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831.
G. Thiel 《Protoplasma》1994,179(1-2):26-33
Summary The present paper describes the construction and properties of a Pt/Ir-semi-microelectrode and its application as a redoxsensitive electrode in intact cells of the giant algaNitella. For compartmental analysis of the stationary redox-state voltage (ERED), a value reflecting the interaction of the dominant redox couples with a Pt/Ir-electrode, the redox-sensitive electrode was inserted into the vacuole of leaf cells or cytoplasm enriched fragments (CEF) fromNitella internodal cells. After correction for the membrane voltage, measured with a second, conventional voltage electrode, ERED values of+237±93mVand+419±51 mV with respect to a normal H+-electrode were obtained for cytoplasm and vacuole, respectively. The redox-state of the cell culture medium was+604 mV. The steady state ERED in the cytoplasm can be perturbed by experimental treatments: indirect acidification of the cytoplasm by an external pH jump from 7.5 to 5.8 and direct acidification, by acid loading with 5 mM butyrate, both resulted in a positive shift of ERED, i.e., to an increase in cytoplasmic oxidation. At the same time the membrane depolarized electrically following the external pH jump, but hyperpolarized in response to acid loading. The data demonstrate the direct dependence of cytoplasmic redox state on intracellular pH, probably due to enhanced oxidation of protonated redox couples favoured by mass action. The electrical membrane voltage changes were not correlated with the shift in cytoplasmic ERED. This demonstrated that redox energy does not determine the electrical membrane voltage. Cytoplasmic ERED was also affected by photosynthesis. When CEFs were transferred from light to dark, or exposed to 10M 3-(3,4-dichlorophenyl)-1,l-dimethylurea (DCMU), ERED shifted negatively (more reduced) by 6.4±4.5mV or 4.2±2mV, respectively. These data compare favourably with biochemical estimates of cytoplasmic pyridin nucleotides which also show an increase in cytoplasmic reduction in the dark. Therefore, it is unlikely that diffusable reducing equivalents are supplied to the cytoplasm from photosynthetically-active chloroplasts to act as secondary messengers.Abbreviations EM
transmembrane voltage
- ERED
redox-state voltage
- E0
midpoint-redox-voltage
- APW
artificial pond water
- CEF
cytoplasm enriched fragment 相似文献
832.
It has long been recognized that the bipedal posture reduces the surface area of the body exposed to the sun. In recent years, a theory has been developed by Wheeler that bipedalism evolved in the ancestor of the Hominidae in order to help relieve thermal stress on the animals in open equatorial environments. Bipedalism was said to afford a distinct adaptive advantage over quadrupedalism by permitting hominids to remain active in the open throughout the day. The heat load of the hypothetical hominid comprises the external environment as modelled by Wheeler and the animal's internal environment (i.e., the internal heat generated by its metabolic and locomotor activities, and its evaporative and respirative cooling capacities). When these factors are integrated in the calculation of the animal's thermal budget, the putative advantage of the bipedal over the quadrupedal posture is considerably reduced. The simulations conducted in this study suggest that the increased time afforded to early hominids in the open by bipedalism was relatively short and, therefore, of little or no adaptive significance. These results suggest that thermoregulatory considerations cannot be implicated as a first cause in the evolution of bipedalism in the hominid ancestor. 相似文献
833.
S. Weining L. Ko R. J. Henry 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1994,89(4):509-513
-Amylases are the key enzymes involved in the hydrolysis of starch in plants. The polymerase chain reaction (PCR) was used to detect polymorphisms in the length of amplified sequences between the annealing sites of two primers derived from published -amy1 gene sequences in barley. These two primers (Bsw1 and Bsw7), flanking the promoter region and the first exon, amplified two PCR fragments in barley. One of the amplified products, with the expected length of 820 bp, appeared together with another shorter PCR band of around 750 bp. This 750-bp fragment seems to be derived from an -amylase gene not reported previously. Both of the PCR products could be amplified from the two-rowed barley varieties tested, including cv Himalaya from which the sequence information was obtained. Five of the six-rowed barley varieties also have the two PCR fragments whereas another two have only the long fragment. These two fragments seem to be unique to barley, neither of them could be amplified from other cereals; for example, wheat, rye or sorghum. These two -amylase fragments were mapped to the long arm of 6H, the location of the -amy1 genes, using wheat-barley addition lines. Amplification of genomic DNA from wild barley accessions with primers Bsw1 and Bsw7 indicated that both of the fragments could be present, or the long and short fragments could be present alone. The results also demonstrated that the genes specifying these two fragments could be independent from each other in barley. The conserved banding pattern of these two fragments in the two-rowed barley varieties implies that artificial selection from these genes may have played an important role in the evolution of cultivated barley from wild barley. 相似文献
834.
A. P. Resurreccion C. P. Villareal A. Parco G. Second B. O. Juliano 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1994,89(1):14-18
Four methods for classifying cultivated rices (Oryza sativa L.) (including IR varieties) into indica and japonica types — waxy gene product in endosperm starch, glutelin 3 molecular weight in milled rice, RFLP polymorphism at the Wx locus and Glaszmann's isozyme method — were compared. On the basis of the two endosperm traits and the RFLP method Glaszmann's group 1 (indica) was classified as mainly indica and intermediate groups 2, 3 and 4 as exclusively indica. However, the endosperm traits classified Glaszmann's group 5 as mainly indica, while the RFLP method classified it as japonica. The RFLP waxy gene probe was closest to the isozyme method in classifying group 6 as japonicas; the waxy gene product gave mainly indica reaction even in group 6, and the glutelin 3 method was intermediate. All IR rices were classified as being indica on the basis of Wx gene product and by Glaszmann's method, but a few were classified as japonica by the glutelin 3 method and by the RFLP waxy gene probe. 相似文献
835.
G. García-Casado R. Sánchez-Monge C. Lopez-Otín G. Salcedo 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1994,89(1):60-63
A new inhibitor of insect -amylase, designated RDAI-1, has been purified from rye (Secale cereale L.) endosperm. RDAI-1 is homologous to wheat homodimeric inhibitors. This homology is supported by their similar N-terminal amino-acid sequences, inhibitory activities towards amylases from Tenebrio molitor (Coleoptera) and human saliva, and aggregative properties in gel-filtration chromatography. The gene encoding RDAI-1, IdhaR1, is located on the short arm of chromosome 3R, which is homoeologous with wheat chromosome arms 3BS and 3DS, where the genes for homodimeric inhibitors have been previously mapped. 相似文献
836.
Summary While reported interactions of elongation factor-1 (EF-1) with various other molecules involved in protein biosynthesis are abundant, its interactions with major cytoskeletal proteins have not been as extensively examined. Major roles for EF-1 in cytoskeletal organization emerge from a review of such interactions within species as diverse as slime molds and mammals, sea urchins and higher plants. Based on these studies, the integration of EF-1's cytoskeletal roles with those of translation is considered, and prospective mechanisms for regulation of EF-1's cytoskeletal associations are discussed.Abbreviations EF
elongation factor
- RNP
ribonucleoprotein particle
- MT
microtubule
- MA
mitotic apparatus
- CaM
calmodulin
- MAP
microtubule-associated protein 相似文献
837.
Dynamic approaches to the mechanism of photosynthesis 总被引:2,自引:0,他引:2
Yunkang Shen 《Photosynthesis research》1994,39(1):1-13
An account of the author's life and scientific research is presented. Two main lines of research have been pursued: (1) Studies on the physiological aspect of photosynthesis started from experiments with crops under field conditions and then extended to the study of photosynthesis in nature; and (2) studies on the mechanism of photophosphorylation and related problems which began with the measurement of quantum requirement of photophosphorylation. This work led to the discovery of the high energy state of phosphorylation and many other interesting findings. In recent years, efforts have been made to study the operation and regulation of photosynthetic apparatus with a view to link the above-mentioned lines of research together.Written at the invitation of Govindjee. 相似文献
838.
Acidification inside the vacuo-lysosome systems is ubiquitous in eukaryotic organisms and essential for organelle functions. The acidification of these organelles is accomplished by proton-translocating ATPase belonging to the V-type H+-ATPase superfamily. However, in terms of chemiosmotic energy transduction, electrogenic proton pumping alone is not sufficient to establish and maintain those compartments inside acidic. Current studies have shown that thein situ acidification depends upon the activity of V-ATPase and vacuolar anion conductance; the latter is required for shunting a membrane potential (interior positive) generated by the positively charged proton translocation. Yeast vacuoles possess two distinct Cl– transport systems both participating in the acidification inside the vacuole, a large acidic compartment with digestive and storage functions. These two transport systems have distinct characteristics for their kinetics of Cl– uptake or sensitivity to a stilbene derivative. One shows linear dependence on a Cl– concentration and is inhibited by 4,4-diisothiocyano-2,2-stilbenedisulfonic acid (DIDS). The other shows saturable kinetics with an apparentK
m
for Cl– of approximately 20 mM. Molecular mechanisms of the chemiosmotic coupling in the vacuolar ion transport and acidification inside are discussed in detail. 相似文献
839.
D. James Morré 《Journal of bioenergetics and biomembranes》1994,26(4):421-433
An NADH oxidase activity of animal and plant plasma membrane is described that is stimulated by hormones and growth factors. In plasma membranes of cancer cells and tissues, the activity appears to be constitutively activated and no longer hormone responsive. With drugs that inhibit the activity, cells are unable to grow although growth inhibition may be more related to a failure of the cells to enlarge than to a direct inhibition of mitosis. The hormone-stimulated activity in plasma membranes of plants and the constitutively activated NADH oxidase in tumor cell plasma membranes is inhibited by thiol reagents whereas the basal activity is not. These findings point to a thiol involvement in the action of the activated form of the oxidase. NADH oxidase oxidation by Golgi apparatus of rat liver is inhibited by brefeldin A plus GDP. Brefeldin A is a macrolide antibiotic inhibitor of membrane trafficking. A model is presented where the NADH oxidase functions as a thiol-disulfide oxidoreductase activity involved in the formation and breakage of disulfide bonds. The thiol-disulfide interchange is postulated as being associated with physical membrane displacement as encountered in cell enlargement or in vesicle budding. The model, although speculative, does provide a basis for further experimentation to probe a potential function for this enzyme system which, under certain conditions, exhibits a hormone- and growth factor-stimulated oxidation of NADH. 相似文献
840.
Egbert J. Boekema Arjen F. Boonstra Jan P. Dekker Matthias Rögner 《Journal of bioenergetics and biomembranes》1994,26(1):17-29
Electron microscopy (EM) in combination with image analysis is a powerful technique to study protein structure at low- and high resolution. Since electron micrographs of biological objects are very noisy, substantial improvement of image quality can be obtained by averaging individual projections. Crystallographic and noncrystallographic averaging methods are available and have been applied to study projections of the large protein complexes embedded in photosynthetic membranes from cyanobacteria and higher plants. Results of EM on monomeric and trimeric Photosystem I complexes, on monomeric and dimeric Photosystem II complexes, and on the monomeric cytochromeb6/f complex are discussed. 相似文献