 336/346 (97.11%), Postives = 336/346 (97.11%), Query Frame = 0
BLAST of Csor.00g094210 vs. NCBI nr
Match: XP_023527441.1 (probable envelope ADP,ATP carrier protein, chloroplastic [Cucurbita pepo subsp. pepo]) HSP 1 Score: 632 bits (1631), Expect = 2.67e-221 Identity = 324/346 (93.64%), Postives = 327/346 (94.51%), Query Frame = 0
BLAST of Csor.00g094210 vs. NCBI nr
Match: XP_022983906.1 (probable envelope ADP,ATP carrier protein, chloroplastic [Cucurbita maxima]) HSP 1 Score: 628 bits (1620), Expect = 1.25e-219 Identity = 324/346 (93.64%), Postives = 326/346 (94.22%), Query Frame = 0
BLAST of Csor.00g094210 vs. NCBI nr
Match: KAG7017227.1 (putative envelope ADP,ATP carrier protein, chloroplastic, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 623 bits (1607), Expect = 3.39e-217 Identity = 324/346 (93.64%), Postives = 324/346 (93.64%), Query Frame = 0
BLAST of Csor.00g094210 vs. ExPASy TrEMBL
Match: A0A6J1F7S9 (probable envelope ADP,ATP carrier protein, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111441640 PE=3 SV=1) HSP 1 Score: 659 bits (1699), Expect = 6.23e-232 Identity = 336/346 (97.11%), Postives = 336/346 (97.11%), Query Frame = 0
BLAST of Csor.00g094210 vs. ExPASy TrEMBL
Match: A0A6J1J3N9 (probable envelope ADP,ATP carrier protein, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111482387 PE=3 SV=1) HSP 1 Score: 628 bits (1620), Expect = 6.03e-220 Identity = 324/346 (93.64%), Postives = 326/346 (94.22%), Query Frame = 0
BLAST of Csor.00g094210 vs. ExPASy TrEMBL
Match: A0A5A7TPY4 (Putative envelope ADP,ATP carrier protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold236G005230 PE=3 SV=1) HSP 1 Score: 576 bits (1485), Expect = 1.75e-199 Identity = 293/346 (84.68%), Postives = 311/346 (89.88%), Query Frame = 0
BLAST of Csor.00g094210 vs. ExPASy TrEMBL
Match: E5GBF7 (ADPATP carrier protein OS=Cucumis melo subsp. melo OX=412675 PE=3 SV=1) HSP 1 Score: 576 bits (1485), Expect = 1.75e-199 Identity = 293/346 (84.68%), Postives = 311/346 (89.88%), Query Frame = 0
BLAST of Csor.00g094210 vs. ExPASy TrEMBL
Match: A0A1S3B567 (probable envelope ADP,ATP carrier protein, chloroplastic isoform X1 OS=Cucumis melo OX=3656 GN=LOC103486300 PE=3 SV=1) HSP 1 Score: 576 bits (1485), Expect = 1.75e-199 Identity = 293/346 (84.68%), Postives = 311/346 (89.88%), Query Frame = 0
BLAST of Csor.00g094210 vs. TAIR 10
Match: AT3G51870.1 (Mitochondrial substrate carrier family protein ) HSP 1 Score: 404.1 bits (1037), Expect = 2.3e-112 Identity = 198/290 (68.28%), Postives = 240/290 (82.76%), Query Frame = 0
BLAST of Csor.00g094210 vs. TAIR 10
Match: AT5G01500.1 (thylakoid ATP/ADP carrier ) HSP 1 Score: 378.6 bits (971), Expect = 1.0e-104 Identity = 194/345 (56.23%), Postives = 251/345 (72.75%), Query Frame = 0
BLAST of Csor.00g094210 vs. TAIR 10
Match: AT5G01520.1 (RING/U-box superfamily protein ) HSP 1 Score: 362.8 bits (930), Expect = 5.9e-100 Identity = 171/237 (72.15%), Postives = 200/237 (84.39%), Query Frame = 0
BLAST of Csor.00g094210 vs. TAIR 10
Match: AT3G47160.1 (RING/U-box superfamily protein ) HSP 1 Score: 331.3 bits (848), Expect = 1.9e-90 Identity = 153/228 (67.11%), Postives = 187/228 (82.02%), Query Frame = 0
BLAST of Csor.00g094210 vs. TAIR 10
Match: AT3G47160.2 (RING/U-box superfamily protein ) HSP 1 Score: 322.8 bits (826), Expect = 6.8e-88 Identity = 153/240 (63.75%), Postives = 187/240 (77.92%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Silver-seed gourd (sororia) 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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