Stephan Noll scite author profile

Production of the gene transfer agent of Rhodobacter capsulatus, RcGTA, is dependent upon several cellular regulatory systems, including a putative phosphorelay involving the CtrA and CckA proteins. These proteins are also involved in flagellar motility in R. capsulatus. The interactions of proteins in this system are best understood in Caulobacter crescentus where CtrA is activated by phosphorylation by the CckA‐ChpT phosphorelay. CtrA~P activity is further controlled by SciP, which represses ctrA transcription and CtrA activation of transcription. We show that R. capsulatus chpT and cckA mutants both have greatly reduced motility and RcGTA activity. Unlike the ctrA mutant where RcGTA gene transcription is absent, the decrease in RcGTA activity is because of reduced release of RcGTA from the cells. The sciP mutant is not affected for RcGTA production but our results support the C. crescentus model of SciP repression of flagellar motility genes. We show that both unphosphorylated and phosphorylated CtrA can activate RcGTA gene expression, while CtrA~P seems to be required for release of the particle and expression of motility genes. This has led us to a new model of how this regulatory system controls motility and production of RcGTA in R. capsulatus.

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Investigating the mechanisms of ribonucleotide excision repair in Escherichia coli

Vaisman

McDonald

Noll

et al. 2014

Mutation Research/Fundamental and Molecular Mechanisms of Mutag

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Low fidelity Escherichia coli DNA polymerase V (pol V/UmuD′2C) is best characterized for its ability to perform translesion synthesis (TLS). However, in recA730 lexA(Def) strains, the enzyme is expressed under optimal conditions allowing it to compete with the cell’s replicase for access to undamaged chromosomal DNA and leads to a substantial increase in spontaneous mutagenesis. We have recently shown that a Y11A substitution in the “steric gate” residue of UmuC reduces both base and sugar selectivity of pol V, but instead of generating an increased number of spontaneous mutations, strains expressing umuC_Y11A are poorly mutable in vivo. This phenotype is attributed to efficient RNase HII-initiated repair of the misincorporated ribonucleotides that concomitantly removes adjacent misincorporated deoxyribonucleotides. We have utilized the ability of the pol V steric gate mutant to promote incorporation of large numbers of errant ribonucleotides into the E. coli genome to investigate the fundamental mechanisms underlying ribonucleotide excision repair (RER). Here, we demonstrate that RER is normally facilitated by DNA polymerase I (pol I) via classical “nick translation”. In vitro, pol I displaces 1–3 nucleotides of the RNA/DNA hybrid and through its 5′→3′ (exo/endo) nuclease activity releases ribo- and deoxyribonucleotides from DNA. In vivo, umuC_Y11A-dependent mutagenesis changes significantly in polymerase-deficient, or proofreading-deficient polA strains, indicating a pivotal role for pol I in ribonucleotide excision repair (RER). However, there is also considerable redundancy in the RER pathway in E. coli. Pol I’s strand displacement and FLAP- exo/endonuclease activities can be facilitated by alternate enzymes, while the DNA polymerization step can be assumed by high-fidelity pol III. We conclude that RNase HII and pol I normally act to minimize the genomic instability that is generated through errant ribonucleotide incorporation, but that the “nick-translation” activities encoded by the single pol I polypeptide can be undertaken by a variety of back-up enzymes.

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Modification of the Genome of Rhodobacter sphaeroides and Construction of Synthetic Operons

Jaschke¹,

Saer²,

Noll³

et al. 2011

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Bacteriophytochrome-Dependent Regulation of Light-Harvesting Complexes in Rhodopseudomonas palustris Anaerobic Cultures

Noll

Beatty

2010

Curr Microbiol

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Bacteriophytochromes (Bphs) are photoreceptors that help bacteria sense changes in light wavelength and intensity. Bphs contain a linear tetrapyrrole chromophore that, upon absorption of red or far-red light, undergoes a cis-trans isomerization that leads to a conformational change in the holoprotein. The conformation and type of Bph affects the expression of genes. The linear tetrapyrrole bound by Bphs is thought to come from O(2)-dependent cleavage of heme by a heme oxygenase. We have discovered that the absence of O(2) does not inhibit the normal function of two Bphs in the regulation of Rhodopseudomonas palustris light-harvesting complexes. These observations imply that: (i) a linear tetrapyrrole can be made anaerobically, either through anaerobic heme cleavage by a novel enzyme or directly from the heme precursor hydroxymethylbilane without ring cleavage; or (ii) that Bph-dependent signal transduction does not require a chromophore.

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Gezielte Optimierung von Escherichia coli BL21(DE3)

et al. 2013

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Stephan Noll

Regulatory systems controlling motility and gene transfer agent production and release in Rhodobacter capsulatus

Investigating the mechanisms of ribonucleotide excision repair in Escherichia coli

Modification of the Genome of Rhodobacter sphaeroides and Construction of Synthetic Operons

Bacteriophytochrome-Dependent Regulation of Light-Harvesting Complexes in Rhodopseudomonas palustris Anaerobic Cultures

Gezielte Optimierung von Escherichia coli BL21(DE3)

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