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| Field | Value |
|---|---|
| Gene ID | LotjaGi4g1v0203000 |
| Transcript ID | LotjaGi4g1v0203000.1 |
| Related isoforms 1 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Asparagine-tRNA ligase; TAIR: AT4G17300.2 Class II aminoacyl-tRNA and biotin synthetases superfamily protein; Swiss-Prot: sp|O48593|SYNO_ARATH Asparagine--tRNA ligase, chloroplastic/mitochondrial; TrEMBL-Plants: tr|G7JIW4|G7JIW4_MEDTR Asparagine-tRNA ligase; Found in the gene: LotjaGi4g1v0203000 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:47008126..47017257) extracted from Lotus japonicus Gifu genome v1.2.
GTCATACTACTACCTCAACGGATATAGGAGTTGTCCTGTGGTAGAGTGAGAGACAGTTCAGAGCGACGCAAATGGGTGGC GTTGCCATAGCAACAAGGCCGTTCCGTCTAATCAAACCTTACACAGCAGCACTCGCTTATCTCTCACTACACACCACATC CAAACCTCCCTCTCTCCGCCCCAATCCACCTCCCCCCTTCTCCTCCCGCCGCCGCCTCTTCTGCGCCGCAACTCTCCCCT CCGCCGACCACAAGGTTTCCAAATTCCGCAAGAAGCTCAAAATCGCCGACGTAAAAGCCGACGATGACCTCACCTTGCTC GGCCAAACCCTCGTCCTCACCGGCTGGGTCCGCACTCTTCGTCCTCAAGCCACCGTCACATTCCTTGAGGTCAATTCAAC CCCCTCTCTCTCTCTCTCTCAGATTTTGTTTATAGTTAACCTAATGTGCATTGCATTTGAATTTGAATTTTGAATTCGAT TCGTGCTTATATGGAAATGAATTTGTGTTTCTGATTGAGCTATGTGTTTGTTTGTTTAGATTAACGATGGATCGTGCCTT TCTAACATGCAATGCGTGTTGGACCCTGAGGTTGAAGGTTATGATCAGGTGTGCTTTTTGTTTTGTTGGCTTTCTTATTG TTGTTATATGGGAAGAAATTATTGATTCTGTGTCTGTGTTTAACTTCTGGAGCTTATTGTTTAGGTAGGCTTGATTACCA CTGGTGCCTCTGTATGGGTGCAAGGAGTTGTCGTGGAGAGCCAGGGAGCGAAACAGAAAGTGGAATTGAAGGTTAAAAAG ATCGTGCTGGTTAGTTCTCTATACAAAGTTTCATCACTTTGTACTCTTATAAGATATGAGCACTTTGTTCGGTTTGCCTA GCTGGTTGGTTACTTCATAAATTTGTATAGGCACTTATATGGTATTGTAGCTTCCATTTGATGTCTTCACATTTCAAACC TTGATGATGTGCATGATTGTAAGTAAAAGTGCCGGCAGTCTCACTTGGCTACATGCATAAGAAAGAGCTTGCTCTTGTCT TTCATTGCTGCTTATGAAAATATACGCTGTAAGGGTATATATTAAATCAGTTCAATCATTCATTATACATACATTGTTTG ATTTATCATTGAACCTGAGTCGTTAGTGTAAAATGTCATTTAGACCTCTAACTTCCTTTTTTTCATCCCTTATGCTTTGC TTGGTTTTTGGTTTGATCAATGAAGGGAAAATGCCTCATGATTGAAAGTAGCTGTATTGCAGCAAATAAGTGTACTTGAT