DOIAbstract
AbstractAn ingenious new experiment used a form of kinesin with one slow head and one fast head to demonstrate definitively that this motor protein moves along a microtubule using alternating left and right steps
AbstractAn ingenious new experiment used a form of kinesin with one slow head and one fast head to demonstrate definitively that this motor protein moves along a microtubule using alternating left and right steps
AbstractThe motility of single one-headed kinesin molecules (K351 and K340), which were truncated fr...
AbstractKinesin is a dimeric motor with twin catalytic heads joined to a common stalk. Kinesin molec...
AbstractNovel techniques are revealing the movements and forces associated with single interactions ...
AbstractKinesin is a molecular walking machine with two identical motor heads connected to a coiled-...
AbstractA recent model suggests that the walking action of kinesin is due to a 13 residue ‘fundament...
AbstractAn ingenious new experiment used a form of kinesin with one slow head and one fast head to d...
AbstractKinesin is a molecular-scale walking machine. New analyses of its mechanism indicate that ea...
AbstractConventional kinesins are two-headed molecular motors that move as single molecules micromet...
A single kinesin molecule can move for hun-dreds of steps along a microtubule without dissociating. ...
AbstractKinesin is a two-headed motor protein that transports cargo inside cells by moving stepwise ...
AbstractKinesin is a dimeric motor with twin catalytic heads joined to a common stalk. Kinesin molec...
AbstractSmall tension signals that pass between the two linked heads of kinesin allow the motor prot...
AbstractThe processive movement of single-headed kinesins is studied by using a ratchet model of non...
AbstractConventional kinesin is a dimeric motor protein that transports membranous organelles toward...
AbstractMotor proteins of the kinesin family move actively along microtubules to transport cargo wit...
AbstractThe motility of single one-headed kinesin molecules (K351 and K340), which were truncated fr...
AbstractKinesin is a dimeric motor with twin catalytic heads joined to a common stalk. Kinesin molec...
AbstractNovel techniques are revealing the movements and forces associated with single interactions ...
AbstractKinesin is a molecular walking machine with two identical motor heads connected to a coiled-...
AbstractA recent model suggests that the walking action of kinesin is due to a 13 residue ‘fundament...
AbstractAn ingenious new experiment used a form of kinesin with one slow head and one fast head to d...
AbstractKinesin is a molecular-scale walking machine. New analyses of its mechanism indicate that ea...
AbstractConventional kinesins are two-headed molecular motors that move as single molecules micromet...
A single kinesin molecule can move for hun-dreds of steps along a microtubule without dissociating. ...
AbstractKinesin is a two-headed motor protein that transports cargo inside cells by moving stepwise ...
AbstractKinesin is a dimeric motor with twin catalytic heads joined to a common stalk. Kinesin molec...
AbstractSmall tension signals that pass between the two linked heads of kinesin allow the motor prot...
AbstractThe processive movement of single-headed kinesins is studied by using a ratchet model of non...
AbstractConventional kinesin is a dimeric motor protein that transports membranous organelles toward...
AbstractMotor proteins of the kinesin family move actively along microtubules to transport cargo wit...
AbstractThe motility of single one-headed kinesin molecules (K351 and K340), which were truncated fr...
AbstractKinesin is a dimeric motor with twin catalytic heads joined to a common stalk. Kinesin molec...
AbstractNovel techniques are revealing the movements and forces associated with single interactions ...
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