Abstract
The aim of this study is to determine the programmed cell death hallmarks in the stigmatic papillae of Brassica oleracea L. The flower development was divided in two main stages; pre-anthesis and post-anthesis. Programmed cell death hallmarks were examined in parallel to these stages. At pre-anthesis, the stigmatic papillae were ovoid and their dense cytoplasm were rich in insoluble polysaccharide and protein. At post-anthesis, vacuolization and enlargement were quite evident in papillae. Besides, the protein content decreased, but reactive oxygen species increased in comparison to the pre-anthesis stage. Although no significant change in superoxide dismutase activity was detected, catalase activity decreased and hydrogen peroxide content increased at post-anthesis. DAPI stained nuclei appeared rounded and smooth appearance at pre-anthesis, however, some invaginations and fragmentation in nuclei were observed at post-anthesis. Although, TUNEL staining was negative at pre-anthesis, while TUNEL positive reaction was significant in the nuclei of papillae at post-anthesis. In comparison to the pre-anthesis, the number of fragmented nuclei monitored by DAPI and TUNEL staining increased at post-anthesis.
Highlights
Brassica oleracea is a member of Brassicaceae family consisting of 4060 species (Bayer et al 2019)
The aim of the present study is to investigate the morphological, biochemical, and molecular hallmarks of dPCD in stigmatic papillae of Brassica oleracea L
The morphological and biochemical features of papillae were investigated to analyze their main differences at pre-anthesis and post-anthesis
Summary
Brassica oleracea is a member of Brassicaceae family consisting of 4060 species (Bayer et al 2019). It is an important agronomic plant due to its consumption as a vegetable (Neik et al 2017). A protein-based pellicle layer covers the papillae cuticle. Despite this distinction between wet and dry stigmas, stigmatic papillae are characterized by the expression of various biomolecules such as the various organic matters such as insoluble polysaccharide and protein, enzymes, and Aslıhan Çetinbaş-Genç, Cansu Bayam, Filiz Vardar reactive oxygen species (ROS) in both types. The expression of these biomolecules shows various changes due to several processes such as organ aging, pollination, cell death and etc
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