SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2094508340> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W2094508340 endingPage "122" @default.
W2094508340 startingPage "116" @default.
W2094508340 abstract "Fluorescence correlation spectroscopy (FCS) is a powerful technique to study dynamic biomolecular processes. It allows the estimation of concentrations, diffusion coefficients, molecular interactions, and other processes causing fluctuations in the fluorescence intensity, thus yielding information about aggregation processes, enzymatic reactions, or partition coefficients. During the last years, FCS has been successfully applied to model and cellular membranes, proving to be a promising tool for the study of membrane dynamics and protein/lipid interactions. Here we describe the theoretical basis of FCS and some practical implications for its application in membrane studies. We discuss sources of potential artifacts, such as membrane undulations, positioning of the detection volume, and photobleaching. Special attention is paid to aspects related to instrumentation and sample preparation as well as data acquisition and analysis. Finally, we comment on some strategies recently developed for the specific improvement of FCS measurements on membranes." @default.
W2094508340 created "2016-06-24" @default.
W2094508340 creator A5041672678 @default.
W2094508340 creator A5086296055 @default.
W2094508340 date "2008-10-01" @default.
W2094508340 modified "2023-09-26" @default.
W2094508340 title "Fluorescence correlation spectroscopy for the study of membrane dynamics and protein/lipid interactions" @default.
W2094508340 cites W1542159434 @default.
W2094508340 cites W1964342256 @default.
W2094508340 cites W1964793873 @default.
W2094508340 cites W1967100850 @default.
W2094508340 cites W1970327721 @default.
W2094508340 cites W1971009665 @default.
W2094508340 cites W1973584623 @default.
W2094508340 cites W1977004640 @default.
W2094508340 cites W1978714948 @default.
W2094508340 cites W1979094684 @default.
W2094508340 cites W1981765336 @default.
W2094508340 cites W1982051519 @default.
W2094508340 cites W1988480171 @default.
W2094508340 cites W1993338842 @default.
W2094508340 cites W1994421815 @default.
W2094508340 cites W1997146063 @default.
W2094508340 cites W2000638372 @default.
W2094508340 cites W2001807412 @default.
W2094508340 cites W2010181298 @default.
W2094508340 cites W2019019380 @default.
W2094508340 cites W2026277335 @default.
W2094508340 cites W2030014489 @default.
W2094508340 cites W2036076986 @default.
W2094508340 cites W2040140501 @default.
W2094508340 cites W2040315333 @default.
W2094508340 cites W2044200819 @default.
W2094508340 cites W2047315266 @default.
W2094508340 cites W2068592796 @default.
W2094508340 cites W2070596032 @default.
W2094508340 cites W2078392231 @default.
W2094508340 cites W2079853036 @default.
W2094508340 cites W2080562735 @default.
W2094508340 cites W2081304429 @default.
W2094508340 cites W2081769662 @default.
W2094508340 cites W2085497998 @default.
W2094508340 cites W2086336800 @default.
W2094508340 cites W2086364650 @default.
W2094508340 cites W2088497317 @default.
W2094508340 cites W2093334785 @default.
W2094508340 cites W2103944364 @default.
W2094508340 cites W2111315736 @default.
W2094508340 cites W2115734610 @default.
W2094508340 cites W2121936687 @default.
W2094508340 cites W2131141877 @default.
W2094508340 cites W2132630095 @default.
W2094508340 cites W2133993376 @default.
W2094508340 cites W2138597369 @default.
W2094508340 cites W2140472095 @default.
W2094508340 cites W2142083551 @default.
W2094508340 cites W2158699649 @default.
W2094508340 cites W2167258646 @default.
W2094508340 cites W2751886572 @default.
W2094508340 cites W3124033058 @default.
W2094508340 cites W3192085238 @default.
W2094508340 cites W4255561970 @default.
W2094508340 doi "https://doi.org/10.1016/j.ymeth.2008.06.011" @default.
W2094508340 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18634881" @default.
W2094508340 hasPublicationYear "2008" @default.
W2094508340 type Work @default.
W2094508340 sameAs 2094508340 @default.
W2094508340 citedByCount "89" @default.
W2094508340 countsByYear W20945083402012 @default.
W2094508340 countsByYear W20945083402013 @default.
W2094508340 countsByYear W20945083402014 @default.
W2094508340 countsByYear W20945083402015 @default.
W2094508340 countsByYear W20945083402016 @default.
W2094508340 countsByYear W20945083402017 @default.
W2094508340 countsByYear W20945083402018 @default.
W2094508340 countsByYear W20945083402019 @default.
W2094508340 countsByYear W20945083402020 @default.
W2094508340 countsByYear W20945083402021 @default.
W2094508340 countsByYear W20945083402023 @default.
W2094508340 crossrefType "journal-article" @default.
W2094508340 hasAuthorship W2094508340A5041672678 @default.
W2094508340 hasAuthorship W2094508340A5086296055 @default.
W2094508340 hasConcept C121332964 @default.
W2094508340 hasConcept C125501631 @default.
W2094508340 hasConcept C12554922 @default.
W2094508340 hasConcept C144618238 @default.
W2094508340 hasConcept C144647389 @default.
W2094508340 hasConcept C159467904 @default.
W2094508340 hasConcept C171250308 @default.
W2094508340 hasConcept C185592680 @default.
W2094508340 hasConcept C186060115 @default.
W2094508340 hasConcept C192562407 @default.
W2094508340 hasConcept C26659971 @default.
W2094508340 hasConcept C31332276 @default.
W2094508340 hasConcept C39944091 @default.
W2094508340 hasConcept C41625074 @default.
W2094508340 hasConcept C55493867 @default.
W2094508340 hasConcept C62520636 @default.