Mung bean (Vigna radiata L.) quality is dependent on seed chemical composition, which in turn determines the benefits of its consumption for human health and nutrition. While mung bean is rich in a range of nutritional components, such as protein, carbohydrates and vitamins, it remains less well studied than other legume crops in terms of micronutrients. In addition, mung bean genomics and genetic resources are relatively sparse. The objectives of this research were threefold , namely: to develop a genome-wide marker system for mung bean based on genotyping by sequencing (GBS), to evaluate diversity of mung beans available to breeders in the United States and finally, to perform a genome-wide association study (GWAS) for nutrient concentrations based on a seven mineral analysis using inductively coupled plasma (ICP) spectroscopy. All parts of our research were performed with 95 cultivated mung bean genotypes chosen from the USDA core collection representing accessions from 13 countries. Overall, we identified a total of 6,486 high quality single nucleotide polymorphisms (SNPs) from the GBS dataset and found 43 marker × trait associations (MTAs) with calcium, iron, potassium, manganese, phosphorous, sulfur or zinc concentrations in mung bean grain produced in either of two consecutive years' field experiments. The MTAs were scattered across 35 genomic regions explaining on average 22% of the variation for each seed nutrient in each year. Most of the gene regions provided valuable candidate loci to use in future breeding of new varieties of mung bean and further the understanding of genetic control of nutritional properties in the crop. Other SNPs identified in this study will serve as important resources to enable marker-assisted selection (MAS) for nutritional improvement in mung bean and to analyze cultivars of mung bean.
This study aimed to investigate the effect of high-pressure processing (HPP) at different pressures (300, 400, and 500) MPa and 5 min processing time on the physicochemical properties, the microbiology count, the bioactive compounds, the antioxidant capacity, and the sensory attributes of ready-to-drink Sabah Snake Grass juice during 36 days of storage. HPP treatment at (400 and 500) MPa significantly (p ≤ .05) reduced the microbial counts in the juice. In contrast, the pH and total soluble solid content were maintained during the HPP treatments. The HPP treatments resulted in a significantly higher amount of total phenolic content and antioxidant capacity than the untreated samples. However, the sensory quality of the juice subjected to (300 and 400) MPa was strongly preferred as compared to the juice subjected to the 500 MPa. In conclusion, the HPP treatment at 400 MPa was the most effective pressure treatment for processing Sabah Snake Grass juice.
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