SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4286355152> ?p ?o ?g. }

Showing items 1 to 100 of ±177 with 100 items per page.

W4286355152 endingPage "36" @default.
W4286355152 startingPage "1" @default.
W4286355152 abstract "G protein-coupled receptors (GPCRs) regulate different physiological functions, e.g., sensation, growth, digestion, reproductivity, nervous and immune systems response, and many others. In eukaryotes, they are also responsible for intercellular communication in response to pathogens. The major primary messengers binding to these cell-surface receptors constitute small-molecule or peptide hormones and neurotransmitters, nucleotides, lipids as well as small proteins. The simplicity of the way how GPCR signaling can be regulated by their endogenous agonists prompted the usage of GPCRs as major drug targets in modern pharmacology. Drugs targeting GPCRs inhibit pathological processes at the very beginning. This enables to significantly reduce the occurrence of morphological changes caused by diseases. Until recently, X-ray crystallography was the method of the first choice to obtain high-resolution structural information about GPCRs. Following X-ray crystallography, cryo-EM gained attention in GPCR studies as a quick and low-cost alternative. FRET microscopy is also widely used for GPCRs in the analysis of protein-protein interactions (PPIs) in intact cells as well as for screening purposes. Regarding computational methods, molecular dynamics (MD) for many years has proven its usefulness in studying the GPCR activation. MODELLER and Rosetta were widely used to generate preliminary homology models of GPCRs for MD simulation systems. Apart from the conventional all-atom approach with explicitly defined solvent, also other techniques have been applied to GPCRs, e.g., MARTINI or hybrid methods involving the coarse-grained representation, less demanding regarding computational resources, and thus offering much larger simulation timescales." @default.
W4286355152 created "2022-07-21" @default.
W4286355152 creator A5006847889 @default.
W4286355152 creator A5010928150 @default.
W4286355152 creator A5077024945 @default.
W4286355152 creator A5079171679 @default.
W4286355152 date "2022-01-01" @default.
W4286355152 modified "2023-09-25" @default.
W4286355152 title "Computational and experimental approaches to probe GPCR activation and signaling" @default.
W4286355152 cites W1031578623 @default.
W4286355152 cites W1503765703 @default.
W4286355152 cites W1607931568 @default.
W4286355152 cites W1682431075 @default.
W4286355152 cites W1966874741 @default.
W4286355152 cites W1969723894 @default.
W4286355152 cites W1976258716 @default.
W4286355152 cites W1976642662 @default.
W4286355152 cites W1979686694 @default.
W4286355152 cites W1983482250 @default.
W4286355152 cites W1990771438 @default.
W4286355152 cites W1991388370 @default.
W4286355152 cites W1991889120 @default.
W4286355152 cites W1992899488 @default.
W4286355152 cites W1996356699 @default.
W4286355152 cites W2006705095 @default.
W4286355152 cites W2008728387 @default.
W4286355152 cites W2011223793 @default.
W4286355152 cites W2021520922 @default.
W4286355152 cites W2025513890 @default.
W4286355152 cites W2036941089 @default.
W4286355152 cites W2040809566 @default.
W4286355152 cites W2046769137 @default.
W4286355152 cites W2051789251 @default.
W4286355152 cites W2063193974 @default.
W4286355152 cites W2063829100 @default.
W4286355152 cites W2066414494 @default.
W4286355152 cites W2073110681 @default.
W4286355152 cites W2079333431 @default.
W4286355152 cites W2080598966 @default.
W4286355152 cites W2081645999 @default.
W4286355152 cites W2087276894 @default.
W4286355152 cites W2094762207 @default.
W4286355152 cites W2097897519 @default.
W4286355152 cites W2098480672 @default.
W4286355152 cites W2105332853 @default.
W4286355152 cites W2105398220 @default.
W4286355152 cites W2105891411 @default.
W4286355152 cites W2109254532 @default.
W4286355152 cites W2110319068 @default.
W4286355152 cites W2117528472 @default.
W4286355152 cites W2127604922 @default.
W4286355152 cites W2134544924 @default.
W4286355152 cites W2148253066 @default.
W4286355152 cites W2152853006 @default.
W4286355152 cites W2152997175 @default.
W4286355152 cites W2155075509 @default.
W4286355152 cites W2157959080 @default.
W4286355152 cites W2158307923 @default.
W4286355152 cites W2158599032 @default.
W4286355152 cites W2162602080 @default.
W4286355152 cites W2165775221 @default.
W4286355152 cites W2167857702 @default.
W4286355152 cites W2172103424 @default.
W4286355152 cites W2206954826 @default.
W4286355152 cites W2230915242 @default.
W4286355152 cites W2330260612 @default.
W4286355152 cites W2359290780 @default.
W4286355152 cites W2413334978 @default.
W4286355152 cites W2419420935 @default.
W4286355152 cites W2477491193 @default.
W4286355152 cites W2509928882 @default.
W4286355152 cites W2520075163 @default.
W4286355152 cites W2555870966 @default.
W4286355152 cites W2560706187 @default.
W4286355152 cites W2561886516 @default.
W4286355152 cites W2592074636 @default.
W4286355152 cites W2616258954 @default.
W4286355152 cites W2620937603 @default.
W4286355152 cites W2624652951 @default.
W4286355152 cites W2765153686 @default.
W4286355152 cites W2768177014 @default.
W4286355152 cites W2768724945 @default.
W4286355152 cites W2771014604 @default.
W4286355152 cites W2791995491 @default.
W4286355152 cites W2801711247 @default.
W4286355152 cites W2803177424 @default.
W4286355152 cites W2804822363 @default.
W4286355152 cites W2886754164 @default.
W4286355152 cites W2894281819 @default.
W4286355152 cites W2911076526 @default.
W4286355152 cites W2912283839 @default.
W4286355152 cites W2913574731 @default.
W4286355152 cites W2971414127 @default.
W4286355152 cites W2971995469 @default.
W4286355152 cites W2980042847 @default.
W4286355152 cites W2986170540 @default.
W4286355152 cites W2989686935 @default.
W4286355152 cites W2990483783 @default.