共查询到20条相似文献,搜索用时 8 毫秒
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Haemolytic uraemic syndrome (HUS), which is caused by Shiga toxin (Stx)-producing Escherichia coli, is the commonest cause of acute renal failure in childhood. It is widely believed that HUS develops following the release of Stx, an AB5 toxin that inhibits protein synthesis and has a direct toxic effect on the kidney endothelium. There remains, however, a mismatch between the current understanding of the pathogenesis of HUS and the evolution of the clinical signs of the disease. Our hypothesis is that Stx-mediated immune cell activation in the gut is the missing link in the pathogenesis of this condition, initiating the characteristic renal pathology of HUS either alone or in synergy with Stx. Validation of this hypothesis could lead to a targeted anti-inflammatory approach aimed at modulating immune cell function in HUS. 相似文献
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《Biotechnology advances》2017,35(7):889-904
One of the unmet challenges in nanotechnology is to understand and establish the relationship between physicochemical properties of nanoparticles (NPs) and its biological interactions (bio-nano interactions). However, we are still far from assessing the biofate of NPs in a clear and unquestionable manner. Recent developments in the area of bio-nano interface and the understanding of protein corona (PC) has brought new insight in predicting biological interactions of NPs. PC refers to the spontaneous formation of an adsorbed layer of biomolecules on the surface of NPs in a biological environment. PC formation involves the spatiotemporal interplay of an intricate network of biological, environmental and particle characteristics. NPs with its PC can be viewed as a biological entity, which interacts with cells and barriers in a biological system. Recent studies on the bio-nano interface have revealed biological signatures that participate in cellular and physiological bioprocesses and control the biofate and toxicity of NPs. The ability of in-vitro derived parameters to forecast in-vivo consequences by developing a mathematical model forms the basis of in-vitro in-vivo correlation (IVIVC). Understanding the effect of bio-nano interactions on the biological consequences of NPs at the cellular and physiological level can have a direct impact on the translation of future nanomedicines and can lead to the ultimate goal of developing a mathematical IVIVC model. The review summarizes the emerging paradigms in the field of bio-nano-interface which clearly suggests an urgent need to revisit existing protocols in nanotechnology for defining the physicochemical correlates of bio-nano interactions. 相似文献
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Innate immunity was previously thought to be a nonspecific immunological programme that was engaged by peripheral organs to maintain homeostasis after stress and injury. Emerging evidence indicates that this highly organized response also takes place in the central nervous system. Through the recognition of neuronal fingerprints, the long-term induction of the innate immune response and its transition to an adaptive form might be central to the pathophysiology and aetiology of neurodegenerative disorders. Paradoxically, this response also protects neurons by favouring remyelination and trophic support afforded by glial cells. 相似文献
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René C.L. Olsthoorn 《Nucleic acids research》2014,42(14):9327-9333
Cellular ribonucleic acid (RNA) plays a crucial role in the initial conversion of cellular prion protein PrPC to infectious PrPSc or scrapie. The nature of this RNA remains elusive. Previously, RNA aptamers against PrPC have been isolated and found to form G-quadruplexes (G4s). PrPC binding to G4 RNAs destabilizes its structure and is thought to trigger its conversion to PrPSc. Here it is shown that PrP messenger RNA (mRNA) itself contains several G4 motifs, located in the octarepeat region. Investigation of the RNA structure in one of these repeats by circular dichroism, nuclear magnetic resonance and ultraviolet melting studies shows evidence of G4 formation. In vitro translation of full-length PrP mRNA, naturally harboring five consecutive G4 motifs, was specifically affected by G4-binding ligands, lending support to G4 formation in PrP mRNA. A possible role of PrP binding to its own mRNA and the role of anti-prion drugs, many of which are G4-binding ligands, in prion disease are discussed. 相似文献
