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991.
Rong Grace Zhai Menico Rizzi Silvia Garavaglia 《Cellular and molecular life sciences : CMLS》2009,66(17):2805-2818
Nicotinamide/nicotinic acid mononucleotide adenylyltransferase (NMNAT) has long been known as the master enzyme in NAD biosynthesis
in living organisms. A burst of investigations on NMNAT, going beyond enzymology, have paralleled increasing discoveries of
key roles played by NAD homeostasis in a number or patho-physiological conditions. The availability of in-depth kinetics and
structural enzymology analyses carried out on NMNATs from different organisms offer a powerful tool for uncovering fascinating
evolutionary relationships. On the other hand, additional functions featuring NMNAT have emerged from investigations aimed
at unraveling the molecular mechanisms responsible for complex biological phenomena such as neurodegeneration. NMNAT appears
to be a multifunctional protein that sits both at the core of central metabolism and at a crossroads of multiple cellular
processes. The resultant wealth of biochemical data has built a robust framework upon which design of NMNAT activators, inhibitors
or enzyme variants of potential medical interest can be based. 相似文献
992.
Anne Berna François Bernier Eric Chabrière Mikael Elias Ken Scott Andrew Suh 《Cellular and molecular life sciences : CMLS》2009,66(14):2205-2218
DING proteins, identified mainly by their eponymous N-terminal sequences, are ubiquitous in living organisms. Amongst bacteria,
they are common in pseudomonads, and have been characterised with respect to genetics and structure. They form part of a wider
family of phosphate-binding proteins, with emerging roles in phosphate acquisition and pathogenicity. Many DING proteins have
been isolated in eukaryotes, in which they have been associated with very diverse biological activities, often in the context
of possible signalling roles. Disease states in which DING proteins have been implicated include rheumatoid arthritis, lithiasis,
atherosclerosis, some tumours and tumour-associated cachexia, and bacterial and viral adherence. Complete genetic and structural
characterisation of eukaryotic DING genes and proteins is still lacking, though the phosphate-binding site seems to be conserved.
Whether as bacterial proteins related to bacterial pathogenicity, or as eukaryotic components of biochemical signalling systems,
DING proteins require further study.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
993.
综述了植物分离蛋白主要功能特性的影响因素,包括蛋白质浓度、温度、离子强度、pH值和多糖等对植物分离蛋白的吸水性、起泡性、溶解性、乳化及乳化稳定性等的影响,为植物蛋白的相关研究提供一定的参考价值。 相似文献
994.
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996.
Visual pigment: G-protein-coupled receptor for light signals 总被引:5,自引:0,他引:5
The visual pigment present in photoreceptor cells is a prototypical G-protein-coupled receptor (GPCR) that receives a light signal from the outer environment using a light-absorbing chromophore, 11-cis-retinal. Through cis-trans isomerization of the chromophore, light energy is transduced into chemical free energy, which is in turn utilized for conformational changes in the protein to activate the retinal G-protein. In combination with site-directed mutagenesis, various spectroscopic and biochemical studies identified functional residues responsible for chromophore binding, color regulation, intramolecular signal transduction and G-protein coupling. Extensive studies reveal that these residues are localized into specific domains of visual pigments, suggesting a highly manipulated molecular architecture in visual pigments. In addition to the recent findings on dysfunctional mutations in patients with retinitis pigmentosa or congenital night blindness, the mechanism of intramolecular signal transduction in visual pigments and their evolutionary relationship are discussed. Received 20 July 1998; received after revision 9 September 1998; accepted 23 September 1998 相似文献
997.
