review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | Michael P Sheetz | |
Simon W Moore | |||
P2860 | cites work | Coupling of the nucleus and cytoplasm: role of the LINC complex | Q24299991 |
Mechanoenzymatics of titin kinase | Q24309951 | ||
Cell movement is guided by the rigidity of the substrate | Q24537364 | ||
Matrices with compliance comparable to that of brain tissue select neuronal over glial growth in mixed cortical cultures | Q24541519 | ||
Mechanics of actomyosin bonds in different nucleotide states are tuned to muscle contraction | Q24550964 | ||
Eph/ephrin molecules--a hub for signaling and endocytosis | Q24611588 | ||
Amphipathic motifs in BAR domains are essential for membrane curvature sensing | Q24657635 | ||
A hinge in the distal end of the PACSIN 2 F-BAR domain may contribute to membrane-curvature sensing | Q27661639 | ||
Matrix elasticity directs stem cell lineage specification | Q27860761 | ||
cAMP-dependent protein kinase phosphorylation of EVL, a Mena/VASP relative, regulates its interaction with actin and SH3 domains | Q28143912 | ||
Directed growth and selective differentiation of neural progenitor cells on micropatterned polymer substrates | Q28235037 | ||
Mode of cell migration to the superficial layers of fetal monkey neocortex | Q28243757 | ||
The inner nuclear membrane protein Sun1 mediates the anchorage of Nesprin-2 to the nuclear envelope | Q28265573 | ||
The influence of fiber diameter of electrospun substrates on neural stem cell differentiation and proliferation | Q28299395 | ||
The differential adhesion hypothesis: a direct evaluation | Q29028060 | ||
Cellular Strategies of Axonal Pathfinding | Q29029769 | ||
Force Sensing by Mechanical Extension of the Src Family Kinase Substrate p130Cas | Q29030077 | ||
The canonical Notch signaling pathway: unfolding the activation mechanism | Q29547725 | ||
Stretching single talin rod molecules activates vinculin binding | Q29617762 | ||
Tensile forces govern germ-layer organization in zebrafish. | Q51961232 | ||
[Viscoelastic property of human brain -for the analysis of impact injury (author's transl)] | Q52549495 | ||
Fifteen-piconewton force detection from neural growth cones using nanowire arrays. | Q53346281 | ||
Platelets as a source of fibroblast growth-promoting activity. | Q53597706 | ||
The extracellular matrix guides the orientation of the cell division axis. | Q53656268 | ||
Prior Exposure to Neurotrophins Blocks Inhibition of Axonal Regeneration by MAG and Myelin via a cAMP-Dependent Mechanism | Q60228789 | ||
Rho Controls Cortical F-actin Disassembly in Addition to, but Independently of, Secretion in Mast Cells | Q61896874 | ||
Agarose gel stiffness determines rate of DRG neurite extension in 3D cultures | Q62565525 | ||
The relative roles of contact inhibition and contact guidance in orientation of axons extending on aligned collagen fibrils in vitro | Q67765788 | ||
Protein kinase C and cAMP-dependent protein kinase induce opposite effects on actin polymerizability | Q69397639 | ||
Direct visualization of bipolar myosin filaments in stress fibers of cultured fibroblasts | Q69499454 | ||
The extracellular matrix is an integrated unit: ultrastructural localization of collagen types I, III, IV, V, VI, fibronectin, and laminin in human term placenta | Q69567375 | ||
Silicone rubber substrata: a new wrinkle in the study of cell locomotion | Q72128764 | ||
Single-molecule analysis of the actomyosin motor using nano-manipulation | Q72310250 | ||
Dynamic imaging of neutrophil migration in three dimensions: mechanical interactions between cells and matrix | Q73043030 | ||
Mechanical continuity and reversible chromosome disassembly within intact genomes removed from living cells | Q73312488 | ||
Growth cones contain myosin II bipolar filament arrays | Q74448395 | ||
