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Cyt2Aa2 is a cytolytic toxin produced by Bacillus thuringiensis subsp. darmstadiensis. It is specifically toxic to dipteran larvae in vivo and is also active against several cell types, such as erythrocytes. The active toxin is proposed to bind to the cell membrane, and membrane pore formation by toxin oligomerisation leads to cell lysis. This study aimed to characterise the role of residues (I139, S159, L160, S161, A162, D209 and V215) potentially involved in the membrane binding of Cyt2Aa2. All mutants, except I139A and V215A, showed similar characteristics to the wild-type toxin after proteinase K cleavage. Three mutants, S159A, L160A and S161A, showed high haemolytic activity but low toxicity against Aedes aegypti. Membrane interaction assays showed that these mutants could bind to rat red blood cells (rRBCs) and oligomerise. The mutant D209N had no haemolytic activity but was still mildly toxic to A. aegypti. The mutant A162V could not lyse rRBCs, even at high concentrations, and showed no toxicity against A. aegypti. Our data suggest that alanine 162 of the Cyt2Aa2 toxin is involved in membrane binding and oligomerisation. Substitution of this amino acid altered the conformation of the toxin and affected its biological activity. 相似文献
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Ana Reis Alisa Rudnitskaya Pajaree Chariyavilaskul Neeraj Dhaun Vanessa Melville Jane Goddard David J. Webb Andrew R. Pitt Corinne M. Spickett 《Journal of lipid research》2015,56(2):413-422
This study compared the molecular lipidomic profile of LDL in patients with nondiabetic advanced renal disease and no evidence of CVD to that of age-matched controls, with the hypothesis that it would reveal proatherogenic lipid alterations. LDL was isolated from 10 normocholesterolemic patients with stage 4/5 renal disease and 10 controls, and lipids were analyzed by accurate mass LC/MS. Top-down lipidomics analysis and manual examination of the data identified 352 lipid species, and automated comparative analysis demonstrated alterations in lipid profile in disease. The total lipid and cholesterol content was unchanged, but levels of triacylglycerides and N-acyltaurines were significantly increased, while phosphatidylcholines, plasmenyl ethanolamines, sulfatides, ceramides, and cholesterol sulfate were significantly decreased in chronic kidney disease (CKD) patients. Chemometric analysis of individual lipid species showed very good discrimination of control and disease sample despite the small cohorts and identified individual unsaturated phospholipids and triglycerides mainly responsible for the discrimination. These findings illustrate the point that although the clinical biochemistry parameters may not appear abnormal, there may be important underlying lipidomic changes that contribute to disease pathology. The lipidomic profile of CKD LDL offers potential for new biomarkers and novel insights into lipid metabolism and cardiovascular risk in this disease. 相似文献
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