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Genetics, Vol. 162, 1031-1043, November 2002, Copyright © 2002

A Novel Class of secA Alleles That Exert a Signal-Sequence-Dependent Effect on Protein Export in Escherichia coli

Karim Khatiba and Dominique Belina
a Department of Pathology, University of Geneva, CH-1211 Geneva 4, Switzerland

Corresponding author: Dominique Belin, CMU 1, rue Michel-Servet, CH-1211 Geneva 4, Switzerland., dominique.belin{at}medecine.unige.ch (E-mail)

Communicating editor: G. R. SMITH

The murine plasminogen activator inhibitor 2 (PAI2) signal sequence inefficiently promotes the export of E. coli alkaline phosphatase (AP). High-level expression of PAI2::AP chimeric proteins from the arabinose PBAD promoter is toxic and confers an AraS phenotype. Most AraR suppressors map to secA, as determined by sequencing 21 independent alleles. Mutations occur throughout the gene, including both nucleotide binding domains (NBDI and NBDII) and the putative signal sequence binding domain (SSBD). Using malE and phoA signal sequence mutants, we showed that the vast majority of these secA suppressors exhibit weak Sec phenotypes. Eight of these secA mutations were further characterized in detail. Phenotypically, these eight suppressors can be divided into three groups, each localized to one domain of SecA. Most mutations allow near-normal levels of wild-type preprotein export, but they enhance the secretion defect conferred by signal sequence mutations. Interestingly, one group exerts a selective effect on the export of PAI2::AP when compared to that of AP. In conclusion, this novel class of secA mutations, selected as suppressors of a toxic signal sequence, differs from the classical secA (prlD) mutations, selected as suppressors of defective signal sequences, although both types of mutations affect signal sequence recognition.




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