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401.
Human C-reactive protein (CRP) is a clinically important classical acute phase protein. Although CRP has been reported to bind with many nucleated cells, the direct binding of CRP to erythrocytes in diseases remains largely unexplored. The main focus of the present study was to investigate the binding of disease-specific CRP to erythrocytes of same patients. Distinct molecular variant of disease-specific CRP was affinity purified from sera of malaria patients (CRPMal). This CRP showed strong binding with malaria erythrocytes (RBCMal) as confirmed by flow cytometric analysis (FACS), enzyme-linked immunosorbent assays (ELISA), and radio binding assays. Calcium and phosphoryl choline (PC) were found to be essential for this interaction. A 2.3-fold increased binding of induced CRP to RBCMal as compared to normal erythrocytes (RBCN) confirmed disease-specificity. Preincubation of RBCMal with unconjugated CRP showed 3–5 fold inhibition. The association constant of CRP and RBCMal was 4.7 × 106 cpm/μg with the corresponding number of receptors/cell being 4.3 × 105. The effector function of CRPMal has been demonstrated by its potency to activate the complement pathway. An optimal dose of 10 μg/ml of CRP induced three-fold higher hemolysis of patient erythrocytes as compared to RBCN. These studies provide direct evidence for an important phagocytic functional interaction of this acute-phase protein by triggering the CRP-complement pathway after the binding of CRPMal with RBCMal. Hemolysis as triggered by this pathway may be one of the causative factors of anemia, a common clinical manifestation of this disease.  相似文献   
402.
"Beta 2-Interferon/hepatocyte stimulating factor/interleukin-6" (IFN-beta 2) has emerged as a major mediator of the plasma protein response to tissue injury (the acute phase response) in addition to its numerous effects on cells of the immune system. Human fibroblasts and monocytes induced with tumor necrosis factor, interleukin-1, bacterial lipopolysaccharide (endotoxin) or virus infection secrete multiple forms of differentially glycosylated IFN-beta 2 polypeptides: at least a doublet of molecular mass approximately 25 kD and a triplet of mass approximately 30 kD. We report that immunoprecipitation analyses of medium from [32P]orthophosphate- labeled cultures of induced fibroblasts carried out using a rabbit polyclonal antibody to recombinant E. coli-derived human IFN-beta 2 reveal that the secreted gp23-25 and gp28-30 forms of IFN-beta 2 are phosphorylated. IFN-beta 2 gp23-25 secreted by induced monocytes is phosphorylated whereas the monocytic gp28-30 is poorly labeled with [32P]orthophosphate suggesting tissue-specific differences in IFN-beta 2 phosphorylation. Phosphoamino acid analyses indicate that all of the detected phosphate is in phosphoserine residues. Furthermore, IFN-beta 2 can be completely dephosphorylated by alkaline phosphatase (E.C. No. 3.1.3.1); thus all of the phosphate label is in readily accessible sites. These observations suggest the possibility that differential phosphorylation of IFN-beta 2 forms may be a mechanism to modulate its functions in a tissue-specific manner.  相似文献   
403.
A heterogeneous photochemical electron relay system was constructed, mimicking the chloroplast electron transport reaction, in order to activate fructose-1,6-bisphosphatase in light. The photocatalyst acridine orange or proflavin sensitizes EDTA dependent reduction of ferredoxin. In a complete system, consisting of a dye-donor couple, ferredoxin, thioredoxin and ferredoxin-thioredoxin reductase, light activation of purified spinach fructose-1,6-bisphosphatase was observed in vitro. The ferredoxin was not essential for activation of fructose-1,6-bisphosphatase using heterogeneous photochemical system while chloroplasts mediated redox activation essentially required ferredoxin. The heterogeneous photochemical system activated fructose-1,6-bisphosphatase by about 6 fold similar to chloroplasts mediated ferredoxin dependent redox activation. These observations suggest that a thiol mediator is essential for the reductive activation of carboxylating enzymes of photosynthesis. The mechanism of activation is discussed.  相似文献   
404.
