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IMPROVEMENT OF SOYBEAN INNATE RESISTANCE TO STRESS THROUGH GENETIC ENGINEERING OF PHENYLPROPANOID CYCLE

Original title

УЛУЧШЕНИЕ ВНУТРЕННЕЙ УСТОЙЧИВОСТИ СОИ К СТРЕССАМ ПУТЕМ ГЕНЕТИЧЕСКОЙ ИНЖЕНЕРИИ ФЕНИЛПРОПАНОИДНОГО ЦИКЛА

Authors

O.I. Kershanskaya1, O.V. Zernova2, D.S. Nelidova2, S.N. Nelidov1, V.V. Lozovaya2

Contact information

1Institute of Plant Biology and Biotechnology, Almaty, Kazakhstan

2University of Illinois at Urbana-Champaign, USA, Этот адрес электронной почты защищён от спам-ботов. У вас должен быть включен JavaScript для просмотра.

Pages

921-925

DOI

10.31255/978-5-94797-319-8-921-925

Abstract

Phenylpropanoid metabolism generates an enormous array of secondary metabolites based on the few intermediates of the shikimate pathway as the core unit. The main idea of our research is to improve soybean innate resistance to stresses via genetic engineering of the phenylpropanoid pathway, namely – introduction into soybean key genes involved in lignin biosynthesis, – the compound that is assigned to a broad range of physiological processes participating in plant growth, providing the rigidity to the cell walls, the natural mechanical barrier and defense against pathogen penetration.