Elastic stability of DNA configurations. I. General theory

Tobias, Irwin; Swigon, David; Coleman, Bernard D.

doi:10.1103/physreve.61.747

Cited by 90 publications

(86 citation statements)

References 19 publications

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“…It has been extensively used to study the statics and the dynamics of different kinds of continuous filaments with applications ranging from Biology 14,15,16,17,18,19,20 to Engineering. 21,22 The Kirchhoff equations are derived from the application of Newton's laws of mechanics to a thin elastic rod in the approximation of small curvature.…”

Section: The Mechanical Rod Modelmentioning

confidence: 99%

Elastic properties of nanowires

Fonseca

Malta

Galvão

2006

Journal of Applied Physics

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We present a model to study Young's modulus and Poisson's ratio of the composite material of amorphous nanowires. It is an extension of the model derived by two of us [Da Fonseca and Galvão, Phys. Rev. Lett. 92, 175502 (2004)] to study the elastic properties of amorphous nanosprings.The model is based on twisting and tensioning a straight nanowire and we propose an experimental setup to obtain the elastic parameters of the nanowire. We used the Kirchhoff rod model to obtain the expressions for the elastic constants of the nanowire.

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Section: The Mechanical Rod Modelmentioning

confidence: 99%

Elastic properties of nanowires

Fonseca

Malta

Galvão

2006

Journal of Applied Physics

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“…Until recently, the theory allowed the conformations of the sO and s 2 states to be described, but not of the s þ state, due to the interpenetration of the entering and exiting DNAs upon application of the positive constraint to the loop. A recent development 31 takes the DNA impenetrability into account and deals with the resulting DNA self-contacts, which were allowed to slide freely, following the needs of the energy minimization process.…”

Section: Loop Most Probable Conformationsmentioning

confidence: 99%

Sequence-dependent Nucleosome Structural and Dynamic Polymorphism. Potential Involvement of Histone H2B N-Terminal Tail Proximal Domain

Sivolob¹,

Lavelle²,

Prunell³

2003

Journal of Molecular Biology

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“…Indeed, Swigon (1999) uncovered a wide variety of different equilibrium paths emanating (for example) from higher branching points. However, it was shown (Swigon 1999;Tobias et al 2000) that H (on the path from the lowest bifurcation point on the trivial path) is the lowest pass for the transition from B to B T . This follows from the fact that each configuration on the drawn path minimizes the energy V of equation (8.4) among all configurations with the same writhe (and hence the same Lk, Tw and torsional energy).…”

Section: Energy Balances During a Cut And Its Relaxationmentioning

confidence: 99%

Single-molecule magnetic tweezer tests on DNA: bounds on topoisomerase relaxation

Thompson

2008

Proc. R. Soc. A.

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Biomedical researchers regularly stretch and twist single DNA molecules in magnetic tweezer experiments. By making the molecule writhe into a plectoneme (ply) and plotting its load-extension curves, key DNA parameters, such as effective radius, can be estimated. Adding untangling enzymes (topoisomerases) to the DNA's environment, their individual cuts are detected as jumps in extension.Sufficient information is now known about the topoisomerases for us to make good idealizations about their kinematics and mechanics. The novelty of this paper is to study their actions in the context of accurate ply solutions from the theory of elastic rods. To do this, we define an extended rod-plus-tension system that allows us to determine the stored energies from areas in the conventional link versus writhe plane.After a cut, the molecule relaxes dynamically to a new equilibrium state, and often there will be two or more alternative stable configurations onto which it might settle. Knowing the energy levels allows us to identify which states can and cannot be reached over the unstable mountain passes, and which of the accessible states offer the greatest energy relaxation. Strict energy bounds on behaviour are established.This knowledge has medical value because topoisomerase inhibitors, lethal for cells, are used as antibiotics and in chemotherapy for cancer.

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Elastic stability of DNA configurations. I. General theory

Cited by 90 publications

References 19 publications

Elastic properties of nanowires

Elastic properties of nanowires

Sequence-dependent Nucleosome Structural and Dynamic Polymorphism. Potential Involvement of Histone H2B N-Terminal Tail Proximal Domain

Single-molecule magnetic tweezer tests on DNA: bounds on topoisomerase relaxation

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