TTTATTTTTCTTCTTTTATGGTCCTGTCATTAGATCTCATAGCCTCTAAAATCTGGTCCGACATGTTCAGGTTGGCAAGA GTGATCCTTCCTTTCCCATCCAAAAGAAAAGAGTTAGCAATGAATTCCTGAGAACAAAAGCACATCTTCGTCCGAGGACA AATACTTTTGGTGCAGTATGGTTTCCTTTATTAGCATATTTATACATTCCTGCTTACACCTTTACTTCATTATGTGAAAG GAACGATTCGTTAATCTGCTATACCGTAAATATTTTATCTGTCTTGATATTCTTATAATATTTTTGTTTTTCATCATTCC TACCACTATCATCTGATGCCAATTCTAGATGATTAAATGTGCAGCTGCTTTCTTCTCATTCATTGTTTAACATTTTATTT ACAAGCAAGTATGGAGATATCTCCATAATTTGATGCATTCAGTTACTGTTGGGATTTGGCTGTGTTAATTGCATGCTTCA TGTGAGAAAATCTGAGTCTGACCTAATTAACTTTAGCGTTTTGTTTGGTCTTGTTACCCCAAATTACTGTCACAGATTAA ATAAAGAAATTTCTTCATTTAAATGAACAGTATTTAAAATTTTGTATGGACATAACATATTATGGCTTAGTAATCTGAAC AAACAATTAGTAAAAACAGGTTCGGTTACTCCCATGGATGTTATTTTTGTTCTGCTGTAAGCGTCTCTTGAACTAGTAGG AGGTCTATAGATTGGTTAATAAATTCTGAAAGACCAGTGTATCAATTAAATCCAGCGTAGCTACTTTGTGGCTTTTGCAT TTGATCAACCTAGTAGACACTAGACACTCAACCAGTTTATAGCTTCGTCATAGGTTGAGGATCCACAACAACCTTTTTCC GGTATATATAGTTGGTTTCATAAACAAGAGATGGCACAATGTGCCATTGTGAATAATGTTTAAAGATAGATCATTTGAAT CTAAATTCTTCTTAATAGTTTGACTTATCGTTTTTCTTGGTCTCTTTCTACCTCAATAATTCAACTATCCTCTATCTTAT CTACTCTTCTTATTGGGGTCTCAATAGGTCTTCTCTAGCATATGCTCAAACAACCTAAGATGAAATTGTACCATATTTTC TACTATTGGTCCTATCCTAACTCTCTCCCTCTCATGCATTCATCCTAATCCATTAATCCTATCTTGCCTTGTGTGTTTCA CTCATCCATCGTAATGTTCTCATCAACATTGATTTTTTTTTTCTTGCTGACTCTTTGCAACCCAATAGTCGTTCCTATAC CTCATGACTGGTCTTGTAGTTGTGTGGCAAAATTTTCCCTTTGCTTGAATCCTATTGTTTACATGTCTCTTTATTCCTGT TATACTTAATCCTTATAGGCTGAATAACTTCCTATTCCAATTAATTTTCTAAGCATGCAGCATATTCATATAGGAATGCT TTGGAATGAACTTTTTTTGTTACTTCTGCGAATTCCTTCCTGATTAAATATGATGTTTTGGTTTACTTTTTTTGCTAAAA TGTTTTGATGTACTTGTTTTTGCTAAAATTCTAACATGTGGATTAGTTCATTTCCGTTACTATTTTGCAAAATTTTCCCT TTGCTTGAATCCTATTGTTTACATGTCTCTTTATTCCTGTTATACTTAATCCTTATAGGCTGAATAACTTCCTATTCCAA TTAATTTTCTAAGCATGCAGCATATTCATATAGGAATGCTTTGGAATGAACTTTTTTTGTTACTTCTGCGAATTCCTTCC TGATTAAATATGATGTTTTGGTTTGCTTTTTTTGCTAAAATGTTTTGATGTACTTTTTTTGCTAAAATTCTAACATGTGG ATTAGTTGATTTCCGTTACTATCTTCTAGTCGGAAATAATATTTGTTCACTATTTGCCTTTTCTTTTAATGGTGCAAACT