| scholarly article | Q13442814 |
| P2093 | author name string | Morgan Huse | |
| Roshni Basu | |||
| P2860 | cites work | Recruitment of Nck by CD3 epsilon reveals a ligand-induced conformational change essential for T cell receptor signaling and synapse formation | Q24301158 |
| Cell movement is guided by the rigidity of the substrate | Q24537364 | ||
| Perforin pores in the endosomal membrane trigger the release of endocytosed granzyme B into the cytosol of target cells | Q24630734 | ||
| The Dendritic Cell Synapse: A Life Dedicated to T Cell Activation | Q26751046 | ||
| Mechanical regulation of T-cell functions | Q27016079 | ||
| Controversy and consensus regarding myosin II function at the immunological synapse | Q27021661 | ||
| Molecular mechanisms and functional implications of polarized actin remodeling at the T cell immunological synapse | Q27026215 | ||
| Natural killer cell lytic granule secretion occurs through a pervasive actin network at the immune synapse | Q27320971 | ||
| Force generation upon T cell receptor engagement | Q27342631 | ||
| Regulation of T Cell Receptor Activation by Dynamic Membrane Binding of the CD3ɛ Cytoplasmic Tyrosine-Based Motif | Q27652912 | ||
| Rho GTPases: biochemistry and biology | Q27860645 | ||
| Lymph node chemokines promote sustained T lymphocyte motility without triggering stable integrin adhesiveness in the absence of shear forces | Q28115946 | ||
| The immunological synapse: a molecular machine controlling T cell activation | Q28139151 | ||
| Measuring mechanical tension across vinculin reveals regulation of focal adhesion dynamics | Q29615714 | ||
| Cells lying on a bed of microneedles: an approach to isolate mechanical force | Q29617095 | ||
| Structural basis of integrin regulation and signaling | Q29617618 | ||
| Fluid shear stress on endothelial cells modulates mechanical tension across VE-cadherin and PECAM-1. | Q30412646 | ||
| E-cadherin is under constitutive actomyosin-generated tension that is increased at cell-cell contacts upon externally applied stretch | Q30425577 | ||
| Neutrophil morphology and migration are affected by substrate elasticity | Q30489549 | ||
| Forcing Switch from Short- to Intermediate- and Long-lived States of the αA Domain Generates LFA-1/ICAM-1 Catch Bonds | Q30497295 | ||
| Actin retrograde flow and actomyosin II arc contraction drive receptor cluster dynamics at the immunological synapse in Jurkat T cells | Q30506037 | ||
| B cells use mechanical energy to discriminate antigen affinities | Q30541546 | ||
| CD28 and CD3 have complementary roles in T-cell traction forces | Q30572013 | ||
| DNA-based digital tension probes reveal integrin forces during early cell adhesion. | Q30596242 | ||
| Cytoskeletal forces during signaling activation in Jurkat T-cells | Q30620298 | ||
| F-actin flow drives affinity maturation and spatial organization of LFA-1 at the immunological synapse. | Q30620661 | ||
| Integrins Form an Expanding Diffusional Barrier that Coordinates Phagocytosis | Q30698911 | ||
| Germinal center B cells recognize antigen through a specialized immune synapse architecture. | Q30784700 | ||
| Accumulation of serial forces on TCR and CD8 frequently applied by agonist antigenic peptides embedded in MHC molecules triggers calcium in T cells | Q33874701 | ||
| Shouts, whispers and the kiss of death: directional secretion in T cells | Q34001889 | ||
| CD4+ T-cell synapses involve multiple distinct stages | Q34031087 | ||
| Early events in B cell activation | Q34101385 | ||
| Sensitive force technique to probe molecular adhesion and structural linkages at biological interfaces | Q34129714 | ||
| Stresses at the cell-to-substrate interface during locomotion of fibroblasts | Q34170351 | ||
| Osmotically induced membrane tension modulates membrane permeabilization by class L amphipathic helical peptides: nucleation model of defect formation. | Q34176123 | ||
| Germinal centers | Q34245271 | ||
| CD80 and CD86 differentially regulate mechanical interactions of T-cells with antigen-presenting dendritic cells and B-cells | Q34425289 | ||
| The reaction-limited kinetics of membrane-to-surface adhesion and detachment | Q34560541 | ||
| A DNA-based molecular probe for optically reporting cellular traction forces | Q34588696 | ||
| Mechanically activated integrin switch controls alpha5beta1 function | Q34932810 | ||
| The dendritic cell cytoskeleton promotes T cell adhesion and activation by constraining ICAM-1 mobility | Q35094278 | ||
| Importance of force linkage in mechanochemistry of adhesion receptors. | Q35578469 | ||
| Actin depletion initiates events leading to granule secretion at the immunological synapse | Q35662889 | ||
| Mechanosensing in T lymphocyte activation | Q35679076 | ||
| Integrins and T cell-mediated immunity | Q35698435 | ||
| Actin polymerization stabilizes α4β1 integrin anchors that mediate monocyte adhesion. | Q35866215 | ||
| Antigen recognition is facilitated by invadosome-like protrusions formed by memory/effector T cells | Q35884077 | ||
| A Mechanical Switch Couples T Cell Receptor Triggering to the Cytoplasmic Juxtamembrane Regions of CD3ζζ. | Q35984263 | ||
