Tan0016711 (gene) Snake gourd v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CCAAACCAAAAACCCACAAGGCCCAAACGAACAAACAAAGCCAGAGACAGAGACAGAGGCAGCTTCCAGAATTTCTTCGACTTCGACGGAGAGAGAACGATGGTGCCGGCGGTGAAGGCTTTTCCGTTGACTGTGGTGAGTCACGTGCTCGCAATCGTGGCGCTGATTCTGGTGCTCATTTGGACCATTCACTTCAGAGGCGGCCTCGCTTGGGAGGCTGTAAACAAGAACCTCATCTTCAACGTAAGTTTCTCTCTCTACTTTTTTTTTTTTTTAAAAAAAAAATTAAACCAAAGATTTAGAATTCGGTTTCTCTAAATAAACGAATTTTTCGTTCTTATCTTCTAATTTTTGAATCAATTTTTTTCTAGCTTTCTTTTCCCTTTTCAATTTATTCATATTGATGAAGAACTGCTAAATTGCTAATGCCATCTGATCAATGGAACTTATTTTTTAATTCCTCCCCTCAGATTTTATTATTTTATTTGTTTCATAATTTTGAATTTTTTGATTCTTTTGATCTTCGATTTGTCAGATTTTCTTCTTTGGCTTCTGAGATTTTACGTTAAAATATGTTTTAATTCTTGTGGTTTAAACATTTTTATGTTGTACTTGTACAAGATATGAGTTTTCCATACTGTCAAATCAACTTGTTCTTTTTATTAAATCTATTATATTTGGTATAATTAAAAAATAGGTGGCTGCAAAATTTTGTTCGTTCCTAAAATAATGATCGCGGATAAGGAACTGGGAAAAGTATTTTTAAAGACTTAGACAATTCAAACTCAATAAAATAAATCGAAAATTTTAAGGACTAAGACGTTCTTGTTAATATTATGTTTTCTATTAGTTTTTTTTAAACCTTTAATAATAGTACTCATTTATTCTAATTTGACTCTATGATTTAAATTTAATTTGGTAGGTTTAATTTTGAAAGTTTTAATTTAGTTCACATAAGTTGAATTTAACATCAGCTCATTTTCTTTAATTTTATAATTTTATATATGATGGTTTTAGTTTAGTCAGTTCTCACAAATATTATTGAAATTACATATCATTATCATATTTACTTATATATGTTTTCTATTGTTAATTATGACAACGATGCTTTCTATTTATTGATTGTTGATTGTGTTAGTTTGTTATATATTTAGTGTTAGGTAAAAATTAAGTGAAAATGAGTGGTGTTATTAAAAAGAAAAAGGAGATGAGTGAGGAATGAATTAAGATTTTTTTTTTTTATTTTCACTTCAAAGGTTTAGAAAACTATTTGTATAACTTAACAAATCACTTTGGTAAATAATAATAATAATAATAATAATAACAAAATCACACAGACAAAATTAAAACTAAGCACCCACCAAAGAGTTTAAATTGGAACTTTTTAAATCATGAGAATTATAATAAGAGGAAGTATGGATTAGTTATTTTATTTCATTTCATTTTCTGTAAAAACAAAATTGGAAAAATAAATATTAAAGTTCTATCTCATTTAGTTTTTTATTTTTTATTTTAAAAAACTAAGCCTATAAATATTATCTATGTGTTTTTTTTATATATTTTTTACTTATATTTTCAAAAACAAACTTATTTTTGCTTTTGGAATTTGGTTAATAATTCTAATGTTTTCTTAAAAAAATATAGACATGAAAAACAAATATGATTTTTAAAAGTCACAAATTAAAAATCAAATCGTGATGAAACAAAATCTAAGTGATTAGGAGTCTTTAAATCGAAAATAAATAATGTATAAAATATTTAGATAAAATTTAGTTAGTTGTGGTCTTGTGGAAACTACAGTTTTTGATCGTGTGTATTTTTTAAGAAAACTATGAGGAAACTGCAATGATATATTTTTAAAAGAAAGAAAAAAAAAAGTGTAACTATAAATATCCATTCCTTTGTTTTATAATGATATTTCCTACCTTTTAGGTCCTAGTTCCCCACTTCCCACCTACCTCCATTAAGGCTTTAACCTTTTTTATTTTTATTTTTATATTTTTCTAATTATAATTATAATTATAATTATCAATTCATTTTTTTTAATGAACTAAGATAAAGGCATATTTTTGGTCTATTTAAAGTTTCTATTTTTATTTTTATTTTTTTTAAAAAAAAAATCTGTTCAATTTCATATCTTTTATACCTAAAAAAAAATATATATATATTTTTGAGTAAATGGGAAACTCTGTCACAAGTGATGTTTTTAATATTATTGACGCCATAGAATATTAGAAATTCCTTCTCCCCAATTTGTTTGTTAGGCTTGAATAGTGCTCTCAATTAATTTTGAAGAGTAATAAGTATATTCAATATGGAGTTTTATTAAAAAAAATTAAAAAACTACAAATTAAGGCCTCGTTTGATAACCATTTTGTTTTTTGTTTTTAGTTTTTGAAATTTAAACCTAAAAATACTACTTATAAATGAGTTTATATGTCTTCTTATCTATTTTGTACCTATGTTTTCAAAAACCAAGCTAACTCTTGAAAACTAAAAAAAGTAGCTTTAAAAAACTTGATTTTGTTTTTAGAATTTGGTCAAGAGTTCAAATGCTTACTTAAGAGATATGATCTCTATCGTAGAGAAATTAGGTGAAAATAAGCTTAACTTTCAAAAACTAAAAATAAAAAACAAAATGGTTATCAAACGGGACCTAAGGTTTCATTTAACTTTTTCTCACAGGGTTTTATAATGATTTTATTTTTTTTATTGAAACATTTGAATTCTTAGCCAAATTTAAAAAAACAAAACAAATTTTTAAAAATTGTTTTTTTATCTGTCAAAACTTGGCTTAGATTTTGAAAACATTTGTAAAAAATAGATAACAAAACAAGGAATCTCATAGGTGAAAGTAATGTTTGTAAGCTTAACTTTCAAAAATAAAAAATTAAGATCTCGTTTGATAATCATTAGATTTTTGAAAATTATGCTTGTTTTTTTCATAGTTTCTCCCATTATTCTCCACAATGATTTCTATATTTCTTAAAGAATCATTTGAGTTTCTACCCAATTTTTTTAAAAAAAAACACGTTTTTGAAAACTACTTTTTTAGTTTTCAAAACTTAGCTTTGTTTTTAAAATATAGGTAACAAGTAGATAAGAAACACATAGAAACTCATAAGTAGAAGTATTTTTAAGTTTAATTTCCAAAAAACAATAACAAAAAAACTAAATAGTTATACAACGGAGCTTAAATGGTTATTAAATTAGTCTTAAATTTTCTAAACTTTAGATCTAAAAATAGAAAAAAATTTAGGTATTATCATTATGTTTGACTTCAAACTAAAGTTAAGGCAGGCGAATGCAGCAACAACATACAAAATATTTTATTAGAAATTGTACAATTCCAATGCTCTAAAAAATAGTAGTTTTTGAAATAAATAAAGCACATAGATGTCGATGATGTTGAAAAAAGAAAAGGAAAAAAAAACAGCAAATGTAATATGAAATTAAATGTCGAACATGATAGAAAGAAGGAAAGAATATTGGGTGGGTTTGAGATGTAGATAGATACTTTTAATATTACTTTCAAAGTATAAAAATCATTTTAAACAAGATTCTTTTTAATAAGCCCATTGAAATTAAATAAAGTAATGGCCACCTGATATTCAAAAAGCGTTAGTTTGAATGAAACAATTACTTTAATAGTAAATATAGTTATCTTATTCTACATTTATACTAGATTAAAGAAAAATCCAATAAAGTTTGATAAAATTAGATTTAGATCTATACCATTTAGATAGCTCATATTTAAAGTAAAAAAATATAAGATAATTACAGGAACAGACCATATTCTAAAAATTCTTATCTTATCTTAGGGTCTTATTTGATGTGGATACATCCAATGGCATGAAAACATGTGGTGGTGCGTGCGACTCTCGAGTAAACTTTGAACCAATATAATGGACTGAACATGTTACATGTGCTAAAAAAATAAAGTTTTGGTTTAGAGAAATGAAGTCTTTTTTAAAATTTTTTTTTTTTAGAAAAATATATTTCGGTTAGCCCAATTTAGGTTTAGTAGTATTAAGATCTATGAATTTTCAAACTCAATATTTTAATCCCTAAAAATTTAAAAAAATAATTTAGTTAGTCATATGGATTAGTTTTCTATTAATTAGATAAGTACAAGTTAAGGTCACATATTTTTATTTGAAAAAAAGATATCGTTTTAAAATTTTTAAAATAAAAATATTTTTAGTTTCTTGATCTTAGTTTTTTTTCCCTCCCCAATTCTCTCCCTGGTTCCCACATTCATTTTTTTTTTTAAAAAAAGGGATTTGAACTCTTAGTCAAATTCTAAAAACAAAATCAAATTTTTGAAAATTACTCTTTTTTTTTTTAGTTTTCAAAACTTAGTTTGGTTTTTTAAAACATAGGTACAAATTAGATAAGAAAACATATAAACTTATTGGTAGAAATAGTATTTTTAGGCTTAAATTTAAAAAAATAAAAATAAAAAACAAAATGGTTATCAAATAAGATCTTAGATTTTATATTTAGTTTTTCATTTTATTATTATTGTCATCTTGAAAATCTTGTCCAATTCTAATTCCCATTGTATGTTTCCATTTTTTGTTTAGATGTAGACCTTTTTTTTTTTCATTTGATATAATGGACCTATAAATTTTACTTGAACTTCAAACATAGAAATATATTTTTGGAAAACTACCATTTAGGCCCCTTTCATAACAGTTGTCTTCAATTTCTTTAGAAAAGTATCATAATTTATTCTTAATTTTATTCTTCGGTTTGTATTTTTAGAATATATTTAAAATTTTAGATAAATTTAGGCTTTGATGCTAGCTAAAATAAAAAAAAAAAAATTAATTTTGTTTTTTTAGTTTTCAAAAACTAGCTTTTGTTTTGGAATTTGCTAAGTATCCAAATGTTTCTTAAGAGATGAAAACTATGGTAGAAAAATGAAAGAAAAAAGTTTAATTTTCAACAGCAAACACTAAATGAGTATCAAACAAGTACTTGAAAAAAGAAAATTAGCTTTTGAACCTCTAATCTCTTAGTCAAGTGCATATACTTCATGTCAATTGAACTATGTCTCTATCGACCTTCAACATTTAGAATTAAGATTGAAATAATATGGAAATGTTTTAAAGAAAAAAGTATATTAAATAATATTACATTACAAAGTGGATGAAATTCAAATCTACCTTTCTTGAGTAACAATCAAAGTAATAGACTTCCATTTCATGTGAAAACATAATGATATCAAATCTAAGCAATTTTGTCAAAAGATTTCTTATAGGTCCATTTTGTCCATATCCATCATTAATATCAATTTAAATTATACCATGTTGTGATTTATCCTCAAGTTTTTAAATAATTTCAAATTTAGGAGTGGGAAATATAACTTTTTAACTTTAATCAATTGAGTTAAAAATCAATTGATTCTATGCTTAGTTTGACATCTAATTCAACTTTTCACTTTTGAAGTTTTTTATTTATCTTTTCACTTTTGTATGGTTCAGAATAATAATATTTTTATTCAACATCAGATCATAAAAAAAATGCTAGAAAAACAACTTAAGCATATATACTTGGTAAAATTTAATCAAGAAGTAGCTATAGTTAATTTATTTTCATTCATGTTCATGAGATGAGTTAGTAATAATAAATTGAAATTATGAACTTTTACTTTAACATTATCAATTATTAGCTTTTAAATTTATCCGCTTTTTTTTTTTTTGGTCTCTCTTACTAGATTCATCCTGTTCTTATGCTACTCGGATTGATCATCATAGGAGGTGAAGGTAATTAACTAAATTCAATTATATATTTGACAAAGTAATTAGTTAAATTCCAAATTGGAATTAGAATTAATGTGTTAATTATTTTTTTTTTTAAAAAATGCAGCAATAATTAGTTATAGGTCACTGCCGTTGAGTAAAGAAGTGAAGAAGGTGATTCATTTGGTGCTACACGGCGTCGCTTTGGTACTGGGTATTGTGGGGATCAGCGCTGCATTCAAGAACCATAATGAGAGTGGGATCGCTAATCTTTACAGCTTGCATTCTTGGATTGGAATTGGCGTAATTGTCCTTTATGGCATCCAGGTATTTACATAATTGCCACTCATCTTCATATACTTTTCCAATTTTCTTTTCAAAACTTTATTTATCTTTCTTTTTTTAATTTTTATAATGTTAAGTCGTACAAAATATTCTTCAATTTTAAAATTTATTTAAAAAGATGCAAATGGAGAGTTTTTTTTTTTTTTTTGATGCAAAGGTTAATGTGTAAAAATTGAAAACTTTATTTGACATCATTTACAACATCATTCACATAAATTGATTGTGAGTTGATATGTGACCATTGTTCATATAAATGATTTTGATTATATCTTTTAAGATGACTAAATGGTCTTAATCTTTTATATAGTTATAAATAATATCACGTATGTTTTCTAATTTCTTATCAATTAGATGTGATAATAATTTCTATTGTTTTTTTTATAACAAAACATATATATTTTAACTAATTTAAAAATTCAAAGGTAAAAATAAAACTTTACAAATTTTAAGAGTATAATTGAAATTTACCTTAAAATTTAAGAATATTTTGTATGATTTAACCTTTTTGTAAGGGTGAGGGTCATTCTTAAGTCTTTTAGGGAGGTGTAATCATTGCAATTTGTTCTAAAATATTTGAAGGGTCTGGTCAGCACCCAAGTTTGTGCTGCCCACTCATCAACCATACATTTTTTTTTTTTATTTTTTTTAAAAAACAAAAAATTGTGTGGTCACGAATGAAGTTGCACCATATATAAGTCATGTCCAACCAACACCCAAATATTTTTCATATGTCCATGACCTTTTTGAGTTCAATAATAAGTAGGGGTAGAAGGGTGAGCACCCAAATATTCTTCATATTTTCATGACATTCTTTTTGAATTCGACAATAAATAGAGGTAGAAGGGTGAGGACTCAAACCTCTGACGTTTGAATCCAAAACATATATTTTATGATAGTTGAGCTATACTCTGTTTACCAACATTATTTTCATTCAATTAATTATAGTAATCTTTTTGTATTTTATTTTATTTACATACTCTTTTGTTAAGTTCTTAAAAGGAAAACAAAAATGAGTTTACTTTTTGTTTTTTTATTGAAAAAAACAAGTAGATATGTTTTGAGTACTGCAACAAGAGTGGGATCCCCGATCTTAAGTTTCTTGTTGTTTAGAGTTTAAATTAATAAAGCTTTACTTTAAAAAATTAAATAAAATATGCATTTTAAATCTTTTTAGATTTAAGATACATTATTAATTTGGTTATATGATTTGACCTTGGATTTCATTGGATTCTTATGATTTAATAGTTTTAATTCGATCTCTATAATTTAACTTTAGTCTCAAATTCAATTTCATATCTGTACTATAAAGTTTCAATTTGATCTTTTATAGTCGGATAAAAAACTCATAAATTGTCTATACTTTTATAAGTTATCACTGGTATATTTAAGAAAAATTGTTACCCTATTGAATCTAGGACTTTTTTCTAACAAATTTTTATTTGTTTATTTTATTTAATAAATTGATGTAGTAATGAGTTGCCATTTTCTTTTGTCTTTTTTTTTTGTTAATTGATTTTATTATAGTTTAGGGCTCTAAGAAAAAAAAGGGATGAAAAAGATAAGATTTAAAGTTGGTAAAAAATGATATTCAAATTGGTCATTTATTTGATGGTCAATTAAATTATAGTGAAGTCACATAAAATATCAAATTTTTGAGAACTTTCTAATCAGCTCTATCATAATTTTGAACTTTGCATAAACAAATCATTTTCTCATGTCATTTCTTAAAGAAATTACTGAACAAGAATCCCTCAAGGAACAATGTTTTTTTGGTTCATTCACGCAGTACATCAATAGCCTCAAAGTTGAGAGACTAAAACATAATTAAATATTTTAAATATTATAATAAAATTATACCGTTATAATGTGTCTACCTCATCATAGCAATCAGAAGTGGATTCAATAATTTTATGTCTCCTAATATCACTAAATATAAATTGAAAGTATTTCACTCTGCATCCAACAGTGAAAAACTGTCAATCATATTGTGGCAATCTCATTAAATAATTTTTCAATCTGCAGTGGTTGTACGGGTTCGTGACATTCTTCTATCCAGGAGGATCCACAAATCTTCGACGAGCGTCGCTTCCATGGCACGTGCTATTGGGCATGATTGTATACATATTGGCCGCCGGCAACTCGGCGCTCGGCTTTCTAGAGAAGCTGACATTTTTGGAGAGCTCCGGCGTCGCCAAATACGGCACGGAGGCCATTCTCGTCAACTTCACCGCCATTACCACCGTTATTTTTGCAGTGTTTGTGATTTTGTCTGTTGTTTCAGAGTCCTCCTTCGCTGAAGAAGACGACCATGGCGCCTATTCCGCTATATGATGATATGATATGTTTTCTCGTTTCTCTTGGTTTGCTTTGGGGGGAGTAGTTTTAATTACTTATATTTCATGTTTATGTTTACTAGACTTATTTTATCTCTCTCATTGTCTAAAGAATTTATTTACTTCTATTTTTACTTTATGCAGGTATAAAACACAAATGTTCATGAATGAAATTACTCTTTGTAATTATATTCTCCATGGTTTTAAGTTTGTTTTCTTTGTTATTATAGGTAAATGGCAGTATTTAGGTGTTGCTCTGCACCCAACCGTGGTGCAACCCATTTTTTAGCCACAATTTTTTTTCCTTTTTTGTGACTATCCATTGGTAAGCATACCAATGAATGAGCATCACTCAAGTATTATACATATGTAAATATATGATAGGGTGCCAAACCAAAAACCCACAAGGCCCAAACGAACAAACAAAGCCAGAGACAGAGACAGAGGCAGCTTCCAGAATTTCTTCGACTTCGACGGAGAGAGAACGATGGTGCCGGCGGTGAAGGCTTTTCCGTTGACTGTGGTGAGTCACGTGCTCGCAATCGTGGCGCTGATTCTGGTGCTCATTTGGACCATTCACTTCAGAGGCGGCCTCGCTTGGGAGGCTGTAAACAAGAACCTCATCTTCAACATTCATCCTGTTCTTATGCTACTCGGATTGATCATCATAGGAGGTGAAGCAATAATTAGTTATAGGTCACTGCCGTTGAGTAAAGAAGTGAAGAAGGTGATTCATTTGGTGCTACACGGCGTCGCTTTGGTACTGGGTATTGTGGGGATCAGCGCTGCATTCAAGAACCATAATGAGAGTGGGATCGCTAATCTTTACAGCTTGCATTCTTGGATTGGAATTGGCGTAATTGTCCTTTATGGCATCCAGTGGTTGTACGGGTTCGTGACATTCTTCTATCCAGGAGGATCCACAAATCTTCGACGAGCGTCGCTTCCATGGCACGTGCTATTGGGCATGATTGTATACATATTGGCCGCCGGCAACTCGGCGCTCGGCTTTCTAGAGAAGCTGACATTTTTGGAGAGCTCCGGCGTCGCCAAATACGGCACGGAGGCCATTCTCGTCAACTTCACCGCCATTACCACCGTTATTTTTGCAGTGTTTGTGATTTTGTCTGTTGTTTCAGAGTCCTCCTTCGCTGAAGAAGACGACCATGGCGCCTATTCCGCTATATGATGATATGATATGTTTTCTCGTTTCTCTTGGTTTGCTTTGGGGGGAGTAGTTTTAATTACTTATATTTCATGTTTATGTTTACTAGACTTATTTTATCTCTCTCATTGTCTAAAGAATTTATTTACTTCTATTTTTACTTTATGCAGGTATAAAACACAAATGTTCATGAATGAAATTACTCTTTGTAATTATATTCTCCATGGTTTTAAGTTTGTTTTCTTTGTTATTATAGGTAAATGGCAGTATTTAGGTGTTGCTCTGCACCCAACCGTGGTGCAACCCATTTTTTAGCCACAATTTTTTTTCCTTTTTTGTGACTATCCATTGGTAAGCATACCAATGAATGAGCATCACTCAAGTATTATACATATGTAAATATATGATAGGGTG