Tan0013856 (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.TTGCCCTTCATCAGTTTTGTGGGATATTCTACCCTACTGCTGTCTGCTGCAATCCCATTTCTTCCTCGTAGCTCTGCTGCCTTCCTCGTTCCATTTCAGATACAACAAAGAAGAAGCCCAAAAGCTCCCAGTGATTTTGGTAGGCTCTGAACAGCGCGAGATCAGAGAGGAAGAAGAAGAAGAAAACGACGATGGGAACTCTGGGGAAAGCCATCTACACCGTTGGATTTTGGATCCGTGAGACGGGTCAGGCAATCGATCGCCTTGGCTGCCGCCTCCAAGGGAGATACTTCTTCCAAGAACAGCGTAAGCTTCTTCTTTTTTTTTTTGAAATACCACGTTTCTTTAGTGTCGGATCTTTTCCCCTTGATTTTGACTTCCATCTGGATATGATTTAGGAGTATTGTTATTCTGACTGGATCAGCTTGTGGAAATTGTGGAAATTGTGGAAATGATAACTGATGTTGTGTGAATTTGATTGATGGAAGACGACTGCTGGAATATACAGTCTATGAGTCGTGCAGTGTGTGTGTGTTTAATCTGAACAGAATTGAATAGTTACGCCTGGGTTCTCGTGATTGATTCTCAATTTGTGAAGTGGCTGGGGTTTCGAGAATTAGGTTTACGGATATGTACACGAATTTGTTGGGGATTTCTATTAGAATTGTTGATTGGTTATACACATGAAGCAACGTAAGACGAATGCTTCTATGATTTCCGAAGAGGGGGTGTCAAATGCGGTCAAACGATACTTACTGGGATGTAATGGAATTCTTAATTACAAATTCAGATGTACTTTGGGTGTAATAGTTTTAGTGAAATGTCACACCTGGGGATTTCAAAGTGTGATTGTTGATGGCACTGTCACTGAAACACATTCTTGTTAGATTTACTTCATTTTCTGCCAAATATTTGTTGTTCTGGTGTCTCAATTTGGCTATGAGTTCCTCTTTTTTGTTCTATCATCTTGATACCTGATGGTCTAATATGTCTAAGGTTTCCTGCAGTGTCCAGGCATCGTACTCTGATGAACATATTTGATAAGGCTCCTGTTGTTGACAAGGACGTATTTGTAGCTCCAAGTGCATCCATTATTGGGGACGTTCAAGTTGGAAGAGGATCTTCTATTTGGTATGGATGCGTTTTGAGAGGTAAAACCTATGTGAAAAACTCTTTACTGTTACAGTATTTTCTAGTCTTTTTTGTGCACATTTAACCCAATAGGTACATGTTTTGAAATGTTTGGACTCTCTAAAATTTAGTCCATCTTAAACCTTTTCACACTGTTGTATCAACATCACTTTGTAATTTCATACCATCAATGAAATTGTTTCTTAAAAAAAAAAAAAACAAGTATGCATTCTCAATATCCCGATAACATCCTGATATTACCCATGTCAATATTCCTTGCATAACAAGAGGGTCTTTGTGAAAAACTAATATAATGATAGTTGTTATTTGATGTGTTGGGTATTTTTATGGTTTTTTAAAAATAATTTTCTGTTTGTTCTCTTTATTAATTATTTGCAATGCTTTTTCAAAATTTCTCTCCGTATCTATTTACATTTCAACTCTCATCAACTCACTTCTGTTGTGCGCTCTAAGCGCTTTAAATATCTGTAGCCAAGTCTTTTCCTGTTAAAAAATGTCGGGCAGAAGTTTTAACATATTATTACTTGCTTGTGCTTCCTGGCTAGCTCTTGCATTCCCTTTTCACCTTAACCTTTACACTTGATGTTTGGTCAACTCAGGGTCCGTTGGAAGTAAAATTTAGAAATAGTTTTTTTTCTTGGACATAGATAACTTCTTTGGTAGGATAATTTGTAAAAATAGTTTTTAGTTTAAAAAACCAAAAACCAAAAAATTATTATTTTTAAAACCCAAGAGAAGCTTCATTCAATCTCTAATGAAGGGATATTAGAGAGGACCACATAATTCCTTCTGAAAGCTAAACATTCTCCCAATTTTCTATTTTTCCCAATTTCATTTCTTTCAAAGGGTCTTTTTTTGATTCCTTTATTCAAGATGCTGTGTAAGGTCGTGAACATAGTGGATAACTATTAGTCTATTACTATTAGAGACTTCATCTTGTGTTGAAACAATGTAGAGAGTGAAGCCACCTGTTTAATTGGAAAATTACTTGTCTACTGTTATAACATAGTGGTTTGGGAGCGGATAATCTTAAAAAGAGGAGCACTGCTGCTCTTCTCTTAAGATGGCTAAATGGTTGTGGAGATTTTCTGAGGAGAAGAAAGCACTTTGGTACCAGAAAGTAAATTTGGTTTGCCCAAATTGGATGGAAGACATTAGATAACAAAAACAGTAGAACTAGCAGCCCTTGGGTTTGGGAGGATGCTTGGAACTTAAGGATACTTGCTGCTCCTCCTCTTGATAAAAACAAGGGTAGAAACTTTTATCTTGGGTGGATGCTTGCACAACAGGGAACTCCTAATTCAACCTTCCTTCATTTGTTGTATAACTTGGGGGAAAGTAAAGGAAAAGCAGGAAGAGGACTGGTCTGCGATTGTAGATGGGTGGAATCTTAACTTCCAATGGGACCTAAGAGATGGGAAATTTTTTAGTGAACCTCTCTTCGGTAGGGAATCTGGATTTAGTGAATCTTAGAATTGAGGAAGGCAGACTGCAATTATTTCTTCATCTCGTGAAATCCTTATTAGAAAACTGGAGATGTGGAAGGCCCCCCCCCCCAACATCAATAATAGATTGGATTCAGTAGATAGGTTCAAGGAATCACTCATTTAAGCTATCTCTCCTTCTTGGTGTGTCCCATCACTTATGCTACAAACATCTTGAAGACTCCACCATCTGTTTTCCTCCATTTAGAGGCGTGGGTTTAAGTTGGTGTGTTCAGGAAGATTCACCCTCTTCCTTAGGGGGTGTTTGGCTGGTTTTGGAATTCAAGCCCAAAACGGTGTTTGAGCTACTATGTTCAAAACCTATGGTTTTTTAAACACAACCAAATGGTTTTGATCAGTGCAACTCGATGGTTTTCCCTTCCAATACATACTTTTGCTCTATTTTCTCATGGGGCAACAACAAAAATGGTCATATTTAAATGCACGTTTTGAAAAATATGCTATATAATATATTTTTTTTAAAAAAATGGCCAAACTATTTTTTTTCAAATTTTAAAATGAGACAAATACCTCTTAACAAAATTCGTATCCTAGATACTAAAATTATCCTATAATTACAGTCAATCTAAAATTCAATTCAAATTCTTCACAAATCCTTAAATCAAGAAATAGTTGGTCAACAAAAAATCAAAATTACATAATAATTAAAAATCAATCTAAATTGAAAATCACATCACATTTTCCTCCAAAGATTAAAAAAAAAAAAAGCCTATAACAAAATATCTGAGCGAAATATATTATATCCAATTTAAAATTCAAATTTTTTAAACAACCTATAGCTTCTTTGCCACATTGTGGGTTATTTGTCTTGAACGTAATAATAGGATTTTTAGAGATCTTGTGACGAGGTTTGGTAAGTTGTGAGGTTTCATGCGTCTTTGTGGGCTTCGGTTACTAGTCCTTTTTGTAATTATGATCTTGGCCCAACTTACATAGTGAGTCCTACAACTAACAAGAAAATGGCCCAACTTACACAATGGGTCCTACAACTAATAAGAGACCCACTAGAAAATAAGGAAAGGAATAAAAAAGAGAACAGAGTAGCGAAGAGAAAAAATAAAAACAAAAGCTGCACAACCCTGGGTTCAGAACATCGGACTTCAAACACAGCTTTCTGATTTCCAGGCTTTCAAACACTGTTTTCTGATTTCCACATTTTAGAACACTGCACCCCAAATACCGTTTTTTGATTCCTAGGCTTTCAAACTCAAGAACAAACTCCAGGGTTCTAAATTCAAGGTTTTTGATTCTGAAATGGTGGGTCGAATGCTCCCTTAGCTAAGGCTAGAGAGGAAAGAGGCTTTGACTTTGGGATAATGTAGTGAAAGTGGCTCTTTGGATGCTATGGCTAGAGAGGAATGCTCGATTGTTCAAAGGAAACTCTACCAATTTTCCTGAGCTTTATGAGTTAGTGAGATTTAATGGTGCCCTTTGGTGCTGTAAATCAAAGTATTTTCATTTTTATTCTCCTCTCTTGAGACTTGGAAAGGTTTTTTGTAATTTCCTTCAGTTTTTGTAGGTTCGGAGGATGTCTCATTTTCCCTTGTACCTCTGTTTATTTTATTCTATTTATATTTATTATTATTTTTTTAATGAAAAGTAAGTTAATAATAAAAAATTGTCAACTGCTTTAATTTTTTGGTTTTTTATTGGTTTGAAAAACGAACTTTCCAAACTAATTTTTTAGATAAGGGGTTATCCATTTTTTAAGAAGTAAGAACAGAGAATCATTTAAACACAATCTTCATAGAACCTCACAGTCTCGTGTACATGTTTGTTATCATCTCTCATTAAAACATATGCTGAAACATGTTTTAGATAAGAGTTATCCATTTTTAAAGGACGGGAAATCATTTAAACACATTCTTCAAACAACCTCAGTCTCTTGTACGTATTGTTTGTTTTAACTCTCATTAAACGTATGAAATCTCAAACTTAAATTAAAATAGACATTTAATTCATATCTTGTTAGGCTTGTTAGCCCATGCCATTTAATTCATAAAATGATAAGAGTTATCCATTTTTAAAAAATGGAAAATCATTTAAACACAATCTTCAAACAACCTCACAGTGTTGTTCCATAACTTAATTGTCTATTTGACTAGGTGATGTGAACAGCATCAGTGTGGGATCTGGAACCAACATACAGGACAACTCCCTTGTGCATGTGGCGAAATCTAATCTAAGTGGAATGGTTTTGCCAACTATCATTGGCGACAATGTCACCATAGGTGTGTGTACTTTGGCTATGTTATCTTAGTTATAGCCTATAATATATTTGTCTCTGATTCTTTTTGCCTTATTCTGTAAGCAACTGAGCATGCTGAGGTTGCACATGTTAATGTTTTTTAATTTTTCTTACTTAAAGAAAGTTTAAACCTGACAGGTCACAGTGCTGTATTACATGGCTGCACTGTTGAGGATGAGGCTTTTGTTGGGATGGGTGCAACATTGCTTGATGGTGTTGTTGTTGAGAAGAACGCCATGGTAGCTGCTGGAGCTCTTGTTAGGCAAAATACTAAAATCCCCTCTGGAGAGGTACTTACCAATTTTTTTAAATAAAAAAAGGAACAAGAATTTTCCATTAGATTAAAAAAAGAAAGAAAGAAAGAAAGAAAAAGTGAGATATACATCCTAAAGGCCAAGGAAGGAGAGGTCTCCTGCAAAGACGTTACAAAAAACAACCCTAGACGAGGTTGATCAAGAAATGATTAAAATTACAAAGAGTCGTGAAAGGCACTCGAAGTTGAAGTTTTAGGCTGTAAGCTGAACTCGTCTAAAGATTTTTGTTTGTCATCAAACAGTCTAGCATTCCTTTCTAAACAAATGAACCACGAAAGAAGCTCTAATTGTACAATTCCAAAGTAATTTAGCTTTGTTGTGAGATTTTTCATTAGCCACTCTGTGATGTCTACACAAAAAGCCATCCCAAATGTAGGAAGAAGGTGCCGCTCATTCATTGCAAAATCACAGTATAGAACTAGATGATTGCATCGTTTCCTCATCTCTTTTTCTTGGAGCACAAACTTGAGGCAAGATGTAGATATATAAGGATTCCATCATGCGTATTTAAACTCTCGTAAGCCAAGACCAAAGGAAGAAGACCCTGTTTGGGATCTTTACTATTCCAAATAAGTTTAGTGAGAGAAGAGTTCAAATCTAGGCATTTTGAATGATATCAAGGTGAGCTGAATTACACAAAAAGATTGCTCAGTCTGTTGAGCAGGCAAAAAGATTCGATTCATCTGTTCCACAAAGCTATCTTCTCCATTGGGAAAATCTAATTCATACCTCTCTATCAAAAAGATACGGTCTCGAATCCCAATTTTAACTGTTGGAAATTCGTACCTCGTTGGTAAATTCCCTTTAGTATTGAGCATTGAGCAGATATCTGGAAATAATTGGGCAAAGAGGCTTTGAATAATCAATTTATCTGCCCGAAACCTGGTATATTCTTCTTCTTACAAGAACGATTTCTAAGGTTACATAATAATGAACAGCTTAGCTTCGATTCCCCCTGGATATTAATTCTCAATGATCTCCTAGTTGGAACAATCTGTTCTGGACTTGCATTCGAGCATGGGCTTGGGCTAGTCTTCTAGTTCTATGTTAGCATTATGTGATCGTGGGTAGTGAGCCTTACCACAATGTTTATTTGCAGGTATGGGGAGGCAATCCAGCAAAATTCCTCCGAAAGCTCACTGATGAAGAAATAGCTTTCATATCTCAGTCTGCCACCAATTACTTGAACCTTGCACAGGTACACGCAGCTGAAAATGCCAAGTCTTTTGATGAAATTGAGTTTGAGAAGGTGCTCCGCAAGAAGTTTGCTCGCAAGGACGAGGAATATGACTCAATGCTCGGTGTTGTTCGTGAAACGCCCCCCGAACTCGTCCTTCCCGATAACATCTTACCCGATAAAGATCCCAAGCCTTTGCAGAAATAAACCACCCTTCATTCAATCTTGAGTTGTTTTAGCTGAGGAGTATTTTGGCATCACATGCAAAACACACATCAAAAAAAGAGTTTGTGTACTTTCACAATAATATCGATCATCTTCTACCGCAGAATCGTGGCTTCCCATTTTGGCTGTTGGGACTATTCTTCTGACAGCAATTTAGAAATGGTTTTACTGCTCAGGATGAAACTGACTTCATAAAGTAGAATGTAAGTTTGTTCATCTGTATTGAAGATCCATTTTTCTTTTTCTACTTTTTTTTCCCAATCATTTTGCTGATATGTTATTTTGAAGCATTTGATGTTAAAAGACTGTCTGAAAGTGACTCCTACAGTGGTGTGGAAGCTGCTGAGGACTTCTCTCCACTCTGTTTAAGTCCTTTGATTCTTCGGACATTTACATTATAATTGGGAGTCTCAATATTTGGTACAGGTCGAGGCATTAATGAGCTTTTATCAAGCAGATATATATTGCATAATTGCCCTTCATCAGTTTTGTGGGATATTCTACCCTACTGCTGTCTGCTGCAATCCCATTTCTTCCTCGTAGCTCTGCTGCCTTCCTCGTTCCATTTCAGATACAACAAAGAAGAAGCCCAAAAGCTCCCAGTGATTTTGGTAGGCTCTGAACAGCGCGAGATCAGAGAGGAAGAAGAAGAAGAAAACGACGATGGGAACTCTGGGGAAAGCCATCTACACCGTTGGATTTTGGATCCGTGAGACGGGTCAGGCAATCGATCGCCTTGGCTGCCGCCTCCAAGGGAGATACTTCTTCCAAGAACAGCTGTCCAGGCATCGTACTCTGATGAACATATTTGATAAGGCTCCTGTTGTTGACAAGGACGTATTTGTAGCTCCAAGTGCATCCATTATTGGGGACGTTCAAGTTGGAAGAGGATCTTCTATTTGGTATGGATGCGTTTTGAGAGGTGATGTGAACAGCATCAGTGTGGGATCTGGAACCAACATACAGGACAACTCCCTTGTGCATGTGGCGAAATCTAATCTAAGTGGAATGGTTTTGCCAACTATCATTGGCGACAATGTCACCATAGGTCACAGTGCTGTATTACATGGCTGCACTGTTGAGGATGAGGCTTTTGTTGGGATGGGTGCAACATTGCTTGATGGTGTTGTTGTTGAGAAGAACGCCATGGTAGCTGCTGGAGCTCTTGTTAGGCAAAATACTAAAATCCCCTCTGGAGAGGTATGGGGAGGCAATCCAGCAAAATTCCTCCGAAAGCTCACTGATGAAGAAATAGCTTTCATATCTCAGTCTGCCACCAATTACTTGAACCTTGCACAGGTACACGCAGCTGAAAATGCCAAGTCTTTTGATGAAATTGAGTTTGAGAAGGTGCTCCGCAAGAAGTTTGCTCGCAAGGACGAGGAATATGACTCAATGCTCGGTGTTGTTCGTGAAACGCCCCCCGAACTCGTCCTTCCCGATAACATCTTACCCGATAAAGATCCCAAGCCTTTGCAGAAATAAACCACCCTTCATTCAATCTTGAGTTGTTTTAGCTGAGGAGTATTTTGGCATCACATGCAAAACACACATCAAAAAAAGAGTTTGTGTACTTTCACAATAATATCGATCATCTTCTACCGCAGAATCGTGGCTTCCCATTTTGGCTGTTGGGACTATTCTTCTGACAGCAATTTAGAAATGGTTTTACTGCTCAGGATGAAACTGACTTCATAAAGTAGAATGTAAGTTTGTTCATCTGTATTGAAGATCCATTTTTCTTTTTCTACTTTTTTTTCCCAATCATTTTGCTGATATGTTATTTTGAAGCATTTGATGTTAAAAGACTGTCTGAAAGTGACTCCTACAGTGGTGTGGAAGCTGCTGAGGACTTCTCTCCACTCTGTTTAAGTCCTTTGATTCTTCGGACATTTACATTATAATTGGGAGTCTCAATATTTGGTACAGGTCGAGGCATTAATGAGCTTTTATCAAGCAGATATATATTGCATAA