| scholarly article | Q13442814 |
| P2093 | author name string | Jiyeon Lee | |
| Charles K Thodeti | |||
| Tanmay Lele | |||
| T J Chancellor | |||
| P2860 | cites work | Tumor-derived endothelial cells exhibit aberrant Rho-mediated mechanosensing and abnormal angiogenesis in vitro | Q36837467 |
| Dysfunctional connections between the nucleus and the actin and microtubule networks in laminopathic models. | Q36981772 | ||
| A nuclear-envelope bridge positions nuclei and moves chromosomes | Q37289478 | ||
| Disruption of nesprin-1 produces an Emery Dreifuss muscular dystrophy-like phenotype in mice. | Q37292920 | ||
| Nesprin-1 and -2 are involved in the pathogenesis of Emery Dreifuss muscular dystrophy and are critical for nuclear envelope integrity | Q40087014 | ||
| Enaptin, a giant actin-binding protein, is an element of the nuclear membrane and the actin cytoskeleton | Q40565474 | ||
| Dynamic reorientation of cultured cells and stress fibers under mechanical stress from periodic stretching | Q40791529 | ||
| Spatial and temporal traction response in human airway smooth muscle cells. | Q44133795 | ||
| Extracellular matrix controls myosin light chain phosphorylation and cell contractility through modulation of cell shape and cytoskeletal prestress | Q44755127 | ||
| Extracellular matrix rigidity governs smooth muscle cell motility in a biphasic fashion | Q45255637 | ||
| Prestress mediates force propagation into the nucleus | Q45287305 | ||
| Decreased mechanical stiffness in LMNA-/- cells is caused by defective nucleo-cytoskeletal integrity: implications for the development of laminopathies. | Q51616068 | ||
| A stochastic model for adhesion-mediated cell random motility and haptotaxis. | Q52405286 | ||
| Altering the cellular mechanical force balance results in integrated changes in cell, cytoskeletal and nuclear shape | Q67993534 | ||
| Quantitative analysis of adhesion-mediated cell migration in three-dimensional gels of RGD-grafted collagen | Q73381764 | ||
| Here come the SUNs: a nucleocytoskeletal missing link | Q82236243 | ||
| Nesprins: a novel family of spectrin-repeat-containing proteins that localize to the nuclear membrane in multiple tissues | Q24292172 | ||
| Myne-1, a spectrin repeat transmembrane protein of the myocyte inner nuclear membrane, interacts with lamin A/C | Q24292190 | ||
| Coupling of the nucleus and cytoplasm: role of the LINC complex | Q24299991 | ||
| Nesprin-1alpha self-associates and binds directly to emerin and lamin A in vitro | Q24303760 | ||
| The nesprins are giant actin-binding proteins, orthologous to Drosophila melanogaster muscle protein MSP-300 | Q24314644 | ||
| Structural requirements for the assembly of LINC complexes and their function in cellular mechanical stiffness | Q24318372 | ||
| Nesprin 4 is an outer nuclear membrane protein that can induce kinesin-mediated cell polarization | Q24320152 | ||
| Lamin A/C-dependent localization of Nesprin-2, a giant scaffolder at the nuclear envelope | Q24531346 | ||
| Syne proteins anchor muscle nuclei at the neuromuscular junction | Q24555750 | ||
| Cell migration: a physically integrated molecular process | Q27860682 | ||
| The biology of VEGF and its receptors | Q27860704 | ||
| The inner nuclear membrane protein Sun1 mediates the anchorage of Nesprin-2 to the nuclear envelope | Q28265573 | ||
| Abnormal nuclear shape and impaired mechanotransduction in emerin-deficient cells | Q28268495 | ||
| Nuclear lamin A/C deficiency induces defects in cell mechanics, polarization, and migration | Q28505944 | ||
| Nuclear movement regulated by Cdc42, MRCK, myosin, and actin flow establishes MTOC polarization in migrating cells | Q28508708 | ||
| Syne-1 and Syne-2 play crucial roles in myonuclear anchorage and motor neuron innervation | Q28591836 | ||
| Cell locomotion and focal adhesions are regulated by substrate flexibility | Q29615522 | ||
| Integrin-ligand binding properties govern cell migration speed through cell-substratum adhesiveness | Q29620446 | ||
| TRPV4 channels mediate cyclic strain-induced endothelial cell reorientation through integrin-to-integrin signaling | Q30438420 | ||
| Directional persistence of EGF-induced cell migration is associated with stabilization of lamellipodial protrusions | Q30447163 | ||
| Mechanical forces alter zyxin unbinding kinetics within focal adhesions of living cells | Q33227204 | ||
| The structural and mechanical complexity of cell-growth control | Q33772662 | ||
| Role of ANC-1 in tethering nuclei to the actin cytoskeleton. | Q34647845 | ||