GCTTTCAGGTTGCAAGAGTAAGGAATGCATTGGCCTATGCTACGCACAAGTTCTTCCAAGAAAATGGGTTTGTATGGGTC TCAAGTCCTATTATAACAGCTTCAGATTGTGAGGGAGCGGGTGAACAGTTTTGCGTTACTACATTGGTATTACATTCCCA TAGATACTTCATATTTTATGAATATTTTTATCAAATCCTATGTTATTGATGCACTTTGAATACTGAAGGGCATGATTCTC CCACTCTTTATTCATGCCCCACCAAGAAAATCTCGTAATAGGATTCTTGTTACAGAACCCTGCTTGTTAGAAGTACTATG GAATAGACCAGAAAAGACCCATGCAAAAAAAGTAGAGCAACCTAAAAATTAGGTAAAGATGTTACATCATTAGGCTGTGA AGCAGAAGAGGACCTCTGCGGATGTTGCTCTTTGGATTTTTGAGATACAGTGTTTAATTATTGTTAATTTATAACAAAAA TAACAACAACCAAGTCTTATCTCGTGAACTGGTATCAAGTAAATGGATCAATCAAATGTCATTGAACTCTATTGAAAACA ATTTTTTAGTAAGACTATTTGTACCAGCTACCAAAGCCTTTCTTATTTTTTCCTATTTCTTTGATGTAATCAGCCTTGTC TGAAAAATATTGTTAATAGTTCTAAGAATTAAAGATCAACAAATCTTATGCAGACGTCATTTATTGAATTCTTTATTCAT ATACTTTCTGTGAACTGTAACTTTTTGACGAATTTCGTCCCTCAACAAAAGAAGCTAGCTTCCATAATTAAGAATTGGTG CAAGGACAGTGCTATAAGTTCGTCTTAGTATTCACTCTTCACTCTGCTTTTTTCGGTCTTATTATGCATTCCATTTTAGG TTTTTATCCCTTCGATTTGCAGATACCAAGTTCTCACGAATCTGCTGATTCTCCTATTGATGCTATTCCAAAAATAAATG ACAAATTAATTGACTGGTCACAAGTGAGTCAATTCATGTCTTACTCTTGATATCAGTTTTATGTGCTTCAATAAGGGTGC ATTGTTGTTTATTACTACATATACTAAGTTACTAACTTGAACCATTCTTTGCATCAGGACTTTTTTGGAAAACCAGCATT CTTGACTGTTTCAGGTCAACTCAATGCAGAAACTTATGCTACTGCTCTTTCTGATGTACATACATCATCTTCTCTCTCTC TCTCTCTCTCTCTATTTTTTACTTTTTGTGATTGTTTCTGTCTTCTTTAATATCTTGCACGGTAAAGTATATTTTTAGTC TCTATAAAATGGTCAATATTTGGTTTTAGTCCCTGATTTTTAAAACGCCACATTTTGATCCCTTGTTTTTTGAATTGGAA GTTTCACTCTAGTCATCGGCGTATACTTTTTTTATTCATTTTTTGGGTTTAGTACAAATTGATGTGTTGGATAGCTGTTA ATGCCAAGGACTAAGGTGAAACTATTTCATAAAATAAGGGACCAAAATGGGGCATTTTTTAAAAAGTCAAGGACTAAAAA CATAACAATTTCACTAAGACTAAAAACATACTTTATCCAATCTAAAATTTCAGATATGGCAATTAAAATAAACTTTGAAT CCTACACCCTTGCAGGTCTATACATTTGGTCCCACATTCCGAGCCGAAAATTCCAACACCTCTAGGCACTTGGCTGAATT TTGGGTCAGTGGTTACTGTTTGTAGTGTTCAATTTGATTAAATAGGAAGTCAGAGTATATATTATTTTTTGTTTCTAAGC TTCTGAGTATTTCTTAGTTGTCATTATTATGAATGTATAATGAAACAAGAATCAAAAGAGAGGTATCTTATTTTACTTCA GATGATTGAACCAGAGCTTGCATTTGCTGATCTAAATGATGACATGGCTTGTGCGACTGCCTATCTCCAGTTTGTAGTAT GTTACCTCTACAACTACTATAAAGTTGCCATGGTCTTCTGATTATTTTCCAAAACTCTATTTTATATTATTTCTTCATGT