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141.
Fitter J 《Cellular and molecular life sciences : CMLS》2005,62(17):1925-1937
In recent years an increasing number of studies on thermophilic and hyperthermophilic proteins aiming to elucidate determinants of protein thermostability have yielded valuable insights about the relevant mechanisms. In particular, comparison of homologous enzymes with different thermostabilities (isolated from psychrophilic, mesophilic, thermophilic and hyperthermophilic organsims) offers a unique opportunity to determine the strategies of thermal adaptation. In this respect, the medium-sized amylolytic enzyme α-amylase is a well-established representative. Various studies on α-amylases with very different thermostabilities (melting temperature Tm = 40–110°C) report structural and dynamical features as well as thermodynamical properties which are supposed to play key roles in thermal adaptation. Here, results from selected homologous α-amylases are presented and discussed with respect to some new and recently proposed strategies to achieve thermostability.Received 28 February 2005; received after revision 29 April 2005; accepted 19 May 2005 相似文献
142.
Molecular mechanisms involved in cisplatin cytotoxicity 总被引:14,自引:1,他引:14
cis-diamminedichloroplatinum(II) or cisplatin is a DNA-damaging agent that is widely used in cancer chemotherapy. Cisplatin cross-links to DNA, forming intra- and interstrand adducts, which bend and unwind the duplex and attract high-mobility-group domain and other proteins. Presumably due to a shielding effect caused by these proteins, the cisplatin-modified DNA is poorly repaired. The resulting DNA damage triggers cell-cycle arrest and apoptosis. Although it is still debatable whether the clinical success of cisplatin relies primarily on its ability to trigger apoptosis, at least two distinct pathways have been proposed to contribute to cisplatin-induced apoptosis in vitro. One involves the tumour-suppressor protein p53, the other is mediated by the p53-related protein p73. Coupling cisplatin damage to apoptosis requires mismatch repair activity, and recent observations further suggest involvement of the homologous recombinatorial repair system. At present it is generally accepted that abortive attempts to repair the DNA lesions play a key role in the cytotoxicity of the drug, and loss of the mismatch repair activity is known to cause cisplatin resistance, a major problem in antineoplastic therapy. Clearly, a better understanding of the signalling networks involved in cisplatin toxicity should provide a rational basis for the development of new therapeutic strategies. 相似文献
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147.
Sonic hedgehog signaling pathway in vertebrate epithelial appendage morphogenesis: perspectives in development and evolution 总被引:6,自引:0,他引:6
Chuong CM Patel N Lin J Jung HS Widelitz RB 《Cellular and molecular life sciences : CMLS》2000,57(12):1672-1681
Vertebrate epithelial appendages are elaborate topological transformations of flat epithelia into complex organs that either protrude out of external (integument) and internal (oral cavity, gut) epithelia, or invaginate into the surrounding mesenchyme. Although they have specific structures and diverse functions, most epithelial appendages share similar developmental stages, including induction, morphogenesis, differentiation and cycling. The roles of the SHH pathway are analyzed in exemplary organs including feather, hair, tooth, tongue papilla, lung and foregut. SHH is not essential for induction and differentiation, but is involved heavily in morphogenetic processes including cell proliferation (size regulation), branching morphogenesis, mesenchymal condensation, fate determination (segmentation), polarizing activities and so on. Through differential activation of these processes by SHH in a spatiotemporal-specific fashion, organs of different shape and size are laid down. During evolution, new links of developmental pathways may occur and novel forms of epithelial appendages may emerge, upon which evolutionary selections can act. Sites of major variations have progressed from the body plan to the limb plan to the epithelial appendage plan. With its powerful morphogenetic activities, the SHH pathway would likely continue to play a major role in the evolution of novel epithelial appendages. 相似文献
148.
Huntington’s disease: from huntingtin function and dysfunction to therapeutic strategies 总被引:3,自引:0,他引:3
Borrell-Pagès M Zala D Humbert S Saudou F 《Cellular and molecular life sciences : CMLS》2006,63(22):2642-2660
Huntington’s disease (HD) is a neurodegenerative disorder that usually starts in middle age and is characterized by involuntary
movements (chorea), personality changes and dementia, leading to death within 10–20 years. The defective gene in HD contains
a trinucleotide CAG repeat expansion within its coding region that expresses a polyglutamine repeat in the protein huntingtin.
Together with the characteristic formation of aggregates in HD, aberrant protein interactions and several post-translational
modifications affect huntingtin during disease progression and lead to the dysfunction and death of selective neurons in the
brains of patients. The exact molecular mechanisms by which mutant huntingtin induces cell death are not completely understood
but may involve the gain of new toxic functions and the loss of the beneficial properties of huntingtin. This review focuses
on the cellular functions in which huntingtin is involved and how a better understanding of pathogenic pathways can lead to
new therapeutic approaches.
Received 24 May 2006; received after revision 5 July 2006; accepted 23 August 2006 相似文献
149.
Microautophagy, the non-selective lysosomal degradative process, involves direct engulfment of cytoplasmic cargo at a boundary
membrane by autophagic tubes, which mediate both invagination and vesicle scission into the lumen. With its constitutive characteristics,
microautophagy of soluble substrates can be induced by nitrogen starvation or rapamycin via regulatory signaling complex pathways.
The maintenance of organellar size, membrane homeostasis, and cell survival under nitrogen restriction are the main functions
of microautophagy. In addition, microautophagy is coordinated with and complements macroautophagy, chaperone-mediated autophagy,
and other self-eating pathways. Three forms of selective microautophagy, including micropexophagy, piecemeal microautophagy
of the nucleus, and micromitophagy, share common ground with microautophagy to some degree. As the accumulation of experimental
data, the precise mechanisms that govern microautophagy are becoming more appreciated. Here, we review the microautophagic
molecular machinery, its physiological functions, and relevance to human diseases, especially in diseases involving multivesicular
bodies and multivesicular lysosomes. 相似文献
150.
Avian influenza viruses infecting humans 总被引:24,自引:0,他引:24
Avian species, particularly waterfowl, are the natural hosts of influenza A viruses. Influenza viruses bearing each of the 15 hemagglutinin and nine neuraminidase subtypes infect birds and serve as a reservoir from which influenza viruses or genes are introduced into the human population. Viruses with novel hemagglutinin genes derived from avian influenza viruses, with or without other accompanying avian influenza virus genes, have the potential for pandemic spread when the human population lacks protective immunity against the new hemagglutinin. Avian influenza viruses were thought to be limited in their ability to directly infect humans until 1997, when 18 human infections with avian influenza H5N1 viruses occurred in Hong Kong. In 1999, two human infections with avian influenza H9N2 viruses were also identified in Hong Kong. These events established that avian viruses could infect humans without acquiring human influenza genes by reassortment in an intermediate host and highlighted challenges associated with the detection of human immune responses to avian influenza viruses and the development of appropriate vaccines. 相似文献