Dorsal root ganglia neurite extension is inhibited by mechanical and chondroitin sulfate-rich interfaces | Q74602428 | ||
FAP52 regulates actin organization via binding to filamin | Q77487537 | ||
Mesenchymal stem cells spontaneously express neural proteins in culture and are neurogenic after transplantation | Q81563012 | ||
Direct differentiation of human embryonic stem cells into selective neurons on nanoscale ridge/groove pattern arrays | Q83129643 | ||
How curved membranes recruit amphipathic helices and protein anchoring motifs | Q84551714 | ||
Nonmuscle myosin IIA-dependent force inhibits cell spreading and drives F-actin flow | Q30478216 | ||
Slit and Netrin-1 guide cranial motor axon pathfinding via Rho-kinase, myosin light chain kinase and myosin II. | Q30480418 | ||
Cell shape and negative links in regulatory motifs together control spatial information flow in signaling networks | Q30489597 | ||
A subset of signal transduction pathways is required for hippocampal growth cone collapse induced by ephrin-A5. | Q30490503 | ||
Restriction of receptor movement alters cellular response: physical force sensing by EphA2. | Q30495246 | ||
Wnt/Frizzled signaling controls C. elegans gastrulation by activating actomyosin contractility | Q30497437 | ||
Engineering neuronal growth cones to promote axon regeneration over inhibitory molecules. | Q30499138 | ||
Microtubule stabilization reduces scarring and causes axon regeneration after spinal cord injury | Q30513561 | ||
Integration of topographical and biochemical cues by axons during growth on microfabricated 3-D substrates | Q30561860 | ||
Mechanics of living cells measured by laser tracking microrheology. | Q30653205 | ||
Mechanical heterogeneity of the rat hippocampus measured by atomic force microscope indentation | Q33285396 | ||
Mechanical regulation of cell function with geometrically modulated elastomeric substrates. | Q33646556 | ||
Material properties of the cell dictate stress-induced spreading and differentiation in embryonic stem cells | Q33708241 | ||
Smooth muscle and skeletal muscle myosins produce similar unitary forces and displacements in the laser trap | Q33915663 | ||
Changes in the elastic properties of cholinergic synaptic vesicles as measured by atomic force microscopy | Q33916863 | ||
Biomaterial design strategies for the treatment of spinal cord injuries | Q34076638 | ||
The role of notch in promoting glial and neural stem cell fates | Q34132317 | ||
Movement and force produced by a single myosin head. | Q34288654 | ||
Current tissue engineering and novel therapeutic approaches to axonal regeneration following spinal cord injury using polymer scaffolds | Q34312191 | ||
Single myosin molecule mechanics: piconewton forces and nanometre steps | Q34338098 | ||
Structure and function of laminin: anatomy of a multidomain glycoprotein | Q34372088 | ||
Extracellular matrix rigidity causes strengthening of integrin-cytoskeleton linkages | Q34415326 | ||
Topography, cell response, and nerve regeneration | Q34470324 | ||
Mesenchymal stem cells for the treatment of neurodegenerative disease. | Q34473474 | ||
SUN1 interacts with nuclear lamin A and cytoplasmic nesprins to provide a physical connection between the nuclear lamina and the cytoskeleton | Q34717324 | ||
Traction dynamics of filopodia on compliant substrates. | Q34901393 | ||
Two heads of myosin are better than one for generating force and motion. | Q35126223 | ||
Comparing the properties of neuronal culture systems: a shopping guide for the cell biologist | Q35186393 | ||
Mechanosensitive channels: multiplicity of families and gating paradigms. | Q35661329 | ||
Demonstration of mechanical connections between integrins, cytoskeletal filaments, and nucleoplasm that stabilize nuclear structure | Q35964554 | ||
Collagen fibril form and function | Q36101297 | ||
Hippocampal neurons respond uniquely to topographies of various sizes and shapes | Q36288863 | ||
