Add to ORKGProteins of the kinesin superfamily share a conserved motor domain, which both hydrolyses adenosine-5'-triphosphate (ATP) and binds microtubules. To determine the mechanism of action of a kinesin, it is necessary to relate the chemical cycle of ATP turnover to the mechanics of microtubule interaction. In this chapter, a number of methods are outlined by which the ATP turnover cycle of a kinesin can be analysed with a particular focus on the use of fluorescently labelled ATP and ADP analogues as a means of isolating individual steps in the cycle. By analysing the ATP turnover cycle of a kinesin, both in solution and in the presence of microtubules, the change in nucleotide state triggered upon microtubule binding can be determined. This prov...
To dissect the kinetics of structural transitions underlying the stepping cycle of kinesin-1 at phys...
Kinesin is a microtubule-based motor protein that pulls vesicles or organelles towards the plus end ...
The motor protein kinesin couples a temporally periodic chemical cycle (the hydrolysis of ATP) to a ...
Proteins of the kinesin superfamily share a conserved motor domain, which both hydrolyses adenosine-...
The cycle of ATP turnover is integral to the action of motor proteins. Here we discuss how variation...
The kinesin motor converts the chemical energy from ATP turnover into mechanical work, which produce...
Although the steps for the forward reaction of ATP hydrolysis by the motor protein kinesin have been...
Unlike other kinesins, members of the kinesin-13 subfamily do not move directionally along microtubu...
Kinesin-1 motor proteins move along microtubules in repetitive steps of 8 nm at the expense of ATP. ...
AbstractThe structure of an ATP-bound kinesin motor domain is predicted and conformational differenc...
AbstractThe motor protein non-claret disjunctional (ncd) moves towards the minus ends of microtubule...
Cytoskeletal motor proteins utilize the energy from ATP turnover to perform work along their filamen...
AbstractKinesin-1 motor proteins move along microtubules in repetitive steps of 8 nm at the expense ...
Cytoskeletal motor proteins utilize the energy from ATP turnover to perform work along their filamen...
Microtubule-dependent motors of the kinesin family convert the energy from ATP hydrolysis into mecha...
To dissect the kinetics of structural transitions underlying the stepping cycle of kinesin-1 at phys...
Kinesin is a microtubule-based motor protein that pulls vesicles or organelles towards the plus end ...
The motor protein kinesin couples a temporally periodic chemical cycle (the hydrolysis of ATP) to a ...
Proteins of the kinesin superfamily share a conserved motor domain, which both hydrolyses adenosine-...
The cycle of ATP turnover is integral to the action of motor proteins. Here we discuss how variation...
The kinesin motor converts the chemical energy from ATP turnover into mechanical work, which produce...
Although the steps for the forward reaction of ATP hydrolysis by the motor protein kinesin have been...
Unlike other kinesins, members of the kinesin-13 subfamily do not move directionally along microtubu...
Kinesin-1 motor proteins move along microtubules in repetitive steps of 8 nm at the expense of ATP. ...
AbstractThe structure of an ATP-bound kinesin motor domain is predicted and conformational differenc...
AbstractThe motor protein non-claret disjunctional (ncd) moves towards the minus ends of microtubule...
Cytoskeletal motor proteins utilize the energy from ATP turnover to perform work along their filamen...
AbstractKinesin-1 motor proteins move along microtubules in repetitive steps of 8 nm at the expense ...
Cytoskeletal motor proteins utilize the energy from ATP turnover to perform work along their filamen...
Microtubule-dependent motors of the kinesin family convert the energy from ATP hydrolysis into mecha...
To dissect the kinetics of structural transitions underlying the stepping cycle of kinesin-1 at phys...
Kinesin is a microtubule-based motor protein that pulls vesicles or organelles towards the plus end ...
The motor protein kinesin couples a temporally periodic chemical cycle (the hydrolysis of ATP) to a ...