SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2019541684> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W2019541684 endingPage "2163" @default.
W2019541684 startingPage "2154" @default.
W2019541684 abstract "Extracellular matrices determine cellular fate decisions through the regulation of intracellular force and stress. Previous studies suggest that matrix stiffness and ligand anchorage cause distinct signaling effects. We show herein how defined noncovalent anchorage of adhesion ligands to elastic substrates allows for dissection of intracellular adhesion signaling pathways related to matrix stiffness and receptor forces. Quantitative analysis of the mechanical balance in cell adhesion using traction force microscopy revealed distinct scalings of the strain energy imparted by the cells on the substrates dependent either on matrix stiffness or on receptor force. Those scalings suggested the applicability of a linear elastic theoretical framework for the description of cell adhesion in a certain parameter range, which is cell-type-dependent. Besides the deconvolution of biophysical adhesion signaling, site-specific phosphorylation of focal adhesion kinase, dependent either on matrix stiffness or on receptor force, also demonstrated the dissection of biochemical signaling events in our approach. Moreover, the net contractile moment of the adherent cells and their strain energy exerted on the elastic substrate was found to be a robust measure of cell adhesion with a unifying power-law scaling exponent of 1.5 independent of matrix stiffness." @default.
W2019541684 created "2016-06-24" @default.
W2019541684 creator A5015920322 @default.
W2019541684 creator A5021929937 @default.
W2019541684 creator A5022533875 @default.
W2019541684 creator A5026466385 @default.
W2019541684 creator A5030575235 @default.
W2019541684 creator A5035272159 @default.
W2019541684 creator A5035878548 @default.
W2019541684 date "2009-10-01" @default.
W2019541684 modified "2023-10-14" @default.
W2019541684 title "Dissecting the Impact of Matrix Anchorage and Elasticity in Cell Adhesion" @default.
W2019541684 cites W1590619267 @default.
W2019541684 cites W1965933207 @default.
W2019541684 cites W1973089587 @default.
W2019541684 cites W1974170815 @default.
W2019541684 cites W1974262428 @default.
W2019541684 cites W1977764445 @default.
W2019541684 cites W1983842862 @default.
W2019541684 cites W1984091505 @default.
W2019541684 cites W1984729535 @default.
W2019541684 cites W1991386525 @default.
W2019541684 cites W1993006648 @default.
W2019541684 cites W1996404532 @default.
W2019541684 cites W1997283863 @default.
W2019541684 cites W1999765951 @default.
W2019541684 cites W2001236747 @default.
W2019541684 cites W2012481969 @default.
W2019541684 cites W2013541867 @default.
W2019541684 cites W2014817128 @default.
W2019541684 cites W2018708785 @default.
W2019541684 cites W2025416289 @default.
W2019541684 cites W2030214324 @default.
W2019541684 cites W2032334748 @default.
W2019541684 cites W2040369209 @default.
W2019541684 cites W2047792021 @default.
W2019541684 cites W2055149634 @default.
W2019541684 cites W2058096164 @default.
W2019541684 cites W2058738554 @default.
W2019541684 cites W2064203989 @default.
W2019541684 cites W2064883155 @default.
W2019541684 cites W2065464185 @default.
W2019541684 cites W2067013554 @default.
W2019541684 cites W2070663004 @default.
W2019541684 cites W2079548558 @default.
W2019541684 cites W2081513071 @default.
W2019541684 cites W2083509842 @default.
W2019541684 cites W2083638734 @default.
W2019541684 cites W2091438049 @default.
W2019541684 cites W2095122418 @default.
W2019541684 cites W2098586211 @default.
W2019541684 cites W2099616303 @default.
W2019541684 cites W2106381135 @default.
W2019541684 cites W2110834542 @default.
W2019541684 cites W2112346252 @default.
W2019541684 cites W2118161860 @default.
W2019541684 cites W2131938193 @default.
W2019541684 cites W2134208433 @default.
W2019541684 cites W2135165925 @default.
W2019541684 cites W2141075109 @default.
W2019541684 cites W2143871084 @default.
W2019541684 cites W2144023435 @default.
W2019541684 cites W2145731759 @default.
W2019541684 cites W2155828174 @default.
W2019541684 cites W2158429263 @default.
W2019541684 cites W2159001825 @default.
W2019541684 cites W2160254610 @default.
W2019541684 doi "https://doi.org/10.1016/j.bpj.2009.07.047" @default.
W2019541684 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/2764075" @default.
W2019541684 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19843448" @default.
W2019541684 hasPublicationYear "2009" @default.
W2019541684 type Work @default.
W2019541684 sameAs 2019541684 @default.
W2019541684 citedByCount "35" @default.
W2019541684 countsByYear W20195416842012 @default.
W2019541684 countsByYear W20195416842013 @default.
W2019541684 countsByYear W20195416842014 @default.
W2019541684 countsByYear W20195416842015 @default.
W2019541684 countsByYear W20195416842016 @default.
W2019541684 countsByYear W20195416842017 @default.
W2019541684 countsByYear W20195416842018 @default.
W2019541684 countsByYear W20195416842019 @default.
W2019541684 countsByYear W20195416842020 @default.
W2019541684 countsByYear W20195416842021 @default.
W2019541684 countsByYear W20195416842022 @default.
W2019541684 countsByYear W20195416842023 @default.
W2019541684 crossrefType "journal-article" @default.
W2019541684 hasAuthorship W2019541684A5015920322 @default.
W2019541684 hasAuthorship W2019541684A5021929937 @default.
W2019541684 hasAuthorship W2019541684A5022533875 @default.
W2019541684 hasAuthorship W2019541684A5026466385 @default.
W2019541684 hasAuthorship W2019541684A5030575235 @default.
W2019541684 hasAuthorship W2019541684A5035272159 @default.
W2019541684 hasAuthorship W2019541684A5035878548 @default.
W2019541684 hasBestOaLocation W20195416841 @default.
W2019541684 hasConcept C12554922 @default.
W2019541684 hasConcept C151166631 @default.
W2019541684 hasConcept C159985019 @default.