Krisztina Martinez scite author profile

The contents of protochlorophyllide, protochlorophyll and chlorophyll together with the native arrangements of the pigments and the plastid ultrastructure were studied in different leaf layers of white cabbage (Brassica oleracea cv. capitata) using absorption, 77 K fluorescence spectroscopy and transmission electron microscopy. The developmental stage of the leaves was determined using the differentiation of the stoma complexes as seen by scanning electron microscopy and light microscopy. The pigment content showed a gradual decrease from the outer leaf layer towards the central leaves. The innermost leaves were in a primordial stage in many aspects; they were large but had typical proplastids with few simple inner membranes, and contained protochlorophyllide and its esters in a 2 : 1 ratio and no chlorophyll. Short-wavelength, not flash-photoactive protochlorophyllide and/or protochlorophyll forms emitting at 629 and 636 nm were dominant in the innermost leaves. These leaves also had small amounts of the 644 and 654 nm emitting, flashphotoactive protochlorophyllide forms. Rarely prolamellar bodies were observed in this layer. The outermost leaves had the usual characteristics of fully developed green leaves. The intermediary layers contained chlorophyll a and chlorophyll b besides the protochlorophyll(ide) pigments and had various intermediary developmental stages. Spectroscopically two types of intermediary leaves could be distinguished: one with only a 680 nm emitting chlorophyll a form and a second with bands at 685, 695 and 730 nm, corresponding to chlorophyllprotein complexes of green leaves. In these leaves, a large variety of chloroplasts were found. The data of this work show that etioplasts, etio-chloroplasts or chloro-etioplasts as well as etiolated leaves do exist in the nature and not only under laboratory conditions. The specificity of cabbage leaves compared with those of dark-grown seedlings is the retained primordial or intermediary developmental stage of leaves in the inner layers for very long (even for a few month) period. This opens new developmental routes leading to formation of specially developed plastids in the various cabbage leaf layers. The study of these plastids provided new information for a better understanding of the plastid differentiation and the greening process.

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Development and isolation of the male gametophyte of Torenia fournieri

Vági

Martinez

Kristóf

2004

Sex Plant Reprod

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New methods were developed to isolate the male gametophyte of Torenia fournieri at any developmental stage. The stages were defined by light microscopic studies and identified by correlating morphological traits of the flower buds. Enzyme solutions were used to isolate gametophytic cells. Preliminary studies were carried out to determine the components of the cell wall, and the optimal osmotic pressures of the appropriate enzyme solutions were adjusted to the different developmental stages. We managed to isolate diploid microsporocytes, haploid microspores, cells of young and mature pollen grains, and sperm cells from growing pollen tubes. Isolated protoplasts were collected in microcapillaries to prepare them for further studies.

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Protease Inhibitors Present in Opuntia Spp.

Torres-Castillo¹,

Martinez²,

Blanco‐Labra³

et al. 2009

Acta Hortic.

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