ATGGTGCCGGCGGTGAAGGCTTTTCCGTTGACTGTGGTGAGTCACGTGCTCGCAATCGTGGCGCTGATTCTGGTGCTCATTTGGACCATTCACTTCAGAGGCGGCCTCGCTTGGGAGGCTGTAAACAAGAACCTCATCTTCAACATTCATCCTGTTCTTATGCTACTCGGATTGATCATCATAGGAGGTGAAGCAATAATTAGTTATAGGTCACTGCCGTTGAGTAAAGAAGTGAAGAAGGTGATTCATTTGGTGCTACACGGCGTCGCTTTGGTACTGGGTATTGTGGGGATCAGCGCTGCATTCAAGAACCATAATGAGAGTGGGATCGCTAATCTTTACAGCTTGCATTCTTGGATTGGAATTGGCGTAATTGTCCTTTATGGCATCCAGTGGTTGTACGGGTTCGTGACATTCTTCTATCCAGGAGGATCCACAAATCTTCGACGAGCGTCGCTTCCATGGCACGTGCTATTGGGCATGATTGTATACATATTGGCCGCCGGCAACTCGGCGCTCGGCTTTCTAGAGAAGCTGACATTTTTGGAGAGCTCCGGCGTCGCCAAATACGGCACGGAGGCCATTCTCGTCAACTTCACCGCCATTACCACCGTTATTTTTGCAGTGTTTGTGATTTTGTCTGTTGTTTCAGAGTCCTCCTTCGCTGAAGAAGACGACCATGGCGCCTATTCCGCTATATGA MVPAVKAFPLTVVSHVLAIVALILVLIWTIHFRGGLAWEAVNKNLIFNIHPVLMLLGLIIIGGEAIISYRSLPLSKEVKKVIHLVLHGVALVLGIVGISAAFKNHNESGIANLYSLHSWIGIGVIVLYGIQWLYGFVTFFYPGGSTNLRRASLPWHVLLGMIVYILAAGNSALGFLEKLTFLESSGVAKYGTEAILVNFTAITTVIFAVFVILSVVSESSFAEEDDHGAYSAI Homology
BLAST of Tan0016711 vs. ExPASy Swiss-Prot
Match: Q8L856 (Transmembrane ascorbate ferrireductase 1 OS=Arabidopsis thaliana OX=3702 GN=CYB561A PE=1 SV=1) HSP 1 Score: 307.8 bits (787), Expect = 1.1e-82 Identity = 149/219 (68.04%), Postives = 181/219 (82.65%), Query Frame = 0
BLAST of Tan0016711 vs. ExPASy Swiss-Prot
Match: C4IYS8 (Ascorbate-specific transmembrane electron transporter 2 OS=Zea mays OX=4577 PE=2 SV=1) HSP 1 Score: 287.0 bits (733), Expect = 2.0e-76 Identity = 144/214 (67.29%), Postives = 172/214 (80.37%), Query Frame = 0
BLAST of Tan0016711 vs. ExPASy Swiss-Prot
Match: Q6I681 (Ascorbate-specific transmembrane electron transporter 1 OS=Zea mays OX=4577 GN=ZCYB PE=1 SV=1) HSP 1 Score: 283.5 bits (724), Expect = 2.2e-75 Identity = 141/214 (65.89%), Postives = 172/214 (80.37%), Query Frame = 0
BLAST of Tan0016711 vs. ExPASy Swiss-Prot
Match: A3A9H6 (Probable ascorbate-specific transmembrane electron transporter 1 OS=Oryza sativa subsp. japonica OX=39947 GN=Os02g0642300 PE=3 SV=1) HSP 1 Score: 271.9 bits (694), Expect = 6.5e-72 Identity = 136/224 (60.71%), Postives = 171/224 (76.34%), Query Frame = 0
BLAST of Tan0016711 vs. ExPASy Swiss-Prot
