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| Field | Value |
|---|---|
| Gene ID | LotjaGi2g1v0226300 |
| Transcript ID | LotjaGi2g1v0226300.1 |
| Related isoforms 1 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Arginine--tRNA ligase; TAIR: AT4G26300.1 Arginyl-tRNA synthetase, class Ic; Swiss-Prot: sp|O23247|SYRM_ARATH Arginine--tRNA ligase, chloroplastic/mitochondrial; TrEMBL-Plants: tr|W0G2X0|W0G2X0_9FABA Arginyl-tRNA synthetase; Found in the gene: LotjaGi2g1v0226300 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:68343707..68353116) extracted from Lotus japonicus Gifu genome v1.2.
TTTCGCTCGCAAATTATTTAGCTCGTGTGGCTACACGTTTTTCTTTCGGCTTGCATTAATTTTCATCTCCGTTTGGGGAT TGTCATAAGTTTATTGCCACAGGACAACTCAGGAATTACTCCTACTAGTCTTCTTACTACTCCTGATTAGCGCTTCTTCT TTTGCTTGAGCGTAATTTGTAAAAATAAAAAAATAAACTCAATTTGGAAGATTGAGAGGTGGTTTTTCAACATGTGTTGA GAGAGAATAACATGATCGCAGATCTCTTAGCTAAATTTGGTTTGAAAGAGAAATTGAGCTTGACCACTTGGGATTCCCCT CCACCTAAGGTTGCTCAATTGAGGGAGTTAGGTGAGGATAGTCTTTCTCTCTCTCTGTTTTCTTCCAATTTGTTATTTTC GTAATCTACTAAAAAAATATTAAGAACTTACTCAAAAATAAAAAATAAAAAACTGCCAACACATGAAAAGACACCACCTG AGCCTGGTTAGGGTTTGGGTTCTTAAATCACACTTGTCAGCCGTTATCGCCGTCTCACACTCTCTGGTTACCTCCTCTCC CTCTCTTCTTCCATTTCTCTTCTCCTCCATCCTTCAACGTTGCTAACACAATTTCCATTTCAACATTGTTCTTCTGTAAA CAGATTCAGCGAACGTTGCAGCTTCTCGGAGTTTTTCAACCATGTATATTGTAAGTTCATCGAGTTTCCCACTTTCAAAT TAACTGATTAGTTTTTCAGTTTATGCGTTTTCATTTCCTGCGATTTTGGATTGTTGTTGTTGTTTTGCATGTTGATGTTC TTAGCTCTATTTTAGTAATAAGATTGTGATGTGATGCTAGCTTTTGTATTTGGATATAGGAAATAATCAATCCGGCGAGT GTCAAAAGGCAGTTGGCGAAGCTGTTTGAGGCTTCTCTGAAAGCAACTGTGCCTGATGAGGCAGATATTGTGCCTTTGGT TGATGCTTGCGTTGCGAAATCTGGTGTGAAGAAATTTGCTGATTACCAATGGTCAGTTCATTGAATGAATTTAGCGCTTT AGTCGGGATGATTTTTTTGTTAACTAGTGATCTTGGGACTTCTTAAAGCTCACGAAACACTTTTTCGCTGTGCAGTAATA ATGCAATGGGTCTGTGGGCTAAGGTTAAAGGAAAGCAGACAGAATTCAAGAATCCCCAGTCAATTGGACAGGTATAGTTA AAGTCCTTTTTACCATTTTACTATTTACTGATTATGAAATTGCGTTTTGATTTGTTGTTGTCAAATGGTTATCGGTGTGT TTTTGTTGTTGTAGGCCCTCATGAAGAATCTCCCGCCATCTGAAATGGTGGAATCGTGCTCTGTTGCTGGTCCTGGTTTT GTGAATGTTGTCTTATCAAAGAAGTGGATAGGAGAGGTGATTGCAGTTTCTGTCTTAAATTGGAAATAGTATGACCTACT TTTTGTGAGACCCCTTTTAGGGGGTGTCTAATTCGCTGTGTTCATTGATTGGAAGGGTGTGTGGTTTGCAAGGAAGTTAT GATTTTTACTTTTTTGTGTGTGTGGATAATTGAGCTTATTCAAGACCTCTGTTAACACTTAAAAGAAAAATTCCTTCTAC