Affiliation:
1. Centre for Cellular and Molecular Biology
2. Laboratory of Bacterial Genetics, Centre for DNA Fingerprinting and Diagnostics, Hyderabad, India
Abstract
ABSTRACT
An ampicillin enrichment strategy following transposon insertion mutagenesis was employed to obtain NaCl-sensitive mutants of a
gltBD
(glutamate synthase [GOGAT]-deficient) strain of
Escherichia coli
. It was reasoned that the
gltBD
mutation would sensitize the parental strain even to small perturbations affecting osmotolerance. Insertions conferring an osmosensitive phenotype were identified in the
proU
,
argP
(formerly
iciA
), and
glnE
genes encoding a glycine betaine/proline transporter, a LysR-type transcriptional regulator, and the adenylyltransferase for glutamine synthetase, respectively. The
gltBD
+
derivatives of the strains were not osmosensitive. The
argP
mutation, but not the
glnE
mutation, was associated with reduced glutamate dehydrogenase activity and a concomitant NH
4
+
assimilation defect in the
gltBD
strain. Supplementation of the medium with lysine or a lysine-containing dipeptide phenocopied the
argP
null mutation for both osmosensitivity and NH
4
+
assimilation deficiency in a
gltBD
background, and a dominant gain-of-function mutation in
argP
was associated with suppression of these lysine inhibitory effects. Osmosensitivity in the
gltBD
strains, elicited either by lysine supplementation or by introduction of the
argP
or
glnE
mutations (but not
proU
mutations), was also correlated with a reduction in cytoplasmic glutamate pools in cultures grown at elevated osmolarity. We propose that an inability to accumulate intracellular glutamate at high osmolarity underlies the osmosensitive phenotype of both the
argP gltBD
and
glnE gltBD
mutants, the former because of a reduction in the capacity for NH
4
+
assimilation into glutamate and the latter because of increased channeling of glutamate into glutamine.
Publisher
American Society for Microbiology
Subject
Molecular Biology,Microbiology
Cited by
17 articles.
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