Tan0013045 (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.CAAAAGTGCCAAATAGCACCCATTCCAGCCACTTGAAAAACCGAAAATTTCTCGAGCGATTTCATCCCGTTCTTCAAAATTTTCAATCCTCCGAACCAAATTCGATTCCCCAACGCTGTTCAAGAGTGAATTCGTTGGGACACTGTGGATTGTTCTCACCGTTCTTCTCCCCCATGTCTCGCAGATTCTTCGGCACCTCTCTTTCCCGCTCTGCAATTCTCCACACAAAATTCCACAACCCCATTTCCCTTCCCAATTTTCTCAACCCCAATTTCCCCAAATCCAAACCCATTCAACCATTCCCTCTAACCCCAAGACTTTTCTCCTCCATTTCCGAAATGGGTGATGCCCGAAGACCGCTCTTCGCCAGCATTCCGCCGCCCGACAGAGCCGACCGATCGGAATTGCTTCGATCACTCGAGTTTTCGCTCAGTTCTTCGTTTGGCTCGGAGCCATTGTTCCCGAATCCGAGCCCTTTGATTGTCGTCATCAGTGGCCCAAGTGGGGTGGGCAAGGACGCTGTGATTAAACGATTAAGAGAGGTCCGAGAAGGGCTTCATTTCGTCGTCACGGCAACGAGTCGGCCAATGCGACCTGGTGAAATCGATGGAAAAGACTATTATTTCGTCTCTAAGGAAGAGTTTCTCGCCATGATCGAGAGGAACGAGCTTCTGGAATACGCGTTAGTGTATGGGGATTACAAGGGCATTCCCAAAAAGCAAATTCGGGAGTTTATGGGAAAAGGGTATGATATTGTGTTGAGAGTTGACATTCAGGGGGCCGAGACATTGAGGAAGATTCTTGGGAATTCTGCTGTTTTTGTGTTTTTGACGGCGGAGAGTGAGATTAAATTGGTGGAGAGGTTGATTGATAGGAAGACGGAGACGAAAGAGTCATTGTTGGTGAGAGTTTCCACGGCTAGAGAGGAAGTGAAACATGTTAAGAATTTTGATTATGTGGTGGTGAATGCAGAAGGGAAATTGGAGAATGCGGTTAAGCTGGTGGAATCCATTCTTGATGCTGAGAAAGCAAAGGTCTGGCAGAGGAATGCTTCTGTATAGATGGAGATTTGAGGCATCATTTTGCAAGGTAACATTTACTTTAAAGTTCTGTTGTGAGATGGATTTCTTTCTTAGGAAACTAACTACACAGATTAGAAGGAACATAACAAAAAAAGTATAGCTTCTTTAAAATTCTTGCTTCCTTTATGGAAGTGTTTATTACTAAACCTTTGTTTGTCAAGACTGACATCTTCATAATAGTGTGATATTGCCTTGTATGGACTGAAGCTTGCATAGTTTTTACTTTTGGATTCTATCCCAAAACTCAAAAGTCTGGTATCGATGGAGAAGTTGTAGATATTTATGTATCATAGATGGAACTCGCTTCTAGCCGGTTACATCCCAACACTTAGCTGAAGAGCCTTGTTGTATTTGATTTTCAAAGTTCAAGACAACTTTTTATTTCTGAGAGATCCCATCAGGCATCAGCTTTTTGATACCCCTATGATGATTTTCTGTATAAAGTGTAATGGTTTCTCATGATTTCCATATCATGCTTCTGATGAAGAATGTTTAAGGCACTGATTGATAACTATTTGATTTTTGGTTTTTAAAAATTAAAGCTATAAATATTACTTCCACCCCTGATTTTTCTTGTTTTGTTATCTACTCTTTACCTAACACAGGTTCTATTAGTATGTGTTAATGCTAAAGTATGAGAGAATCAGTATGTTCTATTCCATTCACTCAAGATATATATATATACAAGTATACAGGGTTAACCTAAATAGAAGAGCGTAAAAAACAATAAAGGACACCCTTAGAGTTATATTAACAAAATACAATTATACTAATATAAGGACTCTAACACTCCCCTCAAGTTGGAGCATATATATCCATCATGCACAACTTGTTAGAGAGGTAATCAATTCGTGTCTCCGTTCAATGCTTTGGTGAAGATATCTCCTAATTGCTCTCCGTCTTCACATATCCCGTCGATATCAAACCTTGTTGTATCTTCTCACGCACAAAATGACAATCAACTTCAATGTGTTTAGTTCTCTCATGAAAATTGGATTAGATGCTATATATAGAGTCGCTTGATTATCACACCACAATTTGGTGTGGTGTTGTGATATCAAATCCCAATTCAATAAGAAGTTGACGTATCCAAACTAATTCACGCACAGATTGTGCCATTGCTCTATATTCTTACTCAAAGACTTGATCGTGAAACCACATTTTGTTTCTTACTCTTCCAAGAAACCAAATTACCACCAACGAATACACAATATCTCGACGTTGACCTTTCTATCTTCCTTAGATCGCCCAATCAAAGATCTCGAGAAACATTCAATGTTCATATGCCCATAGCTCTTATATAATAAACCACGCCTGTGAGTCGCTTCAAAAATAACACAAAATCTGCTCCATCGCAAGCCCAATGATCAATTGTAGAGAGAAGACATGTAATCGCTCACAATACTCACCGAATAAGCTATATGTCCGGTCGAAAGCATTGTAAGATAATTGAGTTTTCCCACCAACCTCCTATATCGTTCAGGATCTTTCATTAATTCTCCTCTTTTGTGAGTTGTACATTAGGCATCATCGAGGGTACTACATGGCTTAGCCCCTAACTTCCTCTGTTTTACCAACAAGTCAATAACATACTTTCTCTGTGATAGCATGATTCCCTTCTTGCTTCTCATTACCTCAATTCCTAGAAAGTATTTCAACATTCCCAAATCTTTCGTGTGGAATTGACTATGGAGAAAGGTCTTAAGAGATTGGATGCCCAATGTATCATCTCTCCTGTAATCACAATATCGCCAACATACACAACCAACGGGATGACACCACTCTCGCATCAGCTTGTAAAACACAGAATGATCTGATTTGCTCTTTCTCATTCCAAAGCTTTCAATCACCCGAGTGAATTTCCCAAACCATGCTCGTGGACTCGCTTTAATCCATACAAGGATTTACGAAGGCGACATATCTTTCCCTTTCTCCCCGAGCAACAAACCACGGAGGTTGCTCCATATACACCTCTTCCCCAAGATCACCATGAAGAAAGGCATTTTTAATATCAAGTTGATGCAATGGCGTTGATGAATCGATGCTAATGAAATGAATAACTTTGTGAAGTCATTTTAGCAACAGGAGAAAATGTATAAGAATAGTCAATCCCATAAGTTTGTGCATAGCCTTTAGCAACAAGGCGTAGCTTTCAATCGAAAGCAACCGATCCATCCGGATTGACTTTAACCGCAAAAACCCACTTACAACCAATAGATTTCTTTCCTGCGGGAAGAGACACTAAATCCCAAGTACAATTGTCATCTAAGGCGCTCATCTCCTCCACCATTGCAAAGACGCCAACCGAGGATGAGACAAAGCTTCAGAAAGCTTTAGGAGCAGATATAGATTGGAGGGATGCAATGAATGAACAAGTAGAAGATGACAAATGGTTATATGAAACAAAAGAGGAAATAGGATATGTGCATTGACGTTTACCTTTACGAAGTGCAATAGGAAGATCATCGTTTGTTCTCGAATCCAATGACGAAGAAGCCTCCTGCATGGGGCATGCATCCGAAGGAGGTCGTCGTCGAGAATAAACCTGAGTGATAGGTGGGTTAATACAAACGGATGGAGATGGAGAAGAAGCACCCGAAGACTCACAAGAGGAGAAAATTGTATAAACAAGAAAATCATCCTCGTCCTCTCGATGCTCCCCCTGACACGTATTCGAAGATGAAGTAAAGAAAGAAGAATCTTCAAAGAACGTGACATCAGGAGAGACAAAGTAACGATCAAGACTAGGAGAATAGCACCGATACCCTTTTTGGACACGAGAATAACCAAGGAAGACACATTTTAAAGATTTTGGATCTAGTTTGGTGAGAAGAGGCGAACATCTCGAACAAAGCAAGTACAACCAAAGATTTTTTGGGAGAGGGAACGCAAGGAGGTTGGGCACAAAATACGATAAGGTATCTCACCTTTAAGAACCGACGAGGGCATACGATTGATTAAGAAACAAGCCGTCAATATAGCATCAACCCAAAATTGTTTGGGGACATTCATCTGAAACATTAAGGCTCTTGTTGTTTCAAGGAGATGGCGATTCTTTCGTTCGACAACTCCATTTTGAGATGGAGTATCAACACATGAGGATTGATGTAGAATGCCATGTTCACTTAGATAAGAACTAAGAGCATGAGAAAAGTATTCCTTAGCATTATCACTTTGCAGAACTTTAAGAGAACCATGATATTGAGTACGAATTTCAGCATGAAAATTGCGAAAATGAGAAAGTAACTCAGAACGATTCTTCATTAAATATAACCACGTGACACGAGAAAAATCATCGACAAATGTAACAAAGCACCAAACCCTCGCTTAGACTCAACAGACAAGGACCACAAACATCGAATGAACTCATTAGCTCATTTATTGACTCTAGGATACATACTTAGACGATGAAATTTAGCAAAAACCGACATGACTCGCAATCTAACGAAGACAAGTGATTAAATTGAGGACGAAGACTCTTCAAGACGAGAAAAGATGGATGACCCAAACGACAATGTTCTTCAAAAGGAGAGGTCACTATAGAGCATGGAACGCATTGTGGATATGTGTGGTTCAAAAATATAGAGACCTCCCGATTCGTGCCACTTTACCAATAGTCTTCACCGTCACAAAAGATCCAGAAATAAACAATAACCTGTGAAAGAATAAGACACAACAATTTAGATCTCGAGTGAGCTTACTAGCTGAAATCAAGTTAAAGGAGAAGCTGTAAACTTAAAACAGAAGACAAGGAAATTGACTTGGTAAGATTGATGTGGTTCGACCCTAAAACATGAGAGGTGGTCCCATCACTATAGTAACATTAGGTGAAGATTTATACGGATGGATATGAGAGAATAAATTTGGATTACCCGTCATATGATCGAGGCGCGAGTCTATGACCCATTTGGAAGAGGAGGAAAGAAGACACGTAGATGTATTACGTATGCCGTCAAGAATGATGATAATAGGAGTGGAGGATGACGCCTTTAGCGACTCTTGATATCTTGGCGAATCGAGCAAACTCCTCTGCAGAAATCGAGATAGATTTATCGGGATTATCAGTGTAGAGGCAACATCGCGCAGATGGAAACCTCGCCTCTATTCAACAATCGCGTCGCAATCACGCTTCATATGACCGGAGCTTATGGCGGTAGAGTGACAAACAATATCACCCGAAGAGTTTGCTCGAGTGTTCGAATTACCTTTATATGCGTTGGGTCCAACCTCTGTTTCCTTTGTACTCACCGTCTGTCCAACCAAGGCTTTGTTTTGCGACTCTGGTGGCAAGGTTACTGCGACTTCTCTCGATCTGAAGTATGCGAGTATAAGCATCTTCTAATGAGGAGATGTTAGAGCTAGATAGAACTTGATCTTTTGCCATATCATATTTAGAAGCGAGACCAACTAAAAACTCATGATGAACAGCTTGTTCACGTTGTGCGATTTGAACTTTCACATCATTACTAATAGGCAACAAGGCATTAAACTCTGCATATGATGTTTTGCACTCCATAAAGTAACTAGTCAGAGATTTCTCACCTTGATCAGGTTGAAAGAGAGTTTTGCATACATCAAACACTCTACTAATATTCCCTTTTCCAGAGTAAAGGAATTCCAAATATTCCAAGAGCTCGTGAACAGATTCACAATGATTAACCAACCCTACGATGTTGCTCTCAATAGAGTTCTTTATTTGTAGAATAAGCCTAGAATCATCAGCAGAACCAATTTTTTCTAGTATCATCAGTCGGTGGTGAATTTCCAGTGACATGATCATCCATATCGAGACTCCGAATGTAGTGACGAATGTTTGTCCGCCATGCATAAAAATTAGACCCATTAAGCTTATGTTCTGTAATCTTTGACACCATAGGGATCATCTCCGTCATCACCATACCTTTCTTGTCACCATAATTAAAGAAAAGAAAAAGGACCACAAAAAAGCAGATTGAAAGGCCCAAAAGCAATTGTACCAAAAACCCTAGATTGCCAAAAGGGGTGCGACCCTAAACCGAGAGGGATATGACCCCAACAAGCACACCACTAGAAAAAGAGTATGCAAAAGCGAAGCCAAAAAAAAAAAAAAAAAAAATTTCGTGGCGGTTTCGGTGGCGTTTTCGGTGCTTAGCGGCATGCAATTTCCAGGGCGGCGGCGACGGTGGTTTCAGCGACAACAGCAGCGGATTTCATGGTGAAGAGTTTCGATAGTAGTGGCAGCAAGCAAACCTCACACACAAAGGACTTAAACCTTCAAATCTCAAACCCTAATTAGTTCCAAATCCCTAAGGACACAACAAAAACAAAGAACCCTAATTGCCCTAGAAAACCCTGAAGGCTCGATACCATGTTAATGCTAAAGTATGAGAGAATCAGTATGTTCTATTCCATTCACTCAAGATATATATATACAAGTATCTGCTGTGGTTAACCTAAATAGAAGAGCGTAAAAAAACAATAAAGGACACCCTTAGAGTTATATTAACAAAATACAATTATACTAATATAAGGACTCTATTAGTATGGAAAAAGTGGGACGGTTTATCTTACTTTTTGATATAAGAAAGTTTGAAAATCAATACCGAAACCGACATTCTAGATAACCAAGCCCAACAGAATAGACTATACCAGCCACTAAACTACTTTTTGTTTTTGAATTTCATGAATTTGAACCAACTAACATGTGTTGCCCAAATCGACTGAACTAAGCTAGATTCATTCAGTTTCTTCAGTTTCAGCTTGCAGTCCTACTCTTGGCTCTAATGCTATGCTATTATGTTCATCAGAAAACTCAAGCTAATCTACTATAATCTCAACTGTCTTTTAAAACCGAGGACCAACAACCTTACTTGAACAGATCTGTTCTATATGTTGTACAATTGTGTCCTTGAGTTCTTAAAAAAAAAAAAACAAAGAGCATGGTACTTTATATCACTTTATATTACAAGCAACAGTGCATAGGAGAGACAGTCCCGTGAACCCGGGCACGGATGCCCTCCAGCTCTCATGAAATGGAGGGGCACTGGCATTCAAACCTCATAACTGGACTGAGACCCTTTTAGGTACCATTTTGCATATGCTATGACTTACAGTTATTATCATCTCCTGCAGGTGTGATTATCAACACTTGAAGAGGCCAAAGGCTGATTTCATTCAGCTACAACTGCATACGTCGACTCTTGCTCGTTACCGAAATTCAATTTTTTTTTTTCATTCTAATACCCAAATGGTAGGTTGAACTCAAACATTTATGAAGTTCACATTTGTGTTGGCAGTTGAACAATAACCTCAGGTAACATAGAAAGGACTGACTGCTCCAGGAAGGTGTATATTATCAGTTTACCATGGTAATGCTGATGAACTTTGAAATTTTATGTCCAACATGGTTGTTATTGTTACTATCCTAAGTGAAATGTCAACAAAGTTCTACTTTCTGAGGCTTCTACACTGTATACCTCTTTAATTTTGGGTGAAGGAAAGCTGCATGTCTTACAAACTTTAGAAACTTCTGGTCAAATGAAAGGAGAAAAATCTTCTGAAAGCTGTTGTATTTTGGACTTATTTCACTGGTTAGAAGTTTCTCCATGCTGATGAGGATTTTTTTTTTTTTTTTTTTTTATTCAAGTTCAATAATTTGCTCATTACCAAGTGGATATGTATTTTT CAAAAGTGCCAAATAGCACCCATTCCAGCCACTTGAAAAACCGAAAATTTCTCGAGCGATTTCATCCCGTTCTTCAAAATTTTCAATCCTCCGAACCAAATTCGATTCCCCAACGCTGTTCAAGAGTGAATTCGTTGGGACACTGTGGATTGTTCTCACCGTTCTTCTCCCCCATGTCTCGCAGATTCTTCGGCACCTCTCTTTCCCGCTCTGCAATTCTCCACACAAAATTCCACAACCCCATTTCCCTTCCCAATTTTCTCAACCCCAATTTCCCCAAATCCAAACCCATTCAACCATTCCCTCTAACCCCAAGACTTTTCTCCTCCATTTCCGAAATGGGTGATGCCCGAAGACCGCTCTTCGCCAGCATTCCGCCGCCCGACAGAGCCGACCGATCGGAATTGCTTCGATCACTCGAGTTTTCGCTCAGTTCTTCGTTTGGCTCGGAGCCATTGTTCCCGAATCCGAGCCCTTTGATTGTCGTCATCAGTGGCCCAAGTGGGGTGGGCAAGGACGCTGTGATTAAACGATTAAGAGAGGTCCGAGAAGGGCTTCATTTCGTCGTCACGGCAACGAGTCGGCCAATGCGACCTGGTGAAATCGATGGAAAAGACTATTATTTCGTCTCTAAGGAAGAGTTTCTCGCCATGATCGAGAGGAACGAGCTTCTGGAATACGCGTTAGTGTATGGGGATTACAAGGGCATTCCCAAAAAGCAAATTCGGGAGTTTATGGGAAAAGGGTATGATATTGTGTTGAGAGTTGACATTCAGGGGGCCGAGACATTGAGGAAGATTCTTGGGAATTCTGCTGTTTTTGTGTTTTTGACGGCGGAGAGTGAGATTAAATTGGTGGAGAGGTTGATTGATAGGAAGACGGAGACGAAAGAGTCATTGTTGGTGAGAGTTTCCACGGCTAGAGAGGAAGTGAAACATGTTAAGAATTTTGATTATGTGGTGGTGAATGCAGAAGGGAAATTGGAGAATGCGGTTAAGCTGGTGGAATCCATTCTTGATGCTGAGAAAGCAAAGGTCTGGCAGAGGAATGCTTCTGTATAGATGGAGATTTGAGGCATCATTTTGCAAGGTGTGATTATCAACACTTGAAGAGGCCAAAGGCTGATTTCATTCAGCTACAACTGCATACGTCGACTCTTGCTCGTTACCGAAATTCAATTTTTTTTTTTCATTCTAATACCCAAATGGTAGGTTGAACTCAAACATTTATGAAGTTCACATTTGTGTTGGCAGTTGAACAATAACCTCAGGTAACATAGAAAGGACTGACTGCTCCAGGAAGGTGTATATTATCAGTTTACCATGGTAATGCTGATGAACTTTGAAATTTTATGTCCAACATGGTTGTTATTGTTACTATCCTAAGTGAAATGTCAACAAAGTTCTACTTTCTGAGGCTTCTACACTGTATACCTCTTTAATTTTGGGTGAAGGAAAGCTGCATGTCTTACAAACTTTAGAAACTTCTGGTCAAATGAAAGGAGAAAAATCTTCTGAAAGCTGTTGTATTTTGGACTTATTTCACTGGTTAGAAGTTTCTCCATGCTGATGAGGATTTTTTTTTTTTTTTTTTTTTATTCAAGTTCAATAATTTGCTCATTACCAAGTGGATATGTATTTTT ATGTCTCGCAGATTCTTCGGCACCTCTCTTTCCCGCTCTGCAATTCTCCACACAAAATTCCACAACCCCATTTCCCTTCCCAATTTTCTCAACCCCAATTTCCCCAAATCCAAACCCATTCAACCATTCCCTCTAACCCCAAGACTTTTCTCCTCCATTTCCGAAATGGGTGATGCCCGAAGACCGCTCTTCGCCAGCATTCCGCCGCCCGACAGAGCCGACCGATCGGAATTGCTTCGATCACTCGAGTTTTCGCTCAGTTCTTCGTTTGGCTCGGAGCCATTGTTCCCGAATCCGAGCCCTTTGATTGTCGTCATCAGTGGCCCAAGTGGGGTGGGCAAGGACGCTGTGATTAAACGATTAAGAGAGGTCCGAGAAGGGCTTCATTTCGTCGTCACGGCAACGAGTCGGCCAATGCGACCTGGTGAAATCGATGGAAAAGACTATTATTTCGTCTCTAAGGAAGAGTTTCTCGCCATGATCGAGAGGAACGAGCTTCTGGAATACGCGTTAGTGTATGGGGATTACAAGGGCATTCCCAAAAAGCAAATTCGGGAGTTTATGGGAAAAGGGTATGATATTGTGTTGAGAGTTGACATTCAGGGGGCCGAGACATTGAGGAAGATTCTTGGGAATTCTGCTGTTTTTGTGTTTTTGACGGCGGAGAGTGAGATTAAATTGGTGGAGAGGTTGATTGATAGGAAGACGGAGACGAAAGAGTCATTGTTGGTGAGAGTTTCCACGGCTAGAGAGGAAGTGAAACATGTTAAGAATTTTGATTATGTGGTGGTGAATGCAGAAGGGAAATTGGAGAATGCGGTTAAGCTGGTGGAATCCATTCTTGATGCTGAGAAAGCAAAGGTCTGGCAGAGGAATGCTTCTGTATAG MSRRFFGTSLSRSAILHTKFHNPISLPNFLNPNFPKSKPIQPFPLTPRLFSSISEMGDARRPLFASIPPPDRADRSELLRSLEFSLSSSFGSEPLFPNPSPLIVVISGPSGVGKDAVIKRLREVREGLHFVVTATSRPMRPGEIDGKDYYFVSKEEFLAMIERNELLEYALVYGDYKGIPKKQIREFMGKGYDIVLRVDIQGAETLRKILGNSAVFVFLTAESEIKLVERLIDRKTETKESLLVRVSTAREEVKHVKNFDYVVVNAEGKLENAVKLVESILDAEKAKVWQRNASV Homology
BLAST of Tan0013045 vs. ExPASy Swiss-Prot
Match: Q94JM2 (Guanylate kinase 3, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=GK3 PE=2 SV=1) HSP 1 Score: 342.0 bits (876), Expect = 6.5e-93 Identity = 182/284 (64.08%), Postives = 222/284 (78.17%), Query Frame = 0
BLAST of Tan0013045 vs. ExPASy Swiss-Prot
Match: Q10M74 (Guanylate kinase 2, chloroplastic/mitochondrial OS=Oryza sativa subsp. japonica OX=39947 GN=V2 PE=1 SV=1) HSP 1 Score: 339.3 bits (869), Expect = 4.2e-92 Identity = 188/293 (64.16%), Postives = 222/293 (75.77%), Query Frame = 0
BLAST of Tan0013045 vs. ExPASy Swiss-Prot
