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Most seeds are anhydrobiotes, relying on an array of protective and repair mechanisms, and seed mitochondria have previously been shown to harbor stress proteins probably involved in desiccation tolerance. Since temperature stress is a major issue for germinating seeds, the temperature response of pea (Pisum sativum) seed mitochondria was examined in comparison with that of mitochondria from etiolated epicotyl, a desiccation-sensitive tissue. The functional analysis illustrated the remarkable temperature tolerance of seed mitochondria in response to both cold and heat stress. The mitochondria maintained a well-coupled respiration between -3.5 degrees C and 40 degrees C, while epicotyl mitochondria were not efficient below 0 degrees C and collapsed above 30 degrees C. Both mitochondria exhibited a similar Arrhenius break temperature at 7 degrees C, although they differed in phospholipid composition. Seed mitochondria had a lower phosphatidylethanolamine-to-phosphatidylcholine ratio, fewer unsaturated fatty acids, and appeared less susceptible to lipid peroxidation. They also accumulated large amounts of heat shock protein HSP22 and late-embryogenesis abundant protein PsLEAm. The combination of membrane composition and stress protein accumulation required for desiccation tolerance is expected to lead to an unusually wide temperature tolerance, contributing to the fitness of germinating seeds in adverse conditions. The unique oxidation of external NADH at low temperatures found with several types of mitochondria may play a central role in maintaining energy homeostasis during cold shock, a situation often encountered by sessile and ectothermic higher plants.  相似文献   
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Background

Dehydrins are known as Group II late embryogenesis abundant proteins. Their high hydrophilicity and thermostability suggest that they may be structure stabilizers with detergent and chaperone-like properties. They are localised in the nucleus, cytoplasm, and plasma membrane. We have recently found putative dehydrins in the mitochondria of some cereals in response to cold. It is not known whether dehydrin-like proteins accumulate in plant mitochondria in response to stimuli other than cold stress.

Results

We have found five putative dehydrins in the mitochondria of winter wheat, rye and maize seedlings. Two of these polypeptides had the same molecular masses in all three species (63 and 52 kD) and were thermostable. Drought, freezing, cold, and exogenous ABA treatment led to higher accumulation of dehydrin-like protein (dlp) 63 kD in the rye and wheat mitochondria. Protein 52 kD was induced by cold adaptation and ABA. Some accumulation of these proteins in the maize mitochondria was found after cold exposition only. The other three proteins appeared to be heat-sensitive and were either slightly induced or not induced at all by all treatments used.

Conclusions

We have found that, not only cold, but also drought, freezing and exogenous ABA treatment result in accumulation of the thermostable dehydrins in plant mitochondria. Most cryotolerant species such as wheat and rye accumulate more heat-stable dehydrins than cryosensitive species such as maize. It has been supposed that their function is to stabilize proteins in the membrane or in the matrix. Heat-sensitive putative dehydrins probably are not involved in the stress reaction and adaptation of plants.  相似文献   
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Subcellular localization of dehydrins (dhn) in stem cell tissues of winter wheat seedlings (Triticulum aestivum L., cult. Irkutskaya ozimaya) was studied by immunoelectron microscopy. It was found that cold hardening at 4°C for 7 days resulted in a duplication of the dhn quantity in the cells as compared with control conditions (22°C). The maximum increase of the dhn content was observed in rough endoplasmic reticulum, mitochondria, cell walls, and intercellular spaces (3.8-, 3.0- and 2.8-fold, respectively); minimum increase was found in chloroplasts (1.4-fold). In the membrane compartments (mitochondria, rough endoplasmic reticulum, chloroplasts) low-temperature stress caused an increase of dhn quantity not only near membranes but also in the intermembrane space. A significant accumulation of dhn (2.5-fold) in the nucleus under low- temperature was found. We conclude that cold hardening of the plant induces accumulation and translocation of dhn to the regions of inter- and intracellular compartments that most require protection during the low-temperature stress.  相似文献   
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A new glucan, namely, piptoporane I, with a molecular mass of 270 kDa was isolated from fruiting bodies of Piptoporus betulinis (Bull.:Fr.) Karst. (Fomitopsidacaeae). Using a combination of physicochemical methods, it was established that piptoporane I was a branched glucan with a backbone consisting of α-(1 → 3)-glucopyranose residues substituted at the C-6 position by single residues of β-D-glucopyranose by 17.3%. A polysaccharide with such a structure was isolated for the first time from the fungus genus Piptoporus.  相似文献   
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Gene expression, protein synthesis, and activities of alternative oxidase (AOX), uncoupling proteins (UCP), adenine nucleotide translocator (ANT), and non-coupled NAD(P)H dehydrogenases (NDex, NDPex, and NDin) were studied in shoots of etiolated winter wheat (Triticum aestivum L.) seedlings after exposure to hardening low positive (2°C for 7 days) and freezing (?2°C for 2 days) temperatures. The cold hardening efficiently increased frost-resistance of the seedlings and decreased the generation of reactive oxygen species (ROS) during further cold shock. Functioning of mitochondrial energy-dissipating systems can represent a mechanism responsible for the decrease in ROS under these conditions. These systems are different in their response to the action of the hardening low positive and freezing temperatures. The functioning of the first system causes induction of AOX and UCP synthesis associated with an increase in electron transfer via AOX in the mitochondrial respiratory chain and also with an increase in the sensitivity of mitochondrial non-phosphorylating respiration to linoleic and palmitic acids. The increase in electron transfer via AOX upon exposure of seedlings to hardening freezing temperature is associated with retention of a high activity of NDex. It seems that NDex but not the NDPex and NDin can play an important role in maintaining the functional state of mitochondria in heterotrophic tissues of plants under the influence of freezing temperatures. The involvement of the mitochondrial energy-dissipating systems and their possible physiological role in the adaptation of winter crops to cold and frost are discussed.  相似文献   
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Several studies have indicated that olfactory responses are impeded byamiloride. Therefore, it was of interest to see whether, and if so which,olfactory epithelial cellular compartments have amiloride- sensitivestructures. Using ultrastructural methods that involved rapid freezing,freeze-substitution and low temperature embedding of olfactory epithelia,this study shows that, in the rat, this tissue is immunoreactive toantibodies against amiloride sensitive Na(+)- channels. However, microvilliof olfactory supporting cells, as opposed to receptor cilia, contained mostof the immunoreactive sites. Apices from which the microvilli sprout andreceptor cell dendritic knobs had much less if any of theamiloride-antibody binding sites. Using a direct ligand-bindingcytochemical method, this study also confirms earlier ones that showed thatolfactory receptor cell cilia have Na+, K(+)-ATPase. It is proposed thatsupporting cell microvilli and the receptor cilia themselves havemechanisms, different but likely complementary, that participate inregulating the salt concentration around the receptor cell cilia. In thisway, both structures help to provide the ambient mucous environment forreceptor cells to function properly. This regulation of the saltconcentration of an ambient fluid environment is a function that theolfactory epithelium shares with cells of transporting epithelia, such asthose of kidney.  相似文献   
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The accumulation of thermostable stress proteins during hardening was studied in etiolated seedlings of spring (cvs. Rollo, Drott, Angara-86, and Tyumenskaya-80) and winter (moderately frost-resistant cv. Bezostaya-1 and highly frost-resistant cvs. Irkutskaya ozimaya and Zalarinka) wheat using one-dimensional SDS-PAGE. Hardening was performed at 4°C for nine days. Seedling tolerance to low subzero temperatures was estimated from electrolyte leakage and seedling survival after freezing. Hardening of all wheat genotypes tested resulted in the accumulation of thermostable cold-regulated (COR) polypeptides with mol wts of 209, 196, 169, 66, 50, and 41 kD. A densitometric analysis demonstrated a close correlation between the cultivar frost tolerance and the relative content of COR proteins, which evidently indicated the protective functions of the latter. These results led us to suggest that the level of specific protective agents, thermostable high-molecular-weight COR polypeptides in particular, determines the degree of plant frost resistance within a particular plant species.  相似文献   
10.
Changes in the activity of peroxidase, a component of the NADPH oxidase signaling pathway, in potato cells were studied. This activity increased sharply during ring rot pathogenesis. Two mechanisms of peroxidase activation were distinguished. One of them was the enzyme de novo synthesis; it was characteristic of the potato cultivar susceptible to the pathogen. Another mechanism characteristic of the resistant cultivar included not only the enzyme synthesis but also the activation of preexisting enzyme molecules. Bacterial infection and exopolysaccharides secreted by the pathogen induced changes in the pattern of intra- and extracellular peroxidases of the susceptible cultivar. No changes were noted in the peroxidase patterns of the resistant cultivar. A sharp activation of the extracellular peroxidase of R f 15 occurred in the infected or exopolysaccharide-treated cells of the resistant cultivar.  相似文献   
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