A Generalized Kinetic Model for Coupling between Stepping and ATP Hydrolysis of Kinesin Molecular Motors

A Generalized Kinetic Model for Coupling between Stepping and ATP Hydrolysis of Kinesin Molecular Motors

A general kinetic model is presented for the chemomechanical coupling of dimeric kinesin molecular motors with and without extension of their neck linkers (NLs). A peculiar feature of the model is that the rate constants of ATPase activity of a kinesin head are independent of the strain on its NL, i...

Full description

Bibliographic Details
Main Authors: Ping Xie, Si-Kao Guo, Hong Chen
Format: Article
Language:English
Published: MDPI AG 2019-10-01
Series:International Journal of Molecular Sciences
Subjects:
molecular motor
kinesin
mechanochemistry
atpase activity
dynamics
model
Online Access:https://www.mdpi.com/1422-0067/20/19/4911
id doaj-1646b871286947e2b352dca396e2e03f
record_format Article
spelling doaj-1646b871286947e2b352dca396e2e03f2020-11-25T00:12:29ZengMDPI AGInternational Journal of Molecular Sciences1422-00672019-10-012019491110.3390/ijms20194911ijms20194911A Generalized Kinetic Model for Coupling between Stepping and ATP Hydrolysis of Kinesin Molecular MotorsPing Xie0Si-Kao Guo1Hong Chen2School of Materials Science and Energy Engineering, FoShan University, Guangdong 528000, ChinaKey Laboratory of Soft Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, ChinaSchool of Materials Science and Energy Engineering, FoShan University, Guangdong 528000, ChinaA general kinetic model is presented for the chemomechanical coupling of dimeric kinesin molecular motors with and without extension of their neck linkers (NLs). A peculiar feature of the model is that the rate constants of ATPase activity of a kinesin head are independent of the strain on its NL, implying that the heads of the wild-type kinesin dimer and the mutant with extension of its NLs have the same force-independent rate constants of the ATPase activity. Based on the model, an analytical theory is presented on the force dependence of the dynamics of kinesin dimers with and without extension of their NLs at saturating ATP. With only a few adjustable parameters, diverse available single molecule data on the dynamics of various kinesin dimers, such as wild-type kinesin-1, kinesin-1 with mutated residues in the NLs, kinesin-1 with extension of the NLs and wild-type kinesin-2, under varying force and ATP concentration, can be reproduced very well. Additionally, we compare the power production among different kinesin dimers, showing that the mutation in the NLs reduces the power production and the extension of the NLs further reduces the power production.https://www.mdpi.com/1422-0067/20/19/4911molecular motorkinesinmechanochemistryatpase activitydynamicsmodel
collection DOAJ
language English
format Article
sources DOAJ
author Ping Xie
Si-Kao Guo
Hong Chen
spellingShingle Ping Xie
Si-Kao Guo
Hong Chen
A Generalized Kinetic Model for Coupling between Stepping and ATP Hydrolysis of Kinesin Molecular Motors
International Journal of Molecular Sciences
molecular motor
kinesin
mechanochemistry
atpase activity
dynamics
model
author_facet Ping Xie
Si-Kao Guo
Hong Chen
author_sort Ping Xie
title A Generalized Kinetic Model for Coupling between Stepping and ATP Hydrolysis of Kinesin Molecular Motors
title_short A Generalized Kinetic Model for Coupling between Stepping and ATP Hydrolysis of Kinesin Molecular Motors
title_full A Generalized Kinetic Model for Coupling between Stepping and ATP Hydrolysis of Kinesin Molecular Motors
title_fullStr A Generalized Kinetic Model for Coupling between Stepping and ATP Hydrolysis of Kinesin Molecular Motors
title_full_unstemmed A Generalized Kinetic Model for Coupling between Stepping and ATP Hydrolysis of Kinesin Molecular Motors
title_sort generalized kinetic model for coupling between stepping and atp hydrolysis of kinesin molecular motors
publisher MDPI AG
series International Journal of Molecular Sciences
issn 1422-0067
publishDate 2019-10-01
description A general kinetic model is presented for the chemomechanical coupling of dimeric kinesin molecular motors with and without extension of their neck linkers (NLs). A peculiar feature of the model is that the rate constants of ATPase activity of a kinesin head are independent of the strain on its NL, implying that the heads of the wild-type kinesin dimer and the mutant with extension of its NLs have the same force-independent rate constants of the ATPase activity. Based on the model, an analytical theory is presented on the force dependence of the dynamics of kinesin dimers with and without extension of their NLs at saturating ATP. With only a few adjustable parameters, diverse available single molecule data on the dynamics of various kinesin dimers, such as wild-type kinesin-1, kinesin-1 with mutated residues in the NLs, kinesin-1 with extension of the NLs and wild-type kinesin-2, under varying force and ATP concentration, can be reproduced very well. Additionally, we compare the power production among different kinesin dimers, showing that the mutation in the NLs reduces the power production and the extension of the NLs further reduces the power production.
topic molecular motor
kinesin
mechanochemistry
atpase activity
dynamics
model
url https://www.mdpi.com/1422-0067/20/19/4911
work_keys_str_mv AT pingxie ageneralizedkineticmodelforcouplingbetweensteppingandatphydrolysisofkinesinmolecularmotors
AT sikaoguo ageneralizedkineticmodelforcouplingbetweensteppingandatphydrolysisofkinesinmolecularmotors
AT hongchen ageneralizedkineticmodelforcouplingbetweensteppingandatphydrolysisofkinesinmolecularmotors
AT pingxie generalizedkineticmodelforcouplingbetweensteppingandatphydrolysisofkinesinmolecularmotors
AT sikaoguo generalizedkineticmodelforcouplingbetweensteppingandatphydrolysisofkinesinmolecularmotors
AT hongchen generalizedkineticmodelforcouplingbetweensteppingandatphydrolysisofkinesinmolecularmotors
_version_ 1725399396312416256

Similar Items