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IPR013810 is a Small ribosomal subunit protein uS5, N-terminal.
<p>Small ribosomal subunit protein uS5 is one of the proteins from the small ribosomal subunit, and is a protein of 166 to 254 amino acid residues. In Escherichia coli, uS5 is known to be important in the assembly and function of the 30S ribosomal subunit. Mutations in uS5 have been shown to increase translational error frequencies. It belongs to a family of ribosomal proteins which, on the basis of sequence similarities [[cite:PUB00003665]], groups bacterial, cyanelle, red algal chloroplast, archaeal and fungal mitochondrial uS5; cytoplasmic mammalian, Caenorhabditis elegans, Drosophila and plant uS5 (also known as S2); mitochondrial uS5m (MRPS5) and yeast uS5 (also known as S4 or SUP44).</p> <p>This entry represents the N-terminal domain of ribosomal protein S5, which has an α-β(3)-α structure that folds into two layers, α/β.</p> <p>Ribosomes are the particles that catalyse mRNA-directed protein synthesis in all organisms. The codons of the mRNA are exposed on the ribosome to allow tRNA binding. This leads to the incorporation of amino acids into the growing polypeptide chain in accordance with the genetic information. Incoming amino acid monomers enter the ribosomal A site in the form of aminoacyl-tRNAs complexed with elongation factor Tu (EF-Tu) and GTP. The growing polypeptide chain, situated in the P site as peptidyl-tRNA, is then transferred to aminoacyl-tRNA and the new peptidyl-tRNA, extended by one residue, is translocated to the P site with the aid the elongation factor G (EF-G) and GTP as the deacylated tRNA is released from the ribosome through one or more exit sites [[cite:PUB00007068], [cite:PUB00007069]]. About 2/3 of the mass of the ribosome consists of RNA and 1/3 of protein. The proteins are named in accordance with the subunit of the ribosome which they belong to the small (S1 to S31) and the large (L1 to L44). Usually they decorate the rRNA cores of the subunits.</p> <p>Many ribosomal proteins, particularly those of the large subunit, are composed of a globular, surfaced-exposed domain with long finger-like projections that extend into the rRNA core to stabilise its structure. Most of the proteins interact with multiple RNA elements, often from different domains. In the large subunit, about 1/3 of the 23S rRNA nucleotides are at least in van der Waal's contact with protein, and L22 interacts with all six domains of the 23S rRNA. Proteins S4 and S7, which initiate assembly of the 16S rRNA, are located at junctions of five and four RNA helices, respectively. In this way proteins serve to organise and stabilise the rRNA tertiary structure. While the crucial activities of decoding and peptide transfer are RNA based, proteins play an active role in functions that may have evolved to streamline the process of protein synthesis. In addition to their function in the ribosome, many ribosomal proteins have some function 'outside' the ribosome [[cite:PUB00007069], [cite:PUB00007070]].</p>
This description is obtained from EB-eye REST.
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 | RNA binding | Interacting selectively and non-covalently with an RNA molecule or a portion thereof. | ||
Molecular function | Structural constituent of ribosome | The action of a molecule that contributes to the structural integrity of the ribosome. | ||
Cellular component | Ribosome | An intracellular organelle, about 200 A in diameter, consisting of RNA and protein. It is the site of protein biosynthesis resulting from translation of messenger RNA (mRNA). It consists of two subunits, one large and one small, each containing only protein and RNA. Both the ribosome and its subunits are characterized by their sedimentation coefficients, expressed in Svedberg units (symbol: S). Hence, the prokaryotic ribosome (70S) comprises a large (50S) subunit and a small (30S) subunit, while the eukaryotic ribosome (80S) comprises a large (60S) subunit and a small (40S) subunit. Two sites on the ribosomal large subunit are involved in translation, namely the aminoacyl site (A site) and peptidyl site (P site). Ribosomes from prokaryotes, eukaryotes, mitochondria, and chloroplasts have characteristically distinct ribosomal proteins. | ||
