Protein profile

PA5315

50S ribosomal protein L33

Genome: NC_002516.2

Gene: rpmG PA5315 Structure source: AlphaFold UniProt Q9HTN9
Amino acids 51
Annotations 5
Features 14
PDB binders 0
Druggability 0.538

Overview

Basic information about this protein and its source genome.

Accession
PA5315
Gene
rpmG PA5315
Status
annotated
Amino acids
51
Structure source
AlphaFold
GO
GO:0022625 The large subunit of a ribosome located in the cytosol. GO:0003735 The action of a molecule that contributes to the structural integrity of the ribosome. GO:0000049 Binding to a transfer RNA. GO:0006412 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. GO:0005840 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.

Target profile

Computed evidence for target prioritization.

Human off-target
hit
Human identity (%)
45.652
Human E-value
4.58e-08
Gut microbiome off-target
hit
Essential (DEG)
Y
Localization
Cytoplasmic

Selected Druggability evidence

Selected Druggability is the FPocket score chosen for ranking using the curated structure priority. The 3D viewer may show a different loaded structure, so its visible pockets can differ.

FPocket 0.538
Structure
Pocket

Sequence

Primary amino-acid sequence viewer.

Functional Annotations

Enzyme classification and Gene Ontology terms linked to this protein.

5 GO

Gene Ontology (GO)

5
  • GO:0022625 The large subunit of a ribosome located in the cytosol.
  • GO:0003735 The action of a molecule that contributes to the structural integrity of the ribosome.
  • GO:0000049 Binding to a transfer RNA.
  • GO:0006412 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.
  • GO:0005840 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.

Sequence Features

Domain/signature hits from InterPro and related databases.

14 records
Show feature table
Start End DB Term Name
4 49 Pfam PF00471 Ribosomal protein L33
4 49 InterPro IPR001705 Ribosomal protein L33
1 49 Hamap MF_00294 50S ribosomal protein L33 [rpmG].
1 49 InterPro IPR001705 Ribosomal protein L33
2 51 NCBIfam TIGR01023 50S ribosomal protein L33
2 51 InterPro IPR001705 Ribosomal protein L33
17 36 ProSitePatterns PS00582 Ribosomal protein L33 signature.
17 36 InterPro IPR018264 Ribosomal protein L33, conserved site
2 51 PANTHER PTHR15238 54S RIBOSOMAL PROTEIN L39, MITOCHONDRIAL
1 49 SUPERFAMILY SSF57829 Zn-binding ribosomal proteins
1 49 InterPro IPR011332 Zinc-binding ribosomal protein
1 51 Gene3D G3DSA:2.20.28.120 Ribosomal protein L33
1 51 InterPro IPR038584 Ribosomal protein L33 superfamily
1 51 FunFam G3DSA:2.20.28.120:FF:000001 50S ribosomal protein L33

3D Structure

Selected loaded structure. Experimental PDB entries may cover only a portion of the sequence; predicted models typically cover the full protein.

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Structural evidence

0 + 1

Experimental PDB entries and predicted models. Click Switch to display a different structure in the viewer.

Entry Method Resolution Chain Coverage Links Status
AlphaFold PA5315
AlphaFold full sequence Viewing
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Pockets (FPOCKET)

Showing top-ranked FPocket candidates by druggability. Druggability is color-coded: high (0.7 or higher), medium (0.4 to 0.69), low (below 0.4).

FPOCKET Sticks Spheres Surfaces Druggability Labels Zoom Positions
1 0.538