The lactose repressor system: paradigms for regulation, allosteric behavior and protein folding

Wilson, Clive; Zhan, Haifei; Swint-Kruse, Liskin; Matthews, Kathleen S.

doi:10.1007/s00018-006-6296-z

Cited by 156 publications

(150 citation statements)

References 129 publications

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“…Although the expression of this information is controlled at multiple levels, regulation at the level of transcription initiation allows a gene to be controlled at the earliest stage of its expression. The literature is replete with examples of regulatory proteins that control transcription initiation and the history of the field is dominated by examples of proteindependent control mechanisms, such as those controlling the life cycle of bacteriophage lambda or the expression of the lac operon (Lewis 2011;Oppenheim et al 2005;Wilson et al 2007). Research that has focused intensively on protein regulators for more than five decades has pushed the regulatory role of DNA into the background where, at best, it is regarded as contributing to gene control by providing cis-acting sites for the binding of regulatory proteins or through its possession of a structural flexibility that facilitates interactions between bound proteins via DNA looping (Schleif 2013;Semsey et al 2005).…”

Section: Introductionmentioning

confidence: 99%

DNA supercoiling is a fundamental regulatory principle in the control of bacterial gene expression

Dorman

2016

Biophys Rev

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Although it has become routine to consider DNA in terms of its role as a carrier of genetic information, it is also an important contributor to the control of gene expression. This regulatory principle arises from its structural properties. DNA is maintained in an underwound state in most bacterial cells and this has important implications both for DNA storage in the nucleoid and for the expression of genetic information. Underwinding of the DNA through reduction in its linking number potentially imparts energy to the duplex that is available to drive DNA transactions, such as transcription, replication and recombination. The topological state of DNA also influences its affinity for some DNA binding proteins, especially in DNA sequences that have a high A + T base content. The underwinding of DNA by the ATP-dependent topoisomerase DNA gyrase creates a continuum between metabolic flux, DNA topology and gene expression that underpins the global response of the genome to changes in the intracellular and external environments. These connections describe a fundamental and generalised mechanism affecting global gene expression that underlies the specific control of transcription operating through conventional transcription factors. This mechanism also provides a basal level of control for genes acquired by horizontal DNA transfer, assisting microbial evolution, including the evolution of pathogenic bacteria.

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Section: Introductionmentioning

confidence: 99%

DNA supercoiling is a fundamental regulatory principle in the control of bacterial gene expression

Dorman

2016

Biophys Rev

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“…The expression of genes involved in the lactose metabolism of Escherichia coli is effectively controlled by the Lac repressor (Wilson et al, 2007). The presence of multiple Lac repressor operator binding sites within the lac operon is responsible for the effective down regulation of these genes.…”

Section: Dna Recognition and Allosteric Regulation By The Lac Repressormentioning

confidence: 99%

Structural insights into transcription complexes

Berger

Blanco

Boelens

et al. 2011

Journal of Structural Biology

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a b s t r a c tControl of transcription allows the regulation of cell activity in response to external stimuli and research in the field has greatly benefited from efforts in structural biology. In this review, based on specific examples from the European SPINE2-COMPLEXES initiative, we illustrate the impact of structural proteomics on our understanding of the molecular basis of gene expression. While most atomic structures were obtained by X-ray crystallography, the impact of solution NMR and cryo-electron microscopy is far from being negligible. Here, we summarize some highlights and illustrate the importance of specific technologies on the structural biology of protein-protein or protein/DNA transcription complexes: structure/ function analysis of components the eukaryotic basal and activated transcription machinery with focus on the TFIID and TFIIH multi-subunit complexes as well as transcription regulators such as members of the nuclear hormone receptor families. We also discuss molecular aspects of promoter recognition and epigenetic control of gene expression.

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“…The lac operon in E. coli consists of three different structural genes that are transcribed as a single mRNA [11] in response to a certain glucose/lactose ratio. This polycistronic lacZYA mRNA is translated into three proteins, which are required to import and digest the disaccharide lactose.…”

Section: Conceptual Model Of the Lac Operonmentioning

confidence: 99%

“…As a case study we chose the well-described lac operon, the paradigmatic example for a gene regulatory system in prokaryotes [10][11][12]. The involvement of species from metabolic, signaling and gene regulatory network layers and also the existence of feedback loops in the regulation of the lac operon make it a very attractive system to evaluate different modeling approaches.…”

Section: Introductionmentioning

confidence: 99%

From Binary to Multivalued to Continuous Models: The lac Operon as a Case Study

Franke

Theis

Klamt

2010

Journal of Integrative Bioinformatics

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CitationFrom binary to multivalued to continuous models: the lac operon as a case study. SummaryUsing the lac operon as a paradigmatic example for a gene regulatory system in prokaryotes, we demonstrate how qualitative knowledge can be initially captured using simple discrete (Boolean) models and then stepwise refined to multivalued logical models and finally to continuous (ODE) models. At all stages, signal transduction and transcriptional regulation is integrated in the model description. We first show the potential benefit of a discrete binary approach and discuss then problems and limitations due to indeterminacy arising in cyclic networks. These limitations can be partially circumvented by using multilevel logic as generalization of the Boolean framework enabling one to formulate a more realistic model of the lac operon. Ultimately a dynamic description is needed to fully appreciate the potential dynamic behavior that can be induced by regulatory feedback loops. As a very promising method we show how the use of multivariate polynomial interpolation allows transformation of the logical network into a system of ordinary differential equations (ODEs), which then enables the analysis of key features of the dynamic behavior.

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The lactose repressor system: paradigms for regulation, allosteric behavior and protein folding

Cited by 156 publications

References 129 publications

DNA supercoiling is a fundamental regulatory principle in the control of bacterial gene expression

DNA supercoiling is a fundamental regulatory principle in the control of bacterial gene expression

Structural insights into transcription complexes

From Binary to Multivalued to Continuous Models: The lac Operon as a Case Study

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