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Calcium signals in cells can arise via release from intracellular stores or influx across the plasma membrane. Recent studies have shed new light on the multi-protein signalling complexes that mediate communication between calcium stores and plasma membrane calcium channels. 相似文献
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The RNA world hypothesis refers to the early period on earth in which RNA was central in assuring both genetic continuity and catalysis. The end of this era coincided with the development of the genetic code and protein synthesis, symbolized by the apparition of the first non-random messenger RNA (mRNA). Modern transfer-messenger RNA (tmRNA) is a unique hybrid molecule which has the properties of both mRNA and transfer RNA (tRNA). It acts as a key molecule during trans-translation, a major quality control pathway of modern bacterial protein synthesis. tmRNA shares many common characteristics with ancestral RNA. Here, we present a model in which proto-tmRNAs were the first molecules on earth to support non-random protein synthesis, explaining the emergence of early genetic code. In this way, proto-tmRNA could be the missing link between the first mRNA and tRNA molecules and modern ribosome-mediated protein synthesis. 相似文献
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Fernández Robledo JA Caler E Matsuzaki M Keeling PJ Shanmugam D Roos DS Vasta GR 《International journal for parasitology》2011,41(12):1217-1229
Perkinsus marinus (Phylum Perkinsozoa) is a protozoan parasite that has devastated natural and farmed oyster populations in the USA, significantly affecting the shellfish industry and the estuarine environment. The other two genera in the phylum, Parvilucifera and Rastrimonas, are parasites of microeukaryotes. The Perkinsozoa occupies a key position at the base of the dinoflagellate branch, close to its divergence from the Apicomplexa, a clade that includes parasitic protista, many harbouring a relic plastid. Thus, as a taxon that has also evolved toward parasitism, the Perkinsozoa has attracted the attention of biologists interested in the evolution of this organelle, both in its ultrastructure and the conservation, loss or transfer of its genes. A review of the recent literature reveals mounting evidence in support of the presence of a relic plastid in P. marinus, including the presence of multimembrane structures, characteristic metabolic pathways and proteins with a bipartite N-terminal extension. Further, these findings raise intriguing questions regarding the potential functions and unique adaptation of the putative plastid and/or plastid genes in the Perkinsozoa. In this review we analyse the above-mentioned evidence and evaluate the potential future directions and expected benefits of addressing such questions. Given the rapidly expanding molecular/genetic resources and methodological toolbox for Perkinsus spp., these organisms should complement the currently established models for investigating plastid evolution within the Chromalveolata. 相似文献
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During neurite initiation microtubules align to form a tight bundle and actin filaments reorganize to produce a growth cone. The mechanisms that underlie these highly coordinated cytoskeletal rearrangements are not yet fully understood. Recently, various levels of coordination between the actin- and microtubule-based cytoskeletons have been observed during cellular migration and morphogenesis, processes that share some similarities to neurite initiation. Direct, physical association between both cytoskeletons has been suggested, because microtubules often preferentially grow along actin bundles and transiently target actin-rich adhesion complexes. We propose that such physical association might be involved in force-based interactions and spatial organization of the two networks during neurite initiation as well. In addition, many signaling cascades that affect actin filaments are also involved in the regulation of microtubule dynamics, and vice versa. Although several candidates for mediating these effects have been identified in non-neuronal cells, the general mechanism is still poorly understood. In neurons certain plakins and neuron-specific microtubule associated proteins (MAPs), like MAP1B and MAP2, which can bind to both microtubules and F-actin, are promising candidates to play key roles in the specific cytoskeletal rearrangements controlling the transition from an undifferentiated state to neurite-bearing morphology. Here we review the effects of MAPs on microtubules and actin, as well as the coordination of both cytoskeletons during neurite initiation. 相似文献
