Controlling pea starch gelatinization behavior and rheological properties by modulating granule structure change with pea protein isolate
文献类型: 外文期刊
第一作者: Kuang, Jiwei
作者: Kuang, Jiwei;Kuang, Jiwei;Zhang, Wengang;Yang, Xijuan;Kuang, Jiwei;Zhang, Wengang;Yang, Xijuan;Ma, Ping
作者机构:
关键词: Pea starch; Pea protein isolate; Starch gelatinization; Flow behavior; Granule structure
期刊名称:FOOD CHEMISTRY-X ( 影响因子:8.2; 五年影响因子:8.2 )
ISSN: 2590-1575
年卷期: 2025 年 25 卷
页码:
收录情况: SCI
摘要: The purpose of this study was to investigate how the gelatinization behavior of pea starch (PS) was affected by pea protein isolate (PPI). The findings revealed that higher PPI levels decreased the swelling power of PS. Incorporating PPI raised the hot paste viscosity of PS, lowered the pasting temperature, and notably increased the gelatinization enthalpy according to differential scanning calorimetry analysis. Furthermore, the presence of PPI reduced the storage moduli of the starch paste, enhanced shear thinning behavior, and hindered starch molecular chain aggregation. With increasing PPI content from 0 to 12 %, amylose leaching and gel strength decreased by 25.6 % and 38.2 % respectively, indicating weak gel formation induced by PPI in PS. Confocal laser scanning microscopy confirmed that PPI envelopment of starch granules restricted their gelatinization by limiting granule swelling. These results carry significant implications for crafting pea-based foods with desired texture.
分类号:
- 相关文献
作者其他论文 更多>>
-
Suppressiveness of spent mushroom substrate amendment against eggplant Verticillium wilt
作者:Qu, Yuanhang;Qu, Yuanhang;Liu, Xiaomeng;Su, Zhenhe;Guo, Qinggang;Ma, Ping
关键词:eggplant Verticillium wilt; spent mushroom substrate; rhizosphere;
Bacillus ; soil amendment -
Spent mushroom substrate amendment induces suppressiveness against cucumber Fusarium wilt through changes in the rhizosphere microbiome
作者:Qu, Yuanhang;Liu, Tiancong;Dong, Lihong;Su, Zhenhe;Guo, Qinggang;Ma, Ping;Dong, Lemeng;Bouwmeester, Harro
关键词:Cucumber
Fusarium wilt; Spent mushroom substrate; Rhizosphere; Microbiome;Bacillus -
Development and Utilization of Quantitative Detection for Probiotics Bacillus velezensis B31 with Potential Protection Against Tomato Fusarium Wilt
作者:Su, Zhenhe;Gao, Yanan;Guo, Qinggang;Ma, Ping;Gao, Yanan;He, Yunzhuan;Dong, Lemeng
关键词:
Bacillus velezensis ; Uniqueorf3804 ; Strain-specific primers; Rhizosphere colonization; Biocontrol monitoring; Fusarium wilt biocontrol -
Effects of Different Highland Barley Varieties on Quality and Digestibility of Noodles
作者:Wu, Guiyun;Dang, Bin;Zhang, Wengang;Yang, Xijuan;Wang, Lili;Wang, Xueqing;Yang, Jingjing;Li, Jingfeng;Wang, Fengzhong;Jia, Lang;Wei, Jinbian;Han, Zhihui;Chen, Xiaopei
关键词:highland barley varieties; noodle quality; digestive characteristics
-
Effect of PGPRs on the Rhizosphere Microbial Community Structure and Yield of Silage Maize in Saline-Alkaline Fields
作者:Zhao, Weisong;Li, Shezeng;Yang, Wei;Cui, Naqi;Lu, Xiuyun;Mo, Shaojing;Guo, Qinggang;Ma, Ping
关键词:PGPR; saline-alkaline soils; silage maize; soil nutrients; rhizosphere microbiome; microbial community structure
-
Defense Responses Stimulated by Bacillus subtilis NCD-2 Through Salicylate- and Jasmonate-Dependent Signaling Pathways Protect Cotton Against Verticillium Wilt
作者:Mo, Shaojing;Zhao, Weisong;Wei, Yarui;Su, Zhenhe;Li, Shezeng;Lu, Xiuyun;Zhang, Xiaoyun;Qu, Yuanhang;Wang, Peipei;Dong, Lihong;Zhang, Jiaqi;Guo, Qinggang;Ma, Ping
关键词:
Bacillus subtilis NCD-2; cotton Verticillium wilt; biological control; induced resistance; signaling pathway -
Effects of Four Highland Barley Proteins on the Pasting Properties and Short-Term Retrogradation of Highland Barley Starch
作者:Lin, Ran;Lian, Xijun;Lin, Ran;Nie, Mengzi;Li, Jiaxin;Wang, Aixia;Gong, Xue;Wang, Fengzhong;Wang, Lili;Liu, Liya;Tong, Li-Tao;Dang, Bin;Yang, Xijuan
关键词:highland barley starch; pasting properties; short-term retrogradation; protein-starch interaction
