Numerical study of the coupling between F0 with varied numbers of c-subunits and F1 in an ATP synthase

doi:10.1088/1009-1963/14/11/012

中国物理B ›› 2005, Vol. 14 ›› Issue (11): 2214-2221.doi: 10.1088/1009-1963/14/11/012

Numerical study of the coupling between F₀ with varied numbers of c-subunits and F₁ in an ATP synthase

钱钧, 谢平, 窦硕星, 王鹏业

Laboratory of Soft Matter Physics, Beijing National Laboratory for Condensed Matter Physics,Institute of Physics, Chinese Academy of Sciences, Beijing 100080, China

收稿日期:2005-03-18 修回日期:2005-08-19 出版日期:2005-11-20 发布日期:2005-11-20
基金资助:
Project supported by the National Natural Science Foundation of China (Grant Nos 60025516 and 10334100).

Numerical study of the coupling between F₀ with varied numbers of c-subunits and F₁ in an ATP synthase

Qian Jun (钱钧), Xie Ping (谢平), Dou Shuo-Xing (窦硕星), Wang Peng-Ye (王鹏业)

Laboratory of Soft Matter Physics, Beijing National Laboratory for Condensed Matter Physics,Institute of Physics, Chinese Academy of Sciences, Beijing 100080, China

Received:2005-03-18 Revised:2005-08-19 Online:2005-11-20 Published:2005-11-20
Supported by:
Project supported by the National Natural Science Foundation of China (Grant Nos 60025516 and 10334100).

摘要/Abstract

摘要： ATP synthase is a rotary motor which is composed of two portions: the `rotor' F₀, consisting of a c-ring, and the `stator' F₁, consisting of an \alpha₃\beta₃ hexamer. In different species, the number of c-subunits which form the c-ring is varied from 10 to 14, whereas the \alpha₃ \beta₃ hexamer is fixed to be 3-fold symmetrical. We have numerically studied the rotational coupling between F₀ with varied number of c-subunits and F₁. It is found that, for any number of c-subunits, the rotor F₀ advances 3 steps per revolution on average, which is determined by the period of F₁, whereas the exact angular pausing positions are determined by the period of F₀. When the symmetry of the c-ring of F₀ is matched with the 3-fold symmetry of F₁, the three steps have equivalent sizes. If not matched, the three steps become nonequivalent: both the step size and average dwell time are different for these steps.

关键词: ATP synthase, rotational coupling, numerical simulation

Abstract: ATP synthase is a rotary motor which is composed of two portions: the `rotor' F₀, consisting of a c-ring, and the `stator' F₁, consisting of an $\alpha$₃$\beta$₃ hexamer. In different species, the number of c-subunits which form the c-ring is varied from 10 to 14, whereas the $\alpha$₃$\beta$₃ hexamer is fixed to be 3-fold symmetrical. We have numerically studied the rotational coupling between F₀ with varied number of c-subunits and F₁. It is found that, for any number of c-subunits, the rotor F₀ advances 3 steps per revolution on average, which is determined by the period of F₁, whereas the exact angular pausing positions are determined by the period of F₀. When the symmetry of the c-ring of F₀ is matched with the 3-fold symmetry of F₁, the three steps have equivalent sizes. If not matched, the three steps become nonequivalent: both the step size and average dwell time are different for these steps.

Key words: ATP synthase, rotational coupling, numerical simulation

中图分类号: (Structure of biomolecules)

87.15.B-

87.15.H- (Dynamics of biomolecules) 87.15.K- (Molecular interactions; membrane-protein interactions) 87.15.Cc (Folding: thermodynamics, statistical mechanics, models, and pathways) 87.14.E- (Proteins)

钱钧, 谢平, 窦硕星, 王鹏业. Numerical study of the coupling between F₀ with varied numbers of c-subunits and F₁ in an ATP synthase[J]. 中国物理B, 2005, 14(11): 2214-2221.

Qian Jun (钱钧), Xie Ping (谢平), Dou Shuo-Xing (窦硕星), Wang Peng-Ye (王鹏业). Numerical study of the coupling between F₀ with varied numbers of c-subunits and F₁ in an ATP synthase[J]. Chinese Physics, 2005, 14(11): 2214-2221.

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Numerical study of the coupling between F₀ with varied numbers of c-subunits and F₁ in an ATP synthase

Numerical study of the coupling between F₀ with varied numbers of c-subunits and F₁ in an ATP synthase

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