2018
DOI: 10.2298/gensr1801333w
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From proteomics to ionomics: Soybean genetic improvement for better food safety

Abstract: Soybean is a major protein and oilseed crop for food and livestock feed production, which is increasingly utilized in the food industry due to its favorable protein content and a superior overall seed composition with a high nutritional value. However, some of the soybean seed components have the potential to reduce the value of soy-food products as they are posing different food safety risks. Therefore, the objective of the present review was to evaluate options of soybean genetic improvemen… Show more

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Cited by 8 publications
(5 citation statements)
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“…The genetic improvement of soybean germplasm, based on conventional breeding strategies, contributes to advances in production and food processing industry by developing high-yielding and highquality soybean varieties, hereby enhancing value-added, healthy and safe properties of final soy products. Recent advances in biotechnology, in particular the development of improved molecular marker technology, have made possible the genetic dissection and characterization of many quantitatively inherited seed quality traits in soybean [5,[14][15][16][17]. Therefore, genetic improvement of varieties could be characterized as an integral part of sustainable food production.…”
Section: Perspectivesmentioning
confidence: 99%
“…The genetic improvement of soybean germplasm, based on conventional breeding strategies, contributes to advances in production and food processing industry by developing high-yielding and highquality soybean varieties, hereby enhancing value-added, healthy and safe properties of final soy products. Recent advances in biotechnology, in particular the development of improved molecular marker technology, have made possible the genetic dissection and characterization of many quantitatively inherited seed quality traits in soybean [5,[14][15][16][17]. Therefore, genetic improvement of varieties could be characterized as an integral part of sustainable food production.…”
Section: Perspectivesmentioning
confidence: 99%
“…Tripsin inhibitori (Kunitz i Bowman-Birk tripsin inhibitor) spadaju u proteine i učestvuju sa oko 6% od ukupnih proteina u zrelom zrnu soje . Kunitz tripsin inhibitor (KTI) se smatra supstancom sa najjačim inhibirajućim delovanjem u zrelom zrnu soje (Watanabe et al ., 2018) .…”
Section: Uvodunclassified
“…Efforts have been made by researchers to reduce allergenicity in soybean via construction of a gene silencing vector to suppress the expression of P34 protein responsible for allergenic effects, in transgenic soybean lines (Herman et al 2003). Besides, most food safety-related traits have been also discovered which can be utilized to develop soybean varieties with hypoallergenic properties (Joseph et al 2006;Watanabe et al 2018). Recent transcriptomics study has uncovered an indispensable and profitable knowledge into pathogenicity, survival and adjustment of pathogens in food (Joseph et al 2006).…”
Section: Food Safetymentioning
confidence: 99%