A Screen for Dominant Negative Mutants ofSEC18Reveals a Role for the AAA Protein Consensus Sequence in ATP Hydrolysis

Autor: Steel, Gregor J., Harley, Carol, Boyd, Alan, Morgan, Alan
Zdroj: Molecular Biology of the Cell; April 2000, Vol. 11 Issue: 4 p1345-1356, 12p
Abstrakt: An evolutionarily ancient mechanism is used for intracellular membrane fusion events ranging from endoplasmic reticulum–Golgi traffic in yeast to synaptic vesicle exocytosis in the human brain. At the heart of this mechanism is the core complex ofN-ethylmaleimide-sensitive fusion protein (NSF), soluble NSF attachment proteins (SNAPs), and SNAP receptors (SNAREs). Although these proteins are accepted as key players in vesicular traffic, their molecular mechanisms of action remain unclear. To illuminate important structure–function relationships in NSF, a screen for dominant negative mutants of yeast NSF (Sec18p) was undertaken. This involved random mutagenesis of a GAL1-regulatedSEC18yeast expression plasmid. Several dominant negative alleles were identified on the basis of galactose-inducible growth arrest, of which one, sec18-109, was characterized in detail. Thesec18-109phenotype (abnormal membrane trafficking through the biosynthetic pathway, accumulation of a membranous tubular network, growth suppression, increased cell density) is due to a single A-G substitution in SEC18resulting in a missense mutation in Sec18p (Thr394→Pro). Thr394is conserved in most AAA proteins and indeed forms part of the minimal AAA consensus sequence that serves as a signature of this large protein family. Analysis of recombinant Sec18-109p indicates that the mutation does not prevent hexamerization or interaction with yeast α-SNAP (Sec17p), but instead results in undetectable ATPase activity that cannot be stimulated by Sec17p. This suggests a role for the AAA protein consensus sequence in regulating ATP hydrolysis. Furthermore, this approach of screening for dominant negative mutants in yeast can be applied to other conserved proteins so as to highlight important functional domains in their mammalian counterparts.
Databáze: Supplemental Index