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71.
72.
Paolo Ascenzi Elisabetta De Marinis Chiara Ciaccio Massimo Coletta 《Biochemical and biophysical research communications》2009,380(2):392-31
During infection, Mycobacterium leprae is faced with the host macrophagic environment limiting the growth of the bacilli. However, (pseudo-)enzymatic detoxification systems, including truncated hemoglobin O (Ml-trHbO), could allow this mycobacterium to persist in vivo. Here, kinetics of peroxynitrite (ONOOH/ONOO−) detoxification by ferryl Ml-trHbO (Ml-trHbOFe(IV)O), obtained by treatment with H2O2, is reported. Values of the second-order rate constant for peroxynitrite detoxification by Ml-trHbOFe(IV)O (i.e., of Ml-trHbOFe(III) formation; kon), at pH 7.2 and 22.0 °C, are 1.5 × 104 M−1 s−1, and 2.2 × 104 M−1 s−1, in the absence of and presence of physiological levels of CO2 (∼1.2 × 10−3 M), respectively. Values of kon increase on decreasing pH with a pKa value of 6.7, this suggests that ONOOH reacts preferentially with Ml-trHbOFe(IV)O. In turn, peroxynitrite acts as an antioxidant of Ml-trHbOFe(IV)O, which could be responsible for the oxidative damage of the mycobacterium. As a whole, Ml-trHbO can undertake within the same cycle H2O2 and peroxynitrite detoxification. 相似文献
73.
Background
Estimators of free energies are routinely used to judge the quality of protein structural models. As these estimators still present inaccuracies, they are frequently evaluated by discriminating native or native-like conformations from large ensembles of so-called decoy structures. 相似文献74.
Edward J Ciaccio Christina A Tennyson Govind Bhagat Suzanne K Lewis Peter HR Green 《Biomedical engineering online》2010,9(1):44
Background
Quantitative disease markers were developed to assess videocapsule images acquired from celiac disease patients with villous atrophy, and from control patients. 相似文献75.
We compared histochemical and immunohistochemical staining as well as fluorochrome labeling in murine bone specimens that were fixed with 10% neutral buffered formalin to those fixed with HistoChoice®. We showