Cytoskeleton

Papers
(The TQCC of Cytoskeleton is 1. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2020-11-01 to 2024-11-01.)
ArticleCitations
LIM domain proteins in cell mechanobiology41
Early events in endothelial flow sensing34
Is there a universal mechanism of cell alignment in response to substrate topography?34
Cytoskeletal prestress: The cellular hallmark in mechanobiology and mechanomedicine30
Posttranslational modifications of the cytoskeleton26
Composition and function of ciliary inner‐dynein‐arm subunits studied in Chlamydomonas reinhardtii25
The many modes of flagellar and ciliary beating: Insights from a physical analysis24
Production and analysis of a mammalian septin hetero‐octamer complex23
A review and analysis of the clinical literature on Charcot–Marie–Tooth disease caused by mutations in neurofilament protein L18
Recent insights into the relative timing of myosin's powerstroke and release of phosphate17
Molecular cancer cell responses to solid compressive stress and interstitial fluid pressure17
Photodynamic sensitizers modulate cytoskeleton structural dynamics in neuronal cells15
Vimentin intermediate filaments modulate cell traction force but not cell sensitivity to substrate stiffness14
A common theme for axonopathies? The dependency cycle of local axon homeostasis14
Myosin's powerstroke occurs prior to the release of phosphate from the active site12
Phospho‐regulation of mitotic spindle assembly11
STED analysis reveals the organization of nonmuscle muscle II, muscle myosin II, and F‐actin in nascent myofibrils10
Phosphoregulation of the septin cytoskeleton in neuronal development and disease9
Vimentin's side gig: Regulating cellular proteostasis in mammalian systems9
An in silico approach to determine inter‐subunit affinities in human septin complexes8
Tau and neurodegeneration8
Septins promote caspase activity and coordinate mitochondrial apoptosis8
The legacy of kinesins in the pollen tube 30 years later7
The emerging role of septins in fungal pathogenesis7
Androgen downregulates desmocollin‐2 in association with induction of mesenchymal transition of breast MDA‐MB‐453 cancer cells7
Single depolymerizing and transport kinesins stabilize microtubule ends6
Decoding post‐translational modifications of mammalian septins6
Inhibitors of the ubiquitin proteasome system block myofibril assembly in cardiomyocytes derived from chick embryos and human pluripotent stem cells6
Metastasis suppressor 1 interacts with α‐actinin 4 to affect its localization and regulate formation of membrane ruffling5
Variable fluid flow regimes alter human brain microvascular endothelial cell–cell junctions and cytoskeletal structure5
Appearance of microtubules at the cytokinesis to interphase transition in Arabidopsis thaliana5
Polymerization kinetics of tubulin from mung seedlings modeled as a competition between nucleation and GTP‐hydrolysis rates5
Septin and actin contributions to endothelial cell–cell junctions and monolayer integrity5
Prey capture in protists utilizing microtubule filled processes and surface motility5
Microtubule‐associated proteins and enzymes modifying tubulin5
Time for rethinking the different β‐actin transgenic mouse models?4
Espin overexpression causes stereocilia defects and provides an anti‐capping effect on actin polymerization4
Zebrafish null mutants of Sept6 and Sept15 are viable but more susceptible to Shigella infection4
Measuring force generation within reconstituted microtubule bundle assemblies using optical tweezers4
The actin‐binding protein Adseverin mediates neutrophil polarization and migration4
Statistical profiling reveals correlations between the cell response to and the primary structure of Rho‐GAPs4
Switch‐1 instability at the active site decouples ATP hydrolysis from force generation in myosin II4
Myosin 1e deficiency affects migration of4T1breast cancer cells4
The myosin regulatory light chain Myl5 localizes to mitotic spindle poles and is required for proper cell division4
Conservation and divergence of the G‐interfaces of Drosophila melanogaster septins4
Genetic and sporadic forms of tauopathies—TAU as a disease driver for the majority of patients but the minority of tauopathies3
Myosin‐induced F‐actin fragmentation facilitates contraction of actin networks3
Follow that cell: Leukocyte migration in L‐plastin mutant zebrafish3
Physical evidence on desmin–lamin B interaction3
Tau, ADNP, and sex3
Myosin motors on the pathway of viral infections3
The phosphatase inhibitor Sds23 promotes symmetric spindle positioning in fission yeast3
Intraflagellar transport: A critical player in photoreceptor development and the pathogenesis of retinal degenerative diseases3
A single stiffened nucleus alters cell dynamics and coherence in a monolayer3
Effects of environmental stress factors on the actin cytoskeleton of fungi and plants: Ionizing radiation and ROS3
