6 research outputs found
Preservation of (−)-Epigallocatechin-3-gallate Antioxidant Properties Loaded in Heat Treated β-Lactoglobulin Nanoparticles
(−)-Epigallocatechin-3-gallate (EGCG) was loaded
in heat
treated β-lactoglobulin (β-Lg) for the preservation of
antioxidant activity. The effects of pH (2.5–7.0), the heating
temperature of β-Lg (30–85 °C), the molar ratio
of β-Lg to EGCG (1:2–1:32), and the β-Lg concentration
(1–10 mg/mL) on the properties of β-Lg–EGCG complexes
were studied. All four factors significantly influenced the particle
size, the ζ-potential, and the entrapment efficiency of EGCG
and EGCG loading in β-Lg particles. A stable and clear solution
system could be obtained at pH 6.4–7.0. The highest protection
of EGCG antioxidant activity was obtained with β-Lg heated at
85 °C and the molar ratio of 1:2 (β-Lg: EGCG). β-Lg–EGCG
complexes were found to have the same secondary structure as native
β-Lg
Additional file 4: Figure S2. of A genome-wide expression profile analysis reveals active genes and pathways coping with phosphate starvation in soybean
Identification of differently up-regulated genes in roots between different soybean accessions. (DOC 26 kb
Additional file 1: Figure S1. of A genome-wide expression profile analysis reveals active genes and pathways coping with phosphate starvation in soybean
Roots morphological of soybean accession CD and YH under low-P condition (0.005 mmol/L P) (A) Root morphological before low-P treatments (B) Root morphological after 10 days of low-P treatments. (DOC 190 kb
Additional file 2: Table S1. of A genome-wide expression profile analysis reveals active genes and pathways coping with phosphate starvation in soybean
KEGG and Go enrichment analysis of differently expressed genes. (a) 317 DEGs between different P treatments (b) 195 DEGs between different materials (c) 253 DEGs between different tissues (d) 85 overlapping genes between the 195 marked DEGs between CD and YH and 317 DEGs in roots and leaves (e) 68 overlapping genes between the 253 marked DEGs between roots and leaves and 317 DEGs in roots and leaves (f) 42 common DEGs. (XLS 86 kb
Additional file 5: Table S3. of A genome-wide expression profile analysis reveals active genes and pathways coping with phosphate starvation in soybean
10 genes showing opposite expression patterns in roots between different soybean accessions. (DOC 42 kb
Additional file 3: Table S2. of A genome-wide expression profile analysis reveals active genes and pathways coping with phosphate starvation in soybean
The list of DEGs between different P treatments in the roots and leaves of CD and YH. (XLS 55 kb