TAAAAAGCCTATGCTGTATTTGTTTCTTGAAGATAAGATATATTCTCGATAACTGCAAGGAAGACATGGAGTTTTTCAAT ACATGGACTGATAAAGGAATCATTGATCGCTTGAGTGTATGAGCTCTCAGTGTAACCATCATCTTACTGTCCTTTAATAC CTATAAATGTTGATTCTAATTACTGGTGTGCTCTTTTTTGTGTCTATTATTTTGTTGTCAATATATGAAAAGGATGTAGC AGATAAAGATGTTTTGCAAATAACGTACACCGAAGCAATAGATCTACTATCTCAAGCAAAGAAGAAGTTCGAATTCCCGG TAACTCAACAACTTTTTTCTCTTTTTTTTTTTTCGTTTTGCAATTGTTATGAATCAACTATCCTAAAAGTTTAAACTATT ATGTGAAGACACATAAATATTTTTATATTATATTTCTAACATGCTTCTTCACATAAGAGCATATTGGCCTTAATTTGTTG GGCAACCATGTTGCAAGCATTGTCAGTTCTTCACCAGATGCCAAATTGGCTATTGTGTGGACAATGTGACCTGTCTTTTG TTGAATTTCAACCCTTTTTTTATTAGAATAATGAGGCAATAAGAATTGAACTCTATTCCACTTGGTCATAGACGAATAAA CTATCCTAAATTGTTGGGTGAAACACATGAATAGTTTTCTATTATATTTCTATTAACAATAATCCTATTCATCCTGCACT TAGTTTTGTATAATAGGTTTTTTAGCTTTGTTTTGCATTTGCTTATTGCCACCAAGTTCCTTAACTGCTTGAGGATAGTC CACTCTAGATCACAAGTAATAAAGATAAATAGCAAATGAAAGGGTAATCATCTGGAGTAGTTTGTCATGAAGATTGTCCA CAACCTAAATATTGCTTATCATCATAAAGATAAATCTTGTGATAAATTTTAAATATTTCTGATCAGTTAGTGCATCTGCT ATTACTATTTATGCTTTCGATATGCTTGGTGGCCTTTAGCACCTTGTGGCACATGATGTTAATTACATTTTGCTTTAGTT GAACATTGAACATTATGTGCATAAGCTAGCTTGTTCCATTGAAACAGAGGCTTTTCCCTGTCCAGTTCTAGTTGGCATTT ATTCTAGTCTGTCATCTGCTACATTATTTTTAATTTTTCCAATGCTATTCATTAATCCATGTAACAGCCCCCCCCCCCCC CCAATCTAATAACAACAGGTTGTCATTATTATATTAACTTTATAATTTATATTTTAAGGTTGCTTCCAAATTGTTTGTAT TTGACATATTATTCTACTTGGTGCCATAGGTGAAATGGGGTTGTGACCTGCAGAGTGAGCATGAGCGTTATATAACTGAG GAGGCATTTGATGGATGCCCTGTTATAATCAGAGACTATCCAAAGGTATGCTACTTTTTCCCCTCATTTTCAAGTCATCA CTAATGTTCAGTAATCCAGTTCACGACAACATATGGAAAACAATAGAGGATTTTTTTTGAAAAGCCAAGAATATTATTAA AGAAGCACAAGGGGTGCTTCAGCCTCACAAAGTTGTACACCATATATTTACTGGAAAACAATAGAGGATGGCTTTGTAAA AATCTTTTAAATGGATGACAATTTCAATGAAAGAATAAGAACACTCGACCTTGGTAGCAAGCTGTAAAACCTTCCCAAGT TTGAGAGAAATGGCTGAGAAATAGAGCAGTGGTAACATACTAGCATTCTTTTGAACTTATTTTCTTCTGCTTACATTTAT GCCCCTCTCCATTAAAATCTCTGTTTTCCCCTCCCTCTTTAAAAAATCTAAAAAAAAAAAAACTGAAAATTCGTTCTCTG TTTTGTCATATTTTCATGTCTAAGGAATAAAAGTTACGTAAAGGTCACCACACCAGTGATTACTTAAAAAAGTCACATGG