Ultrastructural Organization of Leaves of Transgenic Tobacco Overexpressing Histone H1 from Arabidopsis thaliana

We investigated the anatomical and ultrastructural featuresof transgenic tobacco plants that overexpressed a gene of histoneH1 from Arabidopsis thaliana. The overexpression of the heterologousgene resulted in more than a 2.5-fold increase over the physiologicallevel of the histone H1:DNA ratio in chromatin. H1-overexpressingplants had a distinct mutant phenotype characterized by dwarfappearance and severely hampered flowering. These changes wereaccompanied by extensive and unusual heterochromatinizationof nuclei occurring in all leaf parenchymal cells but not inleaf epidermal cells. The observed anomalies in the growth rateand size of the cells and in nuclei/chloroplast proportionsin histone H1-overexpressing plants suggest that the H1:DNAratio can influence some specialized cellular functions involvingthe cytoskeleton, and nuclear/organellar interactions whichare of importance for the normal development of a plant. Copyright1999 Annals of Botany Company Transgenic tobacco plant, histone H1 overexpression, heterochromatinization.     

Cytoplasmic and Apoplastic Location of Phenolic Compounds in the Covering Tissue of the Brassica napus Radicle Between Embryogenesis and Germination

The localization and intensity of cytoplasmic and apoplasticdeposits of phenolic compounds in Brassica napus L. change betweenembryogenesis and 36 h after seed germination. In the late stageof embryogenesis there were no phenolic compounds that wouldbe precipitated with caffeine, located either in the cytoplasmor outside the plasmalemma. Seeds collected at this stage rotduring germination. During seed maturation phenolic compoundswere localized in small vesicles which correspond to vesicular-shapedendoplasmic reticulum (ER) characteristic of this stage. Thiswas followed by slightly larger deposits in vacuoles, and inmature seed dark deposits accumulated outside the plasmalemma.In these dormant seeds the deposits were thus mostly betweenthe plasmalemma and the cell wall. After 3 h in water such darkdeposits appeared outside the cell wall on the embryo surface.After 6 h the cytoplasmic deposits were very few, and after24 h deposits reappeared in the round vesicles and long ER cisternae.After 36 h, when the emerging radicle and hypocotyl were 3 mmlong, there were large deposits of phenolic compounds in thevacuoles of various sizes. The occurrence of these depositsparalleled the previously demonstrated waves of embryo activityat the same stages of development, such as mitoses, synthesisof DNA, RNA, and protein, and mobilization of storage material. Embryogenesis, phenolic compounds, germination, seedling     

Low Temperature Affects Pattern of Leaf Growth and Structure of Cell Walls in Winter Oilseed Rape (Brassica napus L., var. oleifera L.)

Three-week acclimation of winter oilseed rape (Brassica napusL. var. oleifera L.) plants in the cold (2 °C) resultedin a modified pattern of leaf cell enlargement, indicated bythe increased thickness of young leaf blades and modified dimensionsof mesophyll cells, as compared with non-acclimated tissuesgrown at 20/15 °C (day/night). The thickness of leaf cellwalls also increased markedly during cold acclimation but itdecreased in response to a transient freezing event (5 °Cfor 18 h followed by 6 or 24 h at 2 °C, in the dark). Cellwalls of the upper (adaxial) epidermis were most affected. Theirultrastructure was modified by cold and freezing treatmentsin different ways, as revealed by electron microscopy. Possiblereasons for the cold- and freezing-induced modifications inthe leaf and cell wall morphology and their role in plant acclimationto low temperature conditions are discussed. Copyright 1999Annals of Botany Company Acclimation, Brassica napus var. oleifera, cell wall ultrastructure, cold, freezing, leaf structure, winter oilseed rape.     

Cytochemical Localization of Phenolic Compounds in Columella Cells of the Root Cap in Seeds of Brassica napus--Changes in the Localization of Phenolic Compounds during Germination

Changes in the localization of phenolic compounds were investigatedin columella cells of embryonic roots in 1-year-old Brassicanapus seeds during 48 h of imbibition and germination. In dry,dormant seeds, phenolic compounds were located in the apoplasticcompartment between the cell wall and plasmalemma in the outermostlayer of the columella. These apoplastic phenolic deposits disappearedduring the activation processes associated with imbibition andgermination, but new deposits appeared successively in the nucleus,ER cisternae, protein bodies and on the outer surface of theroot cap. A large number of phenolic deposits were observedin the outermost part of the columella, becoming less frequenttowards the initial centre. Their appearance coincided withrestoration of the ER and immediately preceded cytological activation.After the primary root had emerged from the seed coat, depositsof phenolic compounds disappeared from the cytoplasm, but simultaneouslyappeared in the vacuoles. Copyright 1999 Annals of Botany Company Brassica napus var. oleifera, root columella, germination, phenolic compounds localization.