Conserved Site

Translation elongation factor EF1B, beta/delta chains, conserved site (IPR001326)

Short name: Transl_elong_EF1B_B/D_CS

Description

Translation elongation factors are responsible for two main processes during protein synthesis on the ribosome [PMID: 12762045, PMID: 15922593, PMID: 12932732]. EF1A (or EF-Tu) is responsible for the selection and binding of the cognate aminoacyl-tRNA to the A-site (acceptor site) of the ribosome. EF2 (or EF-G) is responsible for the translocation of the peptidyl-tRNA from the A-site to the P-site (peptidyl-tRNA site) of the ribosome, thereby freeing the A-site for the next aminoacyl-tRNA to bind. Elongation factors are responsible for achieving accuracy of translation and both EF1A and EF2 are remarkably conserved throughout evolution.

Elongation factor EF1B (also known as EF-Ts or EF-1beta/gamma/delta) is a nucleotide exchange factor that is required to regenerate EF1A from its inactive form (EF1A-GDP) to its active form (EF1A-GTP). EF1A is then ready to interact with a new aminoacyl-tRNA to begin the cycle again. EF1B is more complex in eukaryotes than in bacteria, and can consist of three subunits: EF1B-alpha (or EF-1beta), EF1B-gamma (or EF-1gamma) and EF1B-beta (or EF-1delta) [PMID: 12762045].

This entry represents the C-terminal region of the beta (EF-1beta or EF1B-alpha) and delta (EF-1delta or EF1B-beta) chains of EF1B proteins from eukaryotes and archaea. The beta and delta chains have exchange activity, which mainly resides in their homologous C-terminal regions. Their N-terminal regions may be involved in interactions with the gamma chain (EF-1gamma).

GO terms

Biological Process

GO:0006414 translational elongation

Molecular Function

GO:0003746 translation elongation factor activity

Cellular Component

GO:0005853 eukaryotic translation elongation factor 1 complex

Contributing signatures

Signatures from InterPro member databases are used to construct an entry.
PROSITE patterns
PROSITE patterns