Facilitated diffusion with DNA coiling

Lomholt, Michael A.; Broek, Bram van den; Kalisch, Svenja-Marei J.; Wuite, Gijs J. L.; Metzler, Ralf

doi:10.1073/pnas.0903293106

Cited by 185 publications

(200 citation statements)

References 52 publications

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“…Slutsky and Mirny [92] argue that the one-dimensional search needs to consist of search and recognition modes such that the protein can slide sufficiently fast while retaining its binding selectivity. Including intersegmental transfers or jumps of the protein between chemically remote but physically close segments of the DNA chain further improves the search efficiency, especially when the three-dimensional search mode is repressed, for instance, at certain salt conditions [34,93,94]. Interestingly, in the limit of long DNA chains and sufficiently fast reorganisation of the DNA conformation, intersegmental jumps effect an LF search by the binding protein [34].…”

Section: Search Along Dna Chainsmentioning

confidence: 99%

Comparison of pure and combined search strategies for single and multiple targets

et al. 2017

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Abstract. We address the generic problem of random search for a point-like target on a line. Using the measures of search reliability and efficiency to quantify the random search quality, we compare Brownian search with Lévy search based on long-tailed jump length distributions. We then compare these results with a search process combined of two different long-tailed jump length distributions. Moreover, we study the case of multiple targets located by a Lévy searcher.

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Section: Search Along Dna Chainsmentioning

confidence: 99%

Comparison of pure and combined search strategies for single and multiple targets

et al. 2017

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“…The altered topology impacts the geometry and dynamics of DNA bending, as well as the probabilities of DNA melting and distal site juxtaposition (Vologodskii 2009;Vologodskii andCozzarelli 1993, 1994). These physical changes in turn affect the interaction of DNA-modifying proteins with their DNA substrates (Lomholt et al 2009;Vologodskii and Cozzarelli 1994). The impact of DNA supercoiling on enzymatic activity is particularly clear for RNA transcription.…”

Section: Introductionmentioning

confidence: 99%

The dynamic interplay between DNA topoisomerases and DNA topology

Seol

Neuman

2016

Biophys Rev

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Topological properties of DNA influence its structure and biochemical interactions. Within the cell, DNA topology is constantly in flux. Transcription and other essential processes, including DNA replication and repair, not only alter the topology of the genome but also introduce additional complications associated with DNA knotting and catenation. These topological perturbations are counteracted by the action of topoisomerases, a specialized class of highly conserved and essential enzymes that actively regulate the topological state of the genome. This dynamic interplay among DNA topology, DNA processing enzymes, and DNA topoisomerases is a pervasive factor that influences DNA metabolism in vivo. Building on the extensive structural and biochemical characterization over the past four decades that has established the fundamental mechanistic basis of topoisomerase activity, scientists have begun to explore the unique roles played by DNA topology in modulating and influencing the activity of topoisomerases. In this review we survey established and emerging DNA topology-dependent protein-DNA interactions with a focus on in vitro measurements of the dynamic interplay between DNA topology and topoisomerase activity.

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“…The latter describes effective diffusion of the particle in the absence of the constraint that the particle should be on the surface at time t, 5) where P eq b is the equilibrium probability of finding the particle in the bulk layer above the surface,…”

Section: A Long-time Behaviormentioning

confidence: 99%

“…Their initial treatment was extended in subsequent studies to allow for a more careful consideration of DNA structural features and spatial arrangements [1][2][3][4][5][6][8][9][10] making a quantitative foundation for interpreting experimental findings. [24][25][26] One can find a detailed discussion of the problem in a recent review article.…”

Section: Introductionmentioning

confidence: 99%

A new approach to the problem of bulk-mediated surface diffusion

Berezhkovskii

Dagdug

Bezrukov

2015

The Journal of Chemical Physics

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This paper is devoted to bulk-mediated surface diffusion of a particle which can diffuse both on a flat surface and in the bulk layer above the surface. It is assumed that the particle is on the surface initially (at t = 0) and at time t, while in between it may escape from the surface and come back any number of times. We propose a new approach to the problem, which reduces its solution to that of a two-state problem of the particle transitions between the surface and the bulk layer, focusing on the cumulative residence times spent by the particle in the two states. These times are random variables, the sum of which is equal to the total observation time t. The advantage of the proposed approach is that it allows for a simple exact analytical solution for the double Laplace transform of the conditional probability density of the cumulative residence time spent on the surface by the particle observed for time t. This solution is used to find the Laplace transform of the particle mean square displacement and to analyze the peculiarities of its time behavior over the entire range of time. We also establish a relation between the double Laplace transform of the conditional probability density and the Fourier-Laplace transform of the particle propagator over the surface. The proposed approach treats the cases of both finite and infinite bulk layer thicknesses (where bulk-mediated surface diffusion is normal and anomalous at asymptotically long times, respectively) on equal footing. C 2015 AIP Publishing LLC. [http://dx

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Facilitated diffusion with DNA coiling

Cited by 185 publications

References 52 publications

Comparison of pure and combined search strategies for single and multiple targets

Comparison of pure and combined search strategies for single and multiple targets

The dynamic interplay between DNA topoisomerases and DNA topology

A new approach to the problem of bulk-mediated surface diffusion

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