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Regulation of the cytosolic adenylate ratio as determined by rapid fractionation of mesophyll protoplasts of oat (1982)

Goller, M. ; Hampp, R. ; Ziegler, H.

Springer

Planta 156 (1982), S. 255-263

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ISSN: 1432-2048

Keywords: Adenylate ; Avena (adenylate levels) ; Chloroplast ; Cytosol ; Electron transfer inhibitor ; Mesophyll protoplast ; Mitochondrion ; Uncoupler

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Adenylate levels in chloroplasts, mitochondria and the cytosol of oat mesophyll protoplasts were determined under light and dark conditions, in the absence and presence of plasmalemma-permeable inhibitors of electron transfer and uncouplers of phosphorylation. This was achieved using a microgradient technique which allowed an integrated homogenization and fractionation of protoplasts within 60 s (Hampp et al. 1982, Plant Physiol. 69, 448–455), under conditions which quench bulk activities of metabolic interconversion in less than 2 s. In illuminated controls, ATP/ADP ratios were found to be 2.1 in chloroplasts, about unity in mitochondria, and 11 in the cytosol; whereas, in the dark, this ratio only showed a large drop in chloroplasts (0.4). None of the compounds used [carbonylcyanide m-chlorophenylhydrazone (CCCP), carbonylcyanide p-trifluoromethoxy-phenylhydrazone (FCCP), antimycin A, dibromothymoquinone (DBMIB), dichlorophenyldi-methylurea (DCMU), or salicylhydroxamic acid (SHAM)] affected the stroma adenylate ratio in the dark. Under illumination, however, the ATP/ADP ratios were partly reduced in the presence of antimycin (inhibitor of cyclic photophosphorylation) and of DCMU (inhibitor of linear electron flow), while in the presence of DBMIB, DCMU+ antimycin (inhibition of both cyclic and linear electron flow), and CCCP (uncoupling) the ratio obtained was the same as that occurring in the dark. In contrast, mitochondrial adenylate levels did not exhibit large variations under the various treatments. The cytosolic ATP/ADP ratio, however, showed dramatic changes: in darkened protoplasts, cytosolic values dropped to 0.2 and 0.1 in the presence of uncouplers and antimycin, respectively, while SHAM did not induce any significant alteration. In the light, a similar pronounced decrease in ATP levels was observed only after the application of uncouplers or inhibitors of both mitochondrial and photosynthetic electron transport, whereas selective inhibition of the latter was largely ineffective in reducing the cytosolic ATP/ADP ratio. Thus, the results show that the antimycin-sensitive electron transport is, potentially, equally active in light and darkness. In addition, they indicate that antimycin-insensitive electron transport in mitochondria (alternative pathway) does not significantly contribute to the cytosolic energy state.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00393733

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Electro-fusion of mesophyll protoplasts ofAvena sativa (1983)

Verhoek-Köhler, B. ; Hampp, R. ; Ziegler, H. ; [et al.]

Springer

Planta 158 (1983), S. 199-204

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ISSN: 1432-2048

Keywords: Adenylate ; Avena cell fusion ; Cell, single cell analysis ; Cell fusion ; electric-field induced

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract In order to assay the viability of electrically fused mesophyll protoplasts ofAvena sativa a technique was developed to determine adenylate levels in single protoplasts and fusion products. The results demonstrate that the intracellular ATP/ADP ratios are identical before and after fusion (values between 1.4 and 1.8) and that the time of the rounding up process is directly related to the ATP level of the hybrid. This was shown by the manipulation of the intracellular ATP/ADP ratio in the light using different effectors. Hybrids with an ATP/ADP ratio of 2.3 needed 54 s to round up completely; in the presence of antimycin (inhibition of both oxidative and light-dependent cyclic electron flow: ATP/ADP=1.1) or dibromothymoquinone (plastoquinone antagonist: ATP/ADP=1.0) the time for rounding up was slightly increased (64 s and 76 s respectively), whereas after preincubation with antimycin, dichlorophenyldimethylurea (inhibition of oxidative and light-dependent electron flow) or uncouplers (ATP/ADP=0.19–0.32) this process needed 128–153s for completion. These results are discussed in relation to the viability of electrically induced fusion products and to energy-dependent events involved in the process of fusion.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01075255

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Biomass production and nitrate metabolism of Atriplex hortensis L. (C3 plant) and Amaranthus retroflexus L. (C4 plant) in cultures at different levels of nitrogen supply (1987)

Gebauer, G. ; Schulumacher, M. I. ; Krstić, B. ; [et al.]