ATGGGAACTCTGGGGAAAGCCATCTACACCGTTGGATTTTGGATCCGTGAGACGGGTCAGGCAATCGATCGCCTTGGCTGCCGCCTCCAAGGGAGATACTTCTTCCAAGAACAGCTGTCCAGGCATCGTACTCTGATGAACATATTTGATAAGGCTCCTGTTGTTGACAAGGACGTATTTGTAGCTCCAAGTGCATCCATTATTGGGGACGTTCAAGTTGGAAGAGGATCTTCTATTTGGTATGGATGCGTTTTGAGAGGTGATGTGAACAGCATCAGTGTGGGATCTGGAACCAACATACAGGACAACTCCCTTGTGCATGTGGCGAAATCTAATCTAAGTGGAATGGTTTTGCCAACTATCATTGGCGACAATGTCACCATAGGTCACAGTGCTGTATTACATGGCTGCACTGTTGAGGATGAGGCTTTTGTTGGGATGGGTGCAACATTGCTTGATGGTGTTGTTGTTGAGAAGAACGCCATGGTAGCTGCTGGAGCTCTTGTTAGGCAAAATACTAAAATCCCCTCTGGAGAGGTATGGGGAGGCAATCCAGCAAAATTCCTCCGAAAGCTCACTGATGAAGAAATAGCTTTCATATCTCAGTCTGCCACCAATTACTTGAACCTTGCACAGGTACACGCAGCTGAAAATGCCAAGTCTTTTGATGAAATTGAGTTTGAGAAGGTGCTCCGCAAGAAGTTTGCTCGCAAGGACGAGGAATATGACTCAATGCTCGGTGTTGTTCGTGAAACGCCCCCCGAACTCGTCCTTCCCGATAACATCTTACCCGATAAAGATCCCAAGCCTTTGCAGAAATAA MGTLGKAIYTVGFWIRETGQAIDRLGCRLQGRYFFQEQLSRHRTLMNIFDKAPVVDKDVFVAPSASIIGDVQVGRGSSIWYGCVLRGDVNSISVGSGTNIQDNSLVHVAKSNLSGMVLPTIIGDNVTIGHSAVLHGCTVEDEAFVGMGATLLDGVVVEKNAMVAAGALVRQNTKIPSGEVWGGNPAKFLRKLTDEEIAFISQSATNYLNLAQVHAAENAKSFDEIEFEKVLRKKFARKDEEYDSMLGVVRETPPELVLPDNILPDKDPKPLQK Homology
BLAST of Tan0013856 vs. ExPASy Swiss-Prot
Match: Q9FWR5 (Gamma carbonic anhydrase 1, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=GAMMACA1 PE=1 SV=1) HSP 1 Score: 472.6 bits (1215), Expect = 3.0e-132 Identity = 231/269 (85.87%), Postives = 252/269 (93.68%), Query Frame = 0
BLAST of Tan0013856 vs. ExPASy Swiss-Prot
Match: Q9C6B3 (Gamma carbonic anhydrase 2, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=GAMMACA2 PE=1 SV=1) HSP 1 Score: 452.6 bits (1163), Expect = 3.2e-126 Identity = 214/268 (79.85%), Postives = 251/268 (93.66%), Query Frame = 0
BLAST of Tan0013856 vs. ExPASy Swiss-Prot
Match: Q94AU7 (Gamma carbonic anhydrase 3, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=GAMMACA3 PE=1 SV=1) HSP 1 Score: 394.8 bits (1013), Expect = 7.8e-109 Identity = 196/262 (74.81%), Postives = 223/262 (85.11%), Query Frame = 0
BLAST of Tan0013856 vs. ExPASy Swiss-Prot
