Integument cell gelatinisation—the fate of the integumentary cells in Hieracium and Pilosella (Asteraceae)

Members of the genera Hieracium and Pilosella are model plants that are used to study the mechanisms of apomixis. In order to have a proper understanding of apomixis, knowledge about the relationship between the maternal tissue and the gametophyte is needed. In the genus Pilosella , previous authors...

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Bibliographic Details
Published in:Protoplasma 2017-11, Vol.254 (6), p.2287-2294
Main Authors: Płachno, Bartosz J., Świątek, Piotr, Kozieradzka-Kiszkurno, Małgorzata, Szeląg, Zbigniew, Stolarczyk, Piotr
Format: Article
Language:English
Subjects:
Apomixis
Asteraceae - physiology
Asteraceae - ultrastructure
Biomedical and Life Sciences
Cell Biology
Cell Wall - ultrastructure
Cell walls
cytoplasm
Cytoplasm - ultrastructure
embryo sac
gametophytes
Hieracium
Integument
Life Sciences
light microscopy
Microscopy, Electron, Transmission
Mucilage
mucilages
Original
Original Article
Pilosella officinarum
Plant Sciences
plasma membrane
Plasmodesmata
Protoplasts
Protoplasts - physiology
Protoplasts - ultrastructure
Seeds - physiology
Seeds - ultrastructure
Zoology
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Summary:Members of the genera Hieracium and Pilosella are model plants that are used to study the mechanisms of apomixis. In order to have a proper understanding of apomixis, knowledge about the relationship between the maternal tissue and the gametophyte is needed. In the genus Pilosella , previous authors have described the specific process of the “liquefaction” of the integument cells that surround the embryo sac. However, these observations were based on data only at the light microscopy level. The main aim of our paper was to investigate the changes in the integument cells at the ultrastructural level in Pilosella officinarum and Hieracium alpinum . We found that the integument peri-endothelial zone in both species consisted of mucilage cells. The mucilage was deposited as a thick layer between the plasma membrane and the cell wall. The mucilage pushed the protoplast to the centre of the cell, and cytoplasmic bridges connected the protoplast to the plasmodesmata through the mucilage layers. Moreover, an elongation of the plasmodesmata was observed in the mucilage cells. The protoplasts had an irregular shape and were finally degenerated. After the cell wall breakdown of the mucilage cells, lysigenous cavities that were filled with mucilage were formed.
ISSN:0033-183X
1615-6102
DOI:10.1007/s00709-017-1120-1