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排序方式: 共有265条查询结果,搜索用时 359 毫秒
71.
72.
Mitochondria are organelles whose main function is to generate power by oxidative phosphorylation. Some of the essential genes required for this energy production are encoded by the mitochondrial genome, a small circular double stranded DNA molecule. Human mtDNA is replicated by a specialized machinery distinct from the nuclear replisome. Defects in the mitochondrial replication machinery can lead to loss of genetic information by deletion and/or depletion of the mtDNA, which subsequently may cause disturbed oxidative phosphorylation and neuromuscular symptoms in patients. We discuss here the different components of the mitochondrial replication machinery and their role in disease. We also review the mode of mammalian mtDNA replication. 相似文献
73.
Theun de Groot Sjoerd Verkaart Qi Xi René J. M. Bindels Joost G. J. Hoenderop 《The Journal of biological chemistry》2010,285(37):28481-28487
The epithelial Ca2+ channel TRPV5 constitutes the apical entry gate for Ca2+ transport in renal epithelial cells. Ablation of the trpv5 gene in mice leads to a reduced Ca2+ reabsorption. TRPV5 is tightly regulated by various calciotropic hormones, associated proteins, and other factors, which mainly affect channel activity via the C terminus. To further identify the role of the C terminus in TRPV5 regulation, we expressed channels harboring C-terminal deletions and studied channel activity by measuring intracellular Ca2+ concentration ([Ca2+]i) using fura-2 analysis. Removal of amino acid His712 elevated the [Ca2+]i, indicating enlarged TRPV5 activity. In addition, substitution of the positively charged His712 for a negative (H712D) or neutral (H712N) amino acid also stimulated TRPV5 activity. This critical role of His712 was confirmed by patch clamp analysis, which demonstrates increased Na+ and Ca2+ currents for TRPV5-H712D. Cell surface biotinylation studies revealed enhanced plasma membrane expression of TRPV5-H712D as compared with wild-type (WT) TRPV5. This elevated plasma membrane presence also was observed with the Ca2+-impermeable TRPV5-H712D and TRPV5-WT pore mutants, demonstrating that the elevation is not due to the increased [Ca2+]i. Finally, using an internalization assay, we demonstrated a delayed cell surface retrieval for TRPV5-H712D, likely causing the increase in plasma membrane expression. Together, these results demonstrate that His712 plays an essential role in plasma membrane regulation of TRPV5 via a constitutive endocytotic mechanism. 相似文献
74.
Lampen MH Verweij MC Querido B van der Burg SH Wiertz EJ van Hall T 《Journal of immunology (Baltimore, Md. : 1950)》2010,185(11):6508-6517
Target cell recognition by CTLs depends on the presentation of peptides by HLA class I molecules. Tumors and herpes viruses have adopted strategies to greatly hamper this peptide presentation at the important bottleneck, the peptide transporter TAP. Previously, we described the existence of a CD8(+) CTL subpopulation that selectively recognizes such TAP-deficient cells in mouse models. In this study, we show that the human counterpart of this CTL subset is readily detectable in healthy subjects. Autologous PBMC cultures were initiated with dendritic cells rendered TAP-impaired by gene transfer of the viral evasion molecule UL49.5. Strikingly, specific reactivity to B-LCLs expressing one of the other viral TAP-inhibitors (US6, ICP47, or BNLF2a) was already observed after three rounds of stimulation. These short-term T cell cultures and isolated CD8(+) CTL clones derived thereof did not recognize the normal B-LCL, indicating that the cognate peptide-epitopes emerge at the cell surface upon an inhibition in the MHC class I processing pathway. A diverse set of TCRs was used by the clones, and the cellular reactivity was TCR-dependent and HLA class I-restricted, implying the involvement of a broad antigenic peptide repertoire. Our data indicate that the human CD8(+) T cell pool comprises a diverse reactivity to target cells with impairments in the intracellular processing pathway, and these might be exploited for cancers that are associated with such defects and for infections with immune-evading herpes viruses. 相似文献
75.
Visch HJ Rutter GA Koopman WJ Koenderink JB Verkaart S de Groot T Varadi A Mitchell KJ van den Heuvel LP Smeitink JA Willems PH 《The Journal of biological chemistry》2004,279(39):40328-40336
Human mitochondrial complex I (NADH:ubiquinone oxidoreductase) of the oxidative phosphorylation system is a multiprotein assembly comprising both nuclear and mitochondrially encoded subunits. Deficiency of this complex is associated with numerous clinical syndromes ranging from highly progressive, often early lethal encephalopathies, of which Leigh disease is the most frequent, to neurodegenerative disorders in adult life, including Leber's hereditary optic neuropathy and Parkinson disease. We show here that the cytosolic Ca2+ signal in response to hormonal stimulation with bradykinin was impaired in skin fibroblasts from children between the ages of 0 and 5 years with an isolated complex I deficiency caused by mutations in nuclear encoded structural subunits of the complex. Inhibition of mitochondrial Na+-Ca2+ exchange by the benzothiazepine CGP37157 completely restored the aberrant cytosolic Ca2+ signal. This effect of the inhibitor was paralleled by complete restoration of the bradykinin-induced increases in mitochondrial Ca2+ concentration and ensuing ATP production. Thus, impaired mitochondrial Ca2+ accumulation during agonist stimulation is a major consequence of human complex I deficiency, a finding that may provide the basis for the development of new therapeutic approaches to this disorder. 相似文献
76.
Fouraux MA Bouvet P Verkaart S van Venrooij WJ Pruijn GJ 《Journal of molecular biology》2002,316(3):475-488
YL37a is an essential yeast ribosomal protein that has a C(2)-C(2) zinc finger motif. Replacement of the cysteine residues had yielded variants that lacked the capacity to bind zinc but still supported cell growth. In a continuation of an examination of the relation of the structure of YL37a to its function, the contribution of amino acid residues in the intervening sequence between the internal cysteine residues of the motif was evaluated. Substitutions of alanine for the lysine residues at positions 44, 45, or 48, or for arginine 49 slowed cell growth. The most severe effect was caused by a double-mutation, K48A-R49A. A mutation of tryptophan 55 to alanine was lethal. Mutations to alanine of six conserved residues (K6, K7, K13, Y14, R17, and Y18) in the amino-terminal region decreased cell growth; the Y14 mutation was lethal. An in vitro assay for binding of YL37a to individual 26 S rRNA domains was developed. Binding of the recombinant fusion protein MBP-YL37a was to domains II and III; the K(d) for binding to domain II was 79 nM; for domain III it was 198 nM. There was a close correspondence between the effect of mutations in YL37a on cell growth and on binding to 26 S rRNA. In the atomic structure of the 50 S subunit of Haloarcula marismortui, the archaebacteria homolog of yeast YL37a, L37ae, coordinates a zinc atom and the finger motif is folded and interacts mainly with domain III of 23 S rRNA; whereas the amino-terminal region of L37ae interacts primarily with domain II. The biochemical and genetic experiments complement the three-dimensional structure and define for the first time the functional importance of a subset of the residues in close proximity to nucleotides. 相似文献
77.
Emil Boonacker Sjoerd Elferink Abdennasser Bardai Bernard Fleischer Cornelis J F Van Noorden 《The journal of histochemistry and cytochemistry》2003,51(7):959-968
Fluorogenic substrates [Ala-Pro](2)-cresyl violet and Ala-Pro-rhodamine 110 have been tested for microscopic detection of protease activity of dipeptidyl peptidase IV (DPPIV) in living cells. DPPIV activity is one of the many functions of the multifunctional or moonlighting protein CD26/DPPIV. As a model we used Jurkat cells, which are T-cells that lack CD26/DPPIV expression, and CD26/DPPIV-transfected Jurkat cells. Ala-Pro-rhodamine 110 is not fluorescent, but after proteolytic cleavage rhodamine 110 fluoresces. [Ala-Pro](2)-cresyl violet is fluorescent by itself but proteolytic cleavage into cresyl violet induces a shift to longer wavelengths. This phenomenon enables the simultaneous determination of local (intracellular) substrate and product concentrations, which is important for analysis of kinetics of the cleavage reaction. [Ala-Pro](2)-cresyl violet, but not Ala-Pro-rhodamine 110, appeared to be specific for DPPIV. When microscopic analysis is performed on living cells during the first minutes of the enzyme reaction, DPPIV activity can be precisely localized in cells with the use of [Ala-Pro](2)-cresyl violet. Fluorescent product is rapidly internalized into submembrane granules in transfected Jurkat cells and is redistributed intracellularly via internalization pathways that have been described for CD26/DPPIV. We conclude that [Ala-Pro](2)-cresyl violet is a good fluorogenic substrate to localize DPPIV activity in living cells when the correct wavelengths are used for excitation and emission and images are captured in the early stages of the enzyme reaction. 相似文献
78.
Poly(ADP-ribose) polymerase-1 mediated caspase-independent cell death after ischemia/reperfusion 总被引:8,自引:0,他引:8
In ischemia/reperfusion (I/R) injury increased intracellular Ca(2+) and production of reactive oxygen species (ROS) may cause cell death by intrinsic apoptotic pathways or by necrosis. In this review, an alternative intrinsic cell death pathway, mediated by poly(ADP-ribose) polymerase-1 (PARP-1) and apoptosis-inducing factor (AIF), is described. ROS-induced DNA strand breaks lead to overactivation of the nuclear enzyme poly(ADP-ribose) polymerase-1 (PARP-1; EC 2.4.2.30), causing excessive use of energetic substrates such as NAD(+) and ATP, inducing cell death either by apoptosis or by necrosis. Recently, it was demonstrated that activation of PARP-1 induces translocation of apoptosis-inducing factor from the mitochondria to the nucleus, causing DNA condensation and fragmentation, and subsequent cell death. This pathway seems to be triggered by depletion of NAD(+) and appears to be caspase independent. Several lines of evidence suggest that this pathway plays a role in I/R injury, although some studies indicate that mitochondrial dysfunction may also trigger AIF translocation and cell death. At present, the exact mechanisms linking PARP-1 and AIF in the induction of the ROS-induced cell death are still unclear. Therefore, it appears that further investigations will yield valuable information on underlying mechanisms and potential interventions to reduce caspase-independent cell death during ischemia-reperfusion. 相似文献
79.
80.
Robert P. J. Nieuwenhuizen Mark Bates Anna Szymborska Keith A. Lidke Bernd Rieger Sjoerd Stallinga 《PloS one》2015,10(5)
Quantification in localization microscopy with reversibly switchable fluorophores is severely hampered by the unknown number of switching cycles a fluorophore undergoes and the unknown stoichiometry of fluorophores on a marker such as an antibody. We overcome this problem by measuring the average number of localizations per fluorophore, or generally per fluorescently labeled site from the build-up of spatial image correlation during acquisition. To this end we employ a model for the interplay between the statistics of activation, bleaching, and labeling stoichiometry. We validated our method using single fluorophore labeled DNA oligomers and multiple-labeled neutravidin tetramers where we find a counting error of less than 17% without any calibration of transition rates. Furthermore, we demonstrated our quantification method on nanobody- and antibody-labeled biological specimens. 相似文献