Match: Q54JC2 (Uncharacterized protein DDB_G0288155 OS=Dictyostelium discoideum OX=44689 GN=DDB_G0288155 PE=1 SV=1) HSP 1 Score: 190.3 bits (482), Expect = 2.9e-47 Identity = 98/236 (41.53%), Postives = 149/236 (63.14%), Query Frame = 0
BLAST of Tan0013856 vs. ExPASy Swiss-Prot
Match: Q57752 (Uncharacterized protein MJ0304 OS=Methanocaldococcus jannaschii (strain ATCC 43067 / DSM 2661 / JAL-1 / JCM 10045 / NBRC 100440) OX=243232 GN=MJ0304 PE=3 SV=1) HSP 1 Score: 145.6 bits (366), Expect = 8.3e-34 Identity = 72/159 (45.28%), Postives = 106/159 (66.67%), Query Frame = 0
BLAST of Tan0013856 vs. NCBI nr
Match: XP_038886467.1 (gamma carbonic anhydrase 1, mitochondrial [Benincasa hispida]) HSP 1 Score: 532.3 bits (1370), Expect = 2.4e-147 Identity = 267/273 (97.80%), Postives = 272/273 (99.63%), Query Frame = 0
BLAST of Tan0013856 vs. NCBI nr
Match: XP_004152688.1 (gamma carbonic anhydrase 1, mitochondrial [Cucumis sativus] >KGN62616.1 hypothetical protein Csa_022572 [Cucumis sativus]) HSP 1 Score: 531.9 bits (1369), Expect = 3.1e-147 Identity = 265/273 (97.07%), Postives = 271/273 (99.27%), Query Frame = 0
BLAST of Tan0013856 vs. NCBI nr
Match: XP_008444737.1 (PREDICTED: gamma carbonic anhydrase 1, mitochondrial [Cucumis melo] >KAA0065220.1 gamma carbonic anhydrase 1 [Cucumis melo var. makuwa]) HSP 1 Score: 531.6 bits (1368), Expect = 4.1e-147 Identity = 264/273 (96.70%), Postives = 271/273 (99.27%), Query Frame = 0
BLAST of Tan0013856 vs. NCBI nr
Match: XP_022996684.1 (gamma carbonic anhydrase 1, mitochondrial [Cucurbita maxima]) HSP 1 Score: 530.8 bits (1366), Expect = 7.0e-147 Identity = 266/273 (97.44%), Postives = 271/273 (99.27%), Query Frame = 0
BLAST of Tan0013856 vs. NCBI nr
Match: XP_022144249.1 (gamma carbonic anhydrase 1, mitochondrial [Momordica charantia]) HSP 1 Score: 529.6 bits (1363), Expect = 1.6e-146 Identity = 263/273 (96.34%), Postives = 270/273 (98.90%), Query Frame = 0
BLAST of Tan0013856 vs. ExPASy TrEMBL
Match: A0A0A0LRI6 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G361800 PE=4 SV=1) HSP 1 Score: 531.9 bits (1369), Expect = 1.5e-147 Identity = 265/273 (97.07%), Postives = 271/273 (99.27%), Query Frame = 0
BLAST of Tan0013856 vs. ExPASy TrEMBL
