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101.
102.
Lymphocytic choriomeningitis virus (LCMV) causes a systemic infection in mice with virus replication occurring in both peripheral tissues and secondary lymphoid organs. Because of the rapid systemic dissemination of the virus, the secondary lymphoid organs responsible for the induction of the LCMV-specific CD8 T cell response are poorly defined. We show that the mediastinal lymph node (MedLN) serves as the primary draining lymph node following LCMV infection. In addition, we demonstrate that the MedLN is responsible for priming the majority of the virus-specific CD8 T cell response. Following resolution of the acute infection, the draining MedLN exhibits characteristics of a reactive lymph node including an increased presence of germinal center B cells and increased cellularity for up to 60 days post-infection. Furthermore, the reactive MedLN harbors an increased frequency of CD62L− effector memory CD8 T cells as compared to the non-draining lymph nodes. The accumulation of LCMV-specific CD62L− memory CD8 T cells in the MedLN is independent of residual antigen and is not a unique feature of the MedLN as footpad infection with LCMV leads to a similar increase of virus-specific CD62L− effector memory CD8 T cells in the draining popliteal lymph node. Our results indicate that CD62L− effector memory CD8 T cells are granted preferential access into the draining lymph nodes for an extended time following resolution of an infection. 相似文献
103.
Mark McDermott Michael J O Wakelam Andrew J Morris 《Biochimie et biologie cellulaire》2004,82(1):225-253
Phospholipase D catalyses the hydrolysis of the phosphodiester bond of glycerophospholipids to generate phosphatidic acid and a free headgroup. Phospholipase D activities have been detected in simple to complex organisms from viruses and bacteria to yeast, plants, and mammals. Although enzymes with broader selectivity are found in some of the lower organisms, the plant, yeast, and mammalian enzymes are selective for phosphatidylcholine. The two mammalian phospholipase D isoforms are regulated by protein kinases and GTP binding proteins of the ADP-ribosylation and Rho families. Mammalian and yeast phospholipases D are also potently stimulated by phosphatidylinositol 4,5-bisphosphate. This review discusses the identification, characterization, structure, and regulation of phospholipase D. Genetic and pharmacological approaches implicate phospholipase D in a diverse range of cellular processes that include receptor signaling, control of intracellular membrane transport, and reorganization of the actin cytoskeleton. Most ideas about phospholipase D function consider that the phosphatidic acid product is an intracellular lipid messenger. Candidate targets for phospholipase-D-generated phosphatidic acid include phosphatidylinositol 4-phosphate 5-kinases and the raf protein kinase. Phosphatidic acid can also be converted to two other lipid mediators, diacylglycerol and lyso phosphatidic acid. Coordinated activation of these phospholipase-D-dependent pathways likely accounts for the pleitropic roles for these enzymes in many aspects of cell regulation. 相似文献
104.
Arsenite-Oxidizing Hydrogenobaculum Strain Isolated from an Acid-Sulfate-Chloride Geothermal Spring in Yellowstone National Park 总被引:1,自引:0,他引:1 下载免费PDF全文
Jessica Donahoe-Christiansen Seth D''Imperio Colin R. Jackson William P. Inskeep Timothy R. McDermott 《Applied microbiology》2004,70(3):1865-1868
An arsenite-oxidizing Hydrogenobaculum strain was isolated from a geothermal spring in Yellowstone National Park, Wyo., that was previously shown to contain microbial populations engaged in arsenite oxidation. The isolate was sensitive to both arsenite and arsenate and behaved as an obligate chemolithoautotroph that used H2 as its sole energy source and had an optimum temperature of 55 to 60°C and an optimum pH of 3.0. The arsenite oxidation in this organism displayed saturation kinetics and was strongly inhibited by H2S. 相似文献
105.
The mechanisms that control the production and differentiation of glial cells during development are difficult to unravel because of displacement of precursor cells from their sites of origin to their permanent location. The two main neuroglial cells in the rat spinal cord are oligodendrocytes and astrocytes. Considerable evidence supports the view that oligodendrocytes in the spinal cord are derived from a region of the ventral ventricular zone (VZ). Some astrocytes, at least, may arise from radial glia. In this study a 5-Bromo-2′-deoxyuridine (BrdU) incorporation assay was used to identify proliferating cells and examine the location of proliferating glial precursor cells in the embryonic spinal cord at different times post BrdU incorporation. In this way the migration of proliferating cells into spinal cord white matter could be followed. At E14, most of the proliferating cells in the periventricular region were located dorsally and these cells were probably proliferating neuronal precursors. At E16 and E18, the majority of the proliferating cells in the periventricular region were located ventrally. In the white matter the number of proliferating cells increased as the animals increased in age and much of this proliferation occurred locally. BrdU labelling showed that glial precursor cells migrate from their ventral and dorsal VZ birth sites to peripheral regions of the cord. Furthermore although the majority of proliferating cells in the spinal cord at E16 and E18 were located in the ventral periventricular region, some proliferating cells remained in the dorsal VZ region of the cord. 相似文献
106.
