Tan0020173 (gene) Snake gourd v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GTAAGTTTTGCTTTGTAGTGTTAGATTCTTCACTATACGAAAGCCAACAAAAAAAAAAAAGAAAAACAACAACAAAAAAAAAACATTTTCAGTTTATTTTGCAATCATTTGTAGATTTTTTATAATAGAATAAAATATTTTTTTTCCCATCATCCATAACCATTCTGAGCTTGTCCTGGTCCAAAAAGTTAGTTCTATGACCCTCCATCCGTAGGAGTACAGTGAGTTATTAGGTCGGATTGGTCCTCCGTCCGTAGCGACGAGGAAGAACAAAAGAATTTGAAAGTAATTGAAGCAAATTGCAATCCGCGTAGTTGCAATAGTTGATGCTCGTTAGCTGAAGTGGCGAGGTTTTCTTAGGTCTTCCAGGTTTGATTCTGAAGTTCGACCCCTTGCTTTCAGTTTCTCCCTTTTCTTTTGCATTCGATATATGTATTTATCGCTACGATTTATGAGATGTGATTTTCAACAATTAGCATAATTCCTTGCTGAATTTTCTTTCCTAGAAGTCTATTATTCTATCCGCTTCTCTTGTTGGCTTACGAAGAACAGAAAAGTTCCAGGGACAACCTAAGCTTAAGTGACAACCGAAGATGATTAAATAAATGATAACCTAGTGTTTGATTTATCTTTTCAGTCTCCATGTTTATCTTTTTGTCCTGTTATTTGTTAATGCAAATGAACACAATCTTGCACTGTAGAAATTTTATACTTTGTATGATTGAAGGAATCTCCTCTCCTTTTTTATAGATAATGTCTGCCTACGATAATGTTGTTGGTGGGAAGTTGAAGCTTAAAGGGAAAGCTCTTGATGTGAAATTGGGTGGGGTGAAGAAGACAAAGAAACTTAAAAAGCATCAAGATCAAGTTTCTCGAGAGTTGCAAAATGAGCATCCGGCAGGTTTGTTGTTCAATTATTACTGGAATTGTTTGGATTGAATATGAGTGAATGCGTATTTATGAATCATCCATATCATACTCATGGCAAAGAGGTTGAAACTAAAACTGGTAGAGAGCGCACTAAAGTCTACTTTACTGTATATTTCCTCCATCATACAGACAAACTTTACATATGAATTTGGATTTTTAGTGTGTTGTTGTTATTTGGGCATCAATACATAAGCAAATATGAGAACTAACTATTTTAGTTCCGTCCTTATTGTGGGTCCACCATGGTTTAGATCCCTTGTTCTGTTGGTTGAATTGATATTTTAGTTAACTTCCTGCCTGTATCCTGGTTTATTCGGGAGAACTGCATTTTATACGGTTGATTGATTTTCTTTTCCCTTTTTGGGGTTAAAGGAGGGAATACCTTATCATGGTGGTTAGTTTCAATAGATTCCTAGCTTCATGTCGTGTAACCATGTAATATGATGATAAGAACATGTGTCAATCTTTTTCTTGAGGGTGTTTTTTTTGTTGACCTGTTCATTCTGAAGGACACTGGTTATTAGTTTTCTTAATGCAATAATGAAAAATAACTTCTGTCGAGGCTAGTGAAGGACAAGAAAGGCAAACCAACAAGATAGCAGCTTGAGTGAGGCACCGATCAAGATCAGGCTCACTTCTAGGAAGTTCCAAATAATGTAAAGAAAATAAAACTATTTTACAAATCTCCAAGTAGAAATATAGTATACAAGACACAAGAATATCACAATCACAATGGTCAATAGTAAGAGTAACTGAGAGTAACTAAGGCGAGGAGAAAAATGATGAAGTGCACAAGTTTCCCTACCTTTGATATTGTTTGTCTTATCATTATTAGAAAAAAGTTCTTCCTGCTGCTCTAACCAGATGCTCGTGGAGAGTCGCCAAAACCCCAACAAGCCAAAGTGACCTTCTTGACCCATAAAATAGTGAAAACAGTGCGTCACTTCCAAAGAGTCCTCACATCTGTGGTGGACCACAGAACACGTGCAGGGTTGAAAGAAGCTACCTTACTGGTTCTCAATTCTCATGACTTACTTATCTGGACTCTGGCTCCCTTTGAGGCATGATAGATGCTCTAGAATTCCAGTTTCTGTTATCAGTTAATTTGAAATAAAAGCAGCCTTGTAGCTTTATTTTGGCCAGCATCTTTGACGTACCATAAGCAAAAAAATATTGTGGACATCACAGCCAATATTGAACTCGGGTTGCTGTCAATTTTTGAAATGCCCAGCAATGGTTGGAAAGCTTAACCAAACTCAGACAGTGGAGGTTATTGTTACACCCTAGATTTGTTGTATACTGTTATAATCCTTTGTCGTTGTTCCTTTTTCTAAGAATCATGCCTAGACTAGAGTTTAAGAATTTAGTTTGTATTGGAATCATGCCTAGACTAGAGTTTAAGAATTTAGTTTGTATTGAGGAACTATCCTACTATTAATGTAGATATTATAAGTGATGGGCATATTTGAATGACTTGTTAAGAAAAAAGGCATCTGTAAGACCTCGGATCGTTCAGAAGTATATAAGGAGCGGCAAGAAGGGAATTGAGAATAATGAAGGGGGACCACGAGAGAGGGAACAAACGCTGGATGTATGGAAGTTAGTGGGGAGGAGTATTCTTTCATTCTTATCTCAATGAAAGTTCGATATTTAATTAAAAAAAAATAAGTTAATGGGGAGGGAGGTCATTAGCTGAAGAAGCAGGGAGTGTTTGTTTGTTTTTTGTTTGTTTGTTTGTTTTTTTTTCCGAGTATTTTGCGGACATGTTTGGTCTGTAGGAGAGTTCCCAACCTCTCGAATGGCTGGAGGGTCGTTGTGTTGGTTGCTTATCAATATTATCGGATAATAATCCTCTCTCCCTATTGAAATCTATCAATAGAGGGGAGTTGGATTTTTCATCTTCTCATTTATGTGTTATTGTATGTTTGTGAGTTTTGTGTGTGCAGGGAAATTGATTGGATACCTAACATATTGGTATCAGAGCACATTTTGATGTGGAAAAACATGGAGAATGTATACGAGGAAAGGCTCTCGGGGGCAGAAAAGGATGGAGATGAAGGAAACTCTCAAGAACTTCGAGAAGCCCATCAAAAAAGGATGGGAAAAAGTAGCGGGGGATATGCGTGAGAATCAGAAGGCTCTGGTTCGATAAGCATGTACAACCTTTTGGTCTTTACAGCTTATCTTTTTTTTATGTCAAATTGGCGTTCTTTCTTGTAACTCACCTTTAGGTGCTCGAAGTTATCTCCATTTCATTTATCAATGAAATAGTTTCTTATACCAAAAAAAAAAGGAGAATCAGAAGGCTCTGGTTCTTATGATTGTTGAAGGGTCAAATAGTAAGAGAAGTTTGGAAGGGGTAGAAACCTGTGGAGTCAGAGGGAAACAACATGTGGAAATGACGAATCAGTTGACGAGAGAGGAGGTCGAGTCGTTACAAAGTAAGAAGAACGAGTTGAATATTGATCAAAGCAAATTTAAGAAACTAGAGATGCTAGTGTTCAACGGTACGAATCCGAATGCTTGGTTAGTAAGAGTAGAGACCTACTTTGATGTACACCAGCTGAGTGACCTGGAGAAGATAAATGTGTCCATTGTGAGTTTCGAACCGGAGGCGATCGAAACGAATAATCGGAGAAGAGTGGTATCGTGGGATGACTTGAGGGATAGACTATTCGATCGATATAGACCATTGTAGGAGGGAAGTCTATGCGCTCAATTCTTGGCCATCAAGCAAGAAGGTACTGTAGTGGGATATCGAGCATTATTTGAATCCTATTCGGGACCATTATCGAAGATGGCAGAGGATGTCCTCGAAAATACTTTTCTCAATGGCTTGGTTTCGTCGATTAGGGCAGCCGTGATCAACAGGCAACCGAGTGGGATGAAAGAAATTATGAAGTAGACGGAATTAATAGAAGATAGGAACATGGCCCTGAGAGTGGCAGATAACGAATTCAAGGGGCGTACCAGTAACAAATCAACCAAACAAGCCAAGGAGTATTGGTATAATACCATTTCCATGTATCTTTGAACACTACACCATTTAATGTGGTTTATGGTCGTGCACCACCACCCCTTTTATCATACGGTGAAAGACCACCAATGATACGTTGGAACAATAGTTGATGGAATGTGATATGACTCTGTTGGCCTTGAAGGAGCAACTACGATTAGCACAACGAATGAAAAGGTATGCCGATCGTCATCAAAGTGAAGTAGAGCTGTTTGAGGGTGATGTGGTTTTCTTTAAGCTTCGACCTTACAAGCATCGATACGTGGCACAATGAAAGTGTGAGAAATCAATGCCAAAACTCTATGGACCCTATGAAGCTTTGGAATGGGTAAGTAAGGTGGCGCATAAACTAAAGCTTCCACCTACAGCGTCCATTCACCCCGTGTTCCATGTCCGCAGTTGAAGAGAATGGTGGGCAACCAGGTGATAGTGCAAAATGAACCACCTACATTATCGAAGAATTATGAGGGGAGTTGGATCTTTCATCTTTTCATTTCTATGTTTGTGAGTTTTGTGCGTGTAGGAAAATTGATTGGATACCTAACAGCATCTCAAGCCTTAAGTGGATCCTCTATCCTCATCCTCATTGAGGAGTGTTTTCTTGCTTGCAACTTTTCATTTTTTCCAATTTCTTTTTTTGTCCTCACGATGATGTCTGTGAATCTACTATCTCTTTTGGTGGCAAGTGTAGGTGGAATTGCTGCAAGTAGTGAAATGCCGAGTGATGTGAATGGGGAAGAAATAGATGACGCCAACAAGACAACTGAGGATGGGAAGGTTCCTCATTATGATGATCATCTAACACCAGCGGAAAAACGTTATATTGAACAGAAAGAGAGAATTGATGTTCATCGACTGGCCAAGAAAGCTAATAAATCTCATCGTGACCGGATCCAGGATTTTAATCAATATCTGGCGAACATGAGTGAGCATTATGACATTCCCAAAGTTGGTCCTGGCTGATTTCTTTTTTATTTTGGATTGGCTCGTATGGATATATTGTGAAGTGGCCAAGCCGAGCGAAATGTCCAGACCTAGTTGAACGGAAGGAACAAACCCTTTTTATTAGTGGATGTTGTCTACTTGTTGGTATGGATCTCGAGACTTCAGTTTGAAATATGTATCTTTACTGCTTGCCATTCAAATTGTGAGGTCTTCCCAAATACATGATGCATGGAAGGGAAGGATTGTCAAGATCCGTTTGATTACTATTGGTTTTTAAAAAATAAGCCTACAAATATTATATCTA GTAAGTTTTGCTTTGTAGTGTTAGATTCTTCACTATACGAAAGCCAACAAAAAAAAAAAAGAAAAACAACAACAAAAAAAAAACATTTTCAGTTTATTTTGCAATCATTTGTAGATTTTTTATAATAGAATAAAATATTTTTTTTCCCATCATCCATAACCATTCTGAGCTTGTCCTGGTCCAAAAAGTTAGTTCTATGACCCTCCATCCGTAGGAGTACAGTGAGTTATTAGGTCGGATTGGTCCTCCGTCCGTAGCGACGAGGAAGAACAAAAGAATTTGAAAGTAATTGAAGCAAATTGCAATCCGCGTAGTTGCAATAGTTGATGCTCGTTAGCTGAAGTGGCGAGGTTTTCTTAGGTCTTCCAGATAATGTCTGCCTACGATAATGTTGTTGGTGGGAAGTTGAAGCTTAAAGGGAAAGCTCTTGATGTGAAATTGGGTGGGGTGAAGAAGACAAAGAAACTTAAAAAGCATCAAGATCAAGTTTCTCGAGAGTTGCAAAATGAGCATCCGGCAGGTGGAATTGCTGCAAGTAGTGAAATGCCGAGTGATGTGAATGGGGAAGAAATAGATGACGCCAACAAGACAACTGAGGATGGGAAGGTTCCTCATTATGATGATCATCTAACACCAGCGGAAAAACGTTATATTGAACAGAAAGAGAGAATTGATGTTCATCGACTGGCCAAGAAAGCTAATAAATCTCATCGTGACCGGATCCAGGATTTTAATCAATATCTGGCGAACATGAGTGAGCATTATGACATTCCCAAAGTTGGTCCTGGCTGATTTCTTTTTTATTTTGGATTGGCTCGTATGGATATATTGTGAAGTGGCCAAGCCGAGCGAAATGTCCAGACCTAGTTGAACGGAAGGAACAAACCCTTTTTATTAGTGGATGTTGTCTACTTGTTGGTATGGATCTCGAGACTTCAGTTTGAAATATGTATCTTTACTGCTTGCCATTCAAATTGTGAGGTCTTCCCAAATACATGATGCATGGAAGGGAAGGATTGTCAAGATCCGTTTGATTACTATTGGTTTTTAAAAAATAAGCCTACAAATATTATATCTA ATGTCTGCCTACGATAATGTTGTTGGTGGGAAGTTGAAGCTTAAAGGGAAAGCTCTTGATGTGAAATTGGGTGGGGTGAAGAAGACAAAGAAACTTAAAAAGCATCAAGATCAAGTTTCTCGAGAGTTGCAAAATGAGCATCCGGCAGGTGGAATTGCTGCAAGTAGTGAAATGCCGAGTGATGTGAATGGGGAAGAAATAGATGACGCCAACAAGACAACTGAGGATGGGAAGGTTCCTCATTATGATGATCATCTAACACCAGCGGAAAAACGTTATATTGAACAGAAAGAGAGAATTGATGTTCATCGACTGGCCAAGAAAGCTAATAAATCTCATCGTGACCGGATCCAGGATTTTAATCAATATCTGGCGAACATGAGTGAGCATTATGACATTCCCAAAGTTGGTCCTGGCTGA MSAYDNVVGGKLKLKGKALDVKLGGVKKTKKLKKHQDQVSRELQNEHPAGGIAASSEMPSDVNGEEIDDANKTTEDGKVPHYDDHLTPAEKRYIEQKERIDVHRLAKKANKSHRDRIQDFNQYLANMSEHYDIPKVGPG Homology
BLAST of Tan0020173 vs. ExPASy Swiss-Prot