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Toll-like receptors induce a complex inflammatory response that can function to alert the body to infection, neutralize pathogens and repair damaged tissues. Toll-like receptors are expressed on kupffer, endothelial, dendritic, biliary epithelial, hepatic stellate cells, and hepatocytes in the liver. The endoplasmic reticulum (ER) is a central organelle of eukaryotic cells that exists as a place of lipid synthesis, protein folding and protein maturation. The ER is a major signal transduction organelle that senses and responds to changes in homeostasis. Conditions interfering with the function of the ER are collectively known as ER stress and can be induced by accumulation of unfolded protein aggregates or by excessive protein traffic as can occur during viral infection. The ability of ER stress to induce an inflammatory response is considered to play a role in disease pathogenesis. Importantly, ER stress is viewed as a contributor to the pathogenesis of liver diseases with evidence linking components of ER homeostasis as requirements for optimal Toll-like receptor function. In this context this review discusses the association of Toll-like receptors with ER stress. This is an emerging paradigm in the understanding of Toll-like receptor signalling which may have an underlying role in the pathogenesis of liver disease. 相似文献
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Localization of bicoid messenger RNA to the anterior cortex of the developing oocyte is essential for correct anterior-posterior patterning of the Drosophila embryo. It now seems that the Swallow protein functions as an adaptor, bridging bicoid mRNA to dynein, a molecular motor that would transport the complex anteriorly along microtubules. 相似文献
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Despite extensive genetic analysis of the dynamic multi-phase process that transforms a small population of lateral plate mesoderm into the mature limb skeleton, the mechanisms by which signaling pathways regulate cellular behaviors to generate morphogenetic forces are not known. Recently, a series of papers have offered the intriguing possibility that regulated cell polarity fine-tunes the morphogenetic process via orienting cell axes, division planes and cell movements. Wnt5a-mediated non-canonical signaling, which may include planar cell polarity, has emerged as a common thread in the otherwise distinct signaling networks that regulate morphogenesis in each phase of limb development. These findings position the limb as a key model to elucidate how global tissue patterning pathways direct local differences in cell behavior that, in turn, generate growth and form. 相似文献
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S. Lüthje P. Van Gestelen M. C. Córdoba-Pedregosa J. A. González-Reyes H. Asard J. M. Villalba M. Böttger 《Protoplasma》1998,205(1-4):43-51
Summary The occurrence of a vitamin-K-like substance (naphthoquinone group) and flavins (flavin mononucleotide and flavin adenine dinucleotide) is demonstrated in plasma membranes isolated from maize (Zea mays L.) roots, on the basis of high-pressure liquid chromotography and spectral analysis. At least three NAD(P)H dehydrogenases could be purified to homogeneity from this plant material. Two of these proteins (25 and 30 kDa) reduce hexacyanoferrate III and quinones, while the third (41 kDa) reduces oxalacetic acid but not hexacyanoferrate III in the presence of NADH. Low-temperature spectra demonstrate the occurrence of a b-type cytochrome in plasma membranes isolated from maize roots. The latter compound could be reduced by ascorbic acid (E0 > +80 mV) and shows an -band maximum at 559 nm (at –196 °C). NADH-dependent cytochromeb reduction could be observed only in the presence of detergent and increased after preincubation with vitamin K3 (menadione). On the basis of the presented data a possible function of naphthoquinones in plasma membrane electron transfer is discussed.Abbreviations Brij 58
polyoxyethylene 20 cetyl ether
- Coenzyme
Q10 ubiquinone-50
- duroquinone
tetramethyl-p-benzoquinone
- E0
standard redox potential
- Na2EDTA
ethylenediaminetetraacetic acid disodium salt
- HEPES
N-[2-hydroxyethyl]piperazine-N[2-ethane-sulfonic acid]
- juglone
5-hydroxy-1,4-naphthoquinone
- PMSF
phenylmethylsulfonyl fluoride
- vitamin
K1 2-methyl-3-phyty 1-1,4-naphthoquinone
- vitamin K3
2-methyl-1,4-naphthoquinone 相似文献
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Monica Lucattelli Barbara Bartalesi Eleonora Cavarra Silvia Fineschi Benedetta Lunghi Piero A Martorana Giuseppe Lungarella 《Respiratory research》2005,6(1):83