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Tropentag, September 15 - 17, 2021, hybrid conference

"Towards shifting paradigms in agriculture for a healthy and sustainable future"


Seed Storage Proteins in Chenopodium Quinoa Germplasm

Lucie Dostalíková1, Petra Hlasna Cepkova 2, Iva Viehmannová3, Dagmar Janovská4, Václav Dvorácek5

1Czech University of Life Sciences Prague, Fac. of Tropical Agrisciences, Dept. of Crop Sciences and Agroforestry, Czech Republic
2Crop Research Institute, Gene Bank, Czech Republic
3Czech University of Life Sciences Prague, Fac. Tropical Agrisciences, Department of Crop Sciences and Agroforestry
4Crop Research Institute, Gene Bank, Czech Republic
5Dept. of Gene Bank, Crop Research Institute, Czech Republic


Abstract


Quinoa (Chenopodium quinoa Willd.) is a dicotyledonous pseudo-cereal from the Chenopodiaceae family that originated in the Andean Mountains of the South America region. In recent years, the production and consumption of quinoa seeds have increased. Cultivation has also spread to countries outside the original growing area, among others, to countries of temperate climate. However, the leading quinoa producers in the world are still Bolivia, Ecuador, and Peru. The main reason for the spread of quinoa is its remarkable adaptability to different climatic and soil conditions. Quinoa seeds are valued mainly for their relatively high content of gluten-free storage protein (14.6%). In addition, the composition of amino acids is very balanced and approaches an ideal protein with a quality equivalent to the milk protein casein. Quinoa grain also contains the essential amino acids lysine, methionine, and threonine, which are considered limiting factors in other crops. With the aim of analysing the band spectra of seed storage proteins and detailed characterisation of their polymorphism and genotype relationship, 35 quinoa genotypes of different geographical origins were analysed by SDS-PAGE. A total of 20 strong allelic positions were detected in the molecular weight range from 10 to 175 kDa. The protein bands differed in intensity, and the main variability in band position among genotypes was found in the positions around 30 and 60 kDa. The evaluated samples showed some degree of heterogeneity at the level of overall seed protein polymorphism. Electrophoretic analysis of seed storage protein proved to be a helpful tool to discriminate quinoa genotypes as a first step in evaluating quinoa genetic resources, contributing general and specific valuable knowledge for breeding and selecting perspectives of quinoa genotypes.


Keywords: Chenopodium quinoa, genetic resources, total protein, variability


Contact Address: Lucie Dostalíková, Czech University of Life Sciences Prague, Fac. of Tropical Agrisciences, Dept. of Crop Sciences and Agroforestry, Kamýcká 129, 16500 Prague, Czech Republic, e-mail: dostalikova@ftz.czu.cz


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