AGACCTTACAGAAGATGCTTACTGATGGTATTGATTCCTGGGCACCTCGACTTCCCGTGAAGAGAGTTATGGTTGACTTT TCCTCACCTAATATAGCTAAAGAAATGCATGTTGGTCACCTGAGATCAACCATTATTGGGGACACATTAGCTCGTATGCT TGAGTTTTGTCGGGCAGAATCTCTTATCCGCCGAAATCATCTCGGTGACTGGGGAACTCAGGTAGATTTAATATCCACAA TTCTTCTATTTTTGTGCCATGGGTTAGAATATAGTGCATGTTTAAGCTGAGGTTATACGTTTTATGCTATTTCTCGTGAC TAGATCATTGCTATATACACTGTCAAAGCTAGGTTTCTCCATTTAGCTAATGACACTCTGCGTAATCTGTTTGCAACAAT CATTTAACTTGACAAGCTTATTTCATGTTCATTAAAATTACTTTCTGGGTTGACAACTAATTGTGTTTGGGAACCAATGG CTGATGGAAGTTGCTTCGTAACTGTTTTCAAAATGCAGAACATGAATTTCATTCCTCCTAATTCAATGGTGTGTTCTCTG TATTCTTTTTTTGTGGTGTAACTTCAAGCAACTGAATTTAGGAAAATAGTTTACATATTGAACTATTTCAACTTGTCACC AAGTTTGCAAGACCCATTATTTTTTAGACATGCACTCATGGCATAGTTGTTTGAATGATAATTGATAAAACATTCTAGTA GGATTCAGGAATGTTCTCATTTTGTTTTTGGTACCATATGATTCAATAGATATGTATTTTTGTTTTTGTATTTTGCAGTT TGGGATGTTGATTGCTTATCTCTTTGAGAAATATCCCAACCCGGAAGACGTTAGTGAAGCAGCTATTGGAGATCTTCAGG TGAAAAAATATGTGAAAATGAATTCGTTTTATATTAGTTACTAGGCGCTTATTCGTATGTTGTTTAACAAAAAACTTTGC TTTCCAAAACATGTAGAAATTAATTTGTTAAAAATGCTGTGAAAATCTAATTAGATAACATGCACTGCTATTTTTACTAG ACAAACAGCCTTAAAAAGATCGGCTATTGATTTTCTTTGCACGTATTGCTTCTGCTAATAGCTGTTTTGTACTTTGTTTA TGAATAATTTTTTATCAGTTTCATAATTCATCCGTCTATTCTAACTTTTTCTTAAAGGAGATGGGGTTTGAGATGTGAAT TCAGGATAAATTGATGGCTGATTATAAAATATTGTTCATTTTCAGTTTTGTATAAAACATAATCCATAAAATAGTAATGT TTGTAGGTCTTGAGTGATAATGTTTTCATTGACATTTAGTTTTCCATTATGGTTTTTGTCCCGCATATCTTTGATGAAGA AGCATTTGTGTTTCGCTGGATAAGTAAATTATTTTCAGTGTTTGTGGAATTAATTGGAGTTGTTGCATTTCCAGACATTC TACAAGGCCTCAAAGGTGAAGTTTGATAGTGATCCTGAATTTAAGAAAACAGCACATCAGTCAGTGGTCAAGCTCCAGGT AAATTTCTACCTTATGGTCCCCCACCCTTTTTGTGAGTTCTTTGGGGTTCGTTTTTACATGTCTTTTTTTTACTTTCTTG TTATGTATATATTAATTTTGATTTCAGAGCGGAGAACCCAAGTATCGCAAGGCATGGGAAAAAATTTGTGATATTAGTAA GGCTGAATTTGATAAGGTCTATCAACGCCTTGGAATTCGATTAGAGGCAATGGTAGGTTCTAGTTTCCTTTTACAATGTC TATGCAATTCAAATATGATGTCTATTCTTTTGCATCTCACAGGTGGAATTCCTTAGCTGTTTCTCTTGATTCACCGTAGC GACCATGGATCAATTTTGGCTGTTACTTTGCTTTTTATTCAATTCATGATTTGGCTTAGATTCTCACTTAAGGGGCCAGA TCTACCATATCATATCCACTAAATCTTGTATTTTATATTTCTTGTTTTGTCATGACTTATGACCAATAGTTAAATTTTCC CTTAAAGTTATATCCTCAATTGGACTAATACAACAACAACCGCAAAAGCCTTATCCCACTATGTGATCAATTAGACTGAT ATTAAAAATAATTTTGTATGATACACGGCTCCTCTACATGCTTAATTTCCTGGATATAGAAATTGCAGTGGAAGTTATCA