The polypeptide interleukin-1 (IL-1) is a cytokine that may mediate inflammation and connective tissue damage in rheumatoid arthritis (RA). We examined cytokine production by normal blood and by rheumatoid synovial mononuclear cells with sensitive (picomolar) assays. The assays were immunolabeling and immunoblotting with rabbit anti-IL-1 beta sera, and proliferation of the murine D10 cell line to IL-1. Little or no cytokine was detected in rheumatoid joint fluid or in exudate mononuclear cells from patients with acute rheumatoid flares. The mononuclear cells could be induced to make IL-1 upon stimulation with lipopolysaccharide (LPS). The responsive cells were monocytes, since all could be double-labeled with anti-IL-1 and the monocyte-specific CD14 antibody. More than 80% of the synovial fluid monocytes made IL-1 beta after 24 hr in 2 ng/ml LPS. Other agents failed to induce IL-1 from enriched populations of monocytes including interferon gamma (IFN-gamma), poly (I/C), phorbol myristate acetate (PMA), concanavalin A (Con A), phytohemagglutinin (PHA), and anti-CD3 antibodies. Relatively high levels of dendritic cells (DC) were present in RA effusions, but these did not produce IL-1 in response to any of the above stimuli. Blood dendritic cells also did not make IL-1, whereas blood monocytes responded comparably to synovial exudate cells. The data indicate that rheumatoid exudate monocytes make very little IL-1 during acute flares of arthritis and that this cytokine is primarily a macrophage rather than a dendritic cell product.  相似文献   
405.
Studies on the appearance of various electron transport functions were followed during greening of etiolated cucumber cotyledons. Appearance of dichlorodimethoxy-p-benzoquinone, dimethyl quinone, tetramethyl-p-phenylenediamine, dichlorophenol indophenol and ferricyanide Hill reactions were observed after 8h of greening. However, photoreduction of methyl viologen (MV) and nicotinamide adenine dinucleotide phosphate (NADP) was observed from 2h of greening. Variable fluorescence, which is a direct indication of water-splitting function, was observed from 2h of greening in cotyledons, thylakoid membranes and photosystem II (PSII) particles. The decrease in variable fluorescence in the presence of MV (due to rapid reoxidation of Q-) observed from early stages of greening confirmed the photoreduction of MV by PSII. The early development of water-splitting function was further confirmed by the abolition of variable fluorescence in thylakoid membranes and PSII particles by heat treatment and concomittant loss of light dependent oxygen uptake in the presence of MV in heat treated chloroplasts. However, the photoreduction of MV and NADP was insensitive to intersystem electron transport inhibitors, dichlorophenyl dimethylurea or dibromomethyl isopropyl-p-benzoquinone till 8h of greening. Though the oxidation of intersystem electron carrier cytochrome f was observed from early stages of greening, the reduction of cytochrome f was not observed till 8h of greening. All these observations confirm that during early stages of greening MV and NADP are photoreduced by PSII without the involvement of intersystem electron carriers or the collaboration of PSI. Since these observations are at variance with the currently prevalent concept (Z-Scheme) of the photosynthetic generation of reducing power, which requires definite collaboration of the two photosystems, an alternate electron flow pathway is proposed.  相似文献   
406.
Proteolysis of photosystem I particles had no effect on P700 oxidation but did inhibit the rate of P700+ reduction. The Vmax values were decreased for both dichlorophenol and plastocyanin, but the Km values were unaffected indicating that trypsin treatment altered electron transfer rather than the binding of the donor to the photosystem I complex. The salt dependence of P700+ reduction was unaffected. The effects of P700+ reduction were the same for the preparations of different workers (Shiozawa, Alberte, Thornber 1974 Arch Biochem Biophys 165: 388; and Bengis, Nelson 1975 J Biol Chem 250: 2783).

