Tan0006312 (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.GAAACCCTCGCCTCTTTCAAATCGCACGCCGCTAGCCCTAGTCTCTCTCAAATCGCTCCTCTCTCGCCGGAAGGCAAACGCCGTTCGCCTCGCACAAATCCTCTCTCTCTCGCACGCACGCAGGCGCTCGTTTCTCTCGCCAGACGCCGTTCATGTGTCTGGTCGACGCTCGCTGGTCACCCAAACGTCTCAGATCTGGTCGCCATTCGCCATCTCTCTCTCGTCCGACGCTGGTCGCAGTTCGGCGTTCATAGATCACCGAAAGTCCCATATCCATTTTGCAGCTCGCCTTGTCGCCTATCACACAAGGTCTCAGATCTGATTCCTCTGTTGTTTTTAGATGTGGGTTGATAAAATTATAATTTTGTTCCTATGTTTTCTCTTTCGAAATTTTGAATCTATTTTTTTAGATGTGAGTTATATATACTTTTTATCCATTGTTTCTATTATAGAAAAGTACTGTGGTTGTTGTGATAGAAACATTCAACCTTTTATGGTTGCTATTTAGGTTGAAGACAGTTTGGAGTTTTTTTTTTTCATTCTAGATGGTTGTTATATATTTATGTTGATTTATATAGAAATTGAAGGTACAAAAACCAATTTAAATTTACAAACGAAATAAAAGGGAATTTTAAAAACAAATTTAAAAAAACACAATTCTCCTAAGGACTAAGTTTCTTTTGCAATTTTGGTCCTTTTATATAGGTTTGCTTAGGACGATTTCGTCATCCAAAGCACCTTATTAAATGACACCAATTGAGCTGAAGGAACTCATGGTGAACTCAAGAACGACTTCAGTGACAATTTTAATTTCTTGTCACCAAATTTAATTATTGGTGACACATTTGGTTTTGTCACTAGTTTTTGCAACAAAAAGCTTCTAATTTTTGTCACTGAATCTACTTATTAGTGATGCATTTGATTTCATTGCCGCGGATGTTTTTTCTTATAGTGATAAGCATCAAAGAGCTTTTGTTTTCTCATCGCATTCTTGAGACCGATCCTTCAAGTTTGTCAAAGGCACGTTCTCTCATCATCATCGTTTTCTTTTATGTTGAATCATTTTTTTCCCTGGAATTTGGGTGACTCAGTCTGCAAAAGCACATATCGAAGGCTTTCAGGTTCATTTCATAAATGTCTGCTTAGCTCAAAAGTTGTGCGATATTATTTACTCGTCCTTTGCTCTTCGTACCACGTCCTTTGGAGTCTAAAGATCGATTTCGAGTTTGCCTCTAGGGGATTTTGAAGTGGATGACGAACATTTTCTGATTTTTCTTTCACCTTTCACTGATTGGGGTTTTCTTATTTTCGTTTGTGTACTAGGGTGAGAGATGTATTTGTTAATGGAGAAGAAGATAATTAATACAGAAACTTCTTGTCACTTAATCGCATTCTTGAGACCGATCCTTCAACTTTGTCAAAGGCACATTCTCTCTTCATCATTGTTTTCTTTTATGTTGAATCATTTTTTTTTGCCCTAGAATTTGGGTCACTCATTCTGCAAAAGCACATATCGAAGGCTTTCAGGTTCATTTCATAAATGCCTGCTTAGCTCAAAACTTGTGCGATATTATTTACTCGTCCTTTGCTCTTCTTACCACGTCCTTTGGAGTCTAAATATTGATTTTGAGTCTGGCCTCTAGGGGATTTTGAAGTGGAAGACGAACATTTTCTGATTTTTCTTTCACCTTTCATTGATTGGGGTTTTCTTATTTTCTTTTGTGTACTAGGGTGAGAGATGTATTTGTTAATGGAGAAGAAGAGAATTAGTGCAGAAACTTCTTGTCACTAAATCGCATTCTTGAGACCAATCCTTCAACTTTGTCAAAGGCACATTCTCTATTCATCATCGTTTTCTATGTTGAATCATTTTCTCCCCTAGAATTTGGGTCACTCATTCTGAAAAAGCACATATCGAAGGCTTTCAGGTTCATTTCATAAATGCCTGCTTAGCTCAAAAGTTGTGCGATATTTACTCGTCCTTTGCTCTTCTTACCACGTCCTTTGGAGTCTAAATATCGATTTTGAGTCTGGCTTCTAGGGGATTTTGAAGTGGATGACGAACATTTTCTGATTTTTCTTTCACCTTTCATTGATTGGGGTTTTCTTATTTTCTTTTGTGTACTAGGGTGAGAGATGTATTTGTTAATGGAGAAGAGAATTAGTACAGAAACTTCTTGTTACTAAATCACATTCTTGAGACCAATCCTTCAACTTTGTCAAAGGCACATTCTCTATACATCATCGTTTTCTTTTTATGTTGAATCATTTTTCCCCCTAGAATTTGGGTCACTCATTCTGAAAAAGCACATATCGAAGGCTTTCAGGTTCATTTCATAAATGCCTGCTTAGCTCAAAAGTTGTGCGATATTATTTACTCGTCCTTCGCTCTTCTTATCACGTCGTTTGGAGTCTAAAGATCGATTTTGAATCTGGCCTCTAGGGGATTTTGAAGTAGATGACGAACATTTTCTAATTTTTCTTTCACCTTCCATTGATTGGGTTTTTTTTTTTAATTTTCTTTTGGGTACTAGGGTGAGAGATGTATTGAGATTCTAGAATGTGTTTCCATTTTTAAGTTTTTTTGTTTTTTTTTATGCTTGTCGATGTGATTTAGATTTTGTTAGTGCTTCTTGACAGTGTCACAAACTGCATGTTGTTTATATTTTAGTTTATTTCTTCTTGAATCCTAAATAATTGGCAAGAGCAAGACTAAAGTCAGGATTTTGTTTTTTTGACATAATGTACTTTCACAAAAAGCATTTTGAATGTCAAGAAATAGGGTTGTTTATTGGTAAATGATCTAGGACTGGTTTTCAAGTAAATCAGTTTTGAAATATACTATGTATTGGGGATTTATATCTTTAAGGCACTCGTTCAAGTAAATCATGTCTAGTATGTGTACAATAATTGAGTTTTAGCTAACACCCACCATTTTCAAGTATGATTAATTAGAAAAGAATGTTTCTCTTGTAATTTGTGTGCAATAAGATTATGAAGTTACTAATGACCCTGCCAATTTGTCATTATTCTTGAAATCGATCTATTTTAATCATTATCTTTTGAAGGACCTTTAATTGTGCAAATAAACCTGTTGTTGTGTTGTTTTAATTTCACTAATGGTGGTTAAGGGTTGGAAAGCTAAAGATTTTGAATTGACAGAGCCCAATTTAAAGTTTGGTGGGAGCAGCAGTACTTGTTACGAGGGAAGAACAATGTCGAACCCAAAAGTTTTCTTTGACATTTTGATTGGAAGGATGAAAGCAGGCCGGATTGTGATGGAGCTGTATGCAGACACAACGCCAAAAACTGCAGAGAATTTCCGAGCCCTGTGCACCGGGGAGAAGGGGATTGGAAAATCTGGAAAGCCTTTGCACTATAAAGGGTCAACATTTCACCGTATAATCCCCAAGTTCATGTGCCAAGGAGGAGATTTCACAAAGGGTAATGGAACAGGAGGAGAATCAATCTATGGCACGAAATTTGCAGATGAAAACTTCAAGATGAAACACACAGGGCCGGGTGTTCTATCGATGGCGAATGCTGGAATGCACACTAATGGTTCTCAGTTCTTCATTTGCACTGAGAAGACTTCATGGCTGGATGGGAGGCATGTTGTGTTTGGGAAAGTTGTGGATGGTTATAATGTAGTTCAGGAGATGGAGAAGTTAGGATCAGATAGTGGAATGACTTCAGAAACAGTTGTGATAGAGGACTGTGGGCAGATAAAGAGTTAGAAGCTAAAAATTTTTATGTTAGAATTTTTCACTTTCAACTCCTTGGATGGAAACAAACAATGTCATGGCTCAATAATCTCCTCCTTTCAAGAATGAGATTCAAATTATCTGTTGCTTATGAGTGGGATGTTCAGCAGTATTATGAGTAATATTGTTTGGGAAAAGAGTATTGGAAGGAATGAATTCTTTACAATTAGACTCACAATCCCACATCTCCTCCACTTTTGGCCGTAATTTTCAACTTTGTATGATTGCATTTTTGTTAATGAAAATGAATTATATCAGTCTTCAGCGTGGTATTAAA