Heme-ligating histidines in flavocytochrome b(558): identification of specific histidines in gp91(phox). 总被引:1,自引:0,他引:1
K J Biberstine-Kinkade F R DeLeo R I Epstein B A LeRoy W M Nauseef M C Dinauer 《The Journal of biological chemistry》2001,276(33):31105-31112
The phagocyte NADPH-dependent oxidase generates superoxide (O(2)) by reducing molecular oxygen through flavocytochrome b(558) (flavocytochrome b), a heterodimeric oxidoreductase composed of gp91(phox) and p22(phox) subunits. Although each flavocytochrome b molecule contains two heme groups, their precise distribution within the heterodimer is unknown. Among functionally and/or structurally related oxidoreductases, histidines at codons 101, 111, 115, 119, 209, 210, and 222 of gp91(phox) are conserved and potential candidates to ligate heme. We compared biochemical and functional features of normal flavocytochrome b with those in cells expressing gp91(phox) harboring amino acid substitutions at each of these histidines. Surface expression of flavocytochrome b and heterodimer formation were relatively unaffected in cells expressing gp91(phox) H111L, H119L, or H210L. These mutations also had no effect on the flavocytochrome b heme spectrum, although NADPH oxidase activity was decreased in cells expressing gp91(phox) H119L or H210L. In contrast, gp65 was not processed to gp91(phox), heterodimers did not form, and flavocytochrome b was not expressed on the surface of cells expressing gp91(phox) H101L, H115L, H115D, H209C, H209Y, H222L, H222C, or H222R. Similarly, this subset of mutants lacked detectable O(2)-generating activity, and flavocytochrome b purified from these cells contained little or no heme. These findings demonstrate that His(101), His(115), His(209), and His(222) of gp91(phox) are critical for heme binding and biosynthetic maturation of flavocytochrome b. 相似文献
107.
Product release is partially rate determining in the isomerization reaction catalyzed by Triosephosphate Isomerase, the conversion of dihydroxyacetone phosphate to D-glyceraldehyde 3-phosphate, probably because an active-site loop movement is necessary to free the product from confinement in the active-site. The timescale of the catalytic loop motion and of ligand release were studied using 19F and 31P solution-state NMR. A 5'-fluorotryptophan was incorporated in the loop N-terminal hinge as a reporter of loop motion timescale. Crystallographic studies confirmed that the structure of the fluorinated enzyme is indistinguishable from the wild-type; the fluorine accepts a hydrogen bond from water and not from a protein residue, with minimal perturbation to the flexible loop stability. Two distinct loop conformations were observed by 19F NMR. Both for unligated (empty) and ligated enzyme samples a single species was detected, but the chemical shifts of these two distinct species differed by 1.2 ppm. For samples in the presence of subsaturating amounts of a substrate analogue, glycerol 3-phosphate, both NMR peaks were present, with broadened lineshapes at 0 degrees C. In contrast, a single NMR peak representing a rapid average of the two species was observed at 30 degrees C. We conclude that the rate of loop motion is less than 1400 s(-1) at 0 degrees C and more than 1400 s(-1) at 30 degrees C. Ligand release was studied under similar sample conditions, using 31P NMR of the phosphate group of the substrate analogue. The rate of ligand release is less than 1000 s(-1) at 0 degrees C and more than 1000 s(-1) at 30 degrees C. Therefore, loop motion and product release are probably concerted and likely to represent a rate limiting step for chemistry. 相似文献
108.
109.
Barry M. Zee Rebecca S. Levin Bo Xu Gary LeRoy Ned S. Wingreen Benjamin A. Garcia 《The Journal of biological chemistry》2010,285(5):3341-3350
Methylation of specific histone residues is capable of both gene activation and silencing. Despite vast work on the function of methylation, most studies either present a static snapshot of methylation or fail to assign kinetic information to specific residues. Using liquid chromatography-tandem mass spectrometry on a high-resolution mass spectrometer and heavy methyl-SILAC labeling, we studied site-specific histone lysine and arginine methylation dynamics. The detection of labeled intermediates within a methylation state revealed that mono-, di-, and trimethylated residues generally have progressively slower rates of formation. Furthermore, methylations associated with active genes have faster rates than methylations associated with silent genes. Finally, the presence of both an active and silencing mark on the same peptide results in a slower rate of methylation than the presence of either mark alone. Here we show that quantitative proteomic approaches such as this can determine the dynamics of multiple methylated residues, an understudied portion of histone biology. 相似文献
110.
Vladimir E. Belozerov Srdjana Ratkovic Helen McNeill Arthur J. Hilliker John C. McDermott 《Molecular and cellular biology》2014,34(3):474-484
Several recent studies suggest that systemic aging in metazoans is differentially affected by functional decline in specific tissues, such as skeletal muscle. In Drosophila, longevity appears to be tightly linked to myoproteostasis, and the formation of misfolded protein aggregates is a hallmark of senescence in aging muscle. Similarly, defective myoproteostasis is described as an important contributor to the pathology of several age-related degenerative muscle diseases in humans, e.g., inclusion body myositis. p38 mitogen-activated protein kinase (MAPK) plays a central role in a conserved signaling pathway activated by a variety of stressful stimuli. Aging p38 MAPK mutant flies display accelerated motor function decline, concomitant with an enhanced accumulation of detergent-insoluble protein aggregates in thoracic muscles. Chemical genetic experiments suggest that p38-mediated regulation of myoproteostasis is not limited to the control of reactive oxygen species production or the protein degradation pathways but also involves upstream turnover pathways, e.g., translation. Using affinity purification and mass spectrometry, we identified Rack1 as a novel substrate of p38 MAPK in aging muscle and showed that the genetic interaction between p38b and Rack1 controls muscle aggregate formation, locomotor function, and longevity. Biochemical analyses of Rack1 in aging and stressed muscle suggest a model whereby p38 MAPK signaling causes a redistribution of Rack1 between a ribosome-bound pool and a putative translational repressor complex. 相似文献