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Field | Value |
---|---|
Gene ID | LotjaGi4g1v0011900 |
Transcript ID | LotjaGi4g1v0011900.3 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Leucine--tRNA ligase; TAIR: AT4G04350.1 tRNA synthetase class I (I, L, M and V) family protein; Swiss-Prot: sp|Q9XEA0|SYLM_ARATH Leucine--tRNA ligase, chloroplastic/mitochondrial; TrEMBL-Plants: tr|I1KNG6|I1KNG6_SOYBN Uncharacterized protein; Found in the gene: LotjaGi4g1v0011900 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:1489472..1497241) extracted from Lotus japonicus Gifu genome v1.2.
CTTCTGCACCACCATCTCCATTTTCTCTCACTACACTCTTCTTCTTCTTCCTCAACTGCACCACAATCACCATTCCCCTT CCTCTCTATAACCAGGATTCGAAGACCTTCTTCTTCTTCTTCTCTCCGATTCCGCACTCGTCGATGCAGCATCACCACCA GCAGCAGCGTCACGAACGAACCGGAGCAGCAGAAGCTTCCGGTTACTAGGGCTTACCCATTCAATGAAATTGAGCCCAAG TGGCAGCGCTTTTGGGACCAACACCGCACTTTTCGAACCCCTGACGACGATGAACTCGACATGTCAAAACCCAAATTCTA CGTTCTCGACATGTTTCCTTACCCTAGGTTTTCAATTCAACTAAGCTTGCTTGCATTTTAGTTTAGTAATTTTTGTTGTT GTTATGATTCATGTGAATTGAATTGAATTGGTTGGTTTTTTCACAGTGGAGCTGGGTTGCATGTTGGTCATCCACTTGGG TACACTGCCACTGACATTCTCGCCAGATATAAACGTATGCAGGGGTATAACGTGTTGCATCCAATGGGGTGGGATGCTTT CGGATTGCCAGCAGAACAATATGCTATTGAGGTCTGTTTACTGCTTGTCTTATGATCACTGATTTCCGTGGATTTTTAGT CTTTTGGAATTTCATCATAGCTTTGTTTTGATAATATGTTATGCTGCTCTGTGTTTCAGACGGGAACTCACCCAAAGCTC ACTACTGTGAGGAATATCAATCGTTTTCGATCTCAGGTAAACAGATTATGAGATGCTTTTACTCTAATGGCACATTAGTA ATGGTTTTGTTCAATTATTAGATTATTACAGATATCTGAGAGTTACAGTTTGCTGCTGATTTTAAGTCTGTAAAGAATGT TCTGTTGAACTTATGTAGCTAATTTTGATCCATTTGAAGATCTTAACGCTTTAGATTAGCCGTGTTCTTTAAGCGTGAAT AATTCAATTAATAGTTTTATGGAAAAGGATCTGATTCTGAACATTGGAATTTGGGGCGTTGGTTTCGGGGATAAGCTTCA AAACAATCAGCACACCTATCTTTGGTACTACAGTTAAGGATTTATGTATTACAATTTATTTAATCACATAACTGAGTTAA ACAAGGCTTATTTGATTTTTTTGCTAATTTAAATAAGAAGTTATTTAATGGCCTCATCTTGATTTAAGAAAAGCTTCCCA TAACCTTGATATGGTGTTTGCCACAACATATACATGCCTTGCTTAGGTGCATTACCATTGGTTTTTGGTGCTGAAAGACC AGAATTTGCATCCTCATCATCTTCAGCTCAAGCCTTAAAATTGCTCGTTTCGCCTTCATTTTATATTTTCTTATGTCTTT GCAGTTAAAATCATTAGGATTCTCATATGACTGGGATCGTGAAATCTCTACCATAGAACCTGATTATTACAAATGGACTC