Add to ORKGMicrotubules are rigid cytoskeletal filaments, and their mechanics affect cell morphology and cellular processes. For instance, microtubules for the support structures for extended morphologies, such as axons and cilia. Further, microtubules act as tension rods to pull apart chromosomes during cellular division. Unlike other cytoskeletal filaments (e.g., actin) that work as large networks, microtubules work individually or in small groups, so their individual mechanical properties are quite important to their cellular function. In this review, we explore the past work on the mechanics of individual microtubules, which have been studied for over a quarter of a century. We also present some prospective on future endeavors to determine the mol...
Microtubules switch between growing and shrinking states, a feature known as dynamic instability. Th...
ABSTRACT Microtubules (MTs) are dynamic cytoskeletal elements involved in numerous cel-lular process...
The microtubule (MT) is the stiffest cytoskeletal filamentous protein that takes part in a wide rang...
Microtubules are rigid cytoskeletal filaments, and their mechanics affect cell morphology and cellul...
Microtubules are the least flexible of the cytoskeletal filaments, yet they are occasionally seen to...
Cytoskeletal microtubules have been proposed to influence cell shape and mechanics based on their ab...
The aim of this paper was to develop a structural mechanics (SM) model for the microtubules (MTs) in...
Microtubules are cytoskeleton components with unique mechanical and dynamic properties. They are rig...
Microtubules—which define the shape of axons, cilia and flagella, and provide tracks for intracellul...
International audienceMicrotubules are cytoskeleton components with unique mechanical and dynamic pr...
Quantitative description of cell mechanics has challenged biological scientists for the past two dec...
Quantitative description of cell mechanics has challenged biological scientists for the past two dec...
Microtubules consist of 13 protofilaments arranged in the form of a cylinder. The protofilaments are...
AbstractDecomposition of the intrinsic dynamics of proteins into collective motions among distant re...
Supplementary information : Supplementary figure S1 – S8 Supplementary video 1 – 6 legendsInternatio...
Microtubules switch between growing and shrinking states, a feature known as dynamic instability. Th...
ABSTRACT Microtubules (MTs) are dynamic cytoskeletal elements involved in numerous cel-lular process...
The microtubule (MT) is the stiffest cytoskeletal filamentous protein that takes part in a wide rang...
Microtubules are rigid cytoskeletal filaments, and their mechanics affect cell morphology and cellul...
Microtubules are the least flexible of the cytoskeletal filaments, yet they are occasionally seen to...
Cytoskeletal microtubules have been proposed to influence cell shape and mechanics based on their ab...
The aim of this paper was to develop a structural mechanics (SM) model for the microtubules (MTs) in...
Microtubules are cytoskeleton components with unique mechanical and dynamic properties. They are rig...
Microtubules—which define the shape of axons, cilia and flagella, and provide tracks for intracellul...
International audienceMicrotubules are cytoskeleton components with unique mechanical and dynamic pr...
Quantitative description of cell mechanics has challenged biological scientists for the past two dec...
Quantitative description of cell mechanics has challenged biological scientists for the past two dec...
Microtubules consist of 13 protofilaments arranged in the form of a cylinder. The protofilaments are...
AbstractDecomposition of the intrinsic dynamics of proteins into collective motions among distant re...
Supplementary information : Supplementary figure S1 – S8 Supplementary video 1 – 6 legendsInternatio...
Microtubules switch between growing and shrinking states, a feature known as dynamic instability. Th...
ABSTRACT Microtubules (MTs) are dynamic cytoskeletal elements involved in numerous cel-lular process...
The microtubule (MT) is the stiffest cytoskeletal filamentous protein that takes part in a wide rang...