SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1965259349> ?p ?o ?g. }

Showing items 1 to 100 of ±164 with 100 items per page.

W1965259349 endingPage "e1002793" @default.
W1965259349 startingPage "e1002793" @default.
W1965259349 abstract "Eukaryotic cell motility involves complex interactions of signalling molecules, cytoskeleton, cell membrane, and mechanics interacting in space and time. Collectively, these components are used by the cell to interpret and respond to external stimuli, leading to polarization, protrusion, adhesion formation, and myosin-facilitated retraction. When these processes are choreographed correctly, shape change and motility results. A wealth of experimental data have identified numerous molecular constituents involved in these processes, but the complexity of their interactions and spatial organization make this a challenging problem to understand. This has motivated theoretical and computational approaches with simplified caricatures of cell structure and behaviour, each aiming to gain better understanding of certain kinds of cells and/or repertoire of behaviour. Reaction–diffusion (RD) equations as well as equations of viscoelastic flows have been used to describe the motility machinery. In this review, we describe some of the recent computational models for cell motility, concentrating on simulations of cell shape changes (mainly in two but also three dimensions). The problem is challenging not only due to the difficulty of abstracting and simplifying biological complexity but also because computing RD or fluid flow equations in deforming regions, known as a “free-boundary” problem, is an extremely challenging problem in applied mathematics. Here we describe the distinct approaches, comparing their strengths and weaknesses, and the kinds of biological questions that they have been able to address." @default.
W1965259349 created "2016-06-24" @default.
W1965259349 creator A5065805531 @default.
W1965259349 creator A5080348303 @default.
W1965259349 date "2012-12-27" @default.
W1965259349 modified "2023-10-17" @default.
W1965259349 title "A Comparison of Computational Models for Eukaryotic Cell Shape and Motility" @default.
W1965259349 cites W1523685816 @default.
W1965259349 cites W1591485071 @default.
W1965259349 cites W1949328498 @default.
W1965259349 cites W1952185161 @default.
W1965259349 cites W1969129477 @default.
W1965259349 cites W1972591034 @default.
W1965259349 cites W1974724568 @default.
W1965259349 cites W1979018319 @default.
W1965259349 cites W1979701688 @default.
W1965259349 cites W1984732269 @default.
W1965259349 cites W1985482228 @default.
W1965259349 cites W1991113069 @default.
W1965259349 cites W1994167741 @default.
W1965259349 cites W1998597603 @default.
W1965259349 cites W2001538432 @default.
W1965259349 cites W2001635256 @default.
W1965259349 cites W2002182223 @default.
W1965259349 cites W2005521304 @default.
W1965259349 cites W2007250557 @default.
W1965259349 cites W2008063578 @default.
W1965259349 cites W2008927671 @default.
W1965259349 cites W2010953792 @default.
W1965259349 cites W2018350772 @default.
W1965259349 cites W2019142176 @default.
W1965259349 cites W2027052704 @default.
W1965259349 cites W2028878400 @default.
W1965259349 cites W2036143235 @default.
W1965259349 cites W2038867093 @default.
W1965259349 cites W2040890820 @default.
W1965259349 cites W2041040218 @default.
W1965259349 cites W2044918024 @default.
W1965259349 cites W2045277539 @default.
W1965259349 cites W2046313315 @default.
W1965259349 cites W2051277229 @default.
W1965259349 cites W2051560360 @default.
W1965259349 cites W2055882856 @default.
W1965259349 cites W2067917704 @default.
W1965259349 cites W2068920904 @default.
W1965259349 cites W2069561239 @default.
W1965259349 cites W2073891485 @default.
W1965259349 cites W2078055876 @default.
W1965259349 cites W2078423846 @default.
W1965259349 cites W2082878150 @default.
W1965259349 cites W2083694798 @default.
W1965259349 cites W2083748759 @default.
W1965259349 cites W2085542786 @default.
W1965259349 cites W2085838226 @default.
W1965259349 cites W2087538969 @default.
W1965259349 cites W2088401428 @default.
W1965259349 cites W2089305841 @default.
W1965259349 cites W2089840306 @default.
W1965259349 cites W2093013362 @default.
W1965259349 cites W2096018880 @default.
W1965259349 cites W2099801545 @default.
W1965259349 cites W2101252590 @default.
W1965259349 cites W2102723402 @default.
W1965259349 cites W2103247257 @default.
W1965259349 cites W2104461413 @default.
W1965259349 cites W2106479217 @default.
W1965259349 cites W2123534373 @default.
W1965259349 cites W2128292629 @default.
W1965259349 cites W2128350223 @default.
W1965259349 cites W2133493253 @default.
W1965259349 cites W2143941158 @default.
W1965259349 cites W2146167520 @default.
W1965259349 cites W2154568995 @default.
W1965259349 cites W2155653297 @default.
W1965259349 cites W2155762422 @default.
W1965259349 cites W2157413252 @default.
W1965259349 cites W2157989234 @default.
W1965259349 cites W2160010116 @default.
W1965259349 cites W2161112329 @default.
W1965259349 cites W2162689493 @default.
W1965259349 cites W2163730390 @default.
W1965259349 cites W2164238102 @default.
W1965259349 cites W2188659719 @default.
W1965259349 cites W2220031198 @default.
W1965259349 cites W2305004685 @default.
W1965259349 cites W2325598486 @default.
W1965259349 cites W2396740394 @default.
W1965259349 cites W4235571290 @default.
W1965259349 doi "https://doi.org/10.1371/journal.pcbi.1002793" @default.
W1965259349 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3531321" @default.
W1965259349 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23300403" @default.
W1965259349 hasPublicationYear "2012" @default.
W1965259349 type Work @default.
W1965259349 sameAs 1965259349 @default.
W1965259349 citedByCount "98" @default.
W1965259349 countsByYear W19652593492013 @default.
W1965259349 countsByYear W19652593492014 @default.
W1965259349 countsByYear W19652593492015 @default.