GAAACCCTCGCCTCTTTCAAATCGCACGCCGCTAGCCCTAGTCTCTCTCAAATCGCTCCTCTCTCGCCGGAAGGCAAACGCCGTTCGCCTCGCACAAATCCTCTCTCTCTCGCACGCACGCAGGCGCTCGTTTCTCTCGCCAGACGCCGTTCATGTGTCTGGTCGACGCTCGCTGGTCACCCAAACGTCTCAGATCTGGTCGCCATTCGCCATCTCTCTCTCGTCCGACGCTGGTCGCAGTTCGGCGTTCATAGATCACCGAAAGTCCCATATCCATTTTGCAGCTCGCCTTGTCGCCTATCACACAAGAGCCCAATTTAAAGTTTGGTGGGAGCAGCAGTACTTGTTACGAGGGAAGAACAATGTCGAACCCAAAAGTTTTCTTTGACATTTTGATTGGAAGGATGAAAGCAGGCCGGATTGTGATGGAGCTGTATGCAGACACAACGCCAAAAACTGCAGAGAATTTCCGAGCCCTGTGCACCGGGGAGAAGGGGATTGGAAAATCTGGAAAGCCTTTGCACTATAAAGGGTCAACATTTCACCGTATAATCCCCAAGTTCATGTGCCAAGGAGGAGATTTCACAAAGGGTAATGGAACAGGAGGAGAATCAATCTATGGCACGAAATTTGCAGATGAAAACTTCAAGATGAAACACACAGGGCCGGGTGTTCTATCGATGGCGAATGCTGGAATGCACACTAATGGTTCTCAGTTCTTCATTTGCACTGAGAAGACTTCATGGCTGGATGGGAGGCATGTTGTGTTTGGGAAAGTTGTGGATGGTTATAATGTAGTTCAGGAGATGGAGAAGTTAGGATCAGATAGTGGAATGACTTCAGAAACAGTTGTGATAGAGGACTGTGGGCAGATAAAGAGTTAGAAGCTAAAAATTTTTATGTTAGAATTTTTCACTTTCAACTCCTTGGATGGAAACAAACAATGTCATGGCTCAATAATCTCCTCCTTTCAAGAATGAGATTCAAATTATCTGTTGCTTATGAGTGGGATGTTCAGCAGTATTATGAGTAATATTGTTTGGGAAAAGAGTATTGGAAGGAATGAATTCTTTACAATTAGACTCACAATCCCACATCTCCTCCACTTTTGGCCGTAATTTTCAACTTTGTATGATTGCATTTTTGTTAATGAAAATGAATTATATCAGTCTTCAGCGTGGTATTAAA ATGTCGAACCCAAAAGTTTTCTTTGACATTTTGATTGGAAGGATGAAAGCAGGCCGGATTGTGATGGAGCTGTATGCAGACACAACGCCAAAAACTGCAGAGAATTTCCGAGCCCTGTGCACCGGGGAGAAGGGGATTGGAAAATCTGGAAAGCCTTTGCACTATAAAGGGTCAACATTTCACCGTATAATCCCCAAGTTCATGTGCCAAGGAGGAGATTTCACAAAGGGTAATGGAACAGGAGGAGAATCAATCTATGGCACGAAATTTGCAGATGAAAACTTCAAGATGAAACACACAGGGCCGGGTGTTCTATCGATGGCGAATGCTGGAATGCACACTAATGGTTCTCAGTTCTTCATTTGCACTGAGAAGACTTCATGGCTGGATGGGAGGCATGTTGTGTTTGGGAAAGTTGTGGATGGTTATAATGTAGTTCAGGAGATGGAGAAGTTAGGATCAGATAGTGGAATGACTTCAGAAACAGTTGTGATAGAGGACTGTGGGCAGATAAAGAGTTAG MSNPKVFFDILIGRMKAGRIVMELYADTTPKTAENFRALCTGEKGIGKSGKPLHYKGSTFHRIIPKFMCQGGDFTKGNGTGGESIYGTKFADENFKMKHTGPGVLSMANAGMHTNGSQFFICTEKTSWLDGRHVVFGKVVDGYNVVQEMEKLGSDSGMTSETVVIEDCGQIKS Homology
BLAST of Tan0006312 vs. ExPASy Swiss-Prot
Match: Q38867 (Peptidyl-prolyl cis-trans isomerase CYP19-3 OS=Arabidopsis thaliana OX=3702 GN=CYP19-3 PE=2 SV=2) HSP 1 Score: 310.5 bits (794), Expect = 1.2e-83 Identity = 141/173 (81.50%), Postives = 159/173 (91.91%), Query Frame = 0
BLAST of Tan0006312 vs. ExPASy Swiss-Prot
Match: Q38900 (Peptidyl-prolyl cis-trans isomerase CYP19-1 OS=Arabidopsis thaliana OX=3702 GN=CYP19-1 PE=2 SV=1) HSP 1 Score: 302.4 bits (773), Expect = 3.4e-81 Identity = 137/170 (80.59%), Postives = 156/170 (91.76%), Query Frame = 0
BLAST of Tan0006312 vs. ExPASy Swiss-Prot
Match: O49886 (Peptidyl-prolyl cis-trans isomerase OS=Lupinus luteus OX=3873 PE=2 SV=1) HSP 1 Score: 296.2 bits (757), Expect = 2.4e-79 Identity = 135/171 (78.95%), Postives = 150/171 (87.72%), Query Frame = 0
BLAST of Tan0006312 vs. ExPASy Swiss-Prot
Match: Q8W171 (Peptidyl-prolyl cis-trans isomerase 1 OS=Glycine max OX=3847 GN=Cyp1 PE=2 SV=1) HSP 1 Score: 295.0 bits (754), Expect = 5.4e-79 Identity = 134/170 (78.82%), Postives = 151/170 (88.82%), Query Frame = 0
BLAST of Tan0006312 vs. ExPASy Swiss-Prot
Match: P24525 (Peptidyl-prolyl cis-trans isomerase OS=Brassica napus OX=3708 GN=CYP PE=2 SV=2) HSP 1 Score: 293.9 bits (751), Expect = 1.2e-78 Identity = 134/171 (78.36%), Postives = 152/171 (88.89%), Query Frame = 0
BLAST of Tan0006312 vs. NCBI nr
Match: XP_022156642.1 (peptidyl-prolyl cis-trans isomerase CYP19-3 [Momordica charantia]) HSP 1 Score: 334.0 bits (855), Expect = 7.9e-88 Identity = 156/171 (91.23%), Postives = 165/171 (96.49%), Query Frame = 0
BLAST of Tan0006312 vs. NCBI nr
Match: XP_038880644.1 (peptidyl-prolyl cis-trans isomerase CYP19-3-like [Benincasa hispida] >XP_038880645.1 peptidyl-prolyl cis-trans isomerase CYP19-3-like [Benincasa hispida]) HSP 1 Score: 333.2 bits (853), Expect = 1.4e-87 Identity = 155/171 (90.64%), Postives = 164/171 (95.91%), Query Frame = 0
BLAST of Tan0006312 vs. NCBI nr
Match: KAF9660827.1 (hypothetical protein SADUNF_Sadunf19G0004100 [Salix dunnii]) HSP 1 Score: 331.3 bits (848), Expect = 5.1e-87 Identity = 152/171 (88.89%), Postives = 163/171 (95.32%), Query Frame = 0
BLAST of Tan0006312 vs. NCBI nr
Match: KAA8539040.1 (hypothetical protein F0562_025732 [Nyssa sinensis]) HSP 1 Score: 331.3 bits (848), Expect = 5.1e-87 Identity = 153/172 (88.95%), Postives = 164/172 (95.35%), Query Frame = 0
BLAST of Tan0006312 vs. NCBI nr
Match: KAB5512027.1 (hypothetical protein DKX38_029055 [Salix brachista]) HSP 1 Score: 330.1 bits (845), Expect = 1.1e-86 Identity = 151/171 (88.30%), Postives = 163/171 (95.32%), Query Frame = 0
BLAST of Tan0006312 vs. ExPASy TrEMBL
Match: A0A6J1DSI0 (Peptidyl-prolyl cis-trans isomerase OS=Momordica charantia OX=3673 GN=LOC111023491 PE=3 SV=1) HSP 1 Score: 334.0 bits (855), Expect = 3.8e-88 Identity = 156/171 (91.23%), Postives = 165/171 (96.49%), Query Frame = 0