Match: Q3ZWD8 (Guanylate kinase OS=Dehalococcoides mccartyi (strain CBDB1) OX=255470 GN=gmk PE=3 SV=1) HSP 1 Score: 177.2 bits (448), Expect = 2.8e-43 Identity = 89/191 (46.60%), Postives = 137/191 (71.73%), Query Frame = 0
BLAST of Tan0013045 vs. ExPASy Swiss-Prot
Match: Q3ZAF9 (Guanylate kinase OS=Dehalococcoides mccartyi (strain ATCC BAA-2266 / KCTC 15142 / 195) OX=243164 GN=gmk PE=3 SV=1) HSP 1 Score: 174.1 bits (440), Expect = 2.3e-42 Identity = 89/192 (46.35%), Postives = 136/192 (70.83%), Query Frame = 0
BLAST of Tan0013045 vs. ExPASy Swiss-Prot
Match: Q895Q5 (Guanylate kinase OS=Clostridium tetani (strain Massachusetts / E88) OX=212717 GN=gmk PE=3 SV=1) HSP 1 Score: 156.0 bits (393), Expect = 6.6e-37 Identity = 84/187 (44.92%), Postives = 122/187 (65.24%), Query Frame = 0
BLAST of Tan0013045 vs. NCBI nr
Match: XP_023526078.1 (guanylate kinase 3, chloroplastic [Cucurbita pepo subsp. pepo]) HSP 1 Score: 501.9 bits (1291), Expect = 3.8e-138 Identity = 257/295 (87.12%), Postives = 275/295 (93.22%), Query Frame = 0
BLAST of Tan0013045 vs. NCBI nr
Match: XP_022138263.1 (guanylate kinase 3, chloroplastic [Momordica charantia] >XP_022138264.1 guanylate kinase 3, chloroplastic [Momordica charantia]) HSP 1 Score: 501.1 bits (1289), Expect = 6.4e-138 Identity = 257/297 (86.53%), Postives = 278/297 (93.60%), Query Frame = 0
BLAST of Tan0013045 vs. NCBI nr
Match: XP_022979262.1 (guanylate kinase 3, chloroplastic [Cucurbita maxima]) HSP 1 Score: 499.2 bits (1284), Expect = 2.4e-137 Identity = 257/295 (87.12%), Postives = 274/295 (92.88%), Query Frame = 0
BLAST of Tan0013045 vs. NCBI nr
Match: XP_031739306.1 (guanylate kinase 3, chloroplastic [Cucumis sativus] >XP_031739307.1 guanylate kinase 3, chloroplastic [Cucumis sativus] >KAE8650366.1 hypothetical protein Csa_009762 [Cucumis sativus]) HSP 1 Score: 499.2 bits (1284), Expect = 2.4e-137 Identity = 255/295 (86.44%), Postives = 274/295 (92.88%), Query Frame = 0
BLAST of Tan0013045 vs. NCBI nr
Match: XP_008438733.1 (PREDICTED: guanylate kinase 3, chloroplastic-like [Cucumis melo] >XP_008438734.1 PREDICTED: guanylate kinase 3, chloroplastic-like [Cucumis melo] >XP_016899071.1 PREDICTED: guanylate kinase 3, chloroplastic-like [Cucumis melo]) HSP 1 Score: 498.8 bits (1283), Expect = 3.2e-137 Identity = 254/295 (86.10%), Postives = 274/295 (92.88%), Query Frame = 0
