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51.
52.
The mitochondrial TIM22 preprotein translocase is highly conserved throughout the eukaryotic kingdom
Bauer MF Rothbauer U Mühlenbein N Smith RJ Gerbitz K Neupert W Brunner M Hofmann S 《FEBS letters》1999,464(1-2):41-47
The Mohr-Tranebjaerg syndrome (MTS), a neurodegenerative syndrome characterized by progressive sensorineural hearing loss, dystonia, mental retardation and blindness, is a mitochondrial disease caused by mutations in the deafness/dystonia peptide 1 (DDP1) gene. DDP1 shows similarity to the yeast proteins Tim9, Tim10 and Tim12, components of the mitochondrial import machinery for carrier proteins. Here, we show that DDP1 belongs to a large family of evolutionarily conserved proteins. We report the identification, chromosomal localization and expressional analysis of six human family members which represent further candidate genes for neurodegenerative diseases. 相似文献
53.
E E Rojo B Guiard W Neupert R A Stuart 《The Journal of biological chemistry》1999,274(28):19617-19622
Export of N-terminal tails of mitochondrial inner membrane proteins from the mitochondrial matrix is a membrane potential-dependent process, mediated by the Oxa1p translocation machinery. The hydrophilic segments of these membrane proteins, which undergo export, display a characteristic charge profile where intermembrane space-localized segments bear a net negative charge, whereas those remaining in the matrix have a net positive one. Using a model protein, preSu9(1-112)-dihydrofolate reductase (DHFR), which undergoes Oxa1p-mediated N-tail export, we demonstrate here that the net charge of N- and C-flanking regions of the transmembrane domain play a critical role in determining the orientation of the insertion process. The N-tail must bear a net negative charge to be exported to the intermembrane space. Furthermore, a net positive charge of the C-terminal region supports this N-tail export event. These data provide experimental evidence that protein export in mitochondria adheres to the "positive-inside" rule, described for sec-independent sorting of membrane proteins in prokaryotes. We propose here that the importance of a charge profile reflects a need for specific protein-protein interactions to occur in the export reaction, presumably at the level of the Oxa1p export machinery. 相似文献
54.
The TOM core complex: the general protein import pore of the outer membrane of mitochondria 下载免费PDF全文
Ahting U Thun C Hegerl R Typke D Nargang FE Neupert W Nussberger S 《The Journal of cell biology》1999,147(5):959-968
Translocation of nuclear-encoded preproteins across the outer membrane of mitochondria is mediated by the multicomponent transmembrane TOM complex. We have isolated the TOM core complex of Neurospora crassa by removing the receptors Tom70 and Tom20 from the isolated TOM holo complex by treatment with the detergent dodecyl maltoside. It consists of Tom40, Tom22, and the small Tom components, Tom6 and Tom7. This core complex was also purified directly from mitochondria after solubilization with dodecyl maltoside. The TOM core complex has the characteristics of the general insertion pore; it contains high-conductance channels and binds preprotein in a targeting sequence-dependent manner. It forms a double ring structure that, in contrast to the holo complex, lacks the third density seen in the latter particles. Three-dimensional reconstruction by electron tomography exhibits two open pores traversing the complex with a diameter of approximately 2.1 nm and a height of approximately 7 nm. Tom40 is the key structural element of the TOM core complex. 相似文献
55.
HLM1, an essential signaling component in the hypersensitive response,is a member of the cyclic nucleotide-gated channel ion channel family 总被引:3,自引:0,他引:3 下载免费PDF全文
Balagué C Lin B Alcon C Flottes G Malmström S Köhler C Neuhaus G Pelletier G Gaymard F Roby D 《The Plant cell》2003,15(2):365-379
The hypersensitive response (HR) in plants is a programmed cell death that is commonly associated with disease resistance. A novel mutation in Arabidopsis, hlm1, which causes aberrant regulation of cell death, manifested by a lesion-mimic phenotype and an altered HR, segregated as a single recessive allele. Broad-spectrum defense mechanisms remained functional or were constitutive in the mutant plants, which also exhibited increased resistance to a virulent strain of Pseudomonas syringae pv tomato. In response to avirulent strains of the same pathogen, the hlm1 mutant showed differential abilities to restrict bacterial growth, depending on the avirulence gene expressed by the pathogen. The HLM1 gene encodes a cyclic nucleotide-gated channel, CNGC4. Preliminary study of the HLM1/CNGC4 gene pro-duct in Xenopus oocytes (inside-out patch-clamp technique) showed that CNGC4 is permeable to both K(+) and Na(+) and is activated by both cGMP and cAMP. HLM1 gene expression is induced in response to pathogen infection and some pathogen-related signals. Thus, HLM1 might constitute a common downstream component of the signaling pathways leading to HR/resistance. 相似文献
56.