AGTGGATCTTTCTACAACTTTTCAAGAGAGGATTGGCATATCAGGTTGAGTATATGTATGATAATGCTTTGAAGTTTTGC TCATTTCATTTAATTCTTAAGTATTGAAGATCTTATGGTCTTCTTGACTTCTTATATGAAACTCAGGCTGAAGTTCCAGT TAATTGGTGCCCTGCACTTGGCACCGTGTTGGCCAATGAGGAGGTGATTGATGGTGTCAGTGAACGGGGTGGTCATCCTG TAGTAAGAAAGGTATACTCATTTGTATATTTATTTCTTTCTTGATTTGCATTTTTGGGTGGTTTTTCTCTTATATATTTT TGAATGGTTTCATAATCTTTACAGTGTCGTTGTTTATTACCAAGCAGCCAATGAGGCAATGGATGCTCAAGATTACTGCA TATGCTGACCGTCTTCTCGAGGATTTAGACGACCTCGACTGGCCTGAAAGTGTAAAAGAAATGCAGAGAAATTGGATAGG GAGGTCAGAAGGGGCTGAGATGGAATTTTGCATTCTTGATAATGATGGAAAAGAGAGAGACATAAATATTATTGTGTATA CTACAAGGCCTGATACGATCTTTGGAGCAACGTATTTATCTATTCAATTTTTTTAATATATTTCATAAATTTAATGAATC AGATGAACTACTCTTGAAAGAAAGTCTATACCAGTTTCCTGTTTGCTTTGTCTGTGTTCAGCTACTTAGTTGTGGCTCCA GAGCATCCCTTGCTATTATCATTGGTTTCAGTTGCCCAGAGCAAACAAGTAAGTTATTCTGTTCCATTGCTTAATTTATT GGAAGGCTTTTCATCCTGAGTGATGATTGATAAGGAGATGGTGAATCTTATGGCTTTTTATTACAGGTAGAAGATTATGT AGACCTTGCCTCAAGAAAGAGTGACCTTGAAAGGACTGAGCTTCAGAAGGAAAAGACCGGGGTCTTTACTGGTTGTTATG CAAAAAATCCAGCGAATGGGGAAGCCATTCCAATATGGGTGGCAGATTATGTTTTGGGGAGGTGTGTACTCAAGTATAGC CTAGAATGCAGATTGGATTCATTCCAAATATTGGTTGCTCCATATGCAATGAGCGAAATATCTATGGGGTGTAGAATGAT ACTTCAAATGTTTATATGACACCAATTTTTTTTGTTACTTTTGCAGTTACGGAACAGGAGCAATCATGGCTGTACCTGCT CATGATTCTCGTGATTATGAATTTGCCTTGAAATATGATGTTCCAGTTCGCTGGGTTGTGTTGCCAGACGGCAAAAGTGT GAACGAATCTGGGAAGGCCTTTCCAGGTGAAGGCATTATTGTAAATTCATCAAATAAGTTGGTGGGGCTTGACATTAATG GCTTGTCTAGCAAAGAAGCTGCTTTAAAGGTCATTAAGTGGGCAGAGAAAAGTGGAAATGGAAAGAGGAAGGTTCATATC TTAAATTAGAATAAGCTTATTTATTTTATTGGAATTTTTTTCTGGTTTGTATAATATAAAATTCAATGTTCAACATTCAG GTGAACTACAAGTTAAGGGACTGGCTTTTTGCTCGGCAACGCTACTGGGGGGAACCTATCCCTGTCATTTTCTTGGATGA CAGTGGTGAAACTATCCCATTGTCTGAGACTGAACTGCCTATCATTCTACCTGAATTGGATGATTTTTCTCCCTCAGGAA CAGGAGAGCCTCCTCTGTCTAAGGCAGTGTCTTGGGTGAGTTTATACTGATATATGCTTTTCTTTCTTATGTTTTTATCA AGCTATCATGCGTTTGATACTCAATCATCATCTCTTTGGCATTAGAACAAATGTAAATGGTTCATAAAAATCTTGTGTTA AATTTTCCATAAATAAAAACATTGTCACTGAACTTGATTTGACTGGCCAATCAGACCCTTTGTTGTTATACATTAACCAG TAACTGAAAGGACTATGTGATGACAGGATAATGTATCGGTTCATTAATCATTGACTTATATGGGTAGATTATTGTTTTCA TGCAAGTGGCATTATGTGGAGAAATCTAGGCATTGAAAATTTTCTAGTTTTAAGCAGCTTCGAAGGAACTTCTGTACATT CTGTAGAATCTTGTCACAGGAATGGAAGCTACTTATAATCACACGACTCACACCATTCCTCGTGAATAATGCTCAATACG TACATGAGTTTCTTTGAAGTTGTACTTGTCTTCTTATATATAGCCTACATATTTTTTTTCTGATTTGGAAGATTCTGCTT CTATTATTTCATATTTTCTTACTGCATAAGCTGCATAACAAAAAATCAAGGTTCTAAATTTAAAAGAAAACATAAAGGCC TGTAATGGGGTTTTACTCTCTTGAAAATTTAATGTAGCACAAAATCCTTTTTACACTTGCCAAATATGTAATAAGCTATC TTACTTACATAATTCTAAATGTTCTGTTTGTGTTTTGTTATATTGCCTTTTTCCTGGACTTTTTTTTTCTCTAATTTCTT GGCTTGTACCACTGTTTTAGGTGAAGACCACTGATAGTTTATCTGGAAGACCAGCTACTCGCGAAACAAATACCATGCCA CAGTGGGCTGGTTCATGCTGGTAAGGTGTTTGGGAAGATTTTAAATGTTATTAGACTTATTAGTAAGCACTAAGCCATGT TTGTTGGCAAAGTTTAGTAGTTGTGTTGTCTTGATTCAGTATTTTTATGCAATAGATACAGTCATACAGATGAATGGTTA AAATAATGTGTGCAGATGCCACTTTTTCTGTTATCCTGCACAGGTATTATTTGAGATTTATGGACCCAAATAATTCCAAA GAATTGGTTGATAAGACAAAAGAAAGGTATTGCTTCAACTAATCTGTCTTTGTTTTCATTCATTATCCATTTTCTGCTAG TTTCTTGTATTTAACTTCCACAATTTCTAAATGATTTAATTTCCTAGCTTTGAAATTTTTCTTCTCCTTCAGGTATTGGG GCCCTGTTGATGTGTATGTTGGTGGTGCTGAGCATGCAGTTCTCCATTTACTGTATGCTAGGTTCTGGCACAAGGTCTGT ACTAAATGTCGGTCTCAGTCTGGAACTAGTTGATCTGTGGTTTGTTTCACTCTAAGTTGTGAATTTAACCTTCATGTGAA ATCGCTTGTCATTTCTATCAACAATTCGAAAAGTATGTGAGCGAGTAGTGCTCAGTTCAATTAATATACTCATTAAAGAA AATGAAATAATCATTTCATAAGTTAAGTAAATAATTATCAACATGGTTGATTGTTGACAGAAGGACTGGGAAATCCAATC CACCAATTAAGGATTGAAATGAGTTCAATAAGGCATCAAATACCCTATAAGTCTATAACATGGTGTTAGTGTTTCTATAA GATTTGTCCACATTTAATTCGAGTTTTTTTTCTCAGGTCCTCTTTGATATTGGTGTTGTGTCCACCAAGGAGCCCTTCCA ATGTGTAATCAATCAGGGGATTATCCTTGGGGAGGTAATTTCAATTCTTACCCCTGAAAATTAGGTGGGAAAATAACTAA TCATCTCTAGTTTCTAATGGCTTGTATGACAGGTCCAATATATGGCTTATCGGGATCAAGATGGGAATCTGATATCTGCT GAATTGACTGATATGTTGAATGAACACAGTCTAGAAAAAATTCCTGAGGAAAAGGTTTCTCAATTAAGTTTCTGCTTTCT CAATGCGTTCTTTATCAGTTAATTAAGTTATTGAACCTATGATTTCATTTTTCTTGACATTATTAAATTTTTCCTCGAGT GTAGGTCATGAAATCTGGGGACTATTTTGTCCTAAAAGAAAATCCTGACATGCGTGTAGTTGCCCGCACCCACAAAATGA GTAAAAGTAGGGGAAATGTTGTGAACCCCGATGATGTTATTTCTGAGTATGGGGCAGATTCTCTTCGTTTATATGAAATG TTCATGGGACCATTGAGGTAGGTTTGACCACAGACCTTATTTGTGGTATTTTGTAATGATTTGTCCTTAATAAAAAACTA CTTTCTGTTTTTCCCTTTTTTCCTTTTCATTTGTTTAAGGTGAAGCGAGGAGAGGAGGGGATATGAAGTTGTGGATTTTC TTCTAATAAGAACTTTAAACCTTACATCATGTTTTCTGCTTGATTTTTCGTAACTTGCTTGCAGAGACTCGAAAACATGG AGTACTGGTGGCATTGAAGGTGTATATCGGTTTTTAGGAAGAACATGGAGGCTGATTGTTGGTTCACCTTTGTCTGATGG CACTTTTAATGATAGAACTGTATCAGTTGATGAGGAGCCTACTATGGAACAGCTTCGTTGTCTTCATAAATGCATCGCTA AGGTCAATAACTCAATTTTTGATCAAATTTTTGTAATTTCCGTTTTGTGACTGACTCACAGTTTGAGGCAGTTGAGCTAA GAATTTAATTTCAGTATTCAGGTGACAGAGGAAATCGAGGGCACAAGGTTTAACACTGGAATTTCTGCTATGATGGAGTT CCTTAATGCGGCATATAAGGTATTTTTCCGTTTCCTACTTTCATTATTTCAATAAGGAAAAAGAGAAACAGTTGGGGTGG GAAGTTCAGTTGACATTTGATGTGGTAAAGAATGAATTATTCCAATCCGTTGCAATATTTTGATGTATGCTGCACTTTAC ACAGGAATAAAAAAGAAAAGTTACTCAATAACAATATTACCTTCACCTAGCAGTTAATAATCATAATGGTAATAGTGGGG ATGGTGGTGATGTTGGCATTGGCAGCGGGATTAGTGGACGGTTGTATGGTGTTTGATATAGCCAAGGGGGCAGGTCTTGT GGAATGAATGTTTTATTTAAGGAATGGCCTTCAAATCTGGAATGACCATTCCTTCCAGTTTGTAGTGATATTATCTTATT TTGGGGGAGTGACTGATTTATTTGAATAGCTGCTACAGTCCACACTCCACATTTTCATCTTATTTATGTCCCATTTCCAT TCCTTATATACCCAGATTCTAGAAAACCAATGCCACCATAGAAGACTATAAATACTTTGTTTATATGAACTCTTTTCCTC AAATGCCTATTTTGAGTGACTTTTAGCATGGTATTTAGTTTCTTTGGGATTGTTTACAGGGAGCTAGTCTTCCCAAGCAG TATCCATGAAGCTTTGAATTTTTCGTAATTACCAAGTTTCTGAAAAAATGCAGCTAGAACCTAGAATATACTATGGGGAT TAATTCATTTCATTGATTATAATAAAGTAAAATTATAAGAATGCTTCTGCATATAAATGTGCTTTATGATAAGGGATGAC ACTCTTTTATGAGTTGTGTTATTCTTACTAAAGAAAATGCTGTCTTTCCGTTCCTTATTTTTGATAGTCAAAGGGTTCCT TTTGCTTTGCCCTCTCTGTTTCTTGTTTACTTTTCTTATTAATAAGCAGTAATTTCCCCACCCACTGCTACAGAGACTCG GTATGATATCTATTTTTCTTGGCATGTATTTTCAGTGGGATAAACATCCAAAATCAGTTGTTGAGGCATTTGTTTTACTG CTTTCACCATATGCGCCGCACATGGCTGAGGAGCTATGGTCTCGGCTAGGGCACACAAAATCATTGGCCCACGAGCCTTT TCCTAAGGTATGAGTTTGGGTCCATATCATACTATTCCTAGTCTTTCATGGGTTGTCAGGTTCTGTTTCACTAATTTTCA ATTGCTTTTATCGATATAGCATTCCATCTCTAATAACCTGAAACAGATATTTCACATCCTTGTCATATTGTTTCCTACTT ACATTTCTGTGATGGAAAAGCCAATACTTAATGCCTTTGTATTATTGTTGTCAACTTCTTATGTTAAAGGTAGCATTTGG TAGCCAAGTTAGAATAGGATAACGAAACATATAGGTTCTATTTTATGATTGGTGCATGTTAAAAAACTAAACAGTGACCT TGTCTGTTACATGTTGTAATTGCAGGCAAATCCTGCTTGCCTGAAAGATTCCACAATAGTACTCCCTGTTCAGATTAATG GCAAGACAAGAGGTACCATCCAAGTTGAAGAAACGTGTACAGAGGAGGATGCTTTTGTATTAGCATCTAGGGATGAAAAG CTATCCAAGTATTTGGAGGGTCAATCTGTTAGAAAAAGAATTTATGTTCGTGGCAAGATCTTAAATGTCGTTCTGGACCG TAAAAACATAAAGGCTACTGTACAGTAACTACTTTCATACTGTGTACATTTCTACTGGAAGGAACACCCAACCTTCAATT TTTCGCTTTGCCAGTCAACTTGGTAACGGCCCTGCAACGTCTCAAAAATCAAAGCATATCTTAAGGAGGTATCATTGGCT GGAGAATTGA
CDS sequence (LotjaGi4g1v0011900.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCAAAACCCAAATTCTACGTTCTCGACATGTTTCCTTACCCTAGTGGAGCTGGGTTGCATGTTGGTCATCCACTTGG GTACACTGCCACTGACATTCTCGCCAGATATAAACGTATGCAGGGGTATAACGTGTTGCATCCAATGGGGTGGGATGCTT TCGGATTGCCAGCAGAACAATATGCTATTGAGACGGGAACTCACCCAAAGCTCACTACTGTGAGGAATATCAATCGTTTT CGATCTCAGTTAAAATCATTAGGATTCTCATATGACTGGGATCGTGAAATCTCTACCATAGAACCTGATTATTACAAATG GACTCAGTGGATCTTTCTACAACTTTTCAAGAGAGGATTGGCATATCAGGCTGAAGTTCCAGTTAATTGGTGCCCTGCAC TTGGCACCGTGTTGGCCAATGAGGAGGTGATTGATGGTGTCAGTGAACGGGGTGGTCATCCTGTAGTAAGAAAGCCAATG AGGCAATGGATGCTCAAGATTACTGCATATGCTGACCGTCTTCTCGAGGATTTAGACGACCTCGACTGGCCTGAAAGTGT AAAAGAAATGCAGAGAAATTGGATAGGGAGGTCAGAAGGGGCTGAGATGGAATTTTGCATTCTTGATAATGATGGAAAAG AGAGAGACATAAATATTATTGTGTATACTACAAGGCCTGATACGATCTTTGGAGCAACCTACTTAGTTGTGGCTCCAGAG CATCCCTTGCTATTATCATTGGTTTCAGTTGCCCAGAGCAAACAAGTAGAAGATTATGTAGACCTTGCCTCAAGAAAGAG TGACCTTGAAAGGACTGAGCTTCAGAAGGAAAAGACCGGGGTCTTTACTGGTTGTTATGCAAAAAATCCAGCGAATGGGG AAGCCATTCCAATATGGGTGGCAGATTATGTTTTGGGGAGTTACGGAACAGGAGCAATCATGGCTGTACCTGCTCATGAT TCTCGTGATTATGAATTTGCCTTGAAATATGATGTTCCAGTTCGCTGGGTTGTGTTGCCAGACGGCAAAAGTGTGAACGA ATCTGGGAAGGCCTTTCCAGGTGAAGGCATTATTGTAAATTCATCAAATAAGTTGGTGGGGCTTGACATTAATGGCTTGT CTAGCAAAGAAGCTGCTTTAAAGGTCATTAAGTGGGCAGAGAAAAGTGGAAATGGAAAGAGGAAGGTGAACTACAAGTTA AGGGACTGGCTTTTTGCTCGGCAACGCTACTGGGGGGAACCTATCCCTGTCATTTTCTTGGATGACAGTGGTGAAACTAT CCCATTGTCTGAGACTGAACTGCCTATCATTCTACCTGAATTGGATGATTTTTCTCCCTCAGGAACAGGAGAGCCTCCTC TGTCTAAGGCAGTGTCTTGGGTGAAGACCACTGATAGTTTATCTGGAAGACCAGCTACTCGCGAAACAAATACCATGCCA CAGTGGGCTGGTTCATGCTGGTATTATTTGAGATTTATGGACCCAAATAATTCCAAAGAATTGGTTGATAAGACAAAAGA AAGGTATTGGGGCCCTGTTGATGTGTATGTTGGTGGTGCTGAGCATGCAGTTCTCCATTTACTGTATGCTAGGTTCTGGC ACAAGGTCCTCTTTGATATTGGTGTTGTGTCCACCAAGGAGCCCTTCCAATGTGTAATCAATCAGGGGATTATCCTTGGG GAGGTCCAATATATGGCTTATCGGGATCAAGATGGGAATCTGATATCTGCTGAATTGACTGATATGTTGAATGAACACAG TCTAGAAAAAATTCCTGAGGAAAAGGTCATGAAATCTGGGGACTATTTTGTCCTAAAAGAAAATCCTGACATGCGTGTAG TTGCCCGCACCCACAAAATGAGTAAAAGTAGGGGAAATGTTGTGAACCCCGATGATGTTATTTCTGAGTATGGGGCAGAT TCTCTTCGTTTATATGAAATGTTCATGGGACCATTGAGAGACTCGAAAACATGGAGTACTGGTGGCATTGAAGGTGTATA TCGGTTTTTAGGAAGAACATGGAGGCTGATTGTTGGTTCACCTTTGTCTGATGGCACTTTTAATGATAGAACTGTATCAG TTGATGAGGAGCCTACTATGGAACAGCTTCGTTGTCTTCATAAATGCATCGCTAAGGTGACAGAGGAAATCGAGGGCACA AGGTTTAACACTGGAATTTCTGCTATGATGGAGTTCCTTAATGCGGCATATAAGTGGGATAAACATCCAAAATCAGTTGT TGAGGCATTTGTTTTACTGCTTTCACCATATGCGCCGCACATGGCTGAGGAGCTATGGTCTCGGCTAGGGCACACAAAAT CATTGGCCCACGAGCCTTTTCCTAAGGCAAATCCTGCTTGCCTGAAAGATTCCACAATAGTACTCCCTGTTCAGATTAAT GGCAAGACAAGAGGTACCATCCAAGTTGAAGAAACGTGTACAGAGGAGGATGCTTTTGTATTAGCATCTAGGGATGAAAA GCTATCCAAGTATTTGGAGGGTCAATCTGTTAGAAAAAGAATTTATGTTCGTGGCAAGATCTTAAATGTCGTTCTGGACC GTAAAAACATAAAGGCTACTGTACAGTATCATTGGCTGGAGAATTGA
Protein sequence (LotjaGi4g1v0011900.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSKPKFYVLDMFPYPSGAGLHVGHPLGYTATDILARYKRMQGYNVLHPMGWDAFGLPAEQYAIETGTHPKLTTVRNINRF RSQLKSLGFSYDWDREISTIEPDYYKWTQWIFLQLFKRGLAYQAEVPVNWCPALGTVLANEEVIDGVSERGGHPVVRKPM RQWMLKITAYADRLLEDLDDLDWPESVKEMQRNWIGRSEGAEMEFCILDNDGKERDINIIVYTTRPDTIFGATYLVVAPE HPLLLSLVSVAQSKQVEDYVDLASRKSDLERTELQKEKTGVFTGCYAKNPANGEAIPIWVADYVLGSYGTGAIMAVPAHD SRDYEFALKYDVPVRWVVLPDGKSVNESGKAFPGEGIIVNSSNKLVGLDINGLSSKEAALKVIKWAEKSGNGKRKVNYKL RDWLFARQRYWGEPIPVIFLDDSGETIPLSETELPIILPELDDFSPSGTGEPPLSKAVSWVKTTDSLSGRPATRETNTMP QWAGSCWYYLRFMDPNNSKELVDKTKERYWGPVDVYVGGAEHAVLHLLYARFWHKVLFDIGVVSTKEPFQCVINQGIILG EVQYMAYRDQDGNLISAELTDMLNEHSLEKIPEEKVMKSGDYFVLKENPDMRVVARTHKMSKSRGNVVNPDDVISEYGAD SLRLYEMFMGPLRDSKTWSTGGIEGVYRFLGRTWRLIVGSPLSDGTFNDRTVSVDEEPTMEQLRCLHKCIAKVTEEIEGT RFNTGISAMMEFLNAAYKWDKHPKSVVEAFVLLLSPYAPHMAEELWSRLGHTKSLAHEPFPKANPACLKDSTIVLPVQIN GKTRGTIQVEETCTEEDAFVLASRDEKLSKYLEGQSVRKRIYVRGKILNVVLDRKNIKATVQYHWLEN
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 |
---|---|---|---|---|---|---|
Hamap | 1 | 852 | 852 | 21.66 | ||
PANTHER | 2 | 856 | 855 | 0.0 | – | |
PANTHER | 2 | 856 | 855 | 0.0 | ||
SUPERFAMILY | 2 | 667 | 666 | 6.64E-133 | – | |
TIGRFAM | 2 | 852 | 851 | 0.0 | ||
Gene3D | 5 | 624 | 620 | 0.0 | ||
CDD | 5 | 196 | 192 | 1.90602E-81 | – | |
Pfam | 11 | 143 | 133 | 1.0E-17 | ||
ProSitePatterns | 15 | 25 | 11 | - | ||
PRINTS | 99 | 116 | 18 | 1.7E-56 | ||
PRINTS | 125 | 141 | 17 | 1.7E-56 | ||
PRINTS | 157 | 170 | 14 | 1.7E-56 | ||
PRINTS | 186 | 205 | 20 | 1.7E-56 | ||
Pfam | 192 | 386 | 195 | 5.5E-61 | ||
SUPERFAMILY | 197 | 398 | 202 | 5.86E-49 | ||
Gene3D | 199 | 398 | 200 | 0.0 | ||
PRINTS | 474 | 492 | 19 | 1.7E-56 | ||
PRINTS | 513 | 535 | 23 | 1.7E-56 | ||
PRINTS | 546 | 556 | 11 | 1.7E-56 | ||
Gene3D | 561 | 618 | 58 | 0.0 | – | |
Pfam | 618 | 647 | 30 | 4.4E-7 | ||
Gene3D | 625 | 789 | 165 | 4.2E-52 | – | |
CDD | 658 | 769 | 112 | 3.35407E-43 | – | |
SUPERFAMILY | 662 | 855 | 194 | 1.35E-29 | ||
Pfam | 703 | 810 | 108 | 2.5E-14 | ||
Gene3D | 791 | 853 | 63 | 3.7E-20 | – |
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 editing activity | The hydrolysis of an incorrectly aminoacylated tRNA. | ||
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 | Leucine-tRNA ligase activity | Catalysis of the reaction: L-leucine + ATP + tRNA(Leu) = AMP + diphosphate + 2 H(+) + Leu-tRNA(Leu). | ||
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 | Leucyl-tRNA aminoacylation | The process of coupling leucine to leucyl-tRNA, catalyzed by leucyl-tRNA synthetase. The leucyl-tRNA synthetase is a class-I synthetase. The activated amino acid is transferred to the 2'-OH group of a leucine-accetping tRNA. The 2'-O-aminoacyl-tRNA will ultimately migrate to the 3' position via transesterification. |
Expression pattern of LotjaGi4g1v0011900.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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