Match: B0JZ89 (Protein FAM32A OS=Xenopus tropicalis OX=8364 GN=fam32a PE=3 SV=1) HSP 1 Score: 67.0 bits (162), Expect = 1.9e-10 Identity = 48/136 (35.29%), Postives = 72/136 (52.94%), Query Frame = 0
BLAST of Tan0020173 vs. ExPASy Swiss-Prot
Match: Q6GQN4 (Protein FAM32A-like OS=Danio rerio OX=7955 GN=fam32al PE=3 SV=1) HSP 1 Score: 63.9 bits (154), Expect = 1.6e-09 Identity = 47/136 (34.56%), Postives = 73/136 (53.68%), Query Frame = 0
BLAST of Tan0020173 vs. ExPASy Swiss-Prot
Match: Q9CR80 (Protein FAM32A OS=Mus musculus OX=10090 GN=Fam32a PE=2 SV=1) HSP 1 Score: 61.2 bits (147), Expect = 1.0e-08 Identity = 46/136 (33.82%), Postives = 70/136 (51.47%), Query Frame = 0
BLAST of Tan0020173 vs. ExPASy Swiss-Prot
Match: B2RYG1 (Protein FAM32A OS=Rattus norvegicus OX=10116 GN=Fam32a PE=3 SV=1) HSP 1 Score: 60.8 bits (146), Expect = 1.4e-08 Identity = 46/136 (33.82%), Postives = 69/136 (50.74%), Query Frame = 0
BLAST of Tan0020173 vs. ExPASy Swiss-Prot
Match: A6QR31 (Protein FAM32A OS=Bos taurus OX=9913 GN=FAM32A PE=3 SV=1) HSP 1 Score: 60.5 bits (145), Expect = 1.8e-08 Identity = 47/136 (34.56%), Postives = 68/136 (50.00%), Query Frame = 0
BLAST of Tan0020173 vs. NCBI nr
Match: XP_022980751.1 (protein FAM32A-like [Cucurbita maxima] >XP_022980752.1 protein FAM32A-like [Cucurbita maxima]) HSP 1 Score: 249.6 bits (636), Expect = 1.6e-62 Identity = 127/140 (90.71%), Postives = 132/140 (94.29%), Query Frame = 0
BLAST of Tan0020173 vs. NCBI nr
Match: XP_023527034.1 (protein FAM32A [Cucurbita pepo subsp. pepo] >XP_023527035.1 protein FAM32A [Cucurbita pepo subsp. pepo]) HSP 1 Score: 249.6 bits (636), Expect = 1.6e-62 Identity = 127/140 (90.71%), Postives = 132/140 (94.29%), Query Frame = 0
BLAST of Tan0020173 vs. NCBI nr
Match: XP_004144416.1 (protein FAM32A [Cucumis sativus] >XP_004144417.1 protein FAM32A [Cucumis sativus] >KGN58576.2 hypothetical protein Csa_001967 [Cucumis sativus]) HSP 1 Score: 248.8 bits (634), Expect = 2.7e-62 Identity = 124/139 (89.21%), Postives = 133/139 (95.68%), Query Frame = 0
BLAST of Tan0020173 vs. NCBI nr
Match: XP_022956102.1 (protein FAM32A [Cucurbita moschata] >XP_022956103.1 protein FAM32A [Cucurbita moschata] >KAG7018204.1 Protein FAM32A-like protein [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 248.1 bits (632), Expect = 4.6e-62 Identity = 126/140 (90.00%), Postives = 132/140 (94.29%), Query Frame = 0
BLAST of Tan0020173 vs. NCBI nr