BLAST of Tan0006312 vs. ExPASy TrEMBL
Match: A0A5J5B9B2 (Peptidyl-prolyl cis-trans isomerase OS=Nyssa sinensis OX=561372 GN=F0562_025732 PE=3 SV=1) HSP 1 Score: 331.3 bits (848), Expect = 2.5e-87 Identity = 153/172 (88.95%), Postives = 164/172 (95.35%), Query Frame = 0
BLAST of Tan0006312 vs. ExPASy TrEMBL
Match: A0A5N5JAG0 (Peptidyl-prolyl cis-trans isomerase OS=Salix brachista OX=2182728 GN=DKX38_029055 PE=3 SV=1) HSP 1 Score: 330.1 bits (845), Expect = 5.5e-87 Identity = 151/171 (88.30%), Postives = 163/171 (95.32%), Query Frame = 0
BLAST of Tan0006312 vs. ExPASy TrEMBL
Match: A0A6N2KXC3 (Peptidyl-prolyl cis-trans isomerase OS=Salix viminalis OX=40686 GN=SVIM_LOCUS132189 PE=3 SV=1) HSP 1 Score: 330.1 bits (845), Expect = 5.5e-87 Identity = 151/171 (88.30%), Postives = 163/171 (95.32%), Query Frame = 0
BLAST of Tan0006312 vs. ExPASy TrEMBL
Match: B5LWR0 (Peptidyl-prolyl cis-trans isomerase OS=Ziziphus jujuba OX=326968 GN=CyP PE=2 SV=1) HSP 1 Score: 329.7 bits (844), Expect = 7.2e-87 Identity = 152/171 (88.89%), Postives = 163/171 (95.32%), Query Frame = 0
BLAST of Tan0006312 vs. TAIR 10
Match: AT3G56070.1 (rotamase cyclophilin 2 ) HSP 1 Score: 310.5 bits (794), Expect = 8.8e-85 Identity = 141/173 (81.50%), Postives = 159/173 (91.91%), Query Frame = 0
BLAST of Tan0006312 vs. TAIR 10
Match: AT3G56070.2 (rotamase cyclophilin 2 ) HSP 1 Score: 310.5 bits (794), Expect = 8.8e-85 Identity = 141/173 (81.50%), Postives = 159/173 (91.91%), Query Frame = 0
BLAST of Tan0006312 vs. TAIR 10
Match: AT2G16600.1 (rotamase CYP 3 ) HSP 1 Score: 302.4 bits (773), Expect = 2.4e-82 Identity = 137/170 (80.59%), Postives = 156/170 (91.76%), Query Frame = 0
BLAST of Tan0006312 vs. TAIR 10
Match: AT2G21130.1 (Cyclophilin-like peptidyl-prolyl cis-trans isomerase family protein ) HSP 1 Score: 288.1 bits (736), Expect = 4.7e-78 Identity = 130/172 (75.58%), Postives = 151/172 (87.79%), Query Frame = 0
BLAST of Tan0006312 vs. TAIR 10
Match: AT4G38740.1 (rotamase CYP 1 ) HSP 1 Score: 276.6 bits (706), Expect = 1.4e-74 Identity = 124/171 (72.51%), Postives = 147/171 (85.96%), 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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