TTACTGCAGGCGCAGCTTAAAAAGAACATTGTTTTTGTGCTGACTATCATTGATGTAATGATGCTCATACAATGTAGTAA TGATTTCATTGTTTGTATTGGATGTATGTTGCAATTATTACAGATGTTCTATTTAAATCTATATTACCAACACTTTTGTA GTGTACTGATGGACAATGTATTTGGTCACAGGGAGAAAGCTTCTTTAATCCATATATCCCCCCAACTTTGGAGAAACTGG AGAATTTAGGACTGATTGAAGATAGTGATGGTGCTCGTGTGATATTTGTTGAGGGTGTAGACATACCACTGATTGCTGTG AAAAGTGATGGGGGCTACAACTATTTTACAACTGATCTTGCATCACTTTGGTTAGTTTATACTTTTAGTTTTTTGTACTT TTTATTTGAAAATCGTTTGAGTTGCTGGCTTACTTGGGTAATCAAACTTTGTTATCAATTGTCAAATTTCTTTATCTTCG TAGTTGTATACTCTACCTGTTTAGAATGTTAAGATGGGTAAGTGAGCTCATAAACAAGGCATTATTAGCAATGAATGTAT TACATTGAAAGTTGAGGCAACACCTGTTGTGAAAAAAGATTGTTGAATGACCCTTTTGGTGGGTTAGACATCCGACTGTG AGGCGTATAGAAGCTGTAATAAAGAGAGTAGGTTAGATGAAGAGTATTCCAATAGTAAGAGGTAGAAGAAGAAGAAAGAA TATGCTTAGCAATTAACATGGATTTAGATCAAGAGTTCATTTCTTACAACATTTTTAATAAAAAAGCACTTCTATTTTGA AAAGTTTTAGTGCGATTGTTTCAGCTTTTAGAAAAAATCAGAATATAAAAAAATCAGATTTCTGAGAAGCTACTTTGGAT AGTTATAACTTATAACTTGCTTTAAAAATAAGAAGTGTTTTTGTGATTGTAACTGAACGGAAAATAACTTCTGCTTTATG TATAATCTCTAAAAGTAAATCACTTTTTTACATCACCTGAAAAAACACTTTATATATAGCTTAAACAAATGGCCCTTAAA ATGGTTTTTCTGTAGGTAGCCTCTAAGTGTAGTTTGAGGGAGTCAGTTCCACGACAGAAAAGGAACAGTGGGTAAAGTTC AAATATTATTTGGATCACAAAACAATACTTCCTAGGCTTTTGGGCCAGGTCCAACTCAATGAGGATAGTGGGGCATCAAA GAGGAAGAATGGCTCACAACCCATCAGTTCTGGGATTGGTGGTACATCTTTGCTTCAAACTAAGTACATTGTGTGGTCCT GGTGCATAACTATGTATTTTTGCCAGTTGTTTGTGTTTGTACAGTTCTCATGTACCCTTGATGTCAACCTCTTCCTTGGT TATTTTGAGAGCAAATGTTAATGTTGTAAATTTATGGAGTTAGAGAGGATTTTCATCTTCTTTATCATTGTTGCGATTGG GAGAGAGTATGTTGGAAATTCATAGTTTAATTTCAATAAACCCAGTTTCTTTCTTCTTCACTGCCTGTTCCTAGCATTAT CATTGGGTATGGTTTACGATAGGACATTGTGGTGGTGTTTAATTGATGTAGCTGGCTCCAAGTTGTGGGTAAAGGATTTA ATTGTTGTTGTCTATATACTCGACATCATTTAAAATTTGGATTTGGAATTCATATTTCAATTTTTCTGCATTTTTATATA AGTATGGAACAGGAGATCTGTCAACTTGTGAAAATAATTTATTTTGGTTATGTGATCCACTTTGACCTTGTAGGTATCGT CTGAATGTTGAAAAACTCGAGTGGAATATATATGTTACGGACGTTGGGCAGTGGCAACACTTTGATATGCTCTATAAGGT ATATCCCAGTTGAGATGAACCCTTCCTATTAGATTTTGCTAGTAGATCATTTTTTTTCTAATTCAATATTATGATGTAAT GTTAGTGCTGCTGCTAATATTCCAATGAGTATAAATGTCTGAGTTCCCCTTCAATTTTCCTTTCAGGCCTTCAGGCGTGC AGGATGGCTTCCAAAGGATGAAAATGAAATTCCCAAATGTATTCATATAGGTTTCGGTCTTGTTATGGGGGAGGATGGAA AACGATTTCGGAGTCGTAGCAGTGAGACTGTTCGATTGGTTGATTTGCTAGATGAAGCTAAAAGGCGCTGTAGAGTTGCC