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21.
Ulrich Heber Ulvi Gerst Anja Krieger Spidola Neimanis Yoshichika Kobayashi 《Photosynthesis research》1995,46(1-2):269-275
Transthylakoid proton transport based on Photosystem I-dependent cyclic electron transport has been demonstrated in isolated intact spinach chloroplasts already at very low photon flux densities when the acceptor side of Photosystem I (PS I) was largely closed. It was under strict redox control. In spinach leaves, high intensity flashes given every 50 s on top of far-red, but not on top of red background light decreased the activity of Photosystem II (PS II) in the absence of appreciable linear electron transport even when excitation of PS II by the background light was extremely weak. Downregulation of PS II was a consequence of cyclic electron transport as shown by differences in the redox state of P700 in the absence and the presence of CO2 which drained electrons from the cyclic pathway eliminating control of PS II. In the presence of CO2, cyclic electron transport comes into play only at higher photon flux densities. At H+/e=3 in linear electron transport, it does not appear to contribute much ATP for carbon reduction in C3 plants. Rather, its function is to control the activity of PS II. Control is necessary to prevent excessive reduction of the electron transport chain. This helps to protect the photosynthetic apparatus of leaves against photoinactivation under light stress. 相似文献
22.
Human alveolar macrophage fibronectin: synthesis, secretion, and ultrastructural localization during gelatin-coated latex particle binding 总被引:14,自引:4,他引:10 下载免费PDF全文
Human pulmonary alveolar macrophages synthesized and secreted several characteristic high molecular weight proteins for at least 7 d in vitro. Immunoprecipitates of medium and cell lysates from metabolically labeled cultures with specific anti-human plasma fibronectin IgG contained one major labeled polypeptide of molecular weight 440,000 (unreduced) or 220,000 (reduced). An identical polypeptide in conditioned medium from radiolabeled macrophages bound specifically to gelatin-Sepharose, demonstrating that alveolar macrophages synthesized and secreted a molecule immunologically and functionally similar to fibronectin. Fibronectin was the major newly synthesized and secreted polypeptide of freshly harvested alveolar macrophages. Pulse-chase experiments revealed that newly synthesized fibronectin was rapidly secreted into medium, approximately 50 percent appearing by 1 h and 80 percent by 8 h. Immunoperoxidase staining using antifibronectin F(ab’)(2)-peroxidase conjugates revealed the majority of immunoreactive fibronectin to be intracellular, localized to endoplasmic reticulum and Golgi apparatus. No extracellular matrix fibronectin was visualized, and cell surface staining was rarely seen, usually appearing only at sites where cells were closely apposed and not at sites of macrophage-substrate attachment. Similar immunostaining of fibroblast cultures revealed cell surface-associated fibrillar fibronectin. Ultrastructural localization of fibronectin during binding and phagocytosis of gelatin-coated and plain latex particles revealed fibronectin only on gelatin-latex beads and at their cell binding sites. Neigher plain latex beads nor their cell membrane binding sites stained for fibronectin. These results demonstrate that fibronectin is a major product of human alveolar macrophages, is rapidly secreted, and is localized at cell membrane binding sites for gelatin-coated particles. In view of the known binding properties of fibronectin, it may serve as an endogenous opsonic factor promoting the binding of staphylococcus, denatured collagen, fibrin, or other macromolecules to macrophages in the lower respiratory tract. 相似文献
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24.
Breakdown points of t-type regression estimators 总被引:5,自引:0,他引:5
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26.
