SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2783117283> ?p ?o ?g. }

Showing items 1 to 100 of ±125 with 100 items per page.

W2783117283 endingPage "180" @default.
W2783117283 startingPage "171" @default.
W2783117283 abstract "To identify food and beverages that provide the regular intake of natural compounds capable of interfering with toxic amyloidogenic aggregates, we developed an experimental protocol that combines NMR spectroscopy and atomic force microscopy, in vitro biochemical and cell assays to detect anti-Aβ molecules in natural edible matrices. We applied this approach to investigate the potential anti-amyloidogenic properties of coffee and its molecular constituents. Our data showed that green and roasted coffee extracts and their main components, 5-O-caffeoylquinic acid and melanoidins, can hinder Aβ on-pathway aggregation and toxicity in a human neuroblastoma SH-SY5Y cell line. Coffee extracts and melanoidins also counteract hydrogen peroxide- and rotenone-induced cytotoxicity and modulate some autophagic pathways in the same cell line." @default.
W2783117283 created "2018-01-26" @default.
W2783117283 creator A5010090990 @default.
W2783117283 creator A5013010820 @default.
W2783117283 creator A5016280779 @default.
W2783117283 creator A5019227514 @default.
W2783117283 creator A5020722865 @default.
W2783117283 creator A5028861136 @default.
W2783117283 creator A5054634987 @default.
W2783117283 creator A5071242228 @default.
W2783117283 creator A5075100932 @default.
W2783117283 date "2018-06-01" @default.
W2783117283 modified "2023-10-16" @default.
W2783117283 title "NMR-driven identification of anti-amyloidogenic compounds in green and roasted coffee extracts" @default.
W2783117283 cites W1565351177 @default.
W2783117283 cites W1967549235 @default.
W2783117283 cites W1970171293 @default.
W2783117283 cites W1979815711 @default.
W2783117283 cites W1980825524 @default.
W2783117283 cites W1988317209 @default.
W2783117283 cites W1997357338 @default.
W2783117283 cites W1998158940 @default.
W2783117283 cites W2009787733 @default.
W2783117283 cites W2011735948 @default.
W2783117283 cites W2014346144 @default.
W2783117283 cites W2018754113 @default.
W2783117283 cites W2038857072 @default.
W2783117283 cites W2043317203 @default.
W2783117283 cites W2045877329 @default.
W2783117283 cites W2047612627 @default.
W2783117283 cites W2055390657 @default.
W2783117283 cites W2063581846 @default.
W2783117283 cites W2068221219 @default.
W2783117283 cites W2069087591 @default.
W2783117283 cites W2072726974 @default.
W2783117283 cites W2084687620 @default.
W2783117283 cites W2086538144 @default.
W2783117283 cites W2090065830 @default.
W2783117283 cites W2094640808 @default.
W2783117283 cites W2096341529 @default.
W2783117283 cites W2108305553 @default.
W2783117283 cites W2109121081 @default.
W2783117283 cites W2113403926 @default.
W2783117283 cites W2120180949 @default.
W2783117283 cites W2127688626 @default.
W2783117283 cites W2130794819 @default.
W2783117283 cites W2139574393 @default.
W2783117283 cites W2147725967 @default.
W2783117283 cites W2156716051 @default.
W2783117283 cites W2159307624 @default.
W2783117283 cites W2165021720 @default.
W2783117283 cites W2175179366 @default.
W2783117283 cites W2325317308 @default.
W2783117283 cites W2536189563 @default.
W2783117283 cites W2550762885 @default.
W2783117283 cites W2604828158 @default.
W2783117283 cites W2725208026 @default.
W2783117283 cites W2734939770 @default.
W2783117283 cites W2739200769 @default.
W2783117283 cites W2747924829 @default.
W2783117283 doi "https://doi.org/10.1016/j.foodchem.2018.01.075" @default.
W2783117283 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29478529" @default.
W2783117283 hasPublicationYear "2018" @default.
W2783117283 type Work @default.
W2783117283 sameAs 2783117283 @default.
W2783117283 citedByCount "40" @default.
W2783117283 countsByYear W27831172832018 @default.
W2783117283 countsByYear W27831172832019 @default.
W2783117283 countsByYear W27831172832020 @default.
W2783117283 countsByYear W27831172832021 @default.
W2783117283 countsByYear W27831172832022 @default.
W2783117283 countsByYear W27831172832023 @default.
W2783117283 crossrefType "journal-article" @default.
W2783117283 hasAuthorship W2783117283A5010090990 @default.
W2783117283 hasAuthorship W2783117283A5013010820 @default.
W2783117283 hasAuthorship W2783117283A5016280779 @default.
W2783117283 hasAuthorship W2783117283A5019227514 @default.
W2783117283 hasAuthorship W2783117283A5020722865 @default.
W2783117283 hasAuthorship W2783117283A5028861136 @default.
W2783117283 hasAuthorship W2783117283A5054634987 @default.
W2783117283 hasAuthorship W2783117283A5071242228 @default.
W2783117283 hasAuthorship W2783117283A5075100932 @default.
W2783117283 hasBestOaLocation W27831172832 @default.
W2783117283 hasConcept C109316439 @default.
W2783117283 hasConcept C185592680 @default.
W2783117283 hasConcept C202751555 @default.
W2783117283 hasConcept C31903555 @default.
W2783117283 hasConcept C533411734 @default.
W2783117283 hasConcept C54355233 @default.
W2783117283 hasConcept C55493867 @default.
W2783117283 hasConcept C81885089 @default.
W2783117283 hasConcept C86803240 @default.
W2783117283 hasConceptScore W2783117283C109316439 @default.
W2783117283 hasConceptScore W2783117283C185592680 @default.
W2783117283 hasConceptScore W2783117283C202751555 @default.
W2783117283 hasConceptScore W2783117283C31903555 @default.
W2783117283 hasConceptScore W2783117283C533411734 @default.
W2783117283 hasConceptScore W2783117283C54355233 @default.