Match: XP_008465099.1 (PREDICTED: protein FAM32A [Cucumis melo]) HSP 1 Score: 245.7 bits (626), Expect = 2.3e-61 Identity = 122/139 (87.77%), Postives = 133/139 (95.68%), Query Frame = 0
BLAST of Tan0020173 vs. ExPASy TrEMBL
Match: A0A6J1IS50 (protein FAM32A-like OS=Cucurbita maxima OX=3661 GN=LOC111480025 PE=4 SV=1) HSP 1 Score: 249.6 bits (636), Expect = 7.7e-63 Identity = 127/140 (90.71%), Postives = 132/140 (94.29%), Query Frame = 0
BLAST of Tan0020173 vs. ExPASy TrEMBL
Match: A0A6J1GVE6 (protein FAM32A OS=Cucurbita moschata OX=3662 GN=LOC111457896 PE=4 SV=1) HSP 1 Score: 248.1 bits (632), Expect = 2.2e-62 Identity = 126/140 (90.00%), Postives = 132/140 (94.29%), Query Frame = 0
BLAST of Tan0020173 vs. ExPASy TrEMBL
Match: A0A1S3CN03 (protein FAM32A OS=Cucumis melo OX=3656 GN=LOC103502791 PE=4 SV=1) HSP 1 Score: 245.7 bits (626), Expect = 1.1e-61 Identity = 122/139 (87.77%), Postives = 133/139 (95.68%), Query Frame = 0
BLAST of Tan0020173 vs. ExPASy TrEMBL
Match: A0A6J1DGQ7 (protein FAM32A OS=Momordica charantia OX=3673 GN=LOC111020290 PE=4 SV=1) HSP 1 Score: 241.9 bits (616), Expect = 1.6e-60 Identity = 121/141 (85.82%), Postives = 131/141 (92.91%), Query Frame = 0
BLAST of Tan0020173 vs. ExPASy TrEMBL
Match: A0A2I4G306 (protein FAM32A-like OS=Juglans regia OX=51240 GN=LOC109004251 PE=4 SV=1) HSP 1 Score: 205.7 bits (522), Expect = 1.3e-49 Identity = 106/139 (76.26%), Postives = 118/139 (84.89%), Query Frame = 0
BLAST of Tan0020173 vs. TAIR 10
Match: AT1G16810.1 (unknown protein; CONTAINS InterPro DOMAIN/s: Protein of unknown function DUF1754, eukaryotic (InterPro:IPR013865); Has 395 Blast hits to 394 proteins in 162 species: Archae - 0; Bacteria - 0; Metazoa - 181; Fungi - 91; Plants - 65; Viruses - 0; Other Eukaryotes - 58 (source: NCBI BLink). ) HSP 1 Score: 159.8 bits (403), Expect = 1.5e-39 Identity = 88/144 (61.11%), Postives = 108/144 (75.00%), Query Frame = 0
BLAST of Tan0020173 vs. TAIR 10
Match: AT1G16810.2 (unknown protein; CONTAINS InterPro DOMAIN/s: Protein of unknown function DUF1754, eukaryotic (InterPro:IPR013865); Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). ) HSP 1 Score: 159.8 bits (403), Expect = 1.5e-39 Identity = 88/144 (61.11%), Postives = 108/144 (75.00%), 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
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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