In both cases, the 70-kilodalton, chlorophyll-containing polypeptide was digested confirming its role in transferring electrons from plastocyanin to P700. The fact that the preparation of Shiozawa et al. lacks subunit (III) but still used plastocyanin as the electron donor rules out a role for this subunit as “the plastocyanin binding protein.” Subunit III was also digested in the Bengis and Nelson preparation.

  相似文献   
407.
408.
Six cultivars of apple and two of red raspberry consistently produced equal or significantly better shoot proliferation on modified Murashige and Skoog medium gelled with a mixture of corn starch and Gelrite than on the same medium gelled with agar. Two pear cultivars grown on starch-Gelrite medium produced hyperhydric shoots and almost no growth, but the addition of a polysaccharide hydric control (antivitrifying) agent to the medium eliminated hyperhydricity. The resulting shoot proliferation equaled or exceeded that on the agar-gelled medium. The starch-Gelrite mixture is easy to prepare and gelling agent costs are only 10–15% of agar, or less if starch is purchased in bulk. Although the opaque gray-white medium makes it more difficult to detect internal contaminants, external contaminants are easily discerned.The US Government's right to retain a non-exclusive royalty-free license on and to any copyright is acknowledged.  相似文献   
409.
Using variable to maximum fluorescence (Fv/Fm) as the criterion, the down regulation of photosynthesis by high light stress was characterized in the detached leaves of Artabotrys hexapetatus. The decrease in Fv/Fm was corelated with the decrease in oxygen evolution by thylakoids isolated from high light exposed leaves. The decrease in Fv/Fm was linear with increasing time of exposure to high light. A comparison of recovery measured as Fv/Fm, in low light versus dark, revealed that the recovery in darkness was as significant as in low light. Since the relaxation of fluorescence was a rapid response after exposure to high light and the fact that the recovery occurs in total darkness, it is concluded that photoinhibition and down regulation of photosynthesis by high light are independent events.Abbreviation Fpl- initial plateau - Fm- maximum fluorescence - Fo- prompt fluorescence - Fv- variable fluorescence - PFD- photon flux density - PS I (II)- Photosystem I (II)  相似文献   
410.
Efficient oxygenic photosynthesis not only requires synchronous turover and operation of photosystem I (PS I) and photosystem II (PS II) but also the preferential turnover of PS I for cyclic photophosphorylation to maintain required ATP and NADPH ratio during carbon dioxide reduction. Ohe initial higher rate of turnover of PS IIin viva is accounted by the fact that (i) PS I contains only about one-third of total chlorophylls, (ii) about 90% of light harvesting a/b protein (LAC) which accounts for about 50% of the total chlorophylls, remains associated with PS II as PS II-LHC II complexes (PS IIα and (iii) the ratio of PS II/PS I is always greater than unity, in the range of 1–2 : 1 under different environmental regimes. Ohe initial preferential feeding of PS II, due to its larger antenna, is bound to result in faster rate of turn over of PS II than PS I, leading to higher rate of reduction of an intersystem carrier than the rate of its oxidation by PS I. Ohe light dependent phosphorylation of a ‘mobile’ and small pool (−20%) of LHC II of PS IIα (possibly located at the edge of appressed regions of the membranes) increases the repulsive forces of LHC II resulting in its migration to non-appressed region associating itself with PS 1. Ohe phosphorylation itself is controlled by the redox state of an intermediate of electron transport. Several experimental approaches have provided evidence which suggest that (i) phosphorylation of LAC II involves interaction of cyt b5-f complex with LAC II kinase and the interaction of QA with cyt b5-f complex and (ii) different kinases may be involved in phosphorylation of LHC IIversus PS II polypeptides. Ohe major purpose of light dependent LAC II phosphorylation and its consequent migration close to PS I appears to balance the rate of cyclicversus non-cyclic photophosphorylation. Ohe mechanism by which cyt b5-f complex controls the activation of LAC II is not known. Ohe role of membrane bound ealmodulin, electron transfer through cyt b6-f complex in activation of LAC II kinase should be explored.  相似文献   
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