TATTATTCAATGGTCAAGATTTAATTATGCCACAGACTCTCTCTCTCTCTCCCTTATGCATTTCACTCACTCACTGTTCA CATACACACTGCAGAGAGAGATGAACCAAATATACTGAAGTTGTTTTAAGTTTTAACCATTTCAGGATATTAAGGCATTC TATATGCGACAGAATGATGATGGAAAAACAGTTGCAGCTATGGACATGTTGGTTCCAAAGGTAATTTATGGGATATCACT TTTTATTCATTATTGCCTTCAATTAGTGTTTGTGAGAATGAGTAGCATATTCTCAGTACTCCTATCCAAAAGGGTAGTGG TTTAGTTTTGGTAATACCTGAAAAAAAGAAGAGAGCCTGCCTTGTGTCTTATAATGTTATTCAGCTGGGGCCTGGGATGA TATTCTGGTGGATAACATGGGATATCTTCTAAAATATATAGCCTAATATCCTCGGCTGGTGAAGCTTTGTGATTATATAC ATGTACTGTACTATGTTTTTGGACAACACAAAACTATGCATGTGTCCTAATGATTTATTGTCTGTGTTAGATTGGTGAAC TTATTGGCGGAAGCCAAAGAGAAGAAAGGCTTGAACATCTAGAAGCTCGTTTAGATGATTTAAAGCTGAATAAGGATGCA TATTGGTGGTATCTTGATTTGCGTCGTTATGGTACAGGTCAGATGTCTCTCTCTCTTTACCCTCTTTCCTCAAGTTACCC ATAGTCATATTATTAACCTAACTGTTAAGGAGTTAAAGTTAAACATTTTTAAAATAATAGATCCCCCCATTGTCATGTCA TAACTTTTTGCATGATTTCTGCATATATGCTGAACTCATGCAACGAAACTGATCTCTTGTGGAGGCAAATTTGAAGTATT ATTGACTTTACTGAAGAAAACAGATCATGTGCATATGGCATATGCTACCTCTCTACTCAATAAATCTTCGTGTATTTTTT TTTTCGGGTTATAAAACACAGTTTTATTTTTAAGGAAAGAGGAAACACAACCATCAAGGATAGTTAGCCACACGTCCACA GTGAAAAGCCTAAATAAAATTTGCTGTTTTTATCAAACTTGGTTAACGGAACACACTCATTTCTCCCTTTTAACGTTTTT TTCATTGGAAAGTGGGATTTGTCTTTCCAATGTATGGTAACTGAGTTTTGGAGTTAAACCAAACGCTCACTTAATTACTA GCTTCGTGCGATTGTTTGTTTGGCGCCGTAATTTGCAATGTTAAACTCTTTATTTAATATATGAGAGATTGGTGATTTAC TCTCCTTTGTACTGGTCTATTGTTGAATGCAGTACCTCATGCGGGCTTTGGTTTGGGGTTTGAAAGACTCGTTCAGTTCG CAACAGGAATGGACAATATAAGGGACGTGAGTCCTTTTCCTCGAGCACCTGGTTCAGCTGAGTTTTAGATCTTGAAGAAA TATGGATTGATCCACATTCTTTTTTACTATTCAAAATGTCAATTTTGGGCAATCAAGTTTCCTTTTGTTTTGTTAATTTC TTTTTTAAAATTACGCTTAGGTCGAAATGATTGAGGCAACATGGTGAATTCTCCCACGTTATGTACAGCATGTGTAAAGA CTTCAGTGTGCGAAATTACGCATTAAACTTTATCGGAAGTTCATGATATATGAGATATTAAACAATGTTAGTTTGGGCCC AAATAAAAGAATATGTTTGGGTGAAAAGCGTGATTGAATACTTATAACAATCAGTACTAGTGTTTATTTGTAAGCTAATT TGACATACTTTTGAAAATAAGTTAAAAATAAAAGCAGGTGATGAATTATTTCCACAAGTTTGAACAAAGATTTGCATAAG TGCTTATATATTATAAGATGAACTTAAATAAGCTCTTTTAAATGTAAATTAATCAATAGTTGCAATTTTCAGTAATGCAC GCCCCAAAAGAAATTAGATCGCAAGTAGATGTAAAATTGGACCCAAAGATGTAGCTAAACAAAATAATTCCACGCGGAAC TAGGGATGGCAA
