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• W4368377800 endingPage "492" @default.
• W4368377800 startingPage "492" @default.
• W4368377800 abstract "The plasma membrane of mammalian cells is involved in a wide variety of cellular processes, including, but not limited to, endocytosis and exocytosis, adhesion and migration, and signaling. The regulation of these processes requires the plasma membrane to be highly organized and dynamic. Much of the plasma membrane organization exists at temporal and spatial scales that cannot be directly observed with fluorescence microscopy. Therefore, approaches that report on the membrane’s physical parameters must often be utilized to infer membrane organization. As discussed here, diffusion measurements are one such approach that has allowed researchers to understand the subresolution organization of the plasma membrane. Fluorescence recovery after photobleaching (or FRAP) is the most widely accessible method for measuring diffusion in a living cell and has proven to be a powerful tool in cell biology research. Here, we discuss the theoretical underpinnings that allow diffusion measurements to be used in elucidating the organization of the plasma membrane. We also discuss the basic FRAP methodology and the mathematical approaches for deriving quantitative measurements from FRAP recovery curves. FRAP is one of many methods used to measure diffusion in live cell membranes; thus, we compare FRAP with two other popular methods: fluorescence correlation microscopy and single-particle tracking. Lastly, we discuss various plasma membrane organization models developed and tested using diffusion measurements." @default.
• W4368377800 created "2023-05-05" @default.
• W4368377800 creator A5018501990 @default.
• W4368377800 creator A5056367989 @default.
• W4368377800 date "2023-05-02" @default.
• W4368377800 modified "2023-10-14" @default.
• W4368377800 title "The Utility of Fluorescence Recovery after Photobleaching (FRAP) to Study the Plasma Membrane" @default.
• W4368377800 cites W1534968983 @default.
• W4368377800 cites W1575798288 @default.
• W4368377800 cites W1592169524 @default.
• W4368377800 cites W159816686 @default.
• W4368377800 cites W1633066991 @default.
• W4368377800 cites W1704045495 @default.
• W4368377800 cites W1935010865 @default.
• W4368377800 cites W1966090424 @default.
• W4368377800 cites W1969399881 @default.
• W4368377800 cites W1970138343 @default.
• W4368377800 cites W1971060242 @default.
• W4368377800 cites W1972338658 @default.
• W4368377800 cites W1972859350 @default.
• W4368377800 cites W1974319248 @default.
• W4368377800 cites W1978482234 @default.
• W4368377800 cites W1978532747 @default.
• W4368377800 cites W1981916955 @default.
• W4368377800 cites W1990395203 @default.
• W4368377800 cites W1991655565 @default.
• W4368377800 cites W1992004763 @default.
• W4368377800 cites W1999276724 @default.
• W4368377800 cites W2002478108 @default.
• W4368377800 cites W2002594335 @default.
• W4368377800 cites W2005101090 @default.
• W4368377800 cites W2008494239 @default.
• W4368377800 cites W2010309369 @default.
• W4368377800 cites W2014049787 @default.
• W4368377800 cites W2016984872 @default.
• W4368377800 cites W2016987115 @default.
• W4368377800 cites W2017934591 @default.
• W4368377800 cites W2021882008 @default.
• W4368377800 cites W2022696783 @default.
• W4368377800 cites W2022935284 @default.
• W4368377800 cites W2023922465 @default.
• W4368377800 cites W2023993671 @default.
• W4368377800 cites W2027717396 @default.
• W4368377800 cites W2027723522 @default.
• W4368377800 cites W2030765885 @default.
• W4368377800 cites W2032300143 @default.
• W4368377800 cites W2032470185 @default.
• W4368377800 cites W2044343226 @default.
• W4368377800 cites W2053445217 @default.
• W4368377800 cites W2055395908 @default.
• W4368377800 cites W2057062200 @default.
• W4368377800 cites W2059031237 @default.
• W4368377800 cites W2060072148 @default.
• W4368377800 cites W2062814790 @default.
• W4368377800 cites W2063976599 @default.
• W4368377800 cites W2069444054 @default.
• W4368377800 cites W2071418499 @default.
• W4368377800 cites W2072384875 @default.
• W4368377800 cites W2073446637 @default.
• W4368377800 cites W2073805463 @default.
• W4368377800 cites W2074703430 @default.
• W4368377800 cites W2077159704 @default.
• W4368377800 cites W2078146440 @default.
• W4368377800 cites W2081221598 @default.
• W4368377800 cites W2089569842 @default.
• W4368377800 cites W2090289209 @default.
• W4368377800 cites W2092296126 @default.
• W4368377800 cites W2094531765 @default.
• W4368377800 cites W2103944364 @default.
• W4368377800 cites W2109648879 @default.
• W4368377800 cites W2110169410 @default.
• W4368377800 cites W2110979251 @default.
• W4368377800 cites W2114656957 @default.
• W4368377800 cites W2121936687 @default.
• W4368377800 cites W2124317881 @default.
• W4368377800 cites W2136180087 @default.
• W4368377800 cites W2139345025 @default.
• W4368377800 cites W2145008974 @default.
• W4368377800 cites W2151862262 @default.
• W4368377800 cites W2160670356 @default.
• W4368377800 cites W2164227168 @default.
• W4368377800 cites W2164318727 @default.
• W4368377800 cites W218391791 @default.
• W4368377800 cites W2187935742 @default.
• W4368377800 cites W2198309966 @default.
• W4368377800 cites W2280722998 @default.
• W4368377800 cites W2346473394 @default.
• W4368377800 cites W2419600814 @default.
• W4368377800 cites W2795033146 @default.
• W4368377800 cites W2891647892 @default.
• W4368377800 cites W2914260445 @default.
• W4368377800 cites W2970615020 @default.
• W4368377800 cites W2970894940 @default.
• W4368377800 cites W3184631512 @default.
• W4368377800 cites W4220774685 @default.
• W4368377800 doi "https://doi.org/10.3390/membranes13050492" @default.
• W4368377800 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37233553" @default.
• W4368377800 hasPublicationYear "2023" @default.

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