Bar domain proteins: a role in tubulation, scission and actin assembly in clathrin-mediated endocytosis | Q36584240 | ||
Synthetic nerve guide implants in humans: a comprehensive survey | Q36622528 | ||
Electric field-induced astrocyte alignment directs neurite outgrowth | Q36632409 | ||
Micropatterning of single endothelial cell shape reveals a tight coupling between nuclear volume in G1 and proliferation. | Q36678153 | ||
Neurite branching on deformable substrates | Q36692280 | ||
Three-dimensional imaging of living neurons and glia with the atomic force microscope | Q36784297 | ||
Dynamic signaling for neural stem cell fate determination | Q37174231 | ||
Rheological properties of the tissues of the central nervous system: a review. | Q37211470 | ||
Topography and nanomechanics of live neuronal growth cones analyzed by atomic force microscopy | Q37265301 | ||
Demonstration of catch bonds between an integrin and its ligand. | Q37267611 | ||
Mechanical tension contributes to clustering of neurotransmitter vesicles at presynaptic terminals | Q37268796 | ||
The regulative role of neurite mechanical tension in network development | Q37279240 | ||
Mechanotransduction at a distance: mechanically coupling the extracellular matrix with the nucleus | Q37386626 | ||
A unifying mechanism accounts for sensing of membrane curvature by BAR domains, amphipathic helices and membrane-anchored proteins. | Q37652795 | ||
Mechanical control of tissue and organ development | Q37730278 | ||
Stretchy proteins on stretchy substrates: the important elements of integrin-mediated rigidity sensing | Q37779877 | ||
Effects of topography on the functional development of human neural progenitor cells | Q39732874 | ||
Synthetic nanostructures inducing differentiation of human mesenchymal stem cells into neuronal lineage. | Q40146876 | ||
Rho kinase differentially regulates phosphorylation of nonmuscle myosin II isoforms A and B during cell rounding and migration | Q40223694 | ||
Nanoscale features of fibronectin fibrillogenesis depend on protein-substrate interaction and cytoskeleton structure | Q40312638 | ||
Is the mechanical activity of epithelial cells controlled by deformations or forces? | Q40363795 | ||
Axonal outgrowth on nano-imprinted patterns | Q40391383 | ||
Mechanical tension as a regulator of axonal development. | Q40706074 | ||
The modulation of protein kinase C activity by membrane lipid bilayer structure. | Q41660766 | ||
RhoA-kinase coordinates F-actin organization and myosin II activity during semaphorin-3A-induced axon retraction | Q41850973 | ||
Nodal signalling imposes left-right asymmetry upon neurogenesis in the habenular nuclei | Q41960640 | ||
Mechanical tension produced by nerve cells in tissue culture | Q42003855 | ||
Polarization of hippocampal neurons with competitive surface stimuli: contact guidance cues are preferred over chemical ligands | Q42201593 | ||
Traction on immobilized netrin-1 is sufficient to reorient axons | Q42559709 | ||
Rho signaling pathway targeted to promote spinal cord repair. | Q44085175 | ||
Investigating filopodia sensing using arrays of defined nano-pits down to 35 nm diameter in size | Q44379837 | ||
RPTPalpha is required for rigidity-dependent inhibition of extension and differentiation of hippocampal neurons | Q46947856 | ||
Hedgehog signaling is a principal inducer of Myosin-II-driven cell ingression in Drosophila epithelia | Q47072051 | ||
Age-dependent changes in material properties of the brain and braincase of the rat. | Q47347179 | ||
Recognition of artificial microstructures by sensory nerve fibers in culture | Q48088430 | ||
The potential of mesenchymal stem cells for neural repair. | Q48255749 | ||
Age-dependent material properties of the porcine cerebrum: effect on pediatric inertial head injury criteria | Q48309493 | ||
