Bhi11G000698 (gene) Wax gourd
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.ATTTCTAAAAGCTGAATGTTGATATAAGCAAAGGCCAAAGGTGGGTCAGACCTCATATGGCTTCTAACTGAACGGAGTATAACTTGTTAAACCCTAAATCCTTAGCCCTTGCTTTTCGTCATCAGTCTCTCAGTTCCTTCTGCACTGCACCGGTCGCTCCTTCCATTCGCCGACCTCAGGCCGTCCACTGCCACGCCACTCGTAGTCCGTCTCTCCCTGCCACGTCGGTCGTATCGACGCCTTGCCACTGTTCTTCTCACAGCCGGCCGACCTCGAAGTCCCGTGTCTGTGTTCCTCTCCAAACATAGGCCACCCATCATCATCCTCCCTCCGATCCAGAATTGCAAACCAGACATATAAGTGTGGCCAAAATTGCAAATATTTTCCGTTGTGCCCAAAACAATCAGAAAATCGTACTGACTTAATTGAGTTCGTCCGAGTCAACGACCGAGTTTAGTAACGTCGCCTCGGACATCTGGAGAATAGGAAATCAGTTACAGTTTGAAGAATCGAGCCAAAGAAAGGGCTTCACCCCCTTGTTTTTGGTTAGTTCTACTTTCTCTCTTTAACTTCTTCATACCCATTTTCTATTTTGATTGAATGATATTCATCCCAGCAGTTGAGAATCTTTCAGTGAAATTCTTTCTTTTTTGCCGTAGTTTATGAGGTTTTGCGTTTTGATTATCATACAAATTTGAAAATTCATGTACTACATTTTTAGGAACTTTTGGGAAATTTTGTATGGATGACCATCCTTAGAGGGCCCAAATGAAAATTGACTCACTATTTAAAAATATAAGAATTTTGGTCTTCTGCTTGTACATTACCGTGTGAAATCATTGTTTCGATCCCAAGAACAATGCTCGATTGCTCGATTCGCCCTAAGCTTGGAGTCGCTGGCCTATTCGAATGATACTAACTTCTCGCTACTTGCACCTCACTCTTCATTTTTGACTCCACTTTCCATTTTTTTTTTTTTAATTTACTGGTGATTAATGCTAGTTGTACGAATATACACTCTAATGGAAAATTACTGTCAGTCCTGCAATCCTTTCAAATCAATTTAAAGGAAAGTGATTTGCATGTTATATTTCCCTTAACACAAAGAGCACAAACACTCGAAATTGTTTACACATAAACACCTCACGTTACTTCAAAAGAACCCATAACCAGGCATCTTCAAAAGTATAGAAAAATAAACATTGTAACGTTCTAAAGGTTTTTCAATTATCATAGACAATCATTTTCAAACATCACATAAGTAAAGGTATATCTACTTACGGTTTGTTTTTTATTTTTATTTTTTATTATTATTTTGAGGTTGTTTGAGACGGTATCATGTAACCAAGATAAAACAAGCGAGTGTCATAATGATCAAAGAGGGTGTATTATGATCACGAGCAAGGAACGAGTAGTTCGTAGTGGCACGTGAGGGTAGTGCAAATTTGGGGAGAGAAGTGAAAAGAGAGAATAAAGGTTCTACAACTGTGTCCTTGAGTTATAAGAACAAGTAATGAGAAGCAAGAGGAGGAACGAGAGCGAAGACCAAGAGTTATCAAAATTGTTTATTTTAATTGATTCTTTTTTATATTCTTTTTTGAAGGATGGACAAAAGGCCTCAATTGATTCGATATGGTGGTTCATGGGATGACAAAGAACAATGCTATAATGGAGGTCATTTGAAGGGTATCTTAGTGTTGAGCGCACTATAGTATAGTGAATTGAGAGATCGCGCATATGAACTTATAAAAGTTAGTTCATCAGAGTACAACATTATAATGAGAGTGAAATATAAGTTGGATTGTGAATCTCCTCCAGTATACTTAATGGGGAATGACGATGTTCGATTTCTCATTTCAAAGATGGATCATTTTAGACCTTAGATATTCATAAGTGTTGAATAAATCCAACAAGAGACAACCTTTAAAAACATAGAGAGAGAACACCAACCTATGTGTGGAGAGGAGGATGTTGTTTCTTCTAGTGATATTAATGAACCAGATATTTTTTTTTCCATCAGTGGTTTGAATGGAAAATTACAACAACCTATGGGAGTTGTATACTACCCAACATAACACTGGTCGAAAAAGGGGTCGTAATGATGAATAAGACTAGAGAGAACAATTATAATGTGACCATGGAAGATGTTGGGAACGAGACCAATTTTGAAAACGTAGACGATGTGACCATGGATGGATTTGAAACTGTTGAGACTACAACAAATTTGTCGCATCAGACTCCAATTGGACGAGGGAGTGGGCCTTCTCTTGGAAATGTATCATAGTAGACTCCGAATGCAATAGTCTGATCCTTTTATTGGAAATGTTCCTATTAAGACTCCGATTCTAGCAAGGTTCGATGAAGTTGGGCCATCGGTGAGTACTATTAGAAGTGGAGACTTGATCTTGAATCTACAATCTTCTTCAGGGGTGAATATTAAGGTAGGCTAATTTTTCTTGTGCAAGAATGACCTGAAGATGAGGTTGTCAATGTTGAATATTAAGAAGAATTTTGATATGCGAGTTAATAAATCAAATAAAAATCTATACATTGTGCGATGTATCCATGAGAATTGTAAGTGGGCAATTTGTGCAGTAAGAATGGAGGGTCGTGACATTTTCAAGATCACAATGTATACGACTGTGCATAAATGCTCAATTGAGGTTTTGAATCACGACCACAGGCAAGCTAGTGTTTTCTTAATTAGAGAGTTAATTAAGAACAAGTATGAAGTTGGTCGTGCACACAAACCATGACATATTATTAAGGATATATGACAAGAGTATGGTGTAAATATCAACTATGACAAGACATGGCATGCAAAGGAAATTGCATACACTACTGTGAGGGGGACTCTCGAAGACTCGTATGTCGTGTTGTATGTTTATGGAGAAGCTTTGAAGATAAAAAATCCTAGACCATATTTGAGATTGAACTTGAATAAGCTCAATACTTCAATAATATGTTTATGGCACTAGGATCCTTGCATAAGAGGTTTTAGAAGTTGCCATCCTGTGGTAATTGTTGAAGACACTCATTTAAATAGTAAATATAAAGGCACGATGTTAGTCGGAGTTGTTATGGATGGTAATAATCAGTTGTACCCATTTACATATGCAATTGTTGACAAGGAGACTGATCGATCATGGAGATTTTCCTAACTTAGTATTCGTTTTAGATCGACACGTAACTATTATCAATGCAATTGAAGCTGTATTCCTCATAACATTATATGAACTTTGTACTTATCACGTAAAAAATAATGTCATATCGAACTTCAAGGATAGTGTGGCGACTCTTTTGTTTAATAATGCGGCCAGAGTTTTCCAAGAGTTAGACTTCAAAGGTATTGGAACCAACTTTTGAACTTTAAAAACGGGAGCCTTGCAAGGTATTTGCAAGAAGTTAGGGTCGAACGATGGGCATGATGTTGTGAGAAGGGAAATTGATACGATAACATGACTAGCAACAGTGTTGAGTACTTCGAGCTTTGATCAAAGAAGCAAGACTGTTGCCATTAACCTTATTGCTTGAATTCATTGGAGGTTTTATCCATGAGTGGTTCTACAAGTGGTGAAACCTTTGGTCATCTAGTACATAAACACACTCAAACTACGTAGAGAAAATTATGACAATTGAGTGTGATAGACTTTACCAAGTTCACCCAATTGATTGTTATAGGTTTCATGTGAAGGATGGTGCTTGACGATATTGTCATCCTCAACACGCATGAATGCAGTTGTAGAGAGTTTGAAACTTTAGAGATTTTGTGTTCACATGCTATTGTTGCAGCTAGAGAGTGGAACATCAACCCTTCACCTCTTGTAGCAGATTTTATAGTGTCGAGTCTCTTATTCACACATTCTCTTTGCTATCTTGCTACTTGATTCTATCTATTAGATCTTGGTACTTTCTAAACCCTCTCAGAACTTCATCCTGGTGATCAGTTCTCTTTGCTCGCTTGAACCTTATTTTGCTATTCAGGTTGGAAATGAAAATCTAAACCTTAAAACCATAAACCCAACGAGAGAGCACATGCACCCGAAACGAAAAACAAAAAACAAAAATGAAAATGATAGAAATAAGTGTTATTGTTCGAGGGAAAGAGGAGAGAATCAATGGTGGAGTTCGCTAGTACTGGTTAAAGATCGAGAATGATAAAGATGGTAAAAATTGCAGTTGGATGATTCATGTTGTTTGAGAAAATTTGGGAGCTGTTTGATGGATGGGAGAGCGAGAGAAAGTAGTAAGAGACGAGAGAGGACATGCACCTAAAATATATGAAGCTTTTTCAATCTAATGTTTAAAATTCATTAAAGCAGTAAAGTGTTAGGAGTGTGAGAATCGAGGATCAAGAACACAAGCGAGGAGTGAGTAACGAAAATGTGATTGTGTCAACTAATATCGTTAATAATTGGGATCGAGGGCGCTAGCAAGTAACGAGATTAGGTAGTGAGAAGAATGTTGAGGACCAAACACATGTGGTTCTTGGGGTCGAAATGGTAACTTTACACGGTGATGATGCAAGCAAAATGACAAAATTCTTATATTTTTTAAATGGCTAATCTTCATTTGGGCCCCTGAAAAGGGGCCATTTGTACAAAATTCCCAAAATTTTATATTTTGTCCAATAAAACTCATAGCAGGTTATTGTTATGTCTATCGTTTTCATGTTTTTCAGAATTTATTTATTTATTTATTTTCCAGTTTTCTATAGGGCCCCTTGAATTGATTGGGAAATGAAGAACATGATAGCTCTGGGTTTTGAGGGTTCAGCAAACAAGATTGGTGTTGGGGTTGTAACTTTAGATGGCAACATTTTGTCAAACCCACGTCATACCTACATTACACCTCCTGGCCATGGCTTCCTTCCTCGTGAAACTGCACATCACCATCTCCACCACATTCTTCCATTGGTTAAGTCTGCTCTGGAAACTGCAAAAATTACCCCCAAAGATATTGACTGCCTCTGTTACACCAAAGGGCCTGGCATGGGAGCTCCTCTACAAGTTTCTGCTGTTGCTGTGAGGGTTCTTTCTCAGATATGGAATAAGCCTATTGTCGCTGTTAATCACTGTGTTGCACATATTGAGATGGGAAGGGTTGTAACTGGTGCAGATGATCCTGTTGTCTTGTATGTTAGTGGTGGGAATACTCAGGTGATTGCTTATAGTGAAGGAAGGTATAGAATCTTTGGGGAGACTATTGACATTGCTGTTGGAAATTGCTTGGACCGGTTTGCAAGAGTCCTAACATTATCCAATGATCCAAGTCCTGGATACAATATTGAACAGGTGTGTTATAGAAAATTGATAATATAGATTTTTTGTTAATCCATTATTCCTTTCATCAGATTATTGCGAATGAAAGACGTGCAACCTTAATAGCTCAAGCTGAGCCTGAATGGAAAAAAAAAACTTAAAGATAGGTCTTATTTCAAGGCTTCAAATTAAACGTTTGAAATATCATAAACTAAATATGCTCTTTGATTCCTTTTAGAAGGGAAATGTTGCTTCCTTTTTTGTAAATTTGCTCGTATAACTTTGGTTTGTTTTCTATTTGTATATGATACGTGATATGTAAAGAAGAAATTTACAATGGAATGTCAAAATATTTAAGGGGAGAGTATTATGAGAGAAAATGCTCCCTGTTTCCATTTATTAGTTCAGAAATGGAAAAAGAGAAATGCCAACTTATTTGTGTTTGTGTGACTTCAGTTACTAGATCCTTTTAGAATCCTATATAATAGAGCTTCGAGTAGTCAGCAGTAATCTCGTAATTGTAGGAGGATGTTTGTGTAAGACCCCTAGTTGTGGAAATAGTAGGATTATTAGTAAATATTAGAATGGTAATCAGAAGGGGCATATTAGTAATTAGATAGTAAGTTTGTTAGGGCTTTTAGTTATGAATAGAGGTAGTGAGTTGAGAGGAAAGGTGTGATTTATTTTGTGGTGATTTCTTTGTTGGGAATTTGTGGAGGATTCTCAGCTCTCTAGAATTTGTTGAGGTATATTGTGGTTTCTTCATTGATACTGCAATATAAATCTCTCTTTTAGTATTCTTTATTTGTCCTTTGTGTGAGTGTCTTGTTAGGAGGGTATCCTAACAGTTTGAATTGAACATATGTAATTCCTCTTTTATCATTAAAGTTGATGAATATATAAGAAGGGTTCATTCATGCATCTACTTTTCATTTAACAAGATGTTTTTTACACTTTTTAATGTATTAAAACATGGTTTCATTGGTTTAAGATCTCAAGTGAAGGACGCCAATATCTTCAGGTTTACCTATTTGCTAGTTTAATATTCCAAATGGCTCAAGGTTTTCAACAATTTGTATGATGATTTAAATACGGTTGTTATCTTATAAATTGATTCTTGTTCTTTACTAATCATGATTTAATTTATTCAAAATGTGTTTTAGCTTGAAACCTTTTTTTTTCCTTCTTTCCTGAATCCCAACAAAGTGCTTGAGCTTAAATAATGTGTAAGAAAGTGCTTTCTTTGACTAATTCTATTGATTTTTCTTTGTCCACAGCTTGCAAAGAAAGGAAAACTTTTTATTGAACTTCCATATGTTGTCAAAGGGATGGATGTATCATTCAGTGGCATATTGAGCTATATCGAAGCAACTGCTGAGGAGAAGTTAAAAAGTAATGAGTGTACTCCTGCTGATTTGTGCTACTCTCTGCAGGTAATCTTTGTTTACTATGATAAAAGCGGTTTTTGTCTCCATTTCTGAGATGGACTGGAAACCTTGGACCATTCTGTAACCAAGCTGTGTTTCTGAATTGGGCTGTGCTCTTTTATAGATGGTCTCAAACTTTGAGCCAACTTGTAAAACTGCTGTGTTCACTCATTCTTCTGTAAAATGACTTGCAATTGTTATTCGATTGACTTAACTTGCTGTTCTGTGTTGCAGGAAACATTGTTTGCTATGCTTGTGGAAATCACGGAAAGAGCCATGGCTCACTGTGACAAGAAAGATGTTCTTATAGTCGGTGGTGTAGGTTGTAATGAGCGTTTGCAAGAGATGATGAGAATAATGTGCTCTGAGCGAGGTGGAAGGTTATTTGCAACTGATGACCGTTATTGTATCGATAATGGGGCAATGATCGCATATACTGGTCTTCTTGCTTGGGCACACGGTGTTTCTACACCATTGGAGGAAGCAACGTTCACCCAACGGTTTCGAACTGATGAAGTACACGCAATCTGGAGAGAGAGAGGATCTGACTAATGGAAAAGAGCTCATGGAAGAAGACATCTAAACCCGGAAAGCATGTCTTTATTCTTTTTTTTTTTTTTTTTTGAAACCAGAAAGCATGTCTTTATCTCTTCAAGATGTGATAGTTGATTTTCCATGGCTCTTTAGATGTTGCCTGAAGTTTTATAGATTATAGCATTGTTGAAAAATTTAGGCCAATGGTTCTTTAGGATCTAACTTGTAAATGGTATTTACAGGTCCAACATAATTAGAAAACAGCAAACGAGAGCCAACTCTGGAGGCAAATTAGTTCAGCATTTGCAGTTTTTTTTTTTCTTTTTGGTGTGTCATGCACTTTTATGTATTCTAGAATGTTACATTCACGAAATTATGTTCAAATTCTGTTGCAATATATATGTATACGTATGTATGTGTATATATAGCACTATATGCTC