CDS sequence (LotjaGi4g1v0203000.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGTGGCGTTGCCATAGCAACAAGGCCGTTCCGTCTAATCAAACCTTACACAGCAGCACTCGCTTATCTCTCACTACA CACCACATCCAAACCTCCCTCTCTCCGCCCCAATCCACCTCCCCCCTTCTCCTCCCGCCGCCGCCTCTTCTGCGCCGCAA CTCTCCCCTCCGCCGACCACAAGGTTTCCAAATTCCGCAAGAAGCTCAAAATCGCCGACGTAAAAGCCGACGATGACCTC ACCTTGCTCGGCCAAACCCTCGTCCTCACCGGCTGGGTCCGCACTCTTCGTCCTCAAGCCACCGTCACATTCCTTGAGAT TAACGATGGATCGTGCCTTTCTAACATGCAATGCGTGTTGGACCCTGAGGTTGAAGGTTATGATCAGGTAGGCTTGATTA CCACTGGTGCCTCTGTATGGGTGCAAGGAGTTGTCGTGGAGAGCCAGGGAGCGAAACAGAAAGTGGAATTGAAGGTTAAA AAGATCGTGCTGGTTGGCAAGAGTGATCCTTCCTTTCCCATCCAAAAGAAAAGAGTTAGCAATGAATTCCTGAGAACAAA AGCACATCTTCGTCCGAGGACAAATACTTTTGGTGCAGTTGCAAGAGTAAGGAATGCATTGGCCTATGCTACGCACAAGT TCTTCCAAGAAAATGGGTTTGTATGGGTCTCAAGTCCTATTATAACAGCTTCAGATTGTGAGGGAGCGGGTGAACAGTTT TGCGTTACTACATTGATACCAAGTTCTCACGAATCTGCTGATTCTCCTATTGATGCTATTCCAAAAATAAATGACAAATT AATTGACTGGTCACAAGACTTTTTTGGAAAACCAGCATTCTTGACTGTTTCAGGTCAACTCAATGCAGAAACTTATGCTA CTGCTCTTTCTGATGTCTATACATTTGGTCCCACATTCCGAGCCGAAAATTCCAACACCTCTAGGCACTTGGCTGAATTT TGGATGATTGAACCAGAGCTTGCATTTGCTGATCTAAATGATGACATGGCTTGTGCGACTGCCTATCTCCAGTTTGTAAT AAGATATATTCTCGATAACTGCAAGGAAGACATGGAGTTTTTCAATACATGGACTGATAAAGGAATCATTGATCGCTTGA GTGATGTAGCAGATAAAGATGTTTTGCAAATAACGTACACCGAAGCAATAGATCTACTATCTCAAGCAAAGAAGAAGTTC GAATTCCCGGTGAAATGGGGTTGTGACCTGCAGAGTGAGCATGAGCGTTATATAACTGAGGAGGCATTTGATGGATGCCC TGTTATAATCAGAGACTATCCAAAGGATATTAAGGCATTCTATATGCGACAGAATGATGATGGAAAAACAGTTGCAGCTA TGGACATGTTGGTTCCAAAGATTGGTGAACTTATTGGCGGAAGCCAAAGAGAAGAAAGGCTTGAACATCTAGAAGCTCGT TTAGATGATTTAAAGCTGAATAAGGATGCATATTGGTGGTATCTTGATTTGCGTCGTTATGGTACAGTACCTCATGCGGG CTTTGGTTTGGGGTTTGAAAGACTCGTTCAGTTCGCAACAGGAATGGACAATATAAGGGACGTGAGTCCTTTTCCTCGAG CACCTGGTTCAGCTGAGTTTTAG