Migration of neuroblasts along preexisting axonal tracts during prenatal cerebellar development | Q48371911 | ||
Perpendicular contact guidance of CNS neuroblasts on artificial microstructures. | Q48381712 | ||
Regional, directional, and age-dependent properties of the brain undergoing large deformation | Q48610551 | ||
A comparison of the elasticity of live, dead, and fixed brain tissue | Q48909792 | ||
Topographical control of cell behaviour: II. Multiple grooved substrata | Q49024344 | ||
Axonal Elongation into Peripheral Nervous System "Bridges" After Central Nervous System Injury in Adult Rats | Q49156758 | ||
Effect of collagen gel stiffness on neurite extension. | Q51543577 | ||
Investigating the limits of filopodial sensing: a brief report using SEM to image the interaction between 10 nm high nano-topography and fibroblast filopodia. | Q51708742 | ||
AFM combines functional and morphological analysis of peripheral myelinated and demyelinated nerve fibers. | Q51908259 | ||
P433 | issue | 11 | |
P921 | main subject | biophysics | Q7100 |
P1104 | number of pages | 12 | |
P304 | page(s) | 1090-1101 | |
P577 | publication date | 2011-11-01 | |
P1433 | published in | Developmental Neurobiology | Q15716734 |
P1476 | title | Biophysics of substrate interaction: influence on neural motility, differentiation, and repair | |
P478 | volume | 71 |
Q28387164 | Adhesion to carbon nanotube conductive scaffolds forces action-potential appearance in immature rat spinal neurons |
Q64066031 | Anomalous diffusion for neuronal growth on surfaces with controlled geometries |
Q45071015 | Biophysical Regulation of Cell Behavior-Cross Talk between Substrate Stiffness and Nanotopography |
Q27307183 | Can hippocampal neurites and growth cones climb over obstacles? |
Q35237572 | Effects of surface asymmetry on neuronal growth |
Q51094328 | Enhancement of Neural Stem Cell Survival, Proliferation, Migration, and Differentiation in a Novel Self-Assembly Peptide Nanofibber Scaffold. |
Q84905790 | Introduction: the role of extracellular matrix in nervous system development and maintenance |
Q35133962 | Large-scale topographical screen for investigation of physical neural-guidance cues |
Q26799030 | Mechanochemical regulation of growth cone motility |
Q51538634 | Microarray with micro- and nano-topographies enables identification of the optimal topography for directing the differentiation of primary murine neural progenitor cells. |
Q26797395 | Microtechnologies for studying the role of mechanics in axon growth and guidance |
Q30582618 | Mimicking white matter tract topography using core-shell electrospun nanofibers to examine migration of malignant brain tumors. |
Q41142620 | Molecular Mechanoneurobiology: An Emerging Angle to Explore Neural Synaptic Functions. |
Q33728767 | Nanotopography-guided tissue engineering and regenerative medicine |
Q33972706 | Navigating neurites utilize cellular topography of Schwann cell somas and processes for optimal guidance |
Q30525348 | Netrin-1 attracts axons through FAK-dependent mechanotransduction |
Q27026162 | Powerful partnership: crosstalk between pannexin 1 and the cytoskeleton |
Q47625174 | Receptor-mediated cell mechanosensing. |
Q37895625 | Regulation of axonal outgrowth and pathfinding by integrin-ECM interactions |
Q36685216 | Scale of Carbon Nanomaterials Affects Neural Outgrowth and Adhesion. |
Q27310707 | Spatiotemporal dynamics of traction forces show three contraction centers in migratory neurons |
Q27315208 | Substrate topography determines neuronal polarization and growth in vitro |
Q34280866 | Substratum-induced differentiation of human pluripotent stem cells reveals the coactivator YAP is a potent regulator of neuronal specification. |
Q28085404 | The discovery of the growth cone and its influence on the study of axon guidance |
Q44980716 | The mechanobiology of brain function |
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