Match: A0A5A7VDF2 (Gamma carbonic anhydrase 1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold82G005580 PE=4 SV=1) HSP 1 Score: 531.6 bits (1368), Expect = 2.0e-147 Identity = 264/273 (96.70%), Postives = 271/273 (99.27%), Query Frame = 0
BLAST of Tan0013856 vs. ExPASy TrEMBL
Match: A0A1S3BB31 (gamma carbonic anhydrase 1, mitochondrial OS=Cucumis melo OX=3656 GN=LOC103487985 PE=4 SV=1) HSP 1 Score: 531.6 bits (1368), Expect = 2.0e-147 Identity = 264/273 (96.70%), Postives = 271/273 (99.27%), Query Frame = 0
BLAST of Tan0013856 vs. ExPASy TrEMBL
Match: A0A6J1K9F0 (gamma carbonic anhydrase 1, mitochondrial OS=Cucurbita maxima OX=3661 GN=LOC111491855 PE=4 SV=1) HSP 1 Score: 530.8 bits (1366), Expect = 3.4e-147 Identity = 266/273 (97.44%), Postives = 271/273 (99.27%), Query Frame = 0
BLAST of Tan0013856 vs. ExPASy TrEMBL
Match: A0A6J1CRS2 (gamma carbonic anhydrase 1, mitochondrial OS=Momordica charantia OX=3673 GN=LOC111013980 PE=4 SV=1) HSP 1 Score: 529.6 bits (1363), Expect = 7.5e-147 Identity = 263/273 (96.34%), Postives = 270/273 (98.90%), Query Frame = 0
BLAST of Tan0013856 vs. TAIR 10
Match: AT1G19580.1 (gamma carbonic anhydrase 1 ) HSP 1 Score: 472.6 bits (1215), Expect = 2.1e-133 Identity = 231/269 (85.87%), Postives = 252/269 (93.68%), Query Frame = 0
BLAST of Tan0013856 vs. TAIR 10
Match: AT1G47260.1 (gamma carbonic anhydrase 2 ) HSP 1 Score: 452.6 bits (1163), Expect = 2.3e-127 Identity = 214/268 (79.85%), Postives = 251/268 (93.66%), Query Frame = 0
BLAST of Tan0013856 vs. TAIR 10
Match: AT5G66510.1 (gamma carbonic anhydrase 3 ) HSP 1 Score: 394.8 bits (1013), Expect = 5.6e-110 Identity = 196/262 (74.81%), Postives = 223/262 (85.11%), Query Frame = 0
BLAST of Tan0013856 vs. TAIR 10
Match: AT5G66510.2 (gamma carbonic anhydrase 3 ) HSP 1 Score: 386.3 bits (991), Expect = 2.0e-107 Identity = 196/273 (71.79%), Postives = 223/273 (81.68%), Query Frame = 0
BLAST of Tan0013856 vs. TAIR 10
Match: AT1G19580.2 (gamma carbonic anhydrase 1 ) HSP 1 Score: 325.5 bits (833), Expect = 4.1e-89 Identity = 155/179 (86.59%), Postives = 171/179 (95.53%), 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:
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