Phytochemical Profiling of Soybean (Glycine max (L.) Merr.) Genotypes Using GC-MS Analysis

Phytochemicals - Source of Antioxidants and Role in Disease Prevention Pub Date : 2018-11-07 DOI:10.5772/INTECHOPEN.78035

S. Alghamdi, H. Migdadi, M. Khan, E. El-Harty, M. Ammar, M. Farooq, Muhammad Afzal

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引用次数: 8

Abstract

Twenty-four soybean genotypes collected from different regions and origin were evaluated for their quality performance to explore their nutritional and medicinal values. The proxi mate compositions showed considerable variations among soybean genotypes. The USA genotypes recorded the highest values for protein (43.1 g/100 g), total fat (23.61 g/100 g), phenolic content and flavonoids (1.77 and 2.13 mg/g). Using GC-MS analyses of methanolic extracts, a total of 88 compounds were identified in the genotypes and were classified to: 19 heterocyclic compounds, 13 compounds for ketones and esters, 9 for phenolic compound, 7 compounds for carboxylic acids and sugar moiety, 5 compounds for aldehydes and alcohols, 4 ether compounds, 3 amide, 2 alkanes and one alkene and one fatty acid ester. Indonesian genotypes recorded the highest number of phenolic and the Australian genotype A-1 had the maximum number of esters. Genotypes showed high levels of proximate compositions and pharmaceutical components, offering potential candidates for improving those traits in adapted genotypes through breeding program, as well as serving as a good source of mass production of pharmaceutical and medicinal components either through classical or in vitro production. Furthermore, platform was set for isolating and understanding the characteris - tics of each compound for it pharmacological properties.

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大豆(Glycine max (L.))的植物化学分析稳定)。GC-MS分析基因型

对来自不同地区和产地的24种大豆基因型进行品质性能评价，探讨其营养和药用价值。在大豆基因型中，邻苯二甲酸酯的组成存在较大差异。美国基因型的蛋白质含量最高(43.1 g/100 g)，总脂肪含量最高(23.61 g/100 g)，酚类含量最高(1.77和2.13 mg/g)。通过GC-MS分析，共鉴定出88个基因型化合物，分类为:19个杂环化合物，13个酮类和酯类化合物，9个酚类化合物，7个羧酸和糖块化合物，5个醛类和醇类化合物，4个醚类化合物，3个酰胺类化合物，2个烷烃类化合物，1个烯烃和1个脂肪酸酯类化合物。印度尼西亚基因型中酚类数量最多，澳大利亚基因型A-1中酯类数量最多。基因型显示出高水平的近似成分和药物成分，为通过育种计划改善适应性基因型的这些性状提供了潜在的候选物，并通过经典或体外生产成为大规模生产药物和药用成分的良好来源。此外，为分离和了解各化合物的药理特性搭建了平台。

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Phytochemicals - Source of Antioxidants and Role in Disease Prevention

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