Biological process | Translation | The cellular metabolic process in which a protein is formed, using the sequence of a mature mRNA or circRNA molecule to specify the sequence of amino acids in a polypeptide chain. Translation is mediated by the ribosome, and begins with the formation of a ternary complex between aminoacylated initiator methionine tRNA, GTP, and initiation factor 2, which subsequently associates with the small subunit of the ribosome and an mRNA or circRNA. Translation ends with the release of a polypeptide chain from the ribosome. |
Transcript | Name | Description | Predicted domains | Domain count |
---|---|---|---|---|
– | 40S ribosomal protein S2 [Medicago truncatula] gi|357521321|ref|XP_003630949.1| | 18 | ||
– | 40S ribosomal protein S2 [Medicago truncatula] gi|357521321|ref|XP_003630949.1| | 20 | ||
– | 30S ribosomal protein S5 [Medicago truncatula] gi|357519961|ref|XP_003630269.1| | 16 | ||
– | PREDICTED: 30S ribosomal protein S5, chloroplastic-like [Glycine max] gi|356521382|ref|XP_003529335.1| | 16 | ||
– | PREDICTED: 30S ribosomal protein S5, chloroplastic-like [Glycine max] gi|356521382|ref|XP_003529335.1| | 25 | ||
– | 40S ribosomal protein S2 [Medicago truncatula] gi|357521321|ref|XP_003630949.1| | 20 | ||
– | 30S ribosomal protein S5 [Medicago truncatula] gi|357519961|ref|XP_003630269.1| | 16 | ||
– | 30S ribosomal protein S5; TAIR: AT1G58380.1 Ribosomal protein S5 family protein; Swiss-Prot: sp|Q8L8Y0|RS21_ARATH 40S ribosomal protein S2-1; TrEMBL-Plants: tr|I1K5K3|I1K5K3_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0681100_LC | 17 | ||
– | 30S ribosomal protein S5; TAIR: AT1G58380.1 Ribosomal protein S5 family protein; Swiss-Prot: sp|Q8L8Y0|RS21_ARATH 40S ribosomal protein S2-1; TrEMBL-Plants: tr|I1K5K3|I1K5K3_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0681100_LC | 17 | ||
– | 30S ribosomal protein S5; TAIR: AT1G58380.1 Ribosomal protein S5 family protein; Swiss-Prot: sp|Q8L8Y0|RS21_ARATH 40S ribosomal protein S2-1; TrEMBL-Plants: tr|I1K5K3|I1K5K3_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0681100_LC | 17 | ||
– | 30S ribosomal protein S5; TAIR: AT3G57490.1 Ribosomal protein S5 family protein; Swiss-Prot: sp|Q9SCM3|RS24_ARATH 40S ribosomal protein S2-4; TrEMBL-Plants: tr|V7CT27|V7CT27_PHAVU Uncharacterized protein; Found in the gene: LotjaGi2g1v0072200 | 19 | ||
– | 30S ribosomal protein S5; TAIR: AT1G64880.1 Ribosomal protein S5 family protein; Swiss-Prot: sp|B4RT45|RS5_ALTMD 30S ribosomal protein S5; TrEMBL-Plants: tr|G7LE23|G7LE23_MEDTR 30S ribosomal protein S5; Found in the gene: LotjaGi3g1v0014800 | 14 | ||
– | 30S ribosomal protein S5; TAIR: AT2G33800.1 Ribosomal protein S5 family protein; Swiss-Prot: sp|Q9ST69|RR5_SPIOL 30S ribosomal protein S5, chloroplastic; TrEMBL-Plants: tr|I1KLL8|I1KLL8_SOYBN Uncharacterized protein; Found in the gene: LotjaGi4g1v0057800 | 25 | ||
– | 30S ribosomal protein S5; TAIR: AT3G57490.1 Ribosomal protein S5 family protein; Swiss-Prot: sp|Q9SCM3|RS24_ARATH 40S ribosomal protein S2-4; TrEMBL-Plants: tr|V7CT27|V7CT27_PHAVU Uncharacterized protein; Found in the gene: LotjaGi4g1v0457300 | 19 | ||
– | 30S ribosomal protein S5; TAIR: AT1G64880.1 Ribosomal protein S5 family protein; Swiss-Prot: sp|B4RT45|RS5_ALTMD 30S ribosomal protein S5; TrEMBL-Plants: tr|A0A1J7GE15|A0A1J7GE15_LUPAN Uncharacterized protein; Found in the gene: LotjaGi6g1v0305300 | 14 |
A list of co-occurring predicted domains within the L. japonicus gene space:
Predicted domain | Source | Observations | Saturation (%) |
---|---|---|---|
SSF54768 | SUPERFAMILY | 1 | 6.67 |