The 'plus' ends of microtubules exhibit dynamic instability, switching stochastically from growth to shortening phases. The first endogenous regulator of such 'catastrophes' has been identified, and is a kinesin-related microtubule motor protein
AbstractTwo new studies have shown how regulation of microtubule dynamics by members of the kinesin ...
SummaryMicrotubules are dynamic filaments whose ends alternate between periods of slow growth and ra...
AbstractMitotic-centromere-associated kinesin (MCAK) is a member of the KIN I (internal motor domain...
The 'plus' ends of microtubules exhibit dynamic instability, switching stochastically from growth to...
AbstractThe ‘plus’ ends of microtubules exhibit dynamic instability, switching stochastically from g...
AbstractThe ‘plus’ ends of microtubules exhibit dynamic instability, switching stochastically from g...
AbstractWe isolated a cDNA clone encoding a kinesin-related protein, which we named XKCM1. Antibodie...
Traditionally, kinesins have been identified as proteins that use the energy of ATP to translocate a...
International audienceTraditionally, kinesins have been identified as proteins that use the energy o...
Traditionally, kinesins have been identified as proteins that use the energy of ATP to translocate a...
Traditionally, kinesins have been identified as proteins that use the energy of ATP to translocate a...
International audienceTraditionally, kinesins have been identified as proteins that use the energy o...
International audienceTraditionally, kinesins have been identified as proteins that use the energy o...
International audienceTraditionally, kinesins have been identified as proteins that use the energy o...
International audienceTraditionally, kinesins have been identified as proteins that use the energy o...
AbstractTwo new studies have shown how regulation of microtubule dynamics by members of the kinesin ...
SummaryMicrotubules are dynamic filaments whose ends alternate between periods of slow growth and ra...
AbstractMitotic-centromere-associated kinesin (MCAK) is a member of the KIN I (internal motor domain...
The 'plus' ends of microtubules exhibit dynamic instability, switching stochastically from growth to...
AbstractThe ‘plus’ ends of microtubules exhibit dynamic instability, switching stochastically from g...
AbstractThe ‘plus’ ends of microtubules exhibit dynamic instability, switching stochastically from g...
AbstractWe isolated a cDNA clone encoding a kinesin-related protein, which we named XKCM1. Antibodie...
Traditionally, kinesins have been identified as proteins that use the energy of ATP to translocate a...
International audienceTraditionally, kinesins have been identified as proteins that use the energy o...
Traditionally, kinesins have been identified as proteins that use the energy of ATP to translocate a...
Traditionally, kinesins have been identified as proteins that use the energy of ATP to translocate a...
International audienceTraditionally, kinesins have been identified as proteins that use the energy o...
International audienceTraditionally, kinesins have been identified as proteins that use the energy o...
International audienceTraditionally, kinesins have been identified as proteins that use the energy o...
International audienceTraditionally, kinesins have been identified as proteins that use the energy o...
AbstractTwo new studies have shown how regulation of microtubule dynamics by members of the kinesin ...
SummaryMicrotubules are dynamic filaments whose ends alternate between periods of slow growth and ra...
AbstractMitotic-centromere-associated kinesin (MCAK) is a member of the KIN I (internal motor domain...
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