SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2043039969> ?p ?o ?g. }

Showing items 1 to 100 of ±176 with 100 items per page.

W2043039969 endingPage "2955" @default.
W2043039969 startingPage "2946" @default.
W2043039969 abstract "The 20 residue long Trp-cage miniprotein is an excellent model for both computational and experimental studies of protein folding and stability. Recently, great attention emerged to study disease-related protein misfolding, aggregation, and amyloid formation, with the aim of revealing their structural and thermodynamic background. Trp-cage is sensitive to both environmental and structure-modifying effects. It aggregates with ease upon structure destabilization, and thus it is suitable for modeling aggregation and amyloid formation. Here, we characterize the amyloid formation of several sequence modified and side-chain phosphorylated Trp-cage variants. We applied NMR, circular dichroism (CD) and Fourier transform infrared (FTIR) spectroscopies, molecular dynamics (MD) simulations, and transmission electron microscopy (TEM) in conjunction with thioflavin-T (ThT) fluorescence measurements to reveal the structural consequences of side-chain phosphorylation. We demonstrate that the native fold is destabilized upon serine phosphorylation, and the resultant highly dynamic structures form amyloid-like ordered aggregates with high intermolecular β-structure content. The only exception is the D9S(P) variant, which follows an alternative aggregation process by forming thin fibrils, presenting a CD spectrum of PPII helix, and showing low ThT binding capability. We propose a complex aggregation model for these Trp-cage miniproteins. This model assumes an additional aggregated state, a collagen triple helical form that can precede amyloid formation. The phosphorylation of a single serine residue serves as a conformational switch, triggering aggregation, otherwise mediated by kinases in cell. We show that Trp-cage miniprotein is indeed a realistic model of larger globular systems of composite folding and aggregation landscapes and helps us to understand the fundamentals of deleterious protein aggregation and amyloid formation." @default.
W2043039969 created "2016-06-24" @default.
W2043039969 creator A5017372629 @default.
W2043039969 creator A5035035151 @default.
W2043039969 creator A5045386681 @default.
W2043039969 creator A5062909663 @default.
W2043039969 creator A5065713814 @default.
W2043039969 creator A5069728005 @default.
W2043039969 creator A5080791321 @default.
W2043039969 creator A5083767778 @default.
W2043039969 creator A5091195461 @default.
W2043039969 date "2015-02-06" @default.
W2043039969 modified "2023-10-17" @default.
W2043039969 title "Phosphorylation as Conformational Switch from the Native to Amyloid State: Trp-Cage as a Protein Aggregation Model" @default.
W2043039969 cites W1496790952 @default.
W2043039969 cites W1597946562 @default.
W2043039969 cites W1903135796 @default.
W2043039969 cites W1934853983 @default.
W2043039969 cites W1964445523 @default.
W2043039969 cites W1969802447 @default.
W2043039969 cites W1969946367 @default.
W2043039969 cites W1973173577 @default.
W2043039969 cites W1976201852 @default.
W2043039969 cites W1979716756 @default.
W2043039969 cites W1980947093 @default.
W2043039969 cites W1981780590 @default.
W2043039969 cites W1986921533 @default.
W2043039969 cites W1989142184 @default.
W2043039969 cites W1990350348 @default.
W2043039969 cites W1995247791 @default.
W2043039969 cites W2004044991 @default.
W2043039969 cites W2015995516 @default.
W2043039969 cites W2018766344 @default.
W2043039969 cites W2019383313 @default.
W2043039969 cites W2023338599 @default.
W2043039969 cites W2024895112 @default.
W2043039969 cites W2029479609 @default.
W2043039969 cites W2031964854 @default.
W2043039969 cites W2036692413 @default.
W2043039969 cites W2038347607 @default.
W2043039969 cites W2039706105 @default.
W2043039969 cites W2050562362 @default.
W2043039969 cites W2053577054 @default.
W2043039969 cites W2060725795 @default.
W2043039969 cites W2062102053 @default.
W2043039969 cites W2062663556 @default.
W2043039969 cites W2069939932 @default.
W2043039969 cites W2070080810 @default.
W2043039969 cites W2074144943 @default.
W2043039969 cites W2074986801 @default.
W2043039969 cites W2076815669 @default.
W2043039969 cites W2077873773 @default.
W2043039969 cites W2080225612 @default.
W2043039969 cites W2089275730 @default.
W2043039969 cites W2091215616 @default.
W2043039969 cites W2098745586 @default.
W2043039969 cites W2103986409 @default.
W2043039969 cites W2107851313 @default.
W2043039969 cites W2111527085 @default.
W2043039969 cites W2113780113 @default.
W2043039969 cites W2114648545 @default.
W2043039969 cites W2116597539 @default.
W2043039969 cites W2122199548 @default.
W2043039969 cites W2124505724 @default.
W2043039969 cites W2129253908 @default.
W2043039969 cites W2132629607 @default.
W2043039969 cites W2134826556 @default.
W2043039969 cites W2139737821 @default.
W2043039969 cites W2142578757 @default.
W2043039969 cites W2153026244 @default.
W2043039969 cites W2154315446 @default.
W2043039969 cites W2155916246 @default.
W2043039969 cites W2159923313 @default.
W2043039969 cites W2160544821 @default.
W2043039969 cites W2161605421 @default.
W2043039969 cites W2163210644 @default.
W2043039969 cites W2164011287 @default.
W2043039969 cites W2165186407 @default.
W2043039969 cites W2166179926 @default.
W2043039969 cites W2171285101 @default.
W2043039969 cites W2328453253 @default.
W2043039969 cites W23648889 @default.
W2043039969 cites W454961436 @default.
W2043039969 doi "https://doi.org/10.1021/jp5124234" @default.
W2043039969 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25625571" @default.
W2043039969 hasPublicationYear "2015" @default.
W2043039969 type Work @default.
W2043039969 sameAs 2043039969 @default.
W2043039969 citedByCount "14" @default.
W2043039969 countsByYear W20430399692014 @default.
W2043039969 countsByYear W20430399692015 @default.
W2043039969 countsByYear W20430399692016 @default.
W2043039969 countsByYear W20430399692017 @default.
W2043039969 countsByYear W20430399692018 @default.
W2043039969 countsByYear W20430399692019 @default.
W2043039969 countsByYear W20430399692021 @default.
W2043039969 countsByYear W20430399692022 @default.
W2043039969 crossrefType "journal-article" @default.