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W4283275353 endingPage "107899" @default.
W4283275353 startingPage "107899" @default.
W4283275353 abstract "The current study focused on the possible beneficial action of microbial transglutaminase (MTG) modification on techno-functional and hydrogel characteristics of sour cherry seed protein (SCSP). Firstly, the occurred variations in the oil holding capacity (OHC) and emulsifying activity index (EAI) of SCSP depending on MTG/substrate ratio and process time were explored to detect plausible cross-linking conditions. The accuracy of the modification in MTG-induced SCSP (MTG-SCSP) was assigned by FTIR and SDS analyses. The upward trend was observed in the techno-functional features including wettability (4.01 s for SCSP and 46.50 s for MTG-SCSP), OHC (1.53 g/g for SCSP and 8.48 g/g for MTG-SCSP), EAI (45.30 m2/g for SCSP and 65.82 m2/g for MTG-SCSP) and emulsifying stability index (ESI) (15.10 min for SCSP and 26.19 min for MTG-SCSP) behavior after cross-linking process. MTG-SCSP was also incorporated into hydrogels models. Hydrogels with 3 different contents namely SCSP alone, SCSP and pectin mixture, and MTG-SCSP and pectin mixture as control groups were prepared. The microstructure of hydrogels was characterized by SEM images. The coexistence of MTG-SCSP and pectin displayed a noteworthy synergistic impact on the functional properties (water holding capacity (WHC), swelling ratio, and volume gel index (VGI)) of gels. A similar pattern with these results was obtained in the textural and rheological behavior." @default.
W4283275353 created "2022-06-23" @default.
W4283275353 creator A5020442566 @default.
W4283275353 creator A5024555715 @default.
W4283275353 creator A5031586331 @default.
W4283275353 creator A5044597009 @default.
W4283275353 creator A5080452336 @default.
W4283275353 creator A5083794171 @default.
W4283275353 date "2022-12-01" @default.
W4283275353 modified "2023-10-10" @default.
W4283275353 title "Facile construction of fruit protein based natural hydrogel via intra/inter molecular cross-linking" @default.
W4283275353 cites W1506043065 @default.
W4283275353 cites W1901170297 @default.
W4283275353 cites W1967878543 @default.
W4283275353 cites W1973141575 @default.
W4283275353 cites W1984825482 @default.
W4283275353 cites W1996282589 @default.
W4283275353 cites W2001657759 @default.
W4283275353 cites W2002698395 @default.
W4283275353 cites W2004064706 @default.
W4283275353 cites W2007433057 @default.
W4283275353 cites W2014506774 @default.
W4283275353 cites W2028504187 @default.
W4283275353 cites W2032826947 @default.
W4283275353 cites W2034309327 @default.
W4283275353 cites W2036291000 @default.
W4283275353 cites W2041941861 @default.
W4283275353 cites W2060184321 @default.
W4283275353 cites W2060216832 @default.
W4283275353 cites W2062102053 @default.
W4283275353 cites W2072451080 @default.
W4283275353 cites W2077683691 @default.
W4283275353 cites W2084161408 @default.
W4283275353 cites W2100837269 @default.
W4283275353 cites W2107735396 @default.
W4283275353 cites W2149559982 @default.
W4283275353 cites W2159971576 @default.
W4283275353 cites W2209859116 @default.
W4283275353 cites W2508939677 @default.
W4283275353 cites W2522543863 @default.
W4283275353 cites W2606823754 @default.
W4283275353 cites W2611967614 @default.
W4283275353 cites W2735704251 @default.
W4283275353 cites W2765959880 @default.
W4283275353 cites W2766563035 @default.
W4283275353 cites W2767237151 @default.
W4283275353 cites W2770236640 @default.
W4283275353 cites W2803463835 @default.
W4283275353 cites W2888627817 @default.
W4283275353 cites W2889500241 @default.
W4283275353 cites W2900009905 @default.
W4283275353 cites W2909281970 @default.
W4283275353 cites W2909533870 @default.
W4283275353 cites W2923077914 @default.
W4283275353 cites W2923584488 @default.
W4283275353 cites W2929104299 @default.
W4283275353 cites W2971724670 @default.
W4283275353 cites W2976018787 @default.
W4283275353 cites W2978917799 @default.
W4283275353 cites W2991876240 @default.
W4283275353 cites W2993405327 @default.
W4283275353 cites W2994835924 @default.
W4283275353 cites W2996231612 @default.
W4283275353 cites W3003393475 @default.
W4283275353 cites W3005548034 @default.
W4283275353 cites W3007068160 @default.
W4283275353 cites W3041925635 @default.
W4283275353 cites W3047225129 @default.
W4283275353 cites W3083261207 @default.
W4283275353 cites W3085604414 @default.
W4283275353 cites W3088643282 @default.
W4283275353 cites W3099877174 @default.
W4283275353 cites W3111607063 @default.
W4283275353 cites W3117940021 @default.
W4283275353 cites W3118782506 @default.
W4283275353 cites W3121236675 @default.
W4283275353 cites W3122437424 @default.
W4283275353 cites W3125056531 @default.
W4283275353 cites W3126590941 @default.
W4283275353 cites W3133359426 @default.
W4283275353 cites W3137604236 @default.
W4283275353 cites W3140670184 @default.
W4283275353 cites W3144006338 @default.
W4283275353 cites W3154490077 @default.
W4283275353 cites W3154987913 @default.
W4283275353 cites W3161810523 @default.
W4283275353 cites W3165548789 @default.
W4283275353 cites W3176910045 @default.
W4283275353 cites W3186531447 @default.
W4283275353 cites W3188020360 @default.
W4283275353 cites W3208437036 @default.
W4283275353 cites W4206334853 @default.
W4283275353 cites W4206352490 @default.
W4283275353 cites W4210385398 @default.
W4283275353 cites W427375118 @default.
W4283275353 doi "https://doi.org/10.1016/j.foodhyd.2022.107899" @default.
W4283275353 hasPublicationYear "2022" @default.
W4283275353 type Work @default.