SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4372349114> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W4372349114 endingPage "3901" @default.
W4372349114 startingPage "3901" @default.
W4372349114 abstract "Neohesperidin (NH), a natural flavonoid, exerts multiple actions, such as antioxidant, antiviral, antiallergic, vasoprotective, anticarcinogenic and anti-inflammatory effects, as well as inhibition of tumor progression. In this study, the NH-taro starch complex is prepared, and the effects of NH complexation on the physicochemical properties, structure and in vitro digestibility of taro starch (TS) are investigated. Results showed that NH complexation significantly affected starch gelatinization temperatures and reduced its enthalpy value (ΔH). The addition of NH increased the viscosity and thickening of taro starch, facilitating shearing and thinning. NH binds to TS via hydrogen bonds and promotes the formation of certain crystalline regions in taro starch. SEM images revealed that the surface of NH-TS complexes became looser with the increasing addition of NH. The digestibility results demonstrated that the increase in NH (from 0.1% to 1.1%, weight based on starch) could raise RS (resistant starch) from 21.66% to 27.75% and reduce RDS (rapidly digestible starch) from 33.51% to 26.76% in taro starch. Our work provided a theoretical reference for the NH-taro starch complex's modification of physicochemical properties and in vitro digestibility with potential in food and non-food applications." @default.
W4372349114 created "2023-05-07" @default.
W4372349114 creator A5007829684 @default.
W4372349114 creator A5068292246 @default.
W4372349114 creator A5071503368 @default.
W4372349114 creator A5071958350 @default.
W4372349114 creator A5078355864 @default.
W4372349114 creator A5079025262 @default.
W4372349114 creator A5084914765 @default.
W4372349114 date "2023-05-05" @default.
W4372349114 modified "2023-09-26" @default.
W4372349114 title "Preparation of Neohesperidin–Taro Starch Complex as a Novel Approach to Modulate the Physicochemical Properties, Structure and In Vitro Digestibility" @default.
W4372349114 cites W119241263 @default.
W4372349114 cites W1599336501 @default.
W4372349114 cites W1811049632 @default.
W4372349114 cites W1856323793 @default.
W4372349114 cites W1921988695 @default.
W4372349114 cites W1976178842 @default.
W4372349114 cites W1979081411 @default.
W4372349114 cites W1979669702 @default.
W4372349114 cites W1979706926 @default.
W4372349114 cites W2029136356 @default.
W4372349114 cites W2029361381 @default.
W4372349114 cites W2033243872 @default.
W4372349114 cites W2037744384 @default.
W4372349114 cites W2045431592 @default.
W4372349114 cites W2053455955 @default.
W4372349114 cites W2055497205 @default.
W4372349114 cites W2067130940 @default.
W4372349114 cites W2073285926 @default.
W4372349114 cites W2085385896 @default.
W4372349114 cites W2088820951 @default.
W4372349114 cites W2092291706 @default.
W4372349114 cites W2114952185 @default.
W4372349114 cites W2127192718 @default.
W4372349114 cites W2151302502 @default.
W4372349114 cites W2331939209 @default.
W4372349114 cites W2747645389 @default.
W4372349114 cites W2791780174 @default.
W4372349114 cites W2793388631 @default.
W4372349114 cites W2794713295 @default.
W4372349114 cites W2807370239 @default.
W4372349114 cites W2912795176 @default.
W4372349114 cites W2920629711 @default.
W4372349114 cites W2939505058 @default.
W4372349114 cites W2945910292 @default.
W4372349114 cites W2991535050 @default.
W4372349114 cites W2996880602 @default.
W4372349114 cites W3005269343 @default.
W4372349114 cites W3009988769 @default.
W4372349114 cites W3010224065 @default.
W4372349114 cites W3037991469 @default.
W4372349114 cites W3043476167 @default.
W4372349114 cites W3045375212 @default.
W4372349114 cites W3045621455 @default.
W4372349114 cites W3089165514 @default.
W4372349114 cites W3097628156 @default.
W4372349114 cites W3108714722 @default.
W4372349114 cites W3116384685 @default.
W4372349114 cites W3117347664 @default.
W4372349114 cites W3125794443 @default.
W4372349114 cites W3134036112 @default.
W4372349114 cites W3152728916 @default.
W4372349114 cites W3157812971 @default.
W4372349114 cites W3157957128 @default.
W4372349114 cites W3168657160 @default.
W4372349114 cites W3191218161 @default.
W4372349114 cites W3200742861 @default.
W4372349114 cites W3205249794 @default.
W4372349114 cites W3217173481 @default.
W4372349114 cites W4200207708 @default.
W4372349114 cites W4210774582 @default.
W4372349114 cites W4224127500 @default.
W4372349114 cites W4225000180 @default.
W4372349114 cites W4229367342 @default.
W4372349114 cites W4283011850 @default.
W4372349114 cites W4296006235 @default.
W4372349114 cites W4296012262 @default.
W4372349114 doi "https://doi.org/10.3390/molecules28093901" @default.
W4372349114 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37175311" @default.
W4372349114 hasPublicationYear "2023" @default.
W4372349114 type Work @default.
W4372349114 citedByCount "0" @default.
W4372349114 crossrefType "journal-article" @default.
W4372349114 hasAuthorship W4372349114A5007829684 @default.
W4372349114 hasAuthorship W4372349114A5068292246 @default.
W4372349114 hasAuthorship W4372349114A5071503368 @default.
W4372349114 hasAuthorship W4372349114A5071958350 @default.
W4372349114 hasAuthorship W4372349114A5078355864 @default.
W4372349114 hasAuthorship W4372349114A5079025262 @default.
W4372349114 hasAuthorship W4372349114A5084914765 @default.
W4372349114 hasBestOaLocation W43723491141 @default.
W4372349114 hasConcept C147253931 @default.
W4372349114 hasConcept C178790620 @default.
W4372349114 hasConcept C185592680 @default.
W4372349114 hasConcept C201116201 @default.
W4372349114 hasConcept C2776633847 @default.
W4372349114 hasConcept C2778004101 @default.