Protein sequence (LotjaGi4g1v0203000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGGVAIATRPFRLIKPYTAALAYLSLHTTSKPPSLRPNPPPPFSSRRRLFCAATLPSADHKVSKFRKKLKIADVKADDDL TLLGQTLVLTGWVRTLRPQATVTFLEINDGSCLSNMQCVLDPEVEGYDQVGLITTGASVWVQGVVVESQGAKQKVELKVK KIVLVGKSDPSFPIQKKRVSNEFLRTKAHLRPRTNTFGAVARVRNALAYATHKFFQENGFVWVSSPIITASDCEGAGEQF CVTTLIPSSHESADSPIDAIPKINDKLIDWSQDFFGKPAFLTVSGQLNAETYATALSDVYTFGPTFRAENSNTSRHLAEF WMIEPELAFADLNDDMACATAYLQFVIRYILDNCKEDMEFFNTWTDKGIIDRLSDVADKDVLQITYTEAIDLLSQAKKKF EFPVKWGCDLQSEHERYITEEAFDGCPVIIRDYPKDIKAFYMRQNDDGKTVAAMDMLVPKIGELIGGSQREERLEHLEAR LDDLKLNKDAYWWYLDLRRYGTVPHAGFGLGFERLVQFATGMDNIRDVSPFPRAPGSAEF
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 | 54 | 171 | 118 | 6.1E-19 | – | |
| PANTHER | 60 | 540 | 481 | 1.8E-220 | – | |
| PANTHER | 60 | 540 | 481 | 1.8E-220 | – | |
| Hamap | 72 | 540 | 469 | 44.02 | ||
| SUPERFAMILY | 81 | 169 | 89 | 1.05E-16 | ||
| TIGRFAM | 83 | 540 | 458 | 6.0E-186 | ||
| CDD | 86 | 167 | 82 | 6.44568E-34 | – | |
| SUPERFAMILY | 164 | 538 | 375 | 7.35E-94 | – | |
| CDD | 178 | 536 | 359 | 1.58279E-151 | – | |
| Pfam | 181 | 533 | 353 | 1.6E-77 | ||
| ProSiteProfiles | 202 | 530 | 329 | 15.942 | ||
| PRINTS | 281 | 293 | 13 | 2.4E-14 | ||
| PRINTS | 297 | 310 | 14 | 2.4E-14 | ||
| PRINTS | 455 | 471 | 17 | 2.4E-14 | ||
| Coils | 467 | 487 | 21 | - | – | |
| PRINTS | 495 | 509 | 15 | 2.4E-14 |
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 | Asparagine-tRNA ligase activity | Catalysis of the reaction: L-asparagine + ATP + tRNA(Asn) = AMP + Asn-tRNA(Asn) + diphosphate + 2 H(+). | ||
| Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
| 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 | Asparaginyl-tRNA aminoacylation | The process of coupling asparagine to asparaginyl-tRNA, catalyzed by asparaginyl-tRNA synthetase. The asparaginyl-tRNA synthetase is a class-II synthetase. The activated amino acid is transferred to the 3'-OH group of an asparagine-accetping tRNA. |
Expression pattern of LotjaGi4g1v0203000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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