Anne Hesseling scite author profile

Anne Hesseling

3Publications

69Citation Statements Received

207Citation Statements Given

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University of Groningen

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Adaption to glucose limitation is modulated by the pleotropic regulator CcpA, independent of selection pressure strength

Santos

Hesseling

et al. 2019

BMC Evol Biol

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BackgroundA central theme in (micro)biology is understanding the molecular basis of fitness i.e. which strategies are successful under which conditions; how do organisms implement such strategies at the molecular level; and which constraints shape the trade-offs between alternative strategies. Highly standardized microbial laboratory evolution experiments are ideally suited to approach these questions. For example, prolonged chemostats provide a constant environment in which the growth rate can be set, and the adaptive process of the organism to such environment can be subsequently characterized.ResultsWe performed parallel laboratory evolution of Lactococcus lactis in chemostats varying the quantitative value of the selective pressure by imposing two different growth rates. A mutation in one specific amino acid residue of the global transcriptional regulator of carbon metabolism, CcpA, was selected in all of the evolution experiments performed. We subsequently showed that this mutation confers predictable fitness improvements at other glucose-limited growth rates as well. In silico protein structural analysis of wild type and evolved CcpA, as well as biochemical and phenotypic assays, provided the underpinning molecular mechanisms that resulted in the specific reprogramming favored in constant environments.ConclusionThis study provides a comprehensive understanding of a case of microbial evolution and hints at the wide dynamic range that a single fitness-enhancing mutation may display. It demonstrates how the modulation of a pleiotropic regulator can be used by cells to improve one trait while simultaneously work around other limiting constraints, by fine-tuning the expression of a wide range of cellular processes.Electronic supplementary materialThe online version of this article (10.1186/s12862-018-1331-x) contains supplementary material, which is available to authorized users.

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Replacement of the lysine residue in the consensus ATP‐binding sequence of the AddA subunit of AddAB drastically affects chromosomal recombination in transformation and transduction of Bacillus subtilis

Haijema

Noback

Hesseling

et al. 1996

Molecular Microbiology

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The ATP-dependent deoxyribonuclease enzyme complex (AddAB) of Bacillus subtilis possesses two consensus ATP-binding sequences, located in the N-terminal region of both subunits. The highly conserved lysine residues in both consensus ATP-binding sequences were replaced by glycine, resulting in the mutant enzyme complexes AddAB-A-K36G (AddA*B) and AddAB-B-K14G (AddAB*). The mutation in subunit AddA reduced DNA repair and chromosomal transformation, and abolished bacteriophage PBS1-mediated transduction. This mutation also resulted in a complete loss of the ATP-dependent exonuclease and helicase activity. In contrast, the mutation in subunit AddB had only marginal effects. The recF and addAB genes are not required for transformation with plasmid DNA, but have overlapping activities in transformation with chromosomal DNA. By contrast to RecF, the AddAB enzyme is essential for PBS1-mediated transduction. However, recF has a more important function with respect to DNA repair than addAB.

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Glucose limitation inLactococcusshapes a single-peaked fitness landscape exposing membrane occupancy as a constraint

Hesseling

et al. 2017

Preprint

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Anne Hesseling

Adaption to glucose limitation is modulated by the pleotropic regulator CcpA, independent of selection pressure strength

Replacement of the lysine residue in the consensus ATP‐binding sequence of the AddA subunit of AddAB drastically affects chromosomal recombination in transformation and transduction of Bacillus subtilis

Glucose limitation inLactococcusshapes a single-peaked fitness landscape exposing membrane occupancy as a constraint

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