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Aher, Amol (author), Kok, M.W.A. (author), Sharma, Ashwani (author), Rai, Ankit (author), Olieric, Natacha (author), Rodriguez-Garcia, Ruddi (author), Katrukha, Eugene A. (author), Weinert, Tobias (author), Olieric, Vincent (author), Kapitein, Lukas C. (author), Steinmetz, Michel O. (author), Dogterom, A.M. (author), Akhmanova, Anna (author)The dynamic instability of microtubules plays a key role in controlling their organization and function, but the cellular mechanisms regulating this process are poorly understood. Here, we show that cytoplasmic linker-associated proteins (CLASPs) suppress transitions from microtubule growth to shortening, termed catastrophes, including those...journal article 2018
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Tas, Roderick P. (author), Chen, Chiung Yi (author), Katrukha, Eugene A. (author), Vleugel, M. (author), Kok, M.W.A. (author), Dogterom, A.M. (author), Akhmanova, Anna (author), Kapitein, Lukas C. (author)Force generation by molecular motors drives biological processes such as asymmetric cell division and cell migration. Microtubule gliding assays in which surface-immobilized motor proteins drive microtubule propulsion are widely used to study basic motor properties as well as the collective behavior of active self-organized systems....journal article 2018
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Vleugel, M. (author), Kok, M.W.A. (author), Dogterom, A.M. (author)Microtubules switch between growing and shrinking states, a feature known as dynamic instability. The biochemical parameters underlying dynamic instability are modulated by a wide variety of microtubule-associated proteins that enable the strict control of microtubule dynamics in cells. The forces generated by controlled growth and shrinkage...journal article 2016