CTTCTTGAACGAGGTAAAGTACCAATTACTTATTGTTATATTTGCTTCTTCATGTCTGCGTTAAAGTATCCTTGAAATTA AGTTTCTGCGTAAGATCTGTTAAAGCGTTTGCCTTTTTAATTTTGTACACTAATCAGCAAACCTCCCAATCCTATGTTCT TTCAGACACTGCTAAGAATTGGACTGAGGAGGAGATTGAGAAAACATCGGAGGCAATTGGTTATGGGGCTGTTAAGTAAG CTTCTTTATCTCAAATATTCCCCCCCTTTTAGTACGAGTGACATTCTTTTGAGCCATACTATGTTGTAGCTTCTTCAGAG GCAAATTTTTGTGTGTTGATGTGGAGATGAATCGTTTAATGTACTTATTTACTCAATTTTTAAAGTTGTATATGGGGTAC TCTATGTTCTGACTCAATATTCCGAATCTAGTTAATATATAATTATATACTAATTTCAATTATTAGTAAGAATCCGATCA TAAGAAAAGAACACGAGTTTTACCGGGTTTTTACTTTTTGGGCATTTTCCTGAAACTTTCAGAAAATCAGTTAAGGTGGA ATGGACATGTACAAAGAAGATCTTTGGAGACACCAGTGAGAAGGGCTGGTAACATGGTATTTTGTTAGGTTATTTTTATA ACCCAACAAAAGATGTAAGAAGTGGAAGACAAGAGGGAAGAGATGAGAAACAATCTAATGGATTAAACAAGAACATTCTT TCCAAGGGTGGGAACCCTTCCAAGGGAAAGTCTCCATCACTTCAAAACTTAATTCTAACCTAATGAAGACACTCCTATTT ATAACTATTCTAACCTACTAAGTGAGTAACACTGGCCCAAATCAAATAATAAAAGCAAACTTAACCAAACAAGTCTAAAA CAAACTAACATAGATAAAATCAATCCAGGCCCATTTGTCCCAGGCTCAACCCTAACATATTTGGTCATGTGAAGAGGGGT AGTGGGAGGCAAAAAGAACTTGGGAAGATATTGTTAAAAATGATCTTATTAATTATTATCAATAATATTCCTCATGATAT GCTTTTTGATAGTGCCCAATGGCCTAGTGTGATCCATATAGCCGACCTCACTTAGTGAGAGATAAGGCTTTTGTTGGTAT TTTCCTGCTAAATACTCAACCAGGTTTTTAAATTTTTATATATGTTACACAGTAAGAAGGATTGGCTTCAGTAACTTCTG GTTCTATATATGGTTTTGGTTTGGCTTGACAAATTTTGAACTGTTTGCTTATGCCTGAGATAAGTTGTTAAAAGAGTTGC AGTCTTGTTGCTTCTCATTTCATGATTTGATGTGTTTGCAGATACGCTGATTTGAAGATCAACAGATTAACGAATTACAC TTTCAACTTTGATCAGATGCTTAATGATAAGGTGCATTCACTGTTTGCAATTTTTAGTTGCCAAGTTATAGTAAAAAAGC TAGTAGGTGTAGTAACCATTTTTTATAGGCCCTGTCCCACTCCCCCTCCCTTGGTCTCAGAAGTCTACATCTATAACTGT TTGCTCCTTACTATAAAAAATTGCTGTCAGAATAGCTTCAATGATATGTATATGAAACAATAGAAATTGTTCAACACTGT CTTCATCCCCAGCAAAGCTAATCAATCTGACGTTAGATGTCTCACCTTCCTAAAACTTTTTGTGAATCAGGGGAATACTG CTGTTTATTTGCTATATGCACATGCTAGGATCTGTTCCATTATCAGGAAAGCTGGTAAAGACATTGAAGAAATAAAGAGA GTAAGTTTATTTTTCTTCGTGCATTATGTATTATAAAAAGTCTTTGATTTAATTTGGTCTTGTATGCTTATTTTTACGCA CAAGTATAAGAGTCATTTCAAGGTTTATATTCTATTATGGTTTACTTGGTTGACTTTATCTGAAACAGCTCAGTTCTCAT CTATTGTAATTGTGATATGACTCTACTGCATATAGTCAGCTATATATCAACTGTTTCAATATTTCTACTCTTTATCTCTT GTCTATCAACTTGTGACAGAGTGAGAAAATTGTGTTGGATCATGAAGATGAGCGTACATTGGGTCTTCATTTACTCCAAT TTCCGGAGGTACGACATGTGAATACTATATTTCTTCTCCTTTGTACCCTTGCATTATATAGTGGTATCATGCCTAGAGCA GCTGCGTTTGTGTTTTTTGTGTTATTATTTACATGCTTATATGTGAGCTGTGTTTTGTTTTATTTTTCAGGTTTTTGAGG