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81.
We have examined the folding and assembly of a catalytically inactive mutant of procaspase-3, a homodimeric protein that belongs to the caspase family of proteases. The caspase family, and especially caspase-3, is integral to apoptosis. The equilibrium unfolding data demonstrate a plateau between 3 and 5 M urea, consistent with an apparent three-state unfolding process. However, the midpoint of the second transition as well as the amplitude of the plateau are dependent on the protein concentration. Overall, the data are well described by a four-state equilibrium model in which the native dimer undergoes an isomeration to a dimeric intermediate, and the dimeric intermediate dissociates to a monomeric intermediate, which then unfolds. By fitting the four-state model to the experimental data, we have determined the free energy change for the first step of unfolding to be 8.3 +/- 1.3 kcal/mol. The free energy change for the dissociation of the dimeric folding intermediate to two monomeric intermediates is 10.5 +/- 1 kcal/mol. The third step in the unfolding mechanism represents the complete unfolding of the monomeric intermediate, with a free energy change of 7.0 +/- 0.5 kcal/mol. These results show two important points. First, dimerization of procaspase-3 occurs as a result of the association of two monomeric folding intermediates, demonstrating that procaspase-3 dimerization is a folding event. Second, the stability of the dimer contributes significantly to the conformational free energy of the protein (18.8 of 25.8 kcal/mol). 相似文献
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Loss of cell wall alpha(1-3) glucan affects Cryptococcus neoformans from ultrastructure to virulence 总被引:1,自引:0,他引:1
Reese AJ Yoneda A Breger JA Beauvais A Liu H Griffith CL Bose I Kim MJ Skau C Yang S Sefko JA Osumi M Latge JP Mylonakis E Doering TL 《Molecular microbiology》2007,63(5):1385-1398
Yeast cell walls are critical for maintaining cell integrity, particularly in the face of challenges such as growth in mammalian hosts. The pathogenic fungus Cryptococcus neoformans additionally anchors its polysaccharide capsule to the cell surface via alpha(1-3) glucan in the wall. Cryptococcal cells disrupted in their alpha glucan synthase gene were sensitive to stresses, including temperature, and showed difficulty dividing. These cells lacked surface capsule, although they continued to shed capsule material into the environment. Electron microscopy showed that the alpha glucan that is usually localized to the outer portion of the cell wall was absent, the outer region of the wall was highly disorganized, and the inner region was hypertrophic. Analysis of cell wall composition demonstrated complete loss of alpha glucan accompanied by a compensatory increase in chitin/chitosan and a redistribution of beta glucan between cell wall fractions. The mutants were unable to grow ina mouse model of infection, but caused death in nematodes. These studies integrate morphological and biochemical investigations of the role of alpha glucan in the cryptococcal cell wall. 相似文献
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目的筛选与Rap GAP相互作用的蛋白质,为进一步研究人源Rap1GAP介导的信号转导通路、揭示其与肿瘤的关系提供实验依据。方法选用与Rap1GAP同源的来自美丽线虫的Rap GAP作为饵蛋白,以来源于美丽线虫的c DNA文库作为靶蛋白,应用p PC97、p PC86组成的酵母双杂交系统筛选c DNA文库中与Rap GAP相互作用的蛋白质。结果通过营养缺陷平板(-LTH)筛选出63个拟似阳性菌落。经过Lac Z鉴定,19个菌落为阳性,其中7个为强阳性。提取来自19个酵母菌落中的重组DNA,经PCR扩增,12个菌落出现阳性结果。将该19个重组DNA分别电转化入DH5α细菌,涂板培养后,每板挑取4~10个克隆,通过Sal I和Not I双酶切鉴定进行阳性克隆筛选。将阳性克隆的重组DNA进行序列测定。测序结果与Gen Bank比较,其中4个克隆的DNA片段为Y39b6a基因片段、2个为Rap GAP、1个为苯丙氨酸-4-羟化酶、1个为细胞色素C氧化酶,还有1个DNA片段编码美丽线虫特有的小分子蛋白的基因片段,其余11个DNA片段不编码已知蛋白质。结论初步筛选出与Rap GAP相互作用的蛋白质,特别是其中有2个克隆为Rap GAP,提示Rap GAP可能以二聚体的方式存在。 相似文献
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Thomas D Niehaus Svetlana Gerdes Kelsey Hodge-Hanson Aleksey Zhukov Arthur JL Cooper Mona ElBadawi-Sidhu Oliver Fiehn Diana M Downs Andrew D Hanson 《BMC genomics》2015,16(1)
Background
It is now recognized that enzymatic or chemical side-reactions can convert normal metabolites to useless or toxic ones and that a suite of enzymes exists to mitigate such metabolite damage. Examples are the reactive imine/enamine intermediates produced by threonine dehydratase, which damage the pyridoxal 5''-phosphate cofactor of various enzymes causing inactivation. This damage is pre-empted by RidA proteins, which hydrolyze the imines before they do harm. RidA proteins belong to the YjgF/YER057c/UK114 family (here renamed the Rid family). Most other members of this diverse and ubiquitous family lack defined functions.Results
Phylogenetic analysis divided the Rid family into a widely distributed, apparently archetypal RidA subfamily and seven other subfamilies (Rid1 to Rid7) that are largely confined to bacteria and often co-occur in the same organism with RidA and each other. The Rid1 to Rid3 subfamilies, but not the Rid4 to Rid7 subfamilies, have a conserved arginine residue that, in RidA proteins, is essential for imine-hydrolyzing activity. Analysis of the chromosomal context of bacterial RidA genes revealed clustering with genes for threonine dehydratase and other pyridoxal 5''-phosphate-dependent enzymes, which fits with the known RidA imine hydrolase activity. Clustering was also evident between Rid family genes and genes specifying FAD-dependent amine oxidases or enzymes of carbamoyl phosphate metabolism. Biochemical assays showed that Salmonella enterica RidA and Rid2, but not Rid7, can hydrolyze imines generated by amino acid oxidase. Genetic tests indicated that carbamoyl phosphate overproduction is toxic to S. enterica cells lacking RidA, and metabolomic profiling of Rid knockout strains showed ten-fold accumulation of the carbamoyl phosphate-related metabolite dihydroorotate.Conclusions
Like the archetypal RidA subfamily, the Rid2, and probably the Rid1 and Rid3 subfamilies, have imine-hydrolyzing activity and can pre-empt damage from imines formed by amine oxidases as well as by pyridoxal 5''-phosphate enzymes. The RidA subfamily has an additional damage pre-emption role in carbamoyl phosphate metabolism that has yet to be biochemically defined. Finally, the Rid4 to Rid7 subfamilies appear not to hydrolyze imines and thus remain mysterious.Electronic supplementary material
The online version of this article (doi:10.1186/s12864-015-1584-3) contains supplementary material, which is available to authorized users. 相似文献90.
Carl PC Chen Chih-Chin Hsu Wen-Lin Yeh Hsiu-Chu Lin Sen-Yung Hsieh Shih-Cherng Lin Tai-Tzung Chen Max JL Chen Simon FT Tang 《Proteome science》2011,9(1):1-10