Robinson M Poon PP Schindler C Murray LE Kama R Gabriely G Singer RA Spang A Johnston GC Gerst JE 《Molecular biology of the cell》2006,17(4):1845-1858
Gcs1 is an Arf GTPase-activating protein (Arf-GAP) that mediates Golgi-ER and post-Golgi vesicle transport in yeast. Here we show that the Snc1,2 v-SNAREs, which mediate endocytosis and exocytosis, interact physically and genetically with Gcs1. Moreover, Gcs1 and the Snc v-SNAREs colocalize to subcellular structures that correspond to the trans-Golgi and endosomal compartments. Studies performed in vitro demonstrate that the Snc-Gcs1 interaction results in the efficient binding of recombinant Arf1Delta17N-Q71L to the v-SNARE and the recruitment of purified coatomer. In contrast, the presence of Snc had no effect on Gcs1 Arf-GAP activity in vitro, suggesting that v-SNARE binding does not attenuate Arf1 function. Disruption of both the SNC and GCS1 genes results in synthetic lethality, whereas overexpression of either SNC gene inhibits the growth of a distinct subset of COPI mutants. We show that GFP-Snc1 recycling to the trans-Golgi is impaired in gcs1Delta cells and these COPI mutants. Together, these results suggest that Gcs1 facilitates the incorporation of the Snc v-SNAREs into COPI recycling vesicles and subsequent endosome-Golgi sorting in yeast. 相似文献
27.
Gerst JE 《Biochimica et biophysica acta》2003,1641(2-3):99-110
SNAREs (soluble N-ethylmaleimide-sensitive fusion protein attachment protein receptors) are membrane-associated proteins that participate in the fusion of internal membranes in eukaryotic cells. SNAREs comprise three distinct and well-conserved families of molecules that act directly as membrane fusogens or, at the least, as elements that bring membranes into close apposition and allow for subsequent fusion events to occur. While the molecular events leading to fusion are still under debate, it is clear that a number of additional factors are required to bring about SNARE-mediated membrane fusion in vivo. Many of these factors, which collectively can be called SNARE regulators (e.g. Sec1/Munc18, synaptotagmin, GATE-16, LMA1, Munc13/UNC-13, synaptophysin, tomosyn, Vsm1, etc.), bind directly to SNAREs and are involved in the regulation of SNARE assembly as well as the ability of SNAREs to participate in trafficking events. In addition, recent studies have suggested a role for posttranslational modification (e.g., phosphorylation) in the regulation of SNARE functions. In this review the possible role of SNARE regulators in SNARE assembly and the involvement of SNARE phosphorylation in the regulation of intracellular membrane trafficking will be discussed. 相似文献
28.
Carbon assimilation of spinach (Spinacia oleracea L.) leaves was measured in the presence of 2000l· l–1CO2 and 2% O2 in the gas phase to suppress photorespiratory reactions and to reduce stomatal diffusion resistance. Simultaneously, membrane parameters such as modulated chlorophyll fluorescence, oxidation of P700 in the reaction centre of photosystem I, and apparent changes in absorbance at 535 nm were recorded. After light-regulated enzymes were activated at a high irradiance, illumination was changed. About 3 min later (to maintain the previous activation state of enzymes), leaves were shock-frozen and freeze-dried. Chloroplasts were isolated nonaqueously and analysed for ATP, ADP, inorganic phosphate, NADPH and NADP. Observations made under the chosen conditions differed in some important aspects from those commonly observed when leaves are illuminated in air. (i) Not only assimilation, but also the phosphorylation potential [ATP]/([ADP]·[Pi]) increased hyperbolically with irradiance towards saturation. In contrast, the ratio of NADPH to NADP did not change much as irradiances increased from low to high photon flux densities. When ATP, the phosphorylation potential and the assimilatory force, FA (the product of phosphorylation potential and NADPH/NADP ratio), were plotted against assimilation, ATP increased relatively less than assimilation, whereas the phosphorylation potential increased somewhat more steeply than assimilation did. A linear relationship existed between assimilation and FA at lower irradiances. The assimilatory force FA increased more than assimilation did when irradiances were very high. Differences from previous observations, where FA was under some conditions higher at low than at high rates of carbon assimilation, are explained by differences in flux resistances caused not only by stomatal diffusion resistance but also by differences in the activity of light-regulated enzymes, (ii) The relationship between P700 oxidation and a fast absorption change with a maximum close to 520 nm on one hand and carbon assimilation on the other hand was