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991.
Asparaginase and glutaminase activities of bacteria 总被引:3,自引:0,他引:3
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Effect of urea on the partial reactions and crystallization pattern of sarcoplasmic reticulum adenosine triphosphatase 总被引:1,自引:0,他引:1
I Jorge-Garcia D J Bigelow G Inesi J B Wade 《Archives of biochemistry and biophysics》1988,265(1):82-90
Steady-state ATPase activity, calcium binding, formation of phosphorylated enzyme intermediate with ATP in the presence of Ca2+, or with Pi in the absence of Ca2+, and association of ATPase molecules into bidimensional crystals, were studied using vesicular fragments of sarcoplasmic reticulum. The vesicles were exposed to increasing concentrations of urea in order to produce stepwise perturbations of protein structure and to test the effect of such perturbations on the partial reactions and crystallization pattern of sarcoplasmic reticulum ATPase. It was found that low concentrations of urea produce specific inhibition of Pi binding and enzyme phosphorylation with Pi (but not with ATP). Intermediate concentrations of urea reduce calcium binding affinity and cooperativity, while the ability of the enzyme to be phosphorylated with ATP and to form dimeric arrays is retained. These observations demonstrate that the sarcoplasmic reticulum ATPase is sensitive to physical perturbations producing specific and reversible changes in the Pi and calcium binding domains. These changes interfere with enzyme turnover, indicating that conformational effects related to binding and dissociation of Pi and calcium are tightly coupled to catalysis and energy transduction. Higher concentrations of urea produce irreversible denaturation, accompanied by total inhibition of calcium binding, enzyme phosphorylation with ATP, and association of ATPase chains in bidimensional crystals. Under these conditions, protein unfolding is manifested by a sharp reduction in the fluorescence of intrinsic tryptophan residues and of a covalently bound probe. These observations suggest that dimeric association and a tendency to form bidimensional crystals correspond to a basic property of the enzyme, which is linked to its native structure and whose character may change in the presence of ligands and/or during the catalytic cycle. On the other hand, the decavanadate-induced crystallization pattern cannot be interpreted in terms of a mechanistic relationship of ATPase dimerization with one of the intermediate states of the catalytic cycle. 相似文献
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Jing Wang William Rennie Chaochun Liu Charles S. Carmack Karine Prévost Marie-Pier Caron Eric Massé Ye Ding Joseph T. Wade 《Nucleic acids research》2015,43(21):10308-10320
Bacteria express large numbers of non-coding, regulatory RNAs known as ‘small RNAs’ (sRNAs). sRNAs typically regulate expression of multiple target messenger RNAs (mRNAs) through base-pairing interactions. sRNA:mRNA base-pairing often results in altered mRNA stability and/or altered translation initiation. Computational identification of sRNA targets is challenging due to the requirement for only short regions of base-pairing that can accommodate mismatches. Experimental approaches have been applied to identify sRNA targets on a genomic scale, but these focus only on those targets regulated at the level of mRNA stability. Here, we utilize ribosome profiling (Ribo-seq) to experimentally identify regulatory targets of the Escherichia coli sRNA RyhB. We not only validate a majority of known RyhB targets using the Ribo-seq approach, but also discover many novel ones. We further confirm regulation of a selection of known and novel targets using targeted reporter assays. By mutating nucleotides in the mRNA of a newly discovered target, we demonstrate direct regulation of this target by RyhB. Moreover, we show that Ribo-seq distinguishes between mRNAs regulated at the level of RNA stability and those regulated at the level of translation. Thus, Ribo-seq represents a powerful approach for genome-scale identification of sRNA targets. 相似文献
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