Crystal structure of the NG domain from the signal-recognition particle receptor FtsY
- 1 January 1997
- journal article
- Published by Springer Nature in Nature
- Vol. 385 (6614) , 365-368
- https://doi.org/10.1038/385365a0
Abstract
Newly synthesized proteins destined either for secretion or incorporation into membranes are targeted to the membrane translocation machinery by a ubiquitous system consisting of a signal-recognition particle (SRP) and its receptor. Both the SRP receptor and the protein within the SRP that binds the signal sequence contain GTPases. These two proteins, together with the RNA component of the SRP, form a complex and thereby regulate each other's GTPase activity. Here we report the structure of the GTPase-containing portion of FtsY, the functional homologue of the SRP receptor of Escherichia coli, at 2.2 A resolution without bound nucleotide. This so-called NG domain displays similarities to the Ras-related GTPases, as well as features unique to the SRP-type GTPases, such as a separate amino-terminal domain, an insertion within the p21ras (Ras) effector domain, and a wide-open GTP-binding region. The structure explains the low affinity of FtsY for GTP, and suggests rearrangements that may occur on nucleotide binding. It also identifies regions potentially involved in the transmission of signals between domains and in interactions with regulatory proteins.Keywords
This publication has 27 references indexed in Scilit:
- The functioning of the SRP receptor FtsY in protein‐targeting in E. coli is correlated with its ability to bind and hydrolyse GTPFEBS Letters, 1995
- Reciprocal stimulation of GTP hydrolysis by two directly interacting GTPasesScience, 1995
- Signal Recognition Particle (SRP), a Ubiquitous Initiator of Protein TranslocationEuropean Journal of Biochemistry, 1995
- Signal Sequence Recognition and Protein Targeting to the Endoplasmic Reticulum MembraneAnnual Review of Cell Biology, 1994
- Interaction of E. coli Ffh/4.5S ribonucleoprotein and FtsY mimics that of mammalian signal recognition particle and its receptorNature, 1994
- Requirement of GTP Hydrolysis for Dissociation of the Signal Recognition Particle from Its ReceptorScience, 1991
- The GTPase superfamily: conserved structure and molecular mechanismNature, 1991
- The 54-kD protein of signal recognition particle contains a methionine-rich RNA binding domain.The Journal of cell biology, 1990
- Model for signal sequence recognition from amino-acid sequence of 54K subunit of signal recognition particleNature, 1989
- Homology of 54K protein of signal-recognition particle, docking protein and two E. coli proteins with putative GTP–binding domainsNature, 1989