BLAST of Tan0013045 vs. ExPASy TrEMBL
Match: A0A6J1C9N3 (Guanylate kinase OS=Momordica charantia OX=3673 GN=LOC111009480 PE=3 SV=1) HSP 1 Score: 501.1 bits (1289), Expect = 3.1e-138 Identity = 257/297 (86.53%), Postives = 278/297 (93.60%), Query Frame = 0
BLAST of Tan0013045 vs. ExPASy TrEMBL
Match: A0A6J1INA9 (Guanylate kinase OS=Cucurbita maxima OX=3661 GN=LOC111479039 PE=3 SV=1) HSP 1 Score: 499.2 bits (1284), Expect = 1.2e-137 Identity = 257/295 (87.12%), Postives = 274/295 (92.88%), Query Frame = 0
BLAST of Tan0013045 vs. ExPASy TrEMBL
Match: A0A1S3AWS3 (Guanylate kinase OS=Cucumis melo OX=3656 GN=LOC103483755 PE=3 SV=1) HSP 1 Score: 498.8 bits (1283), Expect = 1.5e-137 Identity = 254/295 (86.10%), Postives = 274/295 (92.88%), Query Frame = 0
BLAST of Tan0013045 vs. ExPASy TrEMBL
Match: A0A6J1GV20 (Guanylate kinase OS=Cucurbita moschata OX=3662 GN=LOC111457439 PE=3 SV=1) HSP 1 Score: 495.7 bits (1275), Expect = 1.3e-136 Identity = 256/295 (86.78%), Postives = 272/295 (92.20%), Query Frame = 0
BLAST of Tan0013045 vs. ExPASy TrEMBL
Match: A0A6J1I8F5 (Guanylate kinase OS=Cucurbita maxima OX=3661 GN=LOC111472329 PE=3 SV=1) HSP 1 Score: 493.0 bits (1268), Expect = 8.4e-136 Identity = 254/295 (86.10%), Postives = 269/295 (91.19%), Query Frame = 0
BLAST of Tan0013045 vs. TAIR 10
Match: AT3G06200.1 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 342.0 bits (876), Expect = 4.6e-94 Identity = 182/284 (64.08%), Postives = 222/284 (78.17%), Query Frame = 0
BLAST of Tan0013045 vs. TAIR 10
Match: AT2G41880.1 (guanylate kinase 1 ) HSP 1 Score: 86.7 bits (213), Expect = 3.5e-17 Identity = 58/180 (32.22%), Postives = 96/180 (53.33%), Query Frame = 0
BLAST of Tan0013045 vs. TAIR 10
Match: AT3G57550.1 (guanylate kinase ) HSP 1 Score: 82.4 bits (202), Expect = 6.6e-16 Identity = 60/182 (32.97%), Postives = 96/182 (52.75%), Query Frame = 0
BLAST of Tan0013045 vs. TAIR 10
Match: AT3G57550.2 (guanylate kinase ) HSP 1 Score: 82.4 bits (202), Expect = 6.6e-16 Identity = 60/182 (32.97%), Postives = 96/182 (52.75%), 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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