| SUN1 interacts with nuclear lamin A and cytoplasmic nesprins to provide a physical connection between the nuclear lamina and the cytoskeleton | Q34717324 | ||
| Lamin A/C deficiency causes defective nuclear mechanics and mechanotransduction. | Q35632054 | ||
| Demonstration of mechanical connections between integrins, cytoskeletal filaments, and nucleoplasm that stabilize nuclear structure | Q35964554 | ||
| P4510 | describes a project that uses | ImageJ | Q1659584 |
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | endothelium | Q111140 |
| cell adhesion | Q187640 | ||
| cell migration | Q189092 | ||
| P304 | page(s) | 115-123 | |
| P577 | publication date | 2010-07-01 | |
| P1433 | published in | Biophysical Journal | Q2032955 |
| P1476 | title | Actomyosin tension exerted on the nucleus through nesprin-1 connections influences endothelial cell adhesion, migration, and cyclic strain-induced reorientation | |
| P478 | volume | 99 |
| Q36275320 | A Chemomechanical Model of Matrix and Nuclear Rigidity Regulation of Focal Adhesion Size |
| Q37901782 | A hitchhiker's guide to mechanobiology |
| Q50621446 | Active cytoskeletal force and chromatin condensation independently modulate intranuclear network fluctuations |
| Q37533446 | Actomyosin pulls to advance the nucleus in a migrating tissue cell |
| Q45064204 | Aligned fibers direct collective cell migration to engineer closing and nonclosing wound gaps. |
| Q38872804 | An unresolved LINC in the nuclear envelope |
| Q41894241 | BIGH3 modulates adhesion and migration of hematopoietic stem and progenitor cells |
| Q92563829 | Biofabrication of thick vascularized neo-pedicle flaps for reconstructive surgery |
| Q37016154 | Cell Mechanosensitivity is Enabled by the LINC Nuclear Complex |
| Q34614178 | Cellular mechanosensing: getting to the nucleus of it all. |
| Q42503937 | Cellular strain avoidance is mediated by a functional actin cap - observations in an Lmna-deficient cell model. |
| Q99562888 | Changes in Nuclear Shape and Gene Expression in Response to Simulated Microgravity Are LINC Complex-Dependent |
| Q91986708 | Combating osteoporosis and obesity with exercise: leveraging cell mechanosensitivity |
| Q87011651 | Contribution of SUN1 mutations to the pathomechanism in muscular dystrophies |
| Q37314657 | Cytoskeletal Configuration Modulates Mechanically Induced Changes in Mesenchymal Stem Cell Osteogenesis, Morphology, and Stiffness |
| Q35755016 | Cytoskeletal to Nuclear Strain Transfer Regulates YAP Signaling in Mesenchymal Stem Cells. |
| Q38441084 | Deregulation of focal adhesion formation and cytoskeletal tension due to loss of A-type lamins |
| Q35590135 | Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell. |
| Q38991463 | Diseases of the Nucleoskeleton. |
| Q42223382 | Dynamic force-induced direct dissociation of protein complexes in a nuclear body in living cells. |
| Q27325533 | Dynamic modeling of cell migration and spreading behaviors on fibronectin coated planar substrates and micropatterned geometries |
| Q38580523 | Dynamic, mechanical integration between nucleus and cell- where physics meets biology |
| Q48041841 | Enucleated cells reveal differential roles of the nucleus in cell migration, polarity, and mechanotransduction |
| Q34564896 | Experimental and computational investigation of the role of stress fiber contractility in the resistance of osteoblasts to compression |
| Q39311831 | Focal adhesion kinase knockdown modulates the response of human corneal epithelial cells to topographic cues |
| Q30628187 | Formation of contractile networks and fibers in the medial cell cortex through myosin-II turnover, contraction, and stress-stabilization |
| Q28072132 | Heading in the Right Direction: Understanding Cellular Orientation Responses to Complex Biophysical Environments |
| Q42807589 | How dynein and microtubules rotate the nucleus |
| Q35056389 | Hyperoxia increases the elastic modulus of alveolar epithelial cells through Rho kinase |
| Q90002679 | Identification of new binding proteins of focal adhesion kinase using immunoprecipitation and mass spectrometry |
| Q27323762 | In silico synchronization reveals regulators of nuclear ruptures in lamin A/C deficient model cells. |
| Q46082447 | Integrating focal adhesion dynamics, cytoskeleton remodeling, and actin motor activity for predicting cell migration on 3D curved surfaces of the extracellular matrix. |
| Q34229194 | Investigation of in vivo microtubule and stress fiber mechanics with laser ablation |
| Q33769878 | KASHing up with the nucleus: novel functional roles of KASH proteins at the cytoplasmic surface of the nucleus. |
