Institution
Henan University of Technology
Education•Zhengzhou, China•
About: Henan University of Technology is a education organization based out in Zhengzhou, China. It is known for research contribution in the topics: Catalysis & Starch. The organization has 7648 authors who have published 6503 publications receiving 73067 citations. The organization is also known as: Hénán Gōngyè Dàxué.
Papers published on a yearly basis
Papers
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TL;DR: The main purpose is to combine the optimal placement of data blocks and the optimal scheduling of tasks to reduce the computation delay and response time for the submitted tasks and improve user experience in edge computing.
86 citations
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TL;DR: This study achieved reliable pilot-scale application of SLADB under low temperature for municipal tailwater and found microbial community spatial distribution patterns were related to nitrogen removal.
86 citations
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TL;DR: It is suggested that this peanut endophyte could be a potential biocontrol agent in peanut production and a source of antimicrobial compounds for further exploitation.
86 citations
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TL;DR: Polyphenol stability in gastrointestinal tract, uptake, target specific delivery, bioavailability and biological activity can be enhanced by engineering with proteins via polyphenol-protein interactions.
Abstract: Background As plant secondary metabolites, polyphenols have gained more attention with increasing market demand due to their potential benefit for health. However, the low uptake rate and target delivery efficiency of polyphenols towards target sites such as organs, tissues and cells limit their applications. Polyphenols possess binding affinities with proteins via non-covalent and (or) covalent interactions, which provide a strategy for engineering as polyphenol-protein complexes to protect them from oxidation and enzymatic hydrolysis during gastrointestinal digestion. Polyphenol engineering via polyphenol-protein interaction changes the physical and chemical characteristics of polyphenols, thereby protecting polyphenols from oxidation and enzymatic hydrolysis during gastrointestinal digestion and improving their uptake rate, target specific delivery and biological activity. Scope and approach This review aims to describe the mechanisms underlying engineering polyphenols via polyphenol-protein interaction, as well as their effect on the antioxidative, anti-inflammatory and anti-cancer activities of polyphenols. Especially, it focuses on polyphenols functional enhancement for improved intestinal health by engineering with proteins. Key finding and conclusions Polyphenol stability in gastrointestinal tract, uptake, target specific delivery, bioavailability and biological activity can be enhanced by engineering with proteins via polyphenol-protein interactions. The potential applications of the engineering polyphenol-protein complex for health benefit are specifically addressed, but their safety needs to be assessed carefully before developing as functional food ingredients.
86 citations
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TL;DR: In this article, a facile chemical precipitation method was used to controllably synthesize ZIF-8 nanocubes and then select them as sacrificial templates to prepare ZnSe nanoparticles embedded N-doped carbon nanocomubes.
85 citations
Authors
Showing all 7708 results
Name | H-index | Papers | Citations |
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Xin Li | 114 | 2778 | 71389 |
Yang Liu | 82 | 1695 | 33657 |
Qing-Hua Qin | 52 | 505 | 9939 |
Dong-Qing Wei | 48 | 418 | 7839 |
Feng Qi | 47 | 581 | 10687 |
Jian Jian Li | 46 | 119 | 7577 |
Hongshun Yang | 46 | 165 | 5539 |
Shuangqiang Chen | 41 | 73 | 5539 |
Fei Xu | 40 | 314 | 6102 |
Dennis R. Salahub | 39 | 132 | 9259 |
Lingbo Qu | 37 | 291 | 4894 |
Yuting Wang | 37 | 80 | 11820 |
Zhiyong Jiang | 36 | 135 | 3559 |
Baoping Tang | 31 | 83 | 2455 |
Jinliang Liu | 30 | 107 | 2317 |