AATCATGCTGCAATTTACTACCAAATGTGTTGTGTGAATACCTGTATAATTTGTCTGAAATCTTCACCAAAAAGTTCTAT TCTAACTGTCAGGTATACTACTAAAGCGATAAAATTATGCTGTGTATTAGTTTCTATGTTCTTACTATTGTTTCCTGGTG ATGAGGTGTGTATAAAGGTGCCGGATATATTTGTTTTGAACATGTTAAATTTGGGTGCTATATATCATTATGGTTATTGT TGTGATTTCATTGCTATTGCGTTATCAGTTAAAATGTCTCACTTACCCATACAAATAAATTTCTAGGACTTTTAATACAT AATATATATTCCTTGTAAGGTGCGGGGAAAGACTAATGTTTAGATTTTAGCCATCTAATTCAACTTCTTGCCCTTGGCAG GTTGTGGGGTCGCCGGAAGAAAGCAGTAGACTTTTGTTATGTGAAGCTACCGCAGTTGTGATGAGACAGTGCTTTTATCT ACTTGGAATTGAACCTGTTTACAAGTTATGACCTATCTTAAGTGATTCAAATGGATTTTTTTTAACACTTGGTGCACAAA TGTAGAGAACTTCCAGTATTTACATTATTCTGGCAAATTATCTCTACCTTATTTTCTTTATTGTATTAGTGGTGAAAGCT GGAAAGTGGAAAGTAGTGTATCATTGATAGTGATTTTACTGACCAGTTCCCTTGAAATTTATCATTTTTGTCTGGGACAT CCATGTTAATATTTTCGTTTGGAGTTGAGCAACGTTAGTACGTTACTATTAGATTGTTATATGTTGTGCAGATTGTGTAT TTTTCTTTTGGACTGAATTCATTGCTATACTATTCAAAACGTTTAGAACATTTGTTTGTCCGATATGACGGAACACTCAT CATGAAGAATATAGCTGGGTAATGAGTTGAGTGATAAATGGTTGGTTTGAACTTCTACACAACTTTTTCAACATTAAACT TGTTATTGAACTGGTCGAACTTGATCCCTCAAATTTAATTTTTGATCCAGCACAATGACACGTCTGGTCCATTTGACTAA CGTTTAATTTTTTCAATTGACTATTAAAAAATATTATTAATTCCCATGAGCTAGTTGACTAAGAGAATCTCCAATGCAAT GTTGCTAGTTGTGTTTTTTAAACACTATTTTGGTGGACTTAAATTGTTACATAGAATTTAAGCAATGCAATCAGAATTCG CTCCACGGTTGCTTATTTTACTTTTGTGAGACCTTCTATCCATTTTAGTT
CDS sequence (LotjaGi2g1v0226300.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTATATTGAAATAATCAATCCGGCGAGTGTCAAAAGGCAGTTGGCGAAGCTGTTTGAGGCTTCTCTGAAAGCAACTGT GCCTGATGAGGCAGATATTGTGCCTTTGGTTGATGCTTGCGTTGCGAAATCTGGTGTGAAGAAATTTGCTGATTACCAAT GTAATAATGCAATGGGTCTGTGGGCTAAGGTTAAAGGAAAGCAGACAGAATTCAAGAATCCCCAGTCAATTGGACAGGCC CTCATGAAGAATCTCCCGCCATCTGAAATGGTGGAATCGTGCTCTGTTGCTGGTCCTGGTTTTGTGAATGTTGTCTTATC AAAGAAGTGGATAGGAGAGACCTTACAGAAGATGCTTACTGATGGTATTGATTCCTGGGCACCTCGACTTCCCGTGAAGA GAGTTATGGTTGACTTTTCCTCACCTAATATAGCTAAAGAAATGCATGTTGGTCACCTGAGATCAACCATTATTGGGGAC ACATTAGCTCGTATGCTTGAGTTTTGTCGGGCAGAATCTCTTATCCGCCGAAATCATCTCGGTGACTGGGGAACTCAGTT TGGGATGTTGATTGCTTATCTCTTTGAGAAATATCCCAACCCGGAAGACGTTAGTGAAGCAGCTATTGGAGATCTTCAGA CATTCTACAAGGCCTCAAAGGTGAAGTTTGATAGTGATCCTGAATTTAAGAAAACAGCACATCAGTCAGTGGTCAAGCTC CAGAGCGGAGAACCCAAGTATCGCAAGGCATGGGAAAAAATTTGTGATATTAGTAAGGCTGAATTTGATAAGGTCTATCA ACGCCTTGGAATTCGATTAGAGGCAATGGGAGAAAGCTTCTTTAATCCATATATCCCCCCAACTTTGGAGAAACTGGAGA