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Yildiz laboratory combines molecular biology and biophysical techniques to understand mechanisms that underlie the cellular organization and motility. Single molecule imaging enables direct observation of molecular motions, time courses of reactions and heterogeneity in subpopulations of the proteins. One major focus is to understand how microtubule motors work individually and how their interaction play a key role in intracellular transport and organismal motility. We are also using superresolution imaging techniques to visualize high order structures of telomeric DNA in human cells.
Yildiz laboratory combines molecular biology and biophysical techniques to understand mechanisms that underlie the cellular organization and motility. Single molecule imaging enables direct observation of molecular motions, time courses of reactions and heterogeneity in subpopulations of the proteins. One major focus is to understand how microtubule motors work individually and how their interaction play a key role in intracellular transport and organismal motility. We are also using superresolution imaging techniques to visualize high order structures of telomeric DNA in human cells.
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论文共 151 篇作者统计合作学者相似作者
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Research square (2024)
David Salvador-Garcia, Li Jin,Andrew Hensley,Mert Gölcük,Emmanuel Gallaud,Sami Chaaban,Fillip Port,Alessio Vagnoni,Vicente José Planelles-Herrero,Mark A McClintock,Emmanuel Derivery,Andrew P Carter,
The Journal of cell biologyno. 10 (2024)
NATURE CHEMICAL BIOLOGYno. 4 (2024): 408-409
bioRxiv : the preprint server for biology (2023)
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