Abstract
Human diets containing greater resistant starch (RS) are associated with superior glycemic control. Although high amylose rice has higher RS (29 g/kg to 44 g/kg) than lower amylose content varieties, sensory and processing properties associated with RS have not been evaluated. This study used variants of Waxy and starch synthase II a (SSIIa) genes to divide high amylose (256 g/kg to 284 g/kg) varieties into three haplotypes to examine their effects on RS, RVA parameters, and 14 cooked rice texture properties. RVA characteristics were influenced by both genes with peak and hotpaste viscosity differentiating the three haplotypes. Setback from hotpaste viscosity was the only RVA parameter correlated with RS content across three haplotypes (r = −0.76 to −0.93). Cooked rice texture attributes were impacted more by Waxy than by SSIIa with initial starch coating, roughness, and intact particles differentiating the three haplotypes. Pairwise correlation (r = 0.46) and PCA analyses suggested that roughness was the only texture attribute associated with RS content; while protein content influenced roughness (r = 0.49) and stickiness between grains (r = 0.45). In conclusion, variation exists among genetic haplotypes with high RS for sensory traits that will appeal to diverse consumers across the globe with limited concern for negatively affecting grain processing quality.
Highlights
Dietary fiber consumption is recommended to decrease the risk of developing chronic diseases such as obesity, diabetes, cardiovascular disease, and some cancers [1]
These high amylose varieties were classified into three haplotypes-T-TT, T-Ghoal Champa (GC) and C-GC based on the T/C single nucleotide polymorphism (SNP) of Waxy exon 10 and TT/GC dinucleotide polymorphism (DNP) of synthase II a (SSIIa) exon 8 [23,30]
Tp with T-TT haplotype having a lower Tp than T-GC and C-GC
Summary
Dietary fiber consumption is recommended to decrease the risk of developing chronic diseases such as obesity, diabetes, cardiovascular disease, and some cancers [1]. Cereal grains contain diverse types of dietary fiber which have different chemical structures that affect fermentability in the gut, composition of gut microbiota, and the production of metabolites; all of which are thought to positively influence human health [2]. Resistant starch (RS) is a type of dietary fiber in cereal grains that resists digestion in the small intestine and has higher fermentability in the gut than other dietary fibers, such as the non-starch polysaccharides from cell wall material [3]. RS supplements reportedly improved fasting glucose and insulin, insulin sensitivity, and LDL-cholesterol concentration, especially for those with diabetes and obesity [4]. RS I, physically embedded, i.e., in a protein matrix or thick cell-wall; RS II, raw granules or un-gelatinized starch; RS III, retrograded starch; RS IV, chemically or enzymatically modified starch; and RS V, lipid-starch complexes [7,8]
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