Match: Q7XMK3 (Probable ascorbate-specific transmembrane electron transporter 2 OS=Oryza sativa subsp. japonica OX=39947 GN=Os04g0533500 PE=2 SV=2) HSP 1 Score: 268.1 bits (684), Expect = 9.4e-71 Identity = 132/224 (58.93%), Postives = 170/224 (75.89%), Query Frame = 0
BLAST of Tan0016711 vs. NCBI nr
Match: XP_038888144.1 (transmembrane ascorbate ferrireductase 1 [Benincasa hispida]) HSP 1 Score: 392.5 bits (1007), Expect = 2.5e-105 Identity = 205/233 (87.98%), Postives = 217/233 (93.13%), Query Frame = 0
BLAST of Tan0016711 vs. NCBI nr
Match: BAE46406.1 (cytochrome b561 [Citrullus lanatus]) HSP 1 Score: 387.5 bits (994), Expect = 8.1e-104 Identity = 202/233 (86.70%), Postives = 216/233 (92.70%), Query Frame = 0
BLAST of Tan0016711 vs. NCBI nr
Match: XP_004148357.1 (transmembrane ascorbate ferrireductase 1 [Cucumis sativus] >KGN60469.1 hypothetical protein Csa_002510 [Cucumis sativus]) HSP 1 Score: 384.0 bits (985), Expect = 9.0e-103 Identity = 196/233 (84.12%), Postives = 213/233 (91.42%), Query Frame = 0
BLAST of Tan0016711 vs. NCBI nr
Match: XP_008465873.1 (PREDICTED: transmembrane ascorbate ferrireductase 1 [Cucumis melo] >KAA0038497.1 transmembrane ascorbate ferrireductase 1 [Cucumis melo var. makuwa] >TYK31091.1 transmembrane ascorbate ferrireductase 1 [Cucumis melo var. makuwa]) HSP 1 Score: 383.6 bits (984), Expect = 1.2e-102 Identity = 197/233 (84.55%), Postives = 211/233 (90.56%), Query Frame = 0
BLAST of Tan0016711 vs. NCBI nr
Match: XP_022957720.1 (transmembrane ascorbate ferrireductase 1-like [Cucurbita moschata]) HSP 1 Score: 374.4 bits (960), Expect = 7.1e-100 Identity = 194/233 (83.26%), Postives = 214/233 (91.85%), Query Frame = 0
BLAST of Tan0016711 vs. ExPASy TrEMBL
Match: Q3LGX5 (Cytochrome b561 OS=Citrullus lanatus OX=3654 GN=CLb561A PE=2 SV=1) HSP 1 Score: 387.5 bits (994), Expect = 3.9e-104 Identity = 202/233 (86.70%), Postives = 216/233 (92.70%), Query Frame = 0
BLAST of Tan0016711 vs. ExPASy TrEMBL
