Your search keyword '"Apel K"' showing total 259 results

251. Light-dependent, but phytochrome-independent, translational control of the accumulation of the P700 chlorophyll-a protein of photosystem I in barley (Hordeum vulgare L.).

Author

Laing W, Kreuz K, and Apel K

Abstract

This work reports on the regulation of synthesis of the P700 chlorophyll-a apoprotein of photosystem I in barley. The mRNA for the P700 apoprotein is almost exclusively confined to the plastid membrane-bound polysomes. However, the mRNA for the 32-kDa herbicide-binding protein of photosystem II is found in both the soluble and membrane-bound polysomes.The mRNA for the P700 apoprotein is found in similar amounts in dark-grown and light-grown wild-type as well as mutant xantha-l(81) barley. The latter mutant is deficient in chlorophyll biosynthesis. However, while wild-type leaves accumulate the P700 chlorophyll-a protein only in the light, mutant leaves never accumulate the P700 apoprotein.A more sensitive approach was taken using isolated plastids to study P700 apoprotein synthesis. Etioplasts did not synthesize detectable P700 apoprotein even when the etioplasts were exposed to light. However, only a 1-min exposure of leaves to light was necessary to induce P700 apoprotein synthesis by isolated plastids.Phytochrome involvement in controlling P700 apoprotein synthesis was tested by using red/farred light treatment of leaves. These treatments showed no far-red reversibility of red-induced P700-apoprotein synthesis in isolated plastids even after 3 h of darkness after the light treatments. From these data we conclude that the accumulation of P700 apopootein is not under the control of phytochrome and that the light induction of P700 apoprotein is most likely mediated through the protochlorophyllide/chlorophyllide system. This control, however, may also involve cytoplasmic signals as the synthesis of the P700 apoprotein is not turned on in illuminated etioplasts.

Published

1988

252. The distribution of NADPH-protochlorophyllide oxidoreductase in relation to chlorophyll accumulation along the barley leaf gradient.

Author

Dehesh K, Häuser I, Apel K, and Kloppstech K

Abstract

The possible regulatory role of NADPH-protochlorophyllide oxidoreductase for chlorophyll accumulation has been investigated in barley plants. Within the primary leaf of etiolated plants the different maturation stages of etioplasts are found in a linear series with the youngest in cells near the base and the oldest in cells near the tip. This distribution of different plastid forms is paralleled by drastic differences in the NADPH-protochlorophyllide-oxidoreductase content of the plastids and their capacity to accumulate chlorophyll during illumination. The amount of enzyme and the rate of chlorophyll accumulation are highest in the mature etioplast in the tip of the leaf and both decline rapidly with decreasing age of the leaf tissue, being almost undetectable in the leaf base. The translatable mRNA coding for the enzyme shows a different distribution pattern within the leaf. The highest concentration is found in the middle part of the leaf while in the top part only traces of this mRNA are detectable. It is concluded that during leaf development the enzyme is synthesized rapidly only during a limited time period and that it is stored subsequently in the mature etioplast as a stable protein. The close correlation between the distribution of the enzyme within the barley leaf and that of the potential to accumulate chlorophyll during illumination would favour a control of chlorophyll accumulation by the amount of NADPH-protochlorophyllide oxidoreductase. Dark-grown plants which were exposed to far-red light were used to test this possibility. The far-red-absorbing form of phytochrome (Pfr) has an inverse effect on the kinetics of chlorophyll accumulation and the enzyme concentration. Our results indicate that the rate of chlorophyll accumulation in barley is not determined by the level of NADPH-protochlorophyllide oxidoreductase present in the leaves.

Published

1983

253. The phytochrome-controlled accumulation of mRNA sequences encoding the light-harvesting chlorophyll a/b protein of barley (Hordeum vulgare L.).

Author

Gollmer I and Apel K

Subjects

Base Sequence, DNA, DNA, Recombinant, Genetic Code, Light, Light-Harvesting Protein Complexes, Photosynthetic Reaction Center Complex Proteins, Chlorophyll genetics, Edible Grain genetics, Hordeum genetics, Phytochrome physiology, Plant Proteins genetics, Plant Proteins physiology, RNA, Messenger metabolism

Abstract

Double-stranded cDNA was synthesized from polysomal poly(A)-containing RNA of illuminated barley plants and was inserted into the PstI site of the bacterial plasmid pBR322. Two different strategies were used for the screening of the bacterial colonies. Light-regulated sequences were detected by differential hybridization with cDNA of polyadenylated RNA from dark-grown and illuminated barley plants. For a second screening step partially purified mRNAs encoding the light-harvesting chlorophyll a/b protein were used for the synthesis of another cDNA probe. By using these procedures a cDNA clone was isolated which encodes a constitutive polypeptide of the light-harvesting chlorophyll a/b protein. This cloned cDNA has been used to assess the effect of phytochrome on the steady-state level of mRNA sequences encoding the light-harvesting chlorophyll a/b protein. The mRNA is almost undetectable in dark-grown plants. Following treatment with red light, the concentration of this mRNA sequence increases rapidly during the subsequent dark period. This red light effect can be reversed substantially by irradiation with far-red light. These results indicate that not only the amount of mRNA activity as shown previously, but also the steady-state level of mRNA sequences encoding the light-harvesting chlorophyll a/b is controlled by phytochrome.

