Margot Baetens scite author profile

The flhF gene of Pseudomonas putida, which encodes a GTP‐binding protein, is part of the flagellar–motility–chemotaxis operon. Its disruption leads to a random flagellar arrangement in the mutant (MK107) and loss of directional motility in contrast to the wild type, which has polar flagella. The return of a normal flhF allele restores polar flagella and normal motility to MK107; its overexpression triples the flagellar number but does not restore directional motility. As FlhF is homologous to the receptor protein of the signal recognition particle (SRP) pathway of membrane protein translocation, this pathway may have a role in polar flagellar placement in P. putida. MK107 is also compromised in the development of the starvation‐induced general stress resistance (SGSR) and effective synthesis of several starvation and exponential phase proteins. While somewhat increased protein secretion in MK107 may contribute to its SGSR impairment, the altered protein synthesis pattern also appears to have a role.

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The EmrR Protein Represses the Escherichia coli emrRAB Multidrug Resistance Operon by Directly Binding to Its Promoter Region

Xiong

Gottman

Park

et al. 2000

Antimicrob Agents Chemother

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The Evolutionary History of Carbamoyltransferases: A Complex Set of Paralogous Genes Was Already Present in the Last Universal Common Ancestor

et al. 1999

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Forty-four sequences of ornithine carbamoyltransferases (OTCases) and 33 sequences of aspartate carbamoyltransferases (ATCases) representing the three domains of life were multiply aligned and a phylogenetic tree was inferred from this multiple alignment. The global topology of the composite rooted tree (each enzyme family being used as an outgroup to root the other one) suggests that present-day genes are derived from paralogous ancestral genes which were already of the same size and argues against a mechanism of fusion of independent modules. A closer observation of the detailed topology shows that this tree could not be used to assess the actual order of organismal descent. Indeed, this tree displays a complex topology for many prokaryotic sequences, with polyphyly for Bacteria in both enzyme trees and for the Archaea in the OTCase tree. Moreover, representatives of the two prokaryotic Domains are found to be interspersed in various combinations in both enzyme trees. This complexity may be explained by assuming the occurrence of two subfamilies in the OTCase tree (OTC alpha and OTC beta) and two other ones in the ATCase tree (ATC I and ATC II). These subfamilies could have arisen from duplication and selective losses of some differentiated copies during the successive speciations. We suggest that Archaea and Eukaryotes share a common ancestor in which the ancestral copies giving the present-day ATC II/OTC beta combinations were present, whereas Bacteria comprise two classes: one containing the ATC II/OTC alpha combination and the other harboring the ATC I/OTC beta combination. Moreover, multiple horizontal gene transfers could have occurred rather recently amongst prokaryotes. Whichever the actual history of carbamoyltransferases, our data suggest that the last common ancestor to all extant life possessed differentiated copies of genes coding for both carbamoyltransferases, indicating it as a rather sophisticated organism.

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Genes and enzymes of the acetyl cycle of arginine biosynthesis in the extreme thermophilic bacterium Thermus thermophilus HB27

Baetens

Legrain

Boyen

et al. 1998

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An arginine biosynthetic gene cluster, argC-argJ, of the extreme thermophilic bacterium Thermus thermophilus HB27 was isolated by heterologous complementation of an Escherichia coli acetylornithinase mutant. The recombinant plasmid (pTH M 1 ) conferred ornit h ine acetyl transf era se activity to the E. coli host, implying that T. thermophilus uses the energetically more economic pathway for the deacetylation of acetylornithine. pTHMl was, however, unable to complement an E. coli argA mutant and no acetylglutamate synthase activity could be detected in E. coli argA cells containing pTHMl. The T. thermophilus argJ-encoded enzyme is thus monofunctional and is unable to use acetyl-CoA to acetylate glutamate (contrary to the Bacillus stearothermophilus homologue). Alignment of several ornithine acetyltransferase amino acid sequences showed no obvious pattern that could account for this difference; however, the monofunctional enzymes proved to have shorter N-termini. Sequence analysis of the pTHMl 3-2 kb insert revealed the presence of the argC gene (encoding N-acetylglutamate-5-semialdehyde dehydrogenase) upstream of the argJ gene. Alignment of several N-acetylglutamate-5-semialdehyde dehydrogenase amino acid sequences allowed identification of two strongly conserved putative motifs for cofactor binding: a putative FAD-binding site and a motif reminiscent of the NADPH-binding fingerprint. The relationship between the amino acid content of both enzymes and thermostability is discussed and an effect of the GC content bias is indicated. Transcription of both the argC and argJ genes appeared to be vector-dependent. The argJ-encoded enzyme activity was twofold repressed by arginine in the native host and was inhibited by ornithine. Both upstream of the argC gene and downstream of the argJ gene an ORF with unknown function was found, indicating that the organization of the arginine biosynthetic genes in T. thermophilus is new.

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Margot Baetens

The G‐protein FlhF has a role in polar flagellar placement and general stress response induction in Pseudomonas putida

The EmrR Protein Represses the Escherichia coli emrRAB Multidrug Resistance Operon by Directly Binding to Its Promoter Region

The Evolutionary History of Carbamoyltransferases: A Complex Set of Paralogous Genes Was Already Present in the Last Universal Common Ancestor

Genes and enzymes of the acetyl cycle of arginine biosynthesis in the extreme thermophilic bacterium Thermus thermophilus HB27

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