ATTTAGGACTGATTGAAGATAGTGATGGTGCTCGTGTGATATTTGTTGAGGGTGTAGACATACCACTGATTGCTGTGAAA AGTGATGGGGGCTACAACTATTTTACAACTGATCTTGCATCACTTTGGTATCGTCTGAATGTTGAAAAACTCGAGTGGAA TATATATGTTACGGACGTTGGGCAGTGGCAACACTTTGATATGCTCTATAAGGCCTTCAGGCGTGCAGGATGGCTTCCAA AGGATGAAAATGAAATTCCCAAATGTATTCATATAGGTTTCGGTCTTGTTATGGGGGAGGATGGAAAACGATTTCGGAGT CGTAGCAGTGAGACTGTTCGATTGGTTGATTTGCTAGATGAAGCTAAAAGGCGCTGTAGAGTTGCCCTTCTTGAACGAGA CACTGCTAAGAATTGGACTGAGGAGGAGATTGAGAAAACATCGGAGGCAATTGGTTATGGGGCTGTTAAATACGCTGATT TGAAGATCAACAGATTAACGAATTACACTTTCAACTTTGATCAGATGCTTAATGATAAGGGGAATACTGCTGTTTATTTG CTATATGCACATGCTAGGATCTGTTCCATTATCAGGAAAGCTGGTAAAGACATTGAAGAAATAAAGAGAAGTGAGAAAAT TGTGTTGGATCATGAAGATGAGCGTACATTGGGTCTTCATTTACTCCAATTTCCGGAGGTTTTTGAGGAATCATGCTGCA ATTTACTACCAAATGTGTTGTGTGAATACCTGTATAATTTGTCTGAAATCTTCACCAAAAAGTTCTATTCTAACTGTCAG GTTGTGGGGTCGCCGGAAGAAAGCAGTAGACTTTTGTTATGTGAAGCTACCGCAGTTGTGATGAGACAGTGCTTTTATCT ACTTGGAATTGAACCTGTTTACAAGTTATGA
Protein sequence (LotjaGi2g1v0226300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MYIEIINPASVKRQLAKLFEASLKATVPDEADIVPLVDACVAKSGVKKFADYQCNNAMGLWAKVKGKQTEFKNPQSIGQA LMKNLPPSEMVESCSVAGPGFVNVVLSKKWIGETLQKMLTDGIDSWAPRLPVKRVMVDFSSPNIAKEMHVGHLRSTIIGD TLARMLEFCRAESLIRRNHLGDWGTQFGMLIAYLFEKYPNPEDVSEAAIGDLQTFYKASKVKFDSDPEFKKTAHQSVVKL QSGEPKYRKAWEKICDISKAEFDKVYQRLGIRLEAMGESFFNPYIPPTLEKLENLGLIEDSDGARVIFVEGVDIPLIAVK SDGGYNYFTTDLASLWYRLNVEKLEWNIYVTDVGQWQHFDMLYKAFRRAGWLPKDENEIPKCIHIGFGLVMGEDGKRFRS RSSETVRLVDLLDEAKRRCRVALLERDTAKNWTEEEIEKTSEAIGYGAVKYADLKINRLTNYTFNFDQMLNDKGNTAVYL LYAHARICSIIRKAGKDIEEIKRSEKIVLDHEDERTLGLHLLQFPEVFEESCCNLLPNVLCEYLYNLSEIFTKKFYSNCQ VVGSPEESSRLLLCEATAVVMRQCFYLLGIEPVYKL
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
| Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
|---|---|---|---|---|---|---|
| Gene3D | 7 | 122 | 116 | 4.2E-20 | ||
| PANTHER | 9 | 596 | 588 | 5.1E-271 | – | |
| PANTHER | 9 | 596 | 588 | 5.1E-271 | ||
| SUPERFAMILY | 12 | 122 | 111 | 8.24E-14 | ||
| Hamap | 13 | 596 | 584 | 22.489 | ||
| SMART | 13 | 106 | 94 | 7.0E-18 | ||
| Pfam | 14 | 106 | 93 | 1.6E-15 | ||
| TIGRFAM | 27 | 595 | 569 | 1.0E-127 | ||
| Gene3D | 130 | 472 | 343 | 3.8E-104 | ||
| SUPERFAMILY | 131 | 474 | 344 | 6.75E-79 | – | |
| Pfam | 133 | 466 | 334 | 7.1E-112 | ||
| CDD | 134 | 402 | 269 | 1.54664E-65 | ||
| PRINTS | 134 | 149 | 16 | 2.1E-20 | ||
| ProSitePatterns | 142 | 153 | 12 | - | ||
| PRINTS | 149 | 165 | 17 | 2.1E-20 | ||
| PRINTS | 317 | 338 | 22 | 2.1E-20 | ||
| Gene3D | 474 | 596 | 123 | 3.0E-30 | – | |
| SUPERFAMILY | 475 | 595 | 121 | 1.57E-31 | ||
| SMART | 480 | 596 | 117 | 6.0E-29 | ||
| Pfam | 480 | 595 | 116 | 6.2E-30 |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
| GO term | Namespace | Name | Definition | Relationships |
|---|---|---|---|---|
| Molecular function | Nucleotide binding | Interacting selectively and non-covalently with a nucleotide, any compound consisting of a nucleoside that is esterified with (ortho)phosphate or an oligophosphate at any hydroxyl group on the ribose or deoxyribose. | ||
| Molecular function | Aminoacyl-tRNA ligase activity | Catalysis of the formation of aminoacyl-tRNA from ATP, amino acid, and tRNA with the release of diphosphate and AMP. | ||
| Molecular function | Arginine-tRNA ligase activity | Catalysis of the reaction: ATP + L-arginine + tRNA(Arg) = AMP + diphosphate + L-arginyl-tRNA(Arg). | ||
| Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
| Cellular component | Cytoplasm | All of the contents of a cell excluding the plasma membrane and nucleus, but including other subcellular structures. | ||
| Biological process | TRNA aminoacylation for protein translation | The synthesis of aminoacyl tRNA by the formation of an ester bond between the 3'-hydroxyl group of the most 3' adenosine of the tRNA and the alpha carboxylic acid group of an amino acid, to be used in ribosome-mediated polypeptide synthesis. | ||
| Biological process | Arginyl-tRNA aminoacylation | The process of coupling arginine to arginyl-tRNA, catalyzed by arginyl-tRNA synthetase. The arginyl-tRNA synthetase is a class-I synthetase. The activated amino acid is transferred to the 2'-OH group of an alanine accetping tRNA. The 2'-O-aminoacyl-tRNA will ultimately migrate to the 3' position via transesterification. |
Expression pattern of LotjaGi2g1v0226300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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