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The dynamic principle of molecular motor transport in overdamped solution remains unclear. Starting from the transport characteristics and phenomenon of the molecular motor system, the single-direction energy transition model is established, which conforms to the Langevin equation, and the stochastic dynamics of molecular motors is analyzed by Monte Carlo simulations. Results show that with the right transition energy, molecular motors could take a stable stepping motion and effective transport by means of the environment noise, and the load force can weaken material transportation of the molecular motor system. The potential field between a molecular motor and its orbit can affect the magnitude of the velocity of motor, but cannot change the direction of the velocity, the direction of motion of the molecular motor therefore is adjusted by the transition energy of the motor. In addition, although the average velocity is not zero for different noise intensities, the efficient transport of a molecular motor system indicates that the system is selective for the noise intensity.
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Keywords:
- molecular motor /
- energy transition /
- langevin equation /
- noise intensity
[1] Rogat A D, Miler K G 2002 Journal of Cell Sciencs 115 4855
[2] Hasson T, Gillespie P G, Garcia J A, MacDonald R B, Zhao Y D, Yee A G, Mooseker M S, Corey D P 1997 Journal of Cell Biology 137 1287
[3] Bao J D, Zhuo Y Z 1998 Chinese Science Bulletin 43 1493
[4] Bao J D 1997 Chinese Journal of Computational Physics 14 463 (in Chinese) [包景东 1997 计算物理 14 463]
[5] Marchesoni F 1997 Physical Review E 56 2497
[6] Guo C, Yin Y H 2010 Chinese Science Bulletin 55 2675 (in Chinese) [郭朝, 殷跃红 2010 科学通报 55 2675]
[7] Kolomeisky A B, Fisher M E 2003 Biophysical Journal 84 1642
[8] Xu W, Zhang X Y 2007 Chin. Phys. 16 928
[9] Bai W S M, Peng H, Tu Z, Ma H 2012 Acta Phys. Sin. 61 210501 (in Chinese) [白文斯密, 彭皓, 屠浙, 马洪 2012 61 210501]
[10] Wu W X, Zhao T J, Zhan Y, Guan R H 2003 Journal of Hebei University of Technology 32 15 (in Chinese) [吴魏霞, 赵同军, 展永, 关荣华 2003 河北工业大学学报 32 15]
[11] Feng J, Zhuo Y Z 2005 Chinese Physics Letters 22 503
[12] Zhan Y, Zhao T J, Zhuo Y Z, Wu X Z 1998 Acta Biophysica Sinica 14 737 (in Chinese) [展永, 赵同军, 卓益忠, 吴锡真 1998 生物 14 737]
[13] Zhou Y, Bao J D 2004 Physica A 343 515
[14] Feng J, Zhuo Y Z 2005 Chinese Physics Letters 22 503
[15] Astumian R D 1997 Science 276 917
[16] Bao J D, Zhuo Y Z, Wu X Z 1996 Phy. Lett. A 215 154
[17] Wang M D, Schnitzer M J, Yin H, Landick R, Gelles J, Block S M 1998 Science 282 902
[18] Fisher M E, Kolomeisky A B 2011 PNAS 98 7748
[19] Wang H Y, Bao J D 2010 Physica A 389 433
[20] Li F Z, Su W F, Hu K H 2009 Acta Biophysica Sinica 25 133 (in Chinese) [李防震, 苏万芳, 胡匡祜 2009 生物 25 133]
[21] Chen Z X 2003 Computational physics(Vol.2)(Harbin:Harbin Institute of Technology Press) p92 (in Chinese) [陈锺贤 2003 计算物理学(第二版)(哈尔滨:哈尔滨工业大学出版社)第92页]
[22] Kaan H Y K, Hackney D D, Kozielski F 2011 Science 333 883
[23] Xie P, Dou S X, Wang P Y 2005 Chin. Phys. 14 744
[24] Ménétrey J, Bahloul A, Wells AL 2005 Nature 435 779
[25] Chen J C, Su G Z 2010 Thermodynamics and statistical physics(Vol.1) (Beijing:Science Press) p268 (in Chinese) [陈金灿, 苏国珍 2010 热力学与统计物理学(第一版)(北京: 科学出版社)第268页]
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[1] Rogat A D, Miler K G 2002 Journal of Cell Sciencs 115 4855
[2] Hasson T, Gillespie P G, Garcia J A, MacDonald R B, Zhao Y D, Yee A G, Mooseker M S, Corey D P 1997 Journal of Cell Biology 137 1287
[3] Bao J D, Zhuo Y Z 1998 Chinese Science Bulletin 43 1493
[4] Bao J D 1997 Chinese Journal of Computational Physics 14 463 (in Chinese) [包景东 1997 计算物理 14 463]
[5] Marchesoni F 1997 Physical Review E 56 2497
[6] Guo C, Yin Y H 2010 Chinese Science Bulletin 55 2675 (in Chinese) [郭朝, 殷跃红 2010 科学通报 55 2675]
[7] Kolomeisky A B, Fisher M E 2003 Biophysical Journal 84 1642
[8] Xu W, Zhang X Y 2007 Chin. Phys. 16 928
[9] Bai W S M, Peng H, Tu Z, Ma H 2012 Acta Phys. Sin. 61 210501 (in Chinese) [白文斯密, 彭皓, 屠浙, 马洪 2012 61 210501]
[10] Wu W X, Zhao T J, Zhan Y, Guan R H 2003 Journal of Hebei University of Technology 32 15 (in Chinese) [吴魏霞, 赵同军, 展永, 关荣华 2003 河北工业大学学报 32 15]
[11] Feng J, Zhuo Y Z 2005 Chinese Physics Letters 22 503
[12] Zhan Y, Zhao T J, Zhuo Y Z, Wu X Z 1998 Acta Biophysica Sinica 14 737 (in Chinese) [展永, 赵同军, 卓益忠, 吴锡真 1998 生物 14 737]
[13] Zhou Y, Bao J D 2004 Physica A 343 515
[14] Feng J, Zhuo Y Z 2005 Chinese Physics Letters 22 503
[15] Astumian R D 1997 Science 276 917
[16] Bao J D, Zhuo Y Z, Wu X Z 1996 Phy. Lett. A 215 154
[17] Wang M D, Schnitzer M J, Yin H, Landick R, Gelles J, Block S M 1998 Science 282 902
[18] Fisher M E, Kolomeisky A B 2011 PNAS 98 7748
[19] Wang H Y, Bao J D 2010 Physica A 389 433
[20] Li F Z, Su W F, Hu K H 2009 Acta Biophysica Sinica 25 133 (in Chinese) [李防震, 苏万芳, 胡匡祜 2009 生物 25 133]
[21] Chen Z X 2003 Computational physics(Vol.2)(Harbin:Harbin Institute of Technology Press) p92 (in Chinese) [陈锺贤 2003 计算物理学(第二版)(哈尔滨:哈尔滨工业大学出版社)第92页]
[22] Kaan H Y K, Hackney D D, Kozielski F 2011 Science 333 883
[23] Xie P, Dou S X, Wang P Y 2005 Chin. Phys. 14 744
[24] Ménétrey J, Bahloul A, Wells AL 2005 Nature 435 779
[25] Chen J C, Su G Z 2010 Thermodynamics and statistical physics(Vol.1) (Beijing:Science Press) p268 (in Chinese) [陈金灿, 苏国珍 2010 热力学与统计物理学(第一版)(北京: 科学出版社)第268页]
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