| The activation of IgM- or isotype-switched IgG- and IgE-BCR exhibits distinct mechanical force sensitivity and threshold. | Q36014751 | ||
| Substrate rigidity regulates human T cell activation and proliferation | Q36106477 | ||
| Micropatterning of TCR and LFA-1 ligands reveals complementary effects on cytoskeleton mechanics in T cells. | Q36122457 | ||
| Intracellular signalling controlling integrin activation in lymphocytes | Q36167584 | ||
| Alpha4beta1-dependent adhesion strengthening under mechanical strain is regulated by paxillin association with the alpha4-cytoplasmic domain | Q36320558 | ||
| Deconstructing the form and function of the TCR/CD3 complex | Q36394789 | ||
| Mechanism and kinetics of pore formation in membranes by water-soluble amphipathic peptides | Q36516117 | ||
| Cytotoxic T Cells Use Mechanical Force to Potentiate Target Cell Killing | Q36730697 | ||
| Secretory mechanisms in cell-mediated cytotoxicity | Q36824188 | ||
| Defining single molecular forces required to activate integrin and notch signaling | Q37010172 | ||
| Demonstration of catch bonds between an integrin and its ligand. | Q37267611 | ||
| Annular PIP3 accumulation controls actin architecture and modulates cytotoxicity at the immunological synapse | Q37322193 | ||
| Genetic and cell biological analysis of integrin outside-in signaling. | Q37400411 | ||
| Understanding the structure and function of the immunological synapse | Q37789101 | ||
| Regulation of integrin activation | Q37887794 | ||
| Immune regulatory functions of DOCK family proteins in health and disease | Q38126300 | ||
| A Cholesterol-Based Allostery Model of T Cell Receptor Phosphorylation | Q39756462 | ||
| Effects of substrate stiffness on cell morphology, cytoskeletal structure, and adhesion | Q40486037 | ||
| Substrate stiffness regulates B-cell activation, proliferation, class switch, and T-cell-independent antibody responses in vivo. | Q41440328 | ||
| Accumulation of dynamic catch bonds between TCR and agonist peptide-MHC triggers T cell signaling. | Q41769969 | ||
| B cell activation is regulated by the stiffness properties of the substrate presenting the antigens. | Q44095803 | ||
| Ligand recognition by alpha beta T cell receptors | Q46222293 | ||
| Perforin triggers a plasma membrane-repair response that facilitates CTL induction of apoptosis | Q46708974 | ||
| Molecular mechanism of Peptide-induced pores in membranes | Q49260601 | ||
| Adhesion-dependent modulation of actin dynamics in Jurkat T cells. | Q53301798 | ||
| Centrosome polarization delivers secretory granules to the immunological synapse. | Q53587934 | ||
| The immunological synapse of CTL contains a secretory domain and membrane bridges. | Q53676857 | ||
| T cell costimulation via the integrin VLA-4 inhibits the actin-dependent centralization of signaling microclusters containing the adaptor SLP-76 | Q81445868 | ||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | immunology | Q101929 |
| P304 | page(s) | 241-254 | |
| P577 | publication date | 2016-12-13 | |
| P1433 | published in | Trends in Cell Biology | Q1573994 |
| P1476 | title | Mechanical Communication at the Immunological Synapse | |
| P478 | volume | 27 |
| Q92290972 | A Ciliary View of the Immunological Synapse |
| Q64906300 | Actin Cytoskeleton Straddling the Immunological Synapse between Cytotoxic Lymphocytes and Cancer Cells. |
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| Q83232153 | Arp2/3 complex-driven spatial patterning of the BCR enhances immune synapse formation, BCR signaling and B cell activation |
| Q92846950 | Cross-disorder analysis of schizophrenia and 19 immune-mediated diseases identifies shared genetic risk |
| Q39424290 | Cytoskeletal control of B cell responses to antigens |
| Q54207309 | LFA-1 in T Cell Migration and Differentiation. |
| Q90168597 | Mechanosensing through immunoreceptors |
| Q92480670 | Microparticle traction force microscopy reveals subcellular force exertion patterns in immune cell-target interactions |
| Q48529632 | Micropipette force probe to quantify single-cell force generation: application to T-cell activation |
| Q64054785 | Phospholipids: Pulling Back the Actin Curtain for Granule Delivery to the Immune Synapse |
| Q47625174 | Receptor-mediated cell mechanosensing. |
| Q91811501 | Regulation of CD4+ T Cell Signaling and Immunological Synapse by Protein Tyrosine Phosphatases: Molecular Mechanisms in Autoimmunity |
| Q88779050 | Regulatory mechanisms in T cell receptor signalling |
| Q52668321 | Signals Controlling Lytic Granule Polarization at the Cytotoxic Immune Synapse. |
| Q93062570 | Spatial Lymphocyte Dynamics in Lymph Nodes Predicts the Cytotoxic T Cell Frequency Needed for HIV Infection Control |
| Q93054897 | Understanding the Spatial Topology of Artificial Immunological Synapses Assembled in T Cell-Redirecting Strategies: A Major Issue in Cancer Immunotherapy |
| Q64983658 | Visualizing Spatiotemporal Dynamics of Intercellular Mechanotransmission upon Wounding. |
| Q89860594 | β2 Integrins-Multi-Functional Leukocyte Receptors in Health and Disease |
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