Activation with CpG-A and CpG-B oligonucleotides reveals two distinct regulatory pathways of type I IFN synthesis in human plasmacytoid dendritic cells 总被引:11,自引:0,他引:11
Kerkmann M Rothenfusser S Hornung V Towarowski A Wagner M Sarris A Giese T Endres S Hartmann G 《Journal of immunology (Baltimore, Md. : 1950)》2003,170(9):4465-4474
Two different CpG oligonucleotides (ODN) were used to study the regulation of type I IFN in human plasmacytoid dendritic cells (PDC): ODN 2216, a CpG-A ODN, known to induce high amounts of IFN-alpha in PDC, and ODN 2006, a CpG-B ODN, which is potent at stimulating B cells. CpG-A ODN showed higher and prolonged kinetics of type I IFN production compared with that of CpG-B ODN. In contrast, CpG-B ODN was more active than CpG-A ODN in stimulating IL-8 production and increasing costimulatory and Ag-presenting molecules, suggesting that CpG-A and CpG-B trigger distinct regulatory pathways in PDC. Indeed, CpG-A ODN, but not CpG-B ODN, activated the type I IFNR-mediated autocrine feedback loop. PDC were found to express high constitutive levels of IFN regulatory factor (IRF)7. IRF7 and STAT1, but not IRF3, were equally up-regulated by both CpG-A and CpG-B. CD40 ligand synergistically increased CpG-B-induced IFN-alpha independent of the IFNR but did not affect CpG-B-induced IFN-beta. In conclusion, our studies provide evidence for the existence of two distinct regulatory pathways of type I IFN synthesis in human PDC, one dependent on and one independent of the IFNR-mediated feedback loop. The alternate use of these pathways is based on the type of stimulus rather than the quantity of IFN-alphabeta available to trigger the IFNR. Constitutive expression of IRF7 and the ability to produce considerable amounts of IFN-alpha independent of the IFNR seem to represent characteristic features of PDC. 相似文献
57.
Messerschmitt M Jakobs S Vogel F Fritz S Dimmer KS Neupert W Westermann B 《The Journal of cell biology》2003,160(4):553-564
Mitochondrial distribution and morphology depend on MDM33, a Saccharomyces cerevisiae gene encoding a novel protein of the mitochondrial inner membrane. Cells lacking Mdm33 contain ring-shaped, mostly interconnected mitochondria, which are able to form large hollow spheres. On the ultrastructural level, these aberrant organelles display extremely elongated stretches of outer and inner membranes enclosing a very narrow matrix space. Dilated parts of Delta mdm33 mitochondria contain well-developed cristae. Overexpression of Mdm33 leads to growth arrest, aggregation of mitochondria, and generation of aberrant inner membrane structures, including septa, inner membrane fragments, and loss of inner membrane cristae. The MDM33 gene is required for the formation of net-like mitochondria in mutants lacking components of the outer membrane fission machinery, and mitochondrial fusion is required for the formation of extended ring-like mitochondria in cells lacking the MDM33 gene. The Mdm33 protein assembles into an oligomeric complex in the inner membrane where it performs homotypic protein-protein interactions. Our results indicate that Mdm33 plays a distinct role in the mitochondrial inner membrane to control mitochondrial morphology. We propose that Mdm33 is involved in fission of the mitochondrial inner membrane. 相似文献
58.
Klumpp S Bechmann G Mäurer A Selke D Krieglstein J 《Biochemical and biophysical research communications》2003,306(1):110-115
The first protein histidine phosphatase from vertebrates discovered recently was found in a variety of tissues, however, a physiological substrate protein was missing. Phosphorylation of liver extracts in the presence of EDTA, followed by SDS-PAGE and autoradiography showed labeling of three proteins. Acid- and alkaline-treatment revealed the existence of N-phosphates. Addition of histidine phosphatase exclusively resulted in dephosphorylation of a 110kDa protein (denaturing conditions). Gelfiltration revealed its native molecular mass of approximately 450kDa. That protein was purified and identified as ATP-citrate lyase. The results are in favor of histidine phosphatase playing an important yet unidentified role in metabolic processes. 相似文献
59.
Tail-anchored proteins form a distinct class of membrane proteins that have a single membrane anchor sequence at their C-terminus, the tail-anchor. Their N-terminal portion is exposed to the cytosol. We have studied the roles of tail-anchor domains of proteins residing in the mitochondrial outer membrane. Four distinct functions of the tail-anchor domain were identified. First, the domain mediates the targeting to mitochondria in a process that probably requires a net positive charge at the C-terminally flanking segment. Second, tail-anchor domains facilitate the insertion into the mitochondrial outer membrane. Third, the tail-anchor is responsible for the assembly of the respective protein into functional multi-subunit complexes; and fourth, tail-anchor domains can stabilize such complexes. 相似文献
60.
Previous work from our laboratory (Athenstaedt, K., Zweytick, D., Jandrositz, A., Kohlwein, S. D., and Daum, G. (1999) J. Bacteriol. 181, 6441-6448) showed that the gene product of YMR313c (named Tgl3p) is a component of yeast lipid particles, and deletion of this gene led to an increase in the cellular level of triacylglycerols (TAG). These observations suggested that TGL3 may encode a TAG lipase of Saccharomyces cerevisiae. Here we demonstrate by cell fractionation and by microscopic inspection of a strain bearing a Tgl3p-GFP hybrid that this polypeptide is highly enriched in the lipid particle fraction but virtually absent from other organelles. The entire TAG lipase activity of lipid particles is attributed to Tgl3p, because the activity in this organelle is completely absent in a Deltatgl3 deletion mutant, whereas it is significantly enhanced in a strain overexpressing Tgl3p. A His6-tagged Tgl3p hybrid purified close to homogeneity from a yeast strain overexpressing this fusion protein exhibited high TAG lipase activity. Most importantly, experiments in vivo using the fatty acid synthesis inhibitor cerulenin demonstrated that deletion of TGL3 resulted in a decreased mobilization of TAG from lipid particles. The amino acid sequence deduced from the open reading frame YMR313c contains the consensus sequence motif GXSXG typical for lipolytic enzymes. Otherwise, Tgl3p has no significant sequence homology to other lipases identified so far. In summary, our data identified Tgl3p as a novel yeast TAG lipase at the molecular level and by function in vivo and in vitro. 相似文献