Match: A0A0A0LHJ1 (Cytochrome b561 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_3G914000 PE=4 SV=1) HSP 1 Score: 384.0 bits (985), Expect = 4.4e-103 Identity = 196/233 (84.12%), Postives = 213/233 (91.42%), Query Frame = 0
BLAST of Tan0016711 vs. ExPASy TrEMBL
Match: A0A5A7TAA1 (Transmembrane ascorbate ferrireductase 1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold455G003680 PE=4 SV=1) HSP 1 Score: 383.6 bits (984), Expect = 5.7e-103 Identity = 197/233 (84.55%), Postives = 211/233 (90.56%), Query Frame = 0
BLAST of Tan0016711 vs. ExPASy TrEMBL
Match: A0A1S3CPV4 (transmembrane ascorbate ferrireductase 1 OS=Cucumis melo OX=3656 GN=LOC103503461 PE=4 SV=1) HSP 1 Score: 383.6 bits (984), Expect = 5.7e-103 Identity = 197/233 (84.55%), Postives = 211/233 (90.56%), Query Frame = 0
BLAST of Tan0016711 vs. ExPASy TrEMBL
Match: A0A6J1H1B5 (transmembrane ascorbate ferrireductase 1-like OS=Cucurbita moschata OX=3662 GN=LOC111459179 PE=4 SV=1) HSP 1 Score: 374.4 bits (960), Expect = 3.5e-100 Identity = 194/233 (83.26%), Postives = 214/233 (91.85%), Query Frame = 0
BLAST of Tan0016711 vs. TAIR 10
Match: AT4G25570.1 (Cytochrome b561/ferric reductase transmembrane protein family ) HSP 1 Score: 307.8 bits (787), Expect = 7.6e-84 Identity = 149/219 (68.04%), Postives = 181/219 (82.65%), Query Frame = 0
BLAST of Tan0016711 vs. TAIR 10
Match: AT5G38630.1 (cytochrome B561-1 ) HSP 1 Score: 205.3 bits (521), Expect = 5.3e-53 Identity = 103/220 (46.82%), Postives = 150/220 (68.18%), Query Frame = 0
BLAST of Tan0016711 vs. TAIR 10
Match: AT1G14730.1 (Cytochrome b561/ferric reductase transmembrane protein family ) HSP 1 Score: 147.5 bits (371), Expect = 1.3e-35 Identity = 78/205 (38.05%), Postives = 127/205 (61.95%), Query Frame = 0
BLAST of Tan0016711 vs. TAIR 10
Match: AT1G26100.1 (Cytochrome b561/ferric reductase transmembrane protein family ) HSP 1 Score: 124.4 bits (311), Expect = 1.2e-28 Identity = 76/210 (36.19%), Postives = 120/210 (57.14%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) 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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