Your search keyword '"Xu, Renyuan"' showing total 2 results

1. Starch granular size and multi-scale structure determine population patterns in bivariate flow cytometry sorting.

Author

Zhu, Chuanhao, Zhang, Xudong, Xu, Renyuan, Zhong, Yuyue, Li, Silu, Li, Jinyuan, Huang, Chenggang, Wu, Wenhao, Zhai, Mingming, Nurzikhan, Seitkali, Blennow, Andreas, and Guo, Dongwei

Subjects

*STARCH, *FLOW cytometry, *AMYLOPECTIN, *PARTICLE size distribution, *TUBER crops, *AMYLOSE

Abstract

Bivariate flow cytometry (FC) sorting with forward scatter (FSC) and side scatter (SSC) is a recently established novel technique to separate starch granules. However, the forming mechanism of starch FC-dependent population patterns (i.e. the number of subgroups (NS) and FSC/SSC-dependent distribution patterns) remain partly elusive. For this, the correlation of granular size and multi-scale structure of native starches and FC-dependent population patterns was investigated through employing a wide range of native starches originating from different species involving cereal-, pulse-, and tuber crops. Results showed NS was pertinent with particle size, amylose content (AC), amylopectin chains length distribution, lamellar structure, short-range ordered structure. The distinct NS was determined by impacts of native starch FSC / SSC-dependent distribution patterns. Specifically, starch granular size significantly correlated with both FSC and SSC-dependent distribution patterns. The proportion of chains with DP 6–12 was the intra-molecular decisive factor to influence short-range ordered structure, finally leading to FSC-dependent distribution patterns. By contrast, AC was another intra-molecular index to determine SSC-dependent distribution patterns through affecting lamellar structure and short-range ordered structure. • Side scatter (SSC) is vulnerable to short-range ordered and lamella structures. • Forward scatter (FSC) is sensitive to short-range ordered structure. • Starch particle size affect distribution patterns of both FSC and SSC. • The correlation of starch features and FSC/SSC exists in limited range. [ABSTRACT FROM AUTHOR]

Published

2023

2. The effects of drought treatments on biosynthesis and structure of maize starches with different amylose content.

Author

Wu, Wenhao, Qu, Jianzhou, Blennow, Andreas, Herburger, Klaus, Hebelstrup, Kim Henrik, Guo, Ke, Xue, Jiquan, Xu, Renyuan, Zhu, Chuanhao, Zhong, Yuyue, and Guo, Dongwei

Subjects

*CORNSTARCH, *AMYLOSE, *DEGREE of polymerization, *AMYLOPECTIN, *CORN, *BIOSYNTHESIS

Abstract

We investigated the effects of drought stress (DS) on maize varieties with different amylose content (AC). In starches with AC of 33 %, DS increased the contents of amylopectin (AP) chains with a degree of polymerization (DP) > 36 and decreased the AP chains with DP ≤ 36, while the AC was unchanged. DS decreased the crystallinity, the thickness of both amorphous and crystalline lamellae, and average granular size. In contrast, the digestibility increased. For starches with AC of 45 %, DS increased the content of AP chains with DP > 24 and AC, while the contents of AP chains with DP ≤ 24 decreased. DS produced starch with thinner crystalline lamellae, thicker amorphous lamellae, more elongated and larger granules. The digestibility of the starches decreased. In starches with AC of 53 %, moderate DS led to similar structural and functional changes as found for starches with AC of 45 %. Finally, severe DS resulted in the decrease of AC. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022