| Q36109210 | Keeping the LINC: the importance of nucleocytoskeletal coupling in intracellular force transmission and cellular function |
| Q41836884 | Lamins and nesprin-1 mediate inside-out mechanical coupling in muscle cell precursors through FHOD1. |
| Q38341565 | Lamins at the crossroads of mechanosignaling |
| Q90632667 | Local, transient tensile stress on the nuclear membrane causes membrane rupture |
| Q38691260 | Material Cues as Potent Regulators of Epigenetics and Stem Cell Function |
| Q58429078 | Mechanical Coupling of the Endothelial Cytoskeleton and Nucleus with VEGF Stimulation |
| Q39043810 | Mechanosensing by the nucleus: From pathways to scaling relationships. |
| Q47191844 | Mechanotransduction Mechanisms in Mitral Valve Physiology and Disease Pathogenesis. |
| Q38790844 | Mechanotransduction and nuclear function |
| Q57173962 | Microgravity-Induced Alterations of Inflammation-Related Mechanotransduction in Endothelial Cells on Board SJ-10 Satellite |
| Q37056188 | Modulation of Nuclear Shape by Substrate Rigidity |
| Q42578293 | Moving Cell Boundaries Drive Nuclear Shaping during Cell Spreading |
| Q48041707 | Nanopillar force measurements reveal actin-cap-mediated YAP mechanotransduction |
| Q47306531 | Nesprin interchain associations control nuclear size |
| Q57909897 | Nesprin-1 and nesprin-2 regulate endothelial cell shape and migration |
| Q39000180 | Nesprin-1 role in DNA damage response |
| Q36724244 | Nesprin-2G, a Component of the Nuclear LINC Complex, Is Subject to Myosin-Dependent Tension |
| Q37056635 | Nesprin-3 connects plectin and vimentin to the nuclear envelope of Sertoli cells but is not required for Sertoli cell function in spermatogenesis |
| Q24338445 | Nesprin-3 regulates endothelial cell morphology, perinuclear cytoskeletal architecture, and flow-induced polarization |
| Q38119634 | Nesprins: from the nuclear envelope and beyond |
| Q35863078 | Neural maintenance roles for the matrix receptor dystroglycan and the nuclear anchorage complex in Caenorhabditis elegans |
| Q28082302 | New approaches for understanding the nuclear force balance in living, adherent cells |
| Q27310111 | Non-muscle myosin IIB is critical for nuclear translocation during 3D invasion. |
| Q37325783 | Nuclear envelope rupture is induced by actin-based nucleus confinement |
| Q34669322 | Nuclear forces and cell mechanosensing. |
| Q36116300 | Nuclear mechanics in cancer |
| Q36144958 | Nuclear mechanics in disease |
| Q34574178 | Nucleoskeleton mechanics at a glance |
| Q38949844 | Nucleus and nucleus-cytoskeleton connections in 3D cell migration |
| Q92781335 | Nup93 regulates breast tumor growth by modulating cell proliferation and actin cytoskeleton remodeling |
| Q58745017 | Periodontal cell mechanotransduction |
| Q38730535 | SUN1 splice variants, SUN1_888, SUN1_785, and predominant SUN1_916, variably function in directional cell migration |
| Q92630806 | SUN1/2 Are Essential for RhoA/ROCK-Regulated Actomyosin Activity in Isolated Vascular Smooth Muscle Cells |
| Q64244799 | Signal Transduction across the Nuclear Envelope: Role of the LINC Complex in Bidirectional Signaling |
| Q34084813 | Stress transmission within the cell |
| Q92579793 | The LINC complex, mechanotransduction, and mesenchymal stem cell function and fate |
| Q39029494 | The Nuclear Option: Evidence Implicating the Cell Nucleus in Mechanotransduction |
| Q36113002 | The cellular mastermind(?)-mechanotransduction and the nucleus |
| Q35032421 | The influence of physical and physiological cues on atomic force microscopy-based cell stiffness assessment |
| Q30502842 | The interaction between nesprins and sun proteins at the nuclear envelope is critical for force transmission between the nucleus and cytoskeleton |
| Q37460088 | The mammalian LINC complex regulates genome transcriptional responses to substrate rigidity |
| Q36059649 | The nuclear envelope protein Nesprin-2 has roles in cell proliferation and differentiation during wound healing. |
| Q38724224 | The nucleus is a conserved mechanosensation and mechanoresponse organelle. |
| Q35687492 | The nucleus is an intracellular propagator of tensile forces in NIH 3T3 fibroblasts. |
| Q35512886 | Topographic modulation of the orientation and shape of cell nuclei and their influence on the measured elastic modulus of epithelial cells. |
| Q37610130 | Trinucleotide Repeat Expansion in the Transcription Factor 4 (TCF4) Gene Leads to Widespread mRNA Splicing Changes in Fuchs' Endothelial Corneal Dystrophy |
| Q49710651 | X-ray-enhanced cancer cell migration requires the linker of nucleoskeleton and cytoskeleton complex. |
Search more.