Inherently disordered regions of axonemal dynein assembly factors2
Dynamin‐2 regulates microtubule stability via an endocytosis‐independent mechanism2
The role of intrinsic disorder in binding of plant microtubule‐associated proteins to the cytoskeleton2
Molecular and cellular level characterization of cytoskeletal mechanics using a quartz crystal microbalance2
Topographical depth reveals contact guidance mechanism distinct from focal adhesion confinement2
Conformation of actin subunits at the barbed and pointed ends of F‐actin with and without capping proteins2
Molecular simulation approaches to probing the effects of mechanical forces in the actin cytoskeleton2
Structure challenges in the multivalency of Tau‐microtubule interactions2
Simultaneous co‐overexpression of Saccharomyces cerevisiae septins Cdc3 and Cdc10 drives pervasive, phospholipid‐, and tag‐dependent plasma membrane localization2
Confined keratocytes mimic in vivo migration and reveal volume‐speed relationship2
Mechanistic basis for rescuing hypertrophic cardiomyopathy with myosin regulatory light chain phosphorylation2
Is Gulf War Illness a prolonged early phase tauopathy?2
Diversification of the calponin family proteins by gene amplification and repeat expansion of calponin‐like motifs2
Axopodia and the cellular “arms” race2
Reconstitution of muscle cell microtubule organization in vitro2
Theoretical relationships between axoneme distortion and internal forces and torques in ciliary beating2
miR96‐ and miR182‐driven regulation of cytoskeleton results in inhibition of glioblastoma motility2
Big tau: What, how, where and why2
Dynein localization and pronuclear movement in the C. elegans zygote1
Studying the rhodopsin‐like G protein‐coupled receptors by atomic force microscopy1
Disease‐related non‐muscle myosin IIA D1424N rod domain mutation, but not R702C motor domain mutation, disrupts mouse ocular lens fiber cell alignment and hexagonal packing1
The fidgetin family: Shaking things up among the microtubule‐severing enzymes1
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Caenorhabditis elegans septins contribute to the development and structure of the oogenic germline1
Contributions of the individual domains of αIIbβ3 integrin to its extension: Insights from multiscale modeling1
Distribution and bulk flow analyses of the intraflagellar transport (IFT) motor kinesin‐2 support an “on‐demand” model for Chlamydomonas ciliary length control1
UNC‐82/NUAK kinase is required by myosin A, but not myosin B, to assemble and function in the thick filament arms of C. elegans striated muscle1
Issue Information1
Actin filament‐ and Wiskott‐Aldrich syndrome protein‐binding sites on fructose‐1,6‐bisphosphate aldolase are functionally distinct from the active site1
The emergence of nebulin repeats and evolution of lasp family proteins1
Ionic strength alters crosslinker‐driven self‐organization of microtubules1
Role of WAVE3 as an actin binding protein in the pathology of triple negative breast cancer1
Ultrastructure expansion microscopy (U‐ExM) of mouse and human kidneys for analysis of subcellular structures1
Regulation of mitochondrial structure by the actin cytoskeleton1
Tau and the hard problem faceoff1
Tau oligomerization on microtubules in health and disease1
The unique properties of Big tau in the visual system1
Travels with tau prions1
Dysregulation of mTOR by tau in Alzheimer's disease1
Cell‐surface contacts determine volume and mechanical properties of human embryonic kidney 293 T cells1
Issue Information1
Why kiss‐and‐hop explains that tau does not stabilize microtubules and does not interfere with axonal transport (at physiological conditions)1
Microtubule length correlates with spindle length in C. elegans meiosis1
Growth‐induced collective bending and kinetic trapping of cytoskeletal filaments1
The emerging nontraditional roles for tau in the brain1
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Microstructure‐based modeling of primary cilia mechanics1
A half‐century of tau1
Cover1
Effect of MG‐132 on myofibrillogenesis and the ubiquitination of GAPDH in quail myotubes1
Targeted inactivation of the Septin2 and Septin9 genes in myelinating Schwann cells of mice1
Prediction of the essential intermolecular contacts for side‐binding of VASP on F‐actin1
NAP1L1 is a novel microtubule‐associated protein1
Cleavage furrow positioning in dividing Dictyostelium cells1
The ability of the LIMD1 and TRIP6 LIM domains to bind strained f‐actin is critical for their tension dependent localization to adherens junctions and association with the Hippo 1
Acetylation of fission yeast tropomyosin does not promote differential association with cognate formins1
Tau and Alzheimer's disease: Past, present and future1
Probing actin‐activated ATP turnover kinetics of human cardiac myosin II by single molecule fluorescence1
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