Ursula Kopp scite author profile

Construction of a malE-ampD gene fusion allowed purification of biologically active fusion protein by affinity chromatography. The cloned malE-ampD gene fusion complemented a chromosomal ampD mutation. Purified MalE-AmpD fusion protein was found to have murein amidase activity with a pronounced specificity for 1,6-anhydromuropeptides, the characteristic murein turnover products in Escherichia coli. Being a N-acetyl-anhydromuranmyl-L-alanine amidase AmpD is likely to be involved in recycling of the turnover products. It is suggested that the negative regulatory effect of AmpD is due to the hydrolysis of anhydro-muropeptides which may function as signals for beta-lactamase induction.

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Staphylococcal Peptidoglycan Interpeptide Bridge Biosynthesis: A Novel Antistaphylococcal Target?

Kopp

Roos²,

Wecke³

et al. 1996

Microbial Drug Resistance

101

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In staphylococci, crosslinking of the peptide moiety of peptidoglycan is mediated via an additional spacer, the interpeptide bridge, consisting of five glycine residues. The femAB operon, coding for two approximately 50-kDa proteins is known to be involved in pentaglycine bridge formation. Using chemical mutagenesis of the beta-lactam-resistant strain BB270 and genetic, biochemical, and biophysical characterization of mutants selected for loss of beta-lactam resistance and reduced lysostaphin sensitivity it is shown that peptide bridge formation proceeds via three intermediate bridge lengths (cell wall peptides with no, one, three, and five glycine units). To proceed from one intermediate to the next, three genes appear necessary: femX, femA, and femB. The drastic loss of beta-lactam resistance after inactivation of FemA or partial impairment of FemX even beyond the level of the sensitive wild-type strains renders these proteins attractive antistaphylococcal targets.

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Neurochemical Correlates of Major Depression in Primary Dementia

Zubenko¹,

Moossy²,

Kopp³

1990

Archives of Neurology

218

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Sequences of wild-type and mutant ampD genes of Citrobacter freundii and Enterobacter cloacae

Kopp

Wiedemann

Lindquist

et al. 1993

Antimicrob Agents Chemother

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The ampD gene product regulates the expression of AmpC 13-lactamase in gram-negative bacteria and is proposed to be involved in peptidoglycan metabolism. In this study, we sequenced the ampD wild type and three mutant genes of Enterobacter cloacae and Citrobacterfreundii. They exhibited a high degree of homology with the corresponding gene of Escherichia coli except in the carboxy termini, where, in the wild-type genes of E. cloacae and C. freundii, four additional amino acids yielding the Ser-X-X-Lys motif were found. Evidence that this C-terminal region of the ampD gene product is necessary for activity was shown by constructing a deletion of the last 16 amino acids. The spontaneous mutation of ampDO2 is an out-of-frame insertion and yields an inactive AmpD protein. The single-base-pair substitution of Gly for Asp-121 in ampDO5 is responsible for a hyperinducible phenotype. These results demonstrate regions of the ampD gene and the corresponding protein which have functional importance for the induction of AmpC 13-lactamase in E. cloacae.

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Ursula Kopp

Neuropathologic and Neurochemical Correlates of Psychosis in Primary Dementia

The negative regulator of Î²-lactamase induction AmpD is a N-acetyl-anhydromuramyl-L-alanine amidase

Staphylococcal Peptidoglycan Interpeptide Bridge Biosynthesis: A Novel Antistaphylococcal Target?

Neurochemical Correlates of Major Depression in Primary Dementia

Sequences of wild-type and mutant ampD genes of Citrobacter freundii and Enterobacter cloacae

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