Mechanisms of pollen wall development in Lysimachia vulgaris.

Exine, this complex sporopollenin-containing and highly variable among taxa envelope of the male gametophyte, consists of two layers, ectexine and endexine. We traced in detail the pollen wall development in Lysimachia vulgaris (Primulaceae), with emphasis on driving forces and critical ontogenetic time. By observation on the sequence of the emergent patterns and by analysis of their substructure with TEM, we intended to clarify the obvious and not-obvious ways of exine construction and to find out the common features in pattern development in other representatives in living nature.

Pollen wall development in Impatiens glandulifera: exine substructure and underlying mechanisms.

The aim of this study was to investigate in detail the pollen wall ontogeny in Impatiens glandulifera, with emphasis on the substructure and the underlying mechanisms of development. Sporopollenin-containing pollen wall, the exine, consists of two parts, ectexine and endexine. By determining the sequence of developing substructures with TEM, we have in mind to understand in which way the exine substructure is connected with function.

Ontogenesis in miniature. Pollen wall development in Campanula rapunculoides.

Our findings suggest a reconsideration of pollen wall ontogeny process, entailing examination of physical factors, which enable a new understanding of exine developmental processes as self-formation. The pollen wall, the most complex cell wall in plants, is especially interesting as a model of ontogeny in miniature. By a detailed study of each developmental stage of Campanula rapunculoides pollen wall, we aimed to understand the establishment of complex pollen walls and the underlying developmental mechanisms.