H. Van Dael 《Cellular and molecular life sciences : CMLS》1998,54(11):1217-1230
Protein folding is an extremely active field of research where biology, chemistry, computer science and physics meet. Although the study of protein-folding intermediates in general and equilibrium intermediates in particular has grown considerably in recent years, many questions regarding the conformational state and the structural features of the various partially folded intermediate states remain unanswered. Performing kinetic measurements on proteins that have had their structures modified by site-directed mutagenesis, the so-called protein-engineering method, is an obvious way to gain fine structural information. In the present review, this method has been applied to a variety of proteins belonging to the lysozyme/α-lactalbumin family. Besides recombinants obtained by point mutations of individual critical residues, chimeric proteins in which whole structural elements (10 – 25 residues) from α-lactalbumin were inserted into a human lysozyme matrix are examined. The conformational properties of the equilibrium intermediate states are discussed together with the structural characterization of the partially unfolded states encountered in the kinetic folding pathway. Received 28 May 1998; received after revision 6 July 1998; accepted 6 July 1998 相似文献
998.
A. Hemminki 《Cellular and molecular life sciences : CMLS》1999,55(5):735-750
Peutz-Jeghers syndrome (PJS) is a classic, but not widely known hereditary trait. Its clinical hallmarks are intestinal hamartomatous polyposis and melanin pigmentation of the skin and mucous membranes. In addition, PJS predisposes to cancer . The most common malignancies are small intestinal, colorectal, stomach and pancreatic adenocarcinomas. Other cancer types that probably occur in excess in PJS families include breast and uterine cervical cancer, as well as testicular and ovarian sex cord tumors. The relative risk of cancer may be as high as 18 times that of the general population, and the cancer patients' prognosis is reduced. Recently, the predisposing locus was mapped to 19p13.3 using a novel method. Subsequently, the causative gene was shown to be LKB1 (a.k.a. STK11), a serine/threonine kinase of unknown function. Although preliminary reports seem to suggest a minor role for LKB1 in sporadic tumorigenesis, further investigations are needed. Received 12 October 1998; received after revision 30 November 1998; accepted 30 November 1998 相似文献
999.
In the early 1990s, the search for protein kinases led to the discovery of a novel family of non-receptor tyrosine kinases, the Janus kinases or JAKs. These proteins were unusual because they contained two kinase homology domains and no other known signaling modules. It soon became clear that these were not ‘just another’ type of kinase. Their ability to complement mutant cells insensitive to interferons and to be activated by a variety of cytokines demonstrated their central signaling function. Now, as we approach the end of the decade, it is evident from biochemical studies to knockout mice that JAKs play non-redundant functions in development, differentiation, and host defense mechanisms. Here, recent progress is reviewed, with particular emphasis on structure-function studies aimed at revealing how this family of tyrosine kinases is regulated. 相似文献
1000.
V. Bellotti P. Mangione M. Stoppini 《Cellular and molecular life sciences : CMLS》1999,55(6-7):977-991
The physiological metabolism of proteins guarantees that different cellular compartments contain the appropriate concentration of proteins to perform their biological functions and, after a variable period of wear and tear, mediates their natural catabolism. The equilibrium between protein synthesis and catabolism ensures an effective turnover, but hereditary or acquired abnormalities of protein structure can provoke a premature loss of biological function, an accelerated catabolism and diseases caused by the loss of an irreplaceable function. In certain proteins, abnormal structure and metabolism are associated with a strong tendency to self-aggregation into a polymeric fibrillar structure, and in these cases the disease is not principally caused by the loss of an irreplaceable function but by the action of this new biological entity. Amyloid fibrils are an apparently inert, insoluble, mainly extracellular protein polymer that kills the cell without tissue necrosis but by activation of the apoptotic mechanism. We analyzed the data reported so far on the structural and functional properties of four prototypic proteins with well-known biological functions (lysozyme, transthyretin, β2-microglobulin and apolipoprotein AI) that are able to create amyloid fibrils under certain conditions, with the perspective of evaluating whether the achievement of biological function favors or inhibits the process of fibril formation. Furthermore, studying the biological functions carried out by amyloid fibrils reveals new types of protein-protein interactions in the transmission of messages to cells and may provide new ideas for effective therapeutic strategies. Received 9 November 1998; received after revision 15 January 1999; accepted 15 January 1999 相似文献