Abstract
Common buckwheat (Fagopyrum esculentum Moench), a pseudocereal crop, produces a large number of flowers, but this does not guarantee high seed yields. This species demonstrates strong abortion of flowers and embryos. High temperatures during the generative growth phase result in an increase in the degeneration of embryo sacs. The aim of this study was to investigate proteomic changes in flowers and leaves of two common buckwheat accessions with different degrees of heat tolerance, Panda and PA15. Two-dimensional gel electrophoresis and mass spectrometry techniques were used to analyze the proteome profiles. Analyses were conducted for flower buds, open flowers capable of fertilization, and wilted flowers, as well as donor leaves, i.e., those growing closest to the inflorescences. High temperature up-regulated the expression of 182 proteins. The proteomic response to heat stress differed between the accessions and among their organs. In the Panda accession, we observed a change in abundance of 17, 13, 28, and 11 proteins, in buds, open and wilted flowers, and leaves, respectively. However, in the PA15 accession there were 34, 21, 63, and 21 such proteins, respectively. Fifteen heat-affected proteins were common to both accessions. The indole-3-glycerol phosphate synthase chloroplastic-like isoform X2 accumulated in the open flowers of the heat-sensitive cultivar Panda in response to high temperature, and may be a candidate protein as a marker of heat sensitivity in buckwheat plants.
Highlights
Common buckwheat (Fagopyrum esculentum Moench), which belongs to the Polygonaceae family, is a valuable source of rutin, iron, dietary fiber, and many other microelements
Our previous research showed that buckwheat plants have a limited ability to fill seeds, and this species shows a strong abortion of flowers and embryos [7]
There were fewer protein spots in the 2-D maps produced from open flowers, namely 900 for Panda and 977 for PA15
Summary
Common buckwheat (Fagopyrum esculentum Moench), which belongs to the Polygonaceae family, is a valuable source of rutin, iron, dietary fiber, and many other microelements. Buckwheat seeds do not contain gluten and have a well-balanced amino acid composition rich in lysine [1,2]. This species does not require good soil; it is sensitive to a number of environmental factors, such as frost and cold, high temperature, dry wind, and drought [3]. The flowers need to be cross-pollinated by insects, mainly bees. This plant is characterized by strong self-incompatibility. Our previous research showed that buckwheat plants have a limited ability to fill seeds, and this species shows a strong abortion of flowers and embryos [7]
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