ATTTCTAAAAGCTGAATGTTGATATAAGCAAAGGCCAAAGGTGGGTCAGACCTCATATGGCTTCTAACTGAACGGAGTATAACTTGTTAAACCCTAAATCCTTAGCCCTTGCTTTTCGTCATCAGTCTCTCAGTTCCTTCTGCACTGCACCGGTCGCTCCTTCCATTCGCCGACCTCAGGCCGTCCACTGCCACGCCACTCGTAGTCCGTCTCTCCCTGCCACGTCGGTCGTATCGACGCCTTGCCACTGTTCTTCTCACAGCCGGCCGACCTCGAAGTCCCGTGTCTGTGTTCCTCTCCAAACATAGGCCACCCATCATCATCCTCCCTCCGATCCAGAATTGCAAACCAGACATATAAGTGTGGCCAAAATTGCAAATATTTTCCGTTGTGCCCAAAACAATCAGAAAATCGTACTGACTTAATTGAGTTCGTCCGAGTCAACGACCGAGTTTAGTAACGTCGCCTCGGACATCTGGAGAATAGGAAATCAGTTACAGTTTGAAGAATCGAGCCAAAGAAAGGGCTTCACCCCCTTGTTTTTGGGCCCCTTGAATTGATTGGGAAATGAAGAACATGATAGCTCTGGGTTTTGAGGGTTCAGCAAACAAGATTGGTGTTGGGGTTGTAACTTTAGATGGCAACATTTTGTCAAACCCACGTCATACCTACATTACACCTCCTGGCCATGGCTTCCTTCCTCGTGAAACTGCACATCACCATCTCCACCACATTCTTCCATTGGTTAAGTCTGCTCTGGAAACTGCAAAAATTACCCCCAAAGATATTGACTGCCTCTGTTACACCAAAGGGCCTGGCATGGGAGCTCCTCTACAAGTTTCTGCTGTTGCTGTGAGGGTTCTTTCTCAGATATGGAATAAGCCTATTGTCGCTGTTAATCACTGTGTTGCACATATTGAGATGGGAAGGGTTGTAACTGGTGCAGATGATCCTGTTGTCTTGTATGTTAGTGGTGGGAATACTCAGGTGATTGCTTATAGTGAAGGAAGGTATAGAATCTTTGGGGAGACTATTGACATTGCTGTTGGAAATTGCTTGGACCGGTTTGCAAGAGTCCTAACATTATCCAATGATCCAAGTCCTGGATACAATATTGAACAGCTTGCAAAGAAAGGAAAACTTTTTATTGAACTTCCATATGTTGTCAAAGGGATGGATGTATCATTCAGTGGCATATTGAGCTATATCGAAGCAACTGCTGAGGAGAAGTTAAAAAGTAATGAGTGTACTCCTGCTGATTTGTGCTACTCTCTGCAGGAAACATTGTTTGCTATGCTTGTGGAAATCACGGAAAGAGCCATGGCTCACTGTGACAAGAAAGATGTTCTTATAGTCGGTGGTGTAGGTTGTAATGAGCGTTTGCAAGAGATGATGAGAATAATGTGCTCTGAGCGAGGTGGAAGGTTATTTGCAACTGATGACCGTTATTGTATCGATAATGGGGCAATGATCGCATATACTGGTCTTCTTGCTTGGGCACACGGTGTTTCTACACCATTGGAGGAAGCAACGTTCACCCAACGGTTTCGAACTGATGAAGTACACGCAATCTGGAGAGAGAGAGGATCTGACTAATGGAAAAGAGCTCATGGAAGAAGACATCTAAACCCGGAAAGTCCAACATAATTAGAAAACAGCAAACGAGAGCCAACTCTGGAGGCAAATTAGTTCAGCATTTGCAGTTTTTTTTTTTCTTTTTGGTGTGTCATGCACTTTTATGTATTCTAGAATGTTACATTCACGAAATTATGTTCAAATTCTGTTGCAATATATATGTATACGTATGTATGTGTATATATAGCACTATATGCTC ATGAAGAACATGATAGCTCTGGGTTTTGAGGGTTCAGCAAACAAGATTGGTGTTGGGGTTGTAACTTTAGATGGCAACATTTTGTCAAACCCACGTCATACCTACATTACACCTCCTGGCCATGGCTTCCTTCCTCGTGAAACTGCACATCACCATCTCCACCACATTCTTCCATTGGTTAAGTCTGCTCTGGAAACTGCAAAAATTACCCCCAAAGATATTGACTGCCTCTGTTACACCAAAGGGCCTGGCATGGGAGCTCCTCTACAAGTTTCTGCTGTTGCTGTGAGGGTTCTTTCTCAGATATGGAATAAGCCTATTGTCGCTGTTAATCACTGTGTTGCACATATTGAGATGGGAAGGGTTGTAACTGGTGCAGATGATCCTGTTGTCTTGTATGTTAGTGGTGGGAATACTCAGGTGATTGCTTATAGTGAAGGAAGGTATAGAATCTTTGGGGAGACTATTGACATTGCTGTTGGAAATTGCTTGGACCGGTTTGCAAGAGTCCTAACATTATCCAATGATCCAAGTCCTGGATACAATATTGAACAGCTTGCAAAGAAAGGAAAACTTTTTATTGAACTTCCATATGTTGTCAAAGGGATGGATGTATCATTCAGTGGCATATTGAGCTATATCGAAGCAACTGCTGAGGAGAAGTTAAAAAGTAATGAGTGTACTCCTGCTGATTTGTGCTACTCTCTGCAGGAAACATTGTTTGCTATGCTTGTGGAAATCACGGAAAGAGCCATGGCTCACTGTGACAAGAAAGATGTTCTTATAGTCGGTGGTGTAGGTTGTAATGAGCGTTTGCAAGAGATGATGAGAATAATGTGCTCTGAGCGAGGTGGAAGGTTATTTGCAACTGATGACCGTTATTGTATCGATAATGGGGCAATGATCGCATATACTGGTCTTCTTGCTTGGGCACACGGTGTTTCTACACCATTGGAGGAAGCAACGTTCACCCAACGGTTTCGAACTGATGAAGTACACGCAATCTGGAGAGAGAGAGGATCTGACTAA MKNMIALGFEGSANKIGVGVVTLDGNILSNPRHTYITPPGHGFLPRETAHHHLHHILPLVKSALETAKITPKDIDCLCYTKGPGMGAPLQVSAVAVRVLSQIWNKPIVAVNHCVAHIEMGRVVTGADDPVVLYVSGGNTQVIAYSEGRYRIFGETIDIAVGNCLDRFARVLTLSNDPSPGYNIEQLAKKGKLFIELPYVVKGMDVSFSGILSYIEATAEEKLKSNECTPADLCYSLQETLFAMLVEITERAMAHCDKKDVLIVGGVGCNERLQEMMRIMCSERGGRLFATDDRYCIDNGAMIAYTGLLAWAHGVSTPLEEATFTQRFRTDEVHAIWRERGSD
BLAST of Bhi11G000698 vs. TAIR10
Match: AT4G22720.1 (Actin-like ATPase superfamily protein) HSP 1 Score: 638.3 bits (1645), Expect = 2.8e-183 Identity = 300/338 (88.76%), Postives = 325/338 (96.15%), Query Frame = 0
BLAST of Bhi11G000698 vs. TAIR10
Match: AT2G45270.1 (glycoprotease 1) HSP 1 Score: 123.2 bits (308), Expect = 3.0e-28 Identity = 99/346 (28.61%), Postives = 157/346 (45.38%), Query Frame = 0
BLAST of Bhi11G000698 vs. Swiss-Prot
Match: sp|A7SXZ6|OSGEP_NEMVE (Probable tRNA N6-adenosine threonylcarbamoyltransferase OS=Nematostella vectensis OX=45351 GN=osgep PE=3 SV=1) HSP 1 Score: 504.6 bits (1298), Expect = 8.6e-142 Identity = 235/332 (70.78%), Postives = 275/332 (82.83%), Query Frame = 0
BLAST of Bhi11G000698 vs. Swiss-Prot
Match: sp|Q0VCI1|OSGEP_BOVIN (Probable tRNA N6-adenosine threonylcarbamoyltransferase OS=Bos taurus OX=9913 GN=OSGEP PE=2 SV=1) HSP 1 Score: 491.5 bits (1264), Expect = 7.6e-138 Identity = 235/332 (70.78%), Postives = 270/332 (81.33%), Query Frame = 0
BLAST of Bhi11G000698 vs. Swiss-Prot
