ACL_RS01475
| Uniprot: A9NEY8
Description: proline--tRNA ligase EC number: 6.1.1.15 Annotation score: 2 out of 5 Miscellaneous [CC]: Protein existence: Inferred from homology Catalytic activity: CATALYTIC ACTIVITY: ATP + L-proline + tRNA(Pro) = AMP + diphosphate + L-prolyl-tRNA(Pro). {ECO:0000256|HAMAP-Rule:MF_01571}. Cofactor: Enzyme regulation: Function [CC]: FUNCTION: Catalyzes the attachment of proline to tRNA(Pro) in a two-step reaction: proline is first activated by ATP to form Pro-AMP and then transferred to the acceptor end of tRNA(Pro). {ECO:0000256|HAMAP-Rule:MF_01571}. Pathway: Active site: Binding site: Calcium binding: DNA binding: Metal binding: Nucleotide binding: Site: Gene names (primary): proS Gene names (synonym): Mass: 54,253 Subunit structure [CC]: SUBUNIT: Homodimer. {ECO:0000256|HAMAP-Rule:MF_01571}. Gene ontology (GO): cytoplasm [GO:0005737]; ATP binding [GO:0005524]; proline-tRNA ligase activity [GO:0004827]; prolyl-tRNA aminoacylation [GO:0006433] Gene ontology IDs: GO:0004827; GO:0005524; GO:0005737; GO:0006433 Chain: Signal peptide: Domain [CC]: DOMAIN: Consists of three domains: the N-terminal catalytic domain, the anticodon-binding domain and the C-terminal extension. {ECO:0000256|HAMAP-Rule:MF_01571}. Sequence similarities: SIMILARITY: Belongs to the class-II aminoacyl-tRNA synthetase family. ProS type 3 subfamily. {ECO:0000256|HAMAP-Rule:MF_01571}. Protein families: Class-II aminoacyl-tRNA synthetase family, ProS type 3 subfamily Coiled coil: Domain [FT]: DOMAIN 43 286 AA_TRNA_LIGASE_II. {ECO:0000259|PROSITE:PS50862}. Motif: Region: EMBL: CP000896 ProteinModelPortal: A9NEY8 MEROPS: EnsemblBacteria KO: ABX80918 UniPathway: K01881 CDD: Gene3D: cd00778 HAMAP: 3.30.110.30;3.40.50.800 InterPro: MF_01571 PANTHER: IPR002314;IPR006195;IPR004154;IPR002316;IPR004499;IPR016061;IPR017449;IPR033721 PIRSF: PTHR11451:SF6 PRINTS: PROSITE: PR01046 Pfam: PS50862 ProDom: PF03129;PF09180;PF00587 SMART: SUPFAM: SM00946 TIGRFAMs: SSF52954;SSF64586 |
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305324-306749(+) >nucleotide sequence TGGTATACAGACCTTTGTCTAAAAGCAGAGTTAATGGATTATTCTAACACACAAGGGTTT ATTATCTATAGACCTTTAGGATATGGTATTTGGGAAAATATCCAAAACTACCTAAATAAT GAATTTAGAAAAACAGGGCATCAAAACGTATATATGCCCATGTTGATTCCAGAAAGTTTA TTCCAAAAAGAAAAGGATCACGTTTCAGGTTTTGCACCTGAAACAGCGATGGTTACAACA ACAGGGGTTGAAAACTTAAGCGAGCGCTTAATTATTCGCCCTACATCAGAAGTATTATTT GGTACACATTATAGTAAAATTGTTAAATCCTATAGAGATTTACCAAAAATGTATAACCAA TGGTGTTCTGTTGTTCGCTGGGAGAAGACTACACGCCCATTTTTACGCGGTAAAGAGTTT TTATGGCAAGAAGGTCACACAGTTCATGCGACTGCTGAAGAGGCTAAAAAAGAGACACAT CAAATGTTAGAAGTGTATGACAAATTAGGTAAAGAGTTACTAGCTATACCATTTGTTACA GGACGTAAGACAGATAAAGAAAAATTTGCTGGTGCACTTGAAACTTATGCGATTGAAGCA TTAATGCATGATGGACAAGCACTACAATCTGGTACATCACACTATTTTGGTAATGAGTTT GCTCATGCCTTTGATATCAAATTCTTAAATGATAAAAATGAACTAGAATATGCATACCAA ACTTCTTGGGGTGTATCTACAAGACTTATTGGCGCTATCATTATGGTACATGGTGATGAC AATGGTTTAGTATTACCGCCATATGTTGCACCAACTCAAGTGGTCATTGTACCAATTAGA CCAAATGAAGAAGTGCTAAGTGCTGTTAAACAAATTGAAAATGAACTATCAGATAAATTT AGAGTATTTGTAGATGATTCTGATAAATCACCTGGATGGAAATTTAGTGAACACGAAATG AAGGGTGTACCACTACGTATCGAAATTGGTCCAAGAGATTTAGAAAACGGTCAAGTTGTT GTAACATTTAGACATAACTATGAAAAACATACAGTAGCACTTACTGATTTACATAAGTTT GTTGAAGATGGTTTAAAAACAATGCATGAAGCAATGTATCAAAAAGCATTAGAAGCTACA ACAAGTAGAACTTATGAAGCGAAAAGCTATGACGAATTTAAAGCATTCTTAAAACAGGGC GGATATATTAAAATGTCAACTTGTGGCGAAGAAGCTGAAATCCAAATTAAGGAAGAAACA GGTGCTACAGCACGTGTGATCCTAGATGAACCACTACTTACAGAAAATTGTCCAGTAACT GGTAAAAAAGCTACTCAAACAATTCTTTTTGCAAGAGCATACTAA >protein sequence EFRKTGHQNVYMPMLIPESLFQKEKDHVSGFAPETAMVTTTGVENLSERLIIRPTSEVLF GTHYSKIVKSYRDLPKMYNQWCSVVRWEKTTRPFLRGKEFLWQEGHTVHATAEEAKKETH QMLEVYDKLGKELLAIPFVTGRKTDKEKFAGALETYAIEALMHDGQALQSGTSHYFGNEF AHAFDIKFLNDKNELEYAYQTSWGVSTRLIGAIIMVHGDDNGLVLPPYVAPTQVVIVPIR PNEEVLSAVKQIENELSDKFRVFVDDSDKSPGWKFSEHEMKGVPLRIEIGPRDLENGQVV VTFRHNYEKHTVALTDLHKFVEDGLKTMHEAMYQKALEATTSRTYEAKSYDEFKAFLKQG GYIKMSTCGEEAEIQIKEETGATARVILDEPLLTENCPVTGKKATQTILFARAY |
© Fisunov Lab of Proteomics, 2016.