AbstractNovel techniques are revealing the movements and forces associated with single interactions of motor proteins, such as myosin and kinesin, and also of processive enzymes, such as RNA polymerase
Kinesin is a motor protein that uses the energy derived from the hydrolysis of ATP to power the tran...
AbstractThe molecular motor myosin V has been studied extensively both in bulk and single molecule e...
AbstractAn ingenious new experiment used a form of kinesin with one slow head and one fast head to d...
AbstractNovel techniques are revealing the movements and forces associated with single interactions ...
AbstractKinesin is a molecular-scale walking machine. New analyses of its mechanism indicate that ea...
Mechanical tension controls the function of a wide variety of eukaryotic motor proteins. Single-mole...
Motor proteins, sometimes referred to as mechanoenzymes, are a group of proteins that maintain a lar...
AbstractSmall tension signals that pass between the two linked heads of kinesin allow the motor prot...
AbstractRing NTPases represent a large and diverse group of proteins that couple their nucleotide hy...
Single-molecule analysis is a powerful modern form of biochemistry, in which individual kinetic step...
A stochastic model for the action of motor proteins such as kinesin is presented. The mechanical com...
AbstractMolecular motors are first and foremost molecules, governed by the laws of chemistry rather ...
AbstractA theory of molecular motors is presented that explains how the energy released in single ch...
Kinesin-1 is a molecular motor that transports cellular cargo along microtubules by completing hundr...
Over the last few years, increasingly clever in vitro motility assays have allowed mechanical and ki...
Kinesin is a motor protein that uses the energy derived from the hydrolysis of ATP to power the tran...
AbstractThe molecular motor myosin V has been studied extensively both in bulk and single molecule e...
AbstractAn ingenious new experiment used a form of kinesin with one slow head and one fast head to d...
AbstractNovel techniques are revealing the movements and forces associated with single interactions ...
AbstractKinesin is a molecular-scale walking machine. New analyses of its mechanism indicate that ea...
Mechanical tension controls the function of a wide variety of eukaryotic motor proteins. Single-mole...
Motor proteins, sometimes referred to as mechanoenzymes, are a group of proteins that maintain a lar...
AbstractSmall tension signals that pass between the two linked heads of kinesin allow the motor prot...
AbstractRing NTPases represent a large and diverse group of proteins that couple their nucleotide hy...
Single-molecule analysis is a powerful modern form of biochemistry, in which individual kinetic step...
A stochastic model for the action of motor proteins such as kinesin is presented. The mechanical com...
AbstractMolecular motors are first and foremost molecules, governed by the laws of chemistry rather ...
AbstractA theory of molecular motors is presented that explains how the energy released in single ch...
Kinesin-1 is a molecular motor that transports cellular cargo along microtubules by completing hundr...
Over the last few years, increasingly clever in vitro motility assays have allowed mechanical and ki...
Kinesin is a motor protein that uses the energy derived from the hydrolysis of ATP to power the tran...
AbstractThe molecular motor myosin V has been studied extensively both in bulk and single molecule e...
AbstractAn ingenious new experiment used a form of kinesin with one slow head and one fast head to d...
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