Add to ORKGA rich and ongoing history of cell biology research has defined the major polymer systems of the eukaryotic cytoskeleton. Recent studies have identified additional proteins that form filamentous structures in cells and can self-assemble into linear polymers when purified. This suggests that the eukaryotic cytoskeleton is an even more complex system than previously considered. In this essay, I examine the case for an expanded definition of the eukaryotic cytoskeleton and present a series of challenges for future work in this area
Virtually all life we can see by eye is eukaryotic. Eukaryotes are a group of organisms that encompa...
The cytoskeleton is a network of proteic filaments which occupy the interior of all vegetable and an...
Cytoszkielet to struktura komórkowa złożona z trzech rodzajów wzajemnie ze sobą powiązanych białkowy...
The cytoskeleton is a system of intracellular filaments crucial for cell shape, division, and functi...
Far from being simple ‘bags’ of enzymes, bacteria are richly endowed with ultrastructures that chall...
AbstractMany eukaryotic cells contain up to three families of cytoskeletal proteins that are respons...
textThe actin, microtubule and intermediate filament cytoskeletal polymer assemblies, along with the...
The eukaryotic cytoskeleton evolved from prokaryotic cytomotive filaments. Prokaryotic filament syst...
Traditionally, structures of cytoskeletal components have been studied ex situ, that is, with bioche...
AbstractThe prokaryotic cell division protein FtsZ and eukaryotic tubulin have been shown to have ve...
31 pages, 16 figures, 295 referencesInternational audienceThe present article is an invited contribu...
In vitro reconstitution of bacterial cytoskeletal elements, primarily supposed to reveal detailed me...
Despite their overwhelming complexity, living cells display a high degree of internal mechanical and...
The human body is composed of about 3−4×1013 (30-40 trillion) cells [1]. These cells are all functio...
The cytoskeletons of eukaryotic, cilioprotist microorganisms are complex, highly patterned, and dive...
Virtually all life we can see by eye is eukaryotic. Eukaryotes are a group of organisms that encompa...
The cytoskeleton is a network of proteic filaments which occupy the interior of all vegetable and an...
Cytoszkielet to struktura komórkowa złożona z trzech rodzajów wzajemnie ze sobą powiązanych białkowy...
The cytoskeleton is a system of intracellular filaments crucial for cell shape, division, and functi...
Far from being simple ‘bags’ of enzymes, bacteria are richly endowed with ultrastructures that chall...
AbstractMany eukaryotic cells contain up to three families of cytoskeletal proteins that are respons...
textThe actin, microtubule and intermediate filament cytoskeletal polymer assemblies, along with the...
The eukaryotic cytoskeleton evolved from prokaryotic cytomotive filaments. Prokaryotic filament syst...
Traditionally, structures of cytoskeletal components have been studied ex situ, that is, with bioche...
AbstractThe prokaryotic cell division protein FtsZ and eukaryotic tubulin have been shown to have ve...
31 pages, 16 figures, 295 referencesInternational audienceThe present article is an invited contribu...
In vitro reconstitution of bacterial cytoskeletal elements, primarily supposed to reveal detailed me...
Despite their overwhelming complexity, living cells display a high degree of internal mechanical and...
The human body is composed of about 3−4×1013 (30-40 trillion) cells [1]. These cells are all functio...
The cytoskeletons of eukaryotic, cilioprotist microorganisms are complex, highly patterned, and dive...
Virtually all life we can see by eye is eukaryotic. Eukaryotes are a group of organisms that encompa...
The cytoskeleton is a network of proteic filaments which occupy the interior of all vegetable and an...
Cytoszkielet to struktura komórkowa złożona z trzech rodzajów wzajemnie ze sobą powiązanych białkowy...