largely linear under the specific conditions of the experiments. A similar linear relationship existed also between the quantum efficiency of electron flow through photosystem II and the quantum efficiency of photosystem I electron transport. (iii) Whereas the increase in non-photochemical fluorescence quenching, qN, was similar to the increase in assimilation, the relationship between light scattering and assimilation was distinctly sigmoidal. Light scattering appeared to be a better indicator of control of photosystem II activity under excessive irradiation than qN. (iv) The results are discussed in relation to the relative significance of chloroplast levels of ATP and NADPH and of the assimilatory force FA in driving carbon assimilation. From the observations, the proton/electron (H+/e–) ratio of linear electron transport is suggested to be 3 and the H+/ATP ratio to be 4 in leaves. An H+/e– ratio of 3 implies the existence of an obligatory Q-cycle in leaves.Abbreviations FA
assimilatory force
- Fo
fluorescence after long dark adaptation
- Fm
maximum fluorescence level
- Fs
steady-state fluorescence
- PGA
3-phosphoglycerate
- PFD
photon flux density
- P700 (P700+)
electron-donor pigment in the reaction center of PSI (its oxidized form)
- QA
primary quinone acceptor of PSII
- qP
photochemical quenching
- qN
non-photochemical quenching
- PSII
relative quantum efficiency of energy conversation at the level of photosystem II
- PSI
relative quantum efficiency of photosystem II
This research was supported by the Sonderforschungsbereich 251 of the University of Würzburg and the Stiftung Volkswagenwerk. U.G. is a member of the Graduate College of the Julius-von-Sachs Institut für Biowissenschaften, University of Würzburg, being on leave from Tartu University, Tartu, Estonia. The authors are grateful to Prof. A. Laisk, Chair of Plant Physiology, Tartu University, for stimulating discussions. 相似文献
29.
Beneficial effect of fluorocarbon emulsion media on the function of neuromuscular preparations in vitro 下载免费PDF全文
The effects of liquid fluorocarbons as bathing media were determined by use of in vitro neuromuscular preparations. Rat hemidiaphragms were bathed in either oxygenated fluorocarbon (FC) emulsion or standard oxygenated Krebs solution. Contractile force in response to simple supramaximal nerve stimuli as well as to high frequency stimulation was greater, while twitch:tetanus ratio was smaller in FC emulsion. With such medium, post-tetanic potentiation of contraction was also more consistently observed. Indirectly stimulated diaphragms survived longer in FC emulsion. After cessation of oxygenation, oxygen tension (ρO(2)) of the medium declined more rapidly with Krebs than with FC emulsion; ρO(2) directly correlated with force of contraction. Similarly, in the chick biventer cervicis preparation, FC emulsion enhanced nerve-stimulated force of contraction; returning the preparation to standard Krebs solution reversed this phenomenon. Dose-resonse curves of muscle contraction in response to acetycholine and KCl administration were shifted upward during FC emulsion superfusion. Frequency of miniature endplate potentials was lower in FC emulsion than that observed in Krebs solution, measured from the same cell of the rat diaphragm. Resting membrane potentials were also greater in muscle cells sampled from FC emulsion-bathed preparations. These data suggest that FC emulsion is superior to standard Krebs solution as a bathing medium for in vitro neuromuscular preparations by virtue of the high solubility of oxygen in it. 相似文献
30.
The nuclear non-polyadenylated RNA from HeLa cells infected with adenovirus-2 was examined for the presence of molecules containing the first intervening sequence (IVS1) of the major late premessenger RNA. Four molecules with the approximate size of free IVS1 in sucrose gradients (1021 nucleotides) were separated by polyacrylamide gel electrophoresis and characterized by complementary methods: S1 nuclease mapping, susceptibility to debranching enzyme, RNAase-H-directed cleavage. The results indicate that the most abundant RNA form is the excised lariat IVS1. We also find linear IVS1 and a randomly nicked lariat, the latter probably being made during RNA isolation. The fourth RNA is a leader 1-IVS1 molecule. No truncated IVS1 which might indicate that IVS1 is excised by several cycle of cleavage-ligation was detected. A study of the distribution of the four RNAs in hnRNP shows that they are part of RNPs of about 70 S. However, each RNP has distinct sedimentation characteristics and sensitivity to salt dissociation. Together, the results suggest that the excised lariat IVS1 is released from the large late premRNP under the form of a 70 S RNP, where it is linearized. 相似文献