Published

1983

254. The proteolytic degradation in vitro of the NADPH-protochlorophyllide oxidoreductase of barley (Hordeum vulgare L.).

Author

Häuser I, Dehesh K, and Apel K

Subjects

Hydrogen-Ion Concentration, Light, Temperature, Time Factors, Edible Grain metabolism, Hordeum metabolism, Oxidoreductases metabolism, Oxidoreductases Acting on CH-CH Group Donors

Abstract

A cell-free membrane system has been developed from isolated barley etioplasts which displays a highly selective decrease of the NADPH-protochlorophyllide oxidoreductase in vitro which is indistinguishable from that observed previously in the intact plant. The rapid breakdown of the enzyme protein in vitro is caused by a membrane-bound proteolytic activity. The protease is essentially independent of pH in the physiological pH range of 6 to 8.5. The optimum temperature for the reaction is approximately 40 degrees C. In the presence of excessive protochlorophyllide the enzyme is no longer degraded or inactivated during illumination of dark-grown plants. In the isolated membrane fraction protochlorophyllide also enhances the stability of the enzyme, a similar effect is exerted by NADPH but not by NADH. The results suggest that the inactivation of the NADPH-protochlorophyllide oxidoreductase is influenced by the interaction of the enzyme with protochlorophyllide and NADPH. In the absence of these two components the enzyme becomes susceptible to proteolytic degradation.

Published

1984

255. Protein bodies in ray cells of Populus x canadensis Moench 'robusta'.

Author

Sauter JJ, van Cleve B, and Apel K

Abstract

Light- and electron-microscopical investigations revealed distinct intravacuolar protein aggregates of 0.3-0.8 μm in diameter in ray cells of poplar during the dormant season. In semi-thin sections, these bodies showed positive protein staining and enzymatic digestibility with pepsin, indicating their proteinaceous nature. Morphometric measurements showed such protein bodies in 7-13% of the area of the ray-cell lumen. This amount corresponded with the protein content of the wood determined biochemically, e.g. 2.0-5.0 μg·mg(-1) dry weight. Polyacrylamide gel electrophoresis of the total protein fraction extracted from wood showed prominent polypeptide species with an apparent molecular weight of 30-32 kilodaltons. The results indicate considerable protein storage in ray cells, especially in the form of protein-storage vacuoles.

Published

1988

256. Cultivar-related differences in the distribution of cell-wall-bound thionins in compatible and incompatible interactions between barley and powdery mildew.

Author

Ebrahim-Nesbat F, Behnke S, Kleinhofs A, and Apel K

Abstract

Leaf-specific thionins of barley (Hordeum vulgare L.) have been identified as a novel class of cell-wall proteins toxic to plant-pathogenic fungi and possibly involved in the defence mechanism of plants. The distribution of these polypeptides has been studied in the host-pathogen system of barley and Erisyphe graminis DC.f.sp. hordei Marchal (powdery mildew). Immunogold-labelling of thionins in several barley cultivars indicates that resistance or susceptibility may be attributed to the presence or absence of thionins at the penetration site in walls and papillae of epidermal leaf cells.All of the leaf-specific thionin genes are confined to the distal end of the short arm of chromosome 6 of barley. None of the genes for cultivarspecific resistance to powdery mildew which have previously been mapped on barley chromosomes are found close to this locus.

Published

1989

257. Phytochrome-induced appearance of mRNA activity for the apoprotein of the light-harvesting chlorophyll a/b protein of barley (Hordeum vulgare).

Author

Apel K

Subjects

Darkness, Hordeum metabolism, Intracellular Membranes metabolism, Kinetics, Light, Apoproteins biosynthesis, Chlorophyll metabolism, Phytochrome physiology, Plant Proteins biosynthesis, Plant Proteins physiology, Plants metabolism, RNA, Messenger metabolism

Published

1979

258. Nuclear dependency of chloroplast proteins in Acetabularia.

Author

Apel K and Schweiger HG

Subjects

Acetabularia analysis, Carbon Isotopes, Cell Nucleus metabolism, Chloramphenicol pharmacology, Chloroplasts drug effects, Cycloheximide pharmacology, DNA metabolism, Electrophoresis, Micromanipulation, Molecular Biology, RNA, Messenger metabolism, Ribosomes, Transplantation, Transplantation, Heterologous, Chlorophyta analysis, Chloroplasts analysis, Proteins analysis

Published

1972

259. Sites of synthesis of chloroplast-membrane proteins. Evidence for three types of ribosomes engaged in chloroplast-protein synthesis.

Author

Apel K and Schweiger HG

Subjects

Acetabularia cytology, Amino Acids metabolism, Carbon Radioisotopes, Centrifugation, Density Gradient, Chloramphenicol pharmacology, Chlorophyll analysis, Cycloheximide pharmacology, Cytosol metabolism, Electrophoresis, Membranes metabolism, Microscopy, Electron, RNA, Ribosomal isolation & purification, Ribosomes drug effects, Sucrose, Trichloroacetic Acid, Tritium, Uridine metabolism, Chlorophyta cytology, Chloroplasts metabolism, Plant Proteins biosynthesis, Ribosomes metabolism

Published

1973