Springer

Oecologia 72 (1987), S. 303-314

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ISSN: 1432-1939

Keywords: Nitrogen use efficiency ; C3 plant ; C4 plant ; Biomass production ; Nitrate metabolism

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Pure and mixed cultures of the dicotyledons Atriplex hortensis L. (C3 plant) and Amaranthus retroflexus L. (C4 plant) were maintained under open air conditions in standard soil at low and high nitrogen supply levels. A comparison of shoot dry weight and shoot length in the various series shows that the growth of the aboveground parts of both species was severely reduced under low N conditions. In both pure and mixed cultures the differences resulting from low N vs. high N conditions was less pronounced with Atriplex (C3 plant) than with Amaranthus (C4 plant). The root dry weight of the two species was not reduced so much under low N conditions as was the shoot dry weight. The low N plants were found to contain a larger proportion of their biomass in the roots than did the high N plants. In general the root proportion of Atriplex was greater than that of Amaranthus. The contents of organic nitrogen and nitrate and the nitrate reductase activity (NRA) per g dry weight of both species decreased continually throughout the experiments. With the exception of young plants, the low N plants always had tower contents of organic nitrogen and nitrate and nitrate reductase activities than did the high N plants. The highest values of NRA were measured in the leaf laminae. The eaves also exhibited the highest concentrations of organic nitrogen. The highest nitrate concentrations, however, were observed in the shoot axis, and in most cases the lowest nitrate values were found in the laminae. At the end of ne growing season this pattern was found to have been reversed with Atriplex, but not with Amaranthus. Thus Atriplex was able to maintain a higher NRA in the laminae than Amaranthus under low N conditions. The transpiration per leaf area of the C4 plant Amaranthus during the course of a day was substantially lower than that of the C3 plant Atriplex. There were no significant differences in transpiration between the low N and high N series of Amaranthus. The low N plants of Atriplex, however, clearly showed in most cases higher transpiration rates than the corresponding high N plants. These different transpiration rates of the high N and the low N Atriplex plants were also reflected in a distinct 13C discrimination. The sum of these results points to the conclusion that the C3 plant Atriplex hortensis can maintain a better internal inorganic nitrogen supply than the C4 plant Amaranthus retroflexus under low N conditions and an ample water supply, due to the larger root proportion and the more pronounced and flexible transpiration of the C3 plant.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00379283

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Biomass production and nitrogen contents of the CAM plants Kalanchoe daigremontiana and K. tubiflora in cultures with different nitrogen and water supply (1990)

Widmann, K. ; Gebauer, G. ; Rehder, H. ; [et al.]

Springer

Oecologia 82 (1990), S. 478-483

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ISSN: 1432-1939

Keywords: Biomass production ; CAM plants ; Leaf conductance ; Nitrogen use efficiency ; Water supply

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Two CAM plant species (Kalanchoe daigremontiana and K. tubiflora) were cultivated in pure cultures with two different levels of nitrogen and water supply. A comparison of the plant dry weight showed that the productivity was severely reduced under low nitrogen or/and water conditions. Additionally the proportion of the different organs contributing to the total biomass, and thus the ratio of root/shoot dry weight shifted substantially. At the same time the production of leaf buds in ratio to leaf biomass was increased. Concentrations of organic nitrogen and nitrate in the shoots were drastically reduced under low nitrogen or/and water conditions, but organic nitrogen concentration in the roots remained relatively high. The leaf conductance over a day was investigated only for K. daigremontiana, and decreased with reduced water and nitrogen supply. The results indicate that CAM plants do not have the predicted high nitrogen use efficiency. Under environmental stress they change from biomass production towards provisions for life preservation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00319789

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Biomass production and nitrogen content of C3- and C4- grasses in pure and mixed culture with different nitrogen supply (1987)

Gebauer, G. ; Schubert, B. ; Schuhmacher, M. I. ; [et al.]

Springer

Oecologia 71 (1987), S. 613-617

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ISSN: 1432-1939

Keywords: Nitrogen use efficiency ; C3 grasses ; C4 grasses ; Biomass production ; Competition

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Two C3 grasses (Hordeum vulgare L., Avena sativa L.) and two C4 grasses (Panicum miliaceum L., Panicum crus-galli L.) were cultivated in standard soil in the open air in pure cultures and in various mixed cultures at low and high nitrogen fertilization levels. After three months the dry weight, length and nitrogen content of the aboveground and below-ground parts of the plants and the shoot/root ratios were determined. Hordeum vulgare was the most successful species irrespective of the nitrogen fertilization level, and also exhibited in most cases the highest nitrogen concentrations. Panicum miliaceum, on the other hand, was the species least able to compete. The production of biomass was reduced in cultures growing under nitrogen starvation conditions, this phenomenon being more pronounced with respect to the C4 than to the C3 species. The decrease in the production of biomass at low N conditions was most drastic with Panicum crus-galli, the species with the lowest nitrogen content and thus assumed to be best adapted to nitrogen starvation conditions. In cultures growing at low nitrogen fertilization levels the shoot/root ratios of all species.shifted in favour of an increasing root proportion. The extent of this shift, however, differed from species to species.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00379307

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