Match: sp|Q7SYR1|OSGEP_XENLA (Probable tRNA N6-adenosine threonylcarbamoyltransferase OS=Xenopus laevis OX=8355 GN=osgep PE=2 SV=1) HSP 1 Score: 491.5 bits (1264), Expect = 7.6e-138 Identity = 230/334 (68.86%), Postives = 274/334 (82.04%), Query Frame = 0
BLAST of Bhi11G000698 vs. Swiss-Prot
Match: sp|Q9WVS2|OSGEP_RAT (Probable tRNA N6-adenosine threonylcarbamoyltransferase OS=Rattus norvegicus OX=10116 GN=Osgep PE=2 SV=2) HSP 1 Score: 490.7 bits (1262), Expect = 1.3e-137 Identity = 234/332 (70.48%), Postives = 271/332 (81.63%), Query Frame = 0
BLAST of Bhi11G000698 vs. Swiss-Prot
Match: sp|Q9NPF4|OSGEP_HUMAN (Probable tRNA N6-adenosine threonylcarbamoyltransferase OS=Homo sapiens OX=9606 GN=OSGEP PE=1 SV=1) HSP 1 Score: 488.4 bits (1256), Expect = 6.4e-137 Identity = 234/332 (70.48%), Postives = 268/332 (80.72%), Query Frame = 0
BLAST of Bhi11G000698 vs. TrEMBL
Match: tr|A0A059DBU4|A0A059DBU4_EUCGR (Probable tRNA N6-adenosine threonylcarbamoyltransferase OS=Eucalyptus grandis OX=71139 GN=GCP2 PE=3 SV=1) HSP 1 Score: 651.0 bits (1678), Expect = 1.5e-183 Identity = 308/339 (90.86%), Postives = 329/339 (97.05%), Query Frame = 0
BLAST of Bhi11G000698 vs. TrEMBL
Match: tr|A0A059AZA3|A0A059AZA3_EUCGR (Probable tRNA N6-adenosine threonylcarbamoyltransferase OS=Eucalyptus grandis OX=71139 GN=GCP2 PE=3 SV=1) HSP 1 Score: 650.6 bits (1677), Expect = 2.0e-183 Identity = 308/339 (90.86%), Postives = 329/339 (97.05%), Query Frame = 0
BLAST of Bhi11G000698 vs. TrEMBL
Match: tr|A0A1R3G4E6|A0A1R3G4E6_COCAP (Probable tRNA N6-adenosine threonylcarbamoyltransferase OS=Corchorus capsularis OX=210143 GN=GCP2 PE=3 SV=1) HSP 1 Score: 650.6 bits (1677), Expect = 2.0e-183 Identity = 312/339 (92.04%), Postives = 328/339 (96.76%), Query Frame = 0
BLAST of Bhi11G000698 vs. TrEMBL
Match: tr|W9R4Z4|W9R4Z4_9ROSA (Probable tRNA N6-adenosine threonylcarbamoyltransferase OS=Morus notabilis OX=981085 GN=GCP2 PE=3 SV=1) HSP 1 Score: 648.3 bits (1671), Expect = 9.8e-183 Identity = 310/337 (91.99%), Postives = 327/337 (97.03%), Query Frame = 0
BLAST of Bhi11G000698 vs. TrEMBL
Match: tr|A0A0D2PLB4|A0A0D2PLB4_GOSRA (Probable tRNA N6-adenosine threonylcarbamoyltransferase OS=Gossypium raimondii OX=29730 GN=GCP2 PE=3 SV=1) HSP 1 Score: 647.1 bits (1668), Expect = 2.2e-182 Identity = 310/338 (91.72%), Postives = 326/338 (96.45%), Query Frame = 0
BLAST of Bhi11G000698 vs. NCBI nr
Match: XP_004142777.1 (PREDICTED: probable tRNA N6-adenosine threonylcarbamoyltransferase [Cucumis sativus]) HSP 1 Score: 682.6 bits (1760), Expect = 7.1e-193 Identity = 332/339 (97.94%), Postives = 334/339 (98.53%), Query Frame = 0
BLAST of Bhi11G000698 vs. NCBI nr
Match: XP_022941751.1 (probable tRNA N6-adenosine threonylcarbamoyltransferase [Cucurbita moschata] >XP_022999783.1 probable tRNA N6-adenosine threonylcarbamoyltransferase [Cucurbita maxima]) HSP 1 Score: 679.5 bits (1752), Expect = 6.0e-192 Identity = 328/339 (96.76%), Postives = 334/339 (98.53%), Query Frame = 0
BLAST of Bhi11G000698 vs. NCBI nr
Match: XP_023525719.1 (probable tRNA N6-adenosine threonylcarbamoyltransferase [Cucurbita pepo subsp. pepo]) HSP 1 Score: 679.5 bits (1752), Expect = 6.0e-192 Identity = 328/339 (96.76%), Postives = 334/339 (98.53%), Query Frame = 0
BLAST of Bhi11G000698 vs. NCBI nr
Match: XP_022136896.1 (probable tRNA N6-adenosine threonylcarbamoyltransferase [Momordica charantia]) HSP 1 Score: 676.0 bits (1743), Expect = 6.6e-191 Identity = 326/338 (96.45%), Postives = 333/338 (98.52%), Query Frame = 0
BLAST of Bhi11G000698 vs. NCBI nr
Match: XP_010529505.1 (PREDICTED: probable tRNA N6-adenosine threonylcarbamoyltransferase [Tarenaya hassleriana] >XP_010529506.1 PREDICTED: probable tRNA N6-adenosine threonylcarbamoyltransferase [Tarenaya hassleriana]) HSP 1 Score: 651.7 bits (1680), Expect = 1.3e-183 Identity = 315/338 (93.20%), Postives = 328/338 (97.04%), Query Frame = 0
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of wax gourd
Date Performed: 2019-11-17
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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