Fluctuations of conformational states in biological molecules: Theory for anomalous spectral diffusion dynamics

A. L. Burin; Yu A. Berlin; A. Z. Patashinski; M. A. Ratner; J. Friedrich

doi:10.1016/S0921-4526(02)00497-0

Fluctuations of conformational states in biological molecules: Theory for anomalous spectral diffusion dynamics

A. L. Burin, Yu A. Berlin, A. Z. Patashinski, M. A. Ratner, J. Friedrich

Department Physics

Northwestern University

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

10 Zitate (Scopus)

Abstract

An anomalous power law behavior of spectral diffusion broadening of persistent holes is found in large biological molecules dissolved in a glassy host at very low temperature. We argue that this is caused by the internal degrees of freedom of the biomolecule itself rather than by excitations of the glassy host. To explain the observed universal time dependence of the hole width w ∼ t^1/4, we propose a stochastic model of protein dynamics close to the equilibrium, which describes this process in terms of the quasi-one-dimensional diffusion of proteins in conformation space. Assuming that each step of diffusive motion changes the electronic excitation energy randomly, we derive the observed time behavior of the spectral hole. The physical mechanisms involved are discussed.

Originalsprache	Englisch
Seiten (von - bis)	321-323
Seitenumfang	3
Fachzeitschrift	Physica B: Condensed Matter
Jahrgang	316-317
DOIs	https://doi.org/10.1016/S0921-4526(02)00497-0
Publikationsstatus	Veröffentlicht - Mai 2002

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title = "Fluctuations of conformational states in biological molecules: Theory for anomalous spectral diffusion dynamics",

abstract = "An anomalous power law behavior of spectral diffusion broadening of persistent holes is found in large biological molecules dissolved in a glassy host at very low temperature. We argue that this is caused by the internal degrees of freedom of the biomolecule itself rather than by excitations of the glassy host. To explain the observed universal time dependence of the hole width w ∼ t1/4, we propose a stochastic model of protein dynamics close to the equilibrium, which describes this process in terms of the quasi-one-dimensional diffusion of proteins in conformation space. Assuming that each step of diffusive motion changes the electronic excitation energy randomly, we derive the observed time behavior of the spectral hole. The physical mechanisms involved are discussed.",

keywords = "Hole burning, Proteins, Spectral diffusion, Strain interaction",

author = "Burin, {A. L.} and Berlin, {Yu A.} and Patashinski, {A. Z.} and Ratner, {M. A.} and J. Friedrich",

note = "Funding Information: This work is supported by MRSEC/NSF program (Grant No. DMR-0076097), by the Chemistry Division of the NSF and ONR, and by the DOD/MURI program. One of us (J.F.) are grateful to DFG (SFB 533, B5) and the Fonds der Chemischen Industrie for financial support. We also acknowledge organizers and participants of the International Workshop on “Collective Phenomena in the Low Temperature Physics of Glasses” (Dresden, 2000) for useful discussions. ",

year = "2002",

month = may,

doi = "10.1016/S0921-4526(02)00497-0",

language = "English",

volume = "316-317",

pages = "321--323",

journal = "Physica B: Condensed Matter",

issn = "0921-4526",

publisher = "Elsevier B.V.",

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T1 - Fluctuations of conformational states in biological molecules

T2 - Theory for anomalous spectral diffusion dynamics

AU - Burin, A. L.

AU - Berlin, Yu A.

AU - Patashinski, A. Z.

AU - Ratner, M. A.

AU - Friedrich, J.

N1 - Funding Information: This work is supported by MRSEC/NSF program (Grant No. DMR-0076097), by the Chemistry Division of the NSF and ONR, and by the DOD/MURI program. One of us (J.F.) are grateful to DFG (SFB 533, B5) and the Fonds der Chemischen Industrie for financial support. We also acknowledge organizers and participants of the International Workshop on “Collective Phenomena in the Low Temperature Physics of Glasses” (Dresden, 2000) for useful discussions.

PY - 2002/5

Y1 - 2002/5

N2 - An anomalous power law behavior of spectral diffusion broadening of persistent holes is found in large biological molecules dissolved in a glassy host at very low temperature. We argue that this is caused by the internal degrees of freedom of the biomolecule itself rather than by excitations of the glassy host. To explain the observed universal time dependence of the hole width w ∼ t1/4, we propose a stochastic model of protein dynamics close to the equilibrium, which describes this process in terms of the quasi-one-dimensional diffusion of proteins in conformation space. Assuming that each step of diffusive motion changes the electronic excitation energy randomly, we derive the observed time behavior of the spectral hole. The physical mechanisms involved are discussed.

AB - An anomalous power law behavior of spectral diffusion broadening of persistent holes is found in large biological molecules dissolved in a glassy host at very low temperature. We argue that this is caused by the internal degrees of freedom of the biomolecule itself rather than by excitations of the glassy host. To explain the observed universal time dependence of the hole width w ∼ t1/4, we propose a stochastic model of protein dynamics close to the equilibrium, which describes this process in terms of the quasi-one-dimensional diffusion of proteins in conformation space. Assuming that each step of diffusive motion changes the electronic excitation energy randomly, we derive the observed time behavior of the spectral hole. The physical mechanisms involved are discussed.

KW - Hole burning

KW - Proteins

KW - Spectral diffusion

KW - Strain interaction

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U2 - 10.1016/S0921-4526(02)00497-0

DO - 10.1016/S0921-4526(02)00497-0

M3 - Article

AN - SCOPUS:0036567161

SN - 0921-4526

VL - 316-317

SP - 321

EP - 323

JO - Physica B: Condensed Matter

JF - Physica B: Condensed Matter

ER -

Fluctuations of conformational states in biological molecules: Theory for anomalous spectral diffusion dynamics

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