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IPR020751 is a Aminoacyl-tRNA synthetase, class I, anticodon-binding domain, subdomain 2.
<p>The aminoacyl-tRNA synthetases (also known as aminoacyl-tRNA ligases) catalyse the attachment of an amino acid to its cognate transfer RNA molecule in a highly specific two-step reaction [[cite:PUB00079872], [cite:PUB00079873]]. These proteins differ widely in size and oligomeric state, and have limited sequence homology [[cite:PUB00007191]]. The 20 aminoacyl-tRNA synthetases are divided into two classes, I and II. Class I aminoacyl-tRNA synthetases contain a characteristic Rossman fold catalytic domain and are mostly monomeric [[cite:PUB00006477]]. Class II aminoacyl-tRNA synthetases share an anti-parallel β-sheet fold flanked by α-helices [[cite:PUB00000386]], and are mostly dimeric or multimeric, containing at least three conserved regions [[cite:PUB00000723], [cite:PUB00005365], [cite:PUB00004391]]. However, tRNA binding involves an α-helical structure that is conserved between class I and class II synthetases. In reactions catalysed by the class I aminoacyl-tRNA synthetases, the aminoacyl group is coupled to the 2'-hydroxyl of the tRNA, while, in class II reactions, the 3'-hydroxyl site is preferred. The synthetases specific for arginine, cysteine, glutamic acid, glutamine, isoleucine, leucine, methionine, tyrosine, tryptophan, valine, and some lysine synthetases (non-eukaryotic group) belong to class I synthetases. The synthetases specific for alanine, asparagine, aspartic acid, glycine, histidine, phenylalanine, proline, serine, threonine, and some lysine synthetases (non-archaeal group), belong to class-II synthetases. Based on their mode of binding to the tRNA acceptor stem, both classes of tRNA synthetases have been subdivided into three subclasses, designated 1a, 1b, 1c and 2a, 2b, 2c [[cite:PUB00007363]].</p> <p>Structurally, an α-helix-bundle anticodon-binding domain characterises the class Ia synthetases, whereas the class Ib synthetases, GlnRS and GluRS have distinct anticodon-binding domains. The anticodon-binding domain has a multi-helical structure, consisting of two all-alpha subdomains. The Rossmann-fold, made up of alternate α-helices and β-sheets involved in ATP binding in the extended conformation, and the anticodon-binding domains are connected by a β-α-α-β-α topology ('SC fold') domain that contains the class I specific KMSKS motif [[cite:PUB00006477], [cite:PUB00098804]].</p>
This description is obtained from EB-eye REST.
| Transcript | Name | Description | Predicted domains | Domain count |
|---|---|---|---|---|
| – | PREDICTED: glutamate--tRNA ligase, chloroplastic/mitochondrial-like [Cicer arietinum] gi|502155737|ref|XP_004510174.1| | 23 | ||
| – | Glutamate--tRNA ligase; TAIR: AT5G64050.1 glutamate tRNA synthetase; Swiss-Prot: sp|Q9FEA2|SYEM_ARATH Glutamate--tRNA ligase, chloroplastic/mitochondrial; TrEMBL-Plants: tr|V7ALD7|V7ALD7_PHAVU Uncharacterized protein; Found in the gene: LotjaGi3g1v0075100 | 25 | ||
| – | Glutamate-tRNA ligase; TAIR: AT5G64050.1 glutamate tRNA synthetase; Swiss-Prot: sp|Q43794|SYE_TOBAC Glutamate--tRNA ligase, chloroplastic/mitochondrial; TrEMBL-Plants: tr|A0A151QX19|A0A151QX19_CAJCA Glutamyl-tRNA synthetase; Found in the gene: LotjaGi3g1v0182400_LC | 4 |
A list of co-occurring predicted domains within the L. japonicus gene space:
| Predicted domain | Source | Observations | Saturation (%) |
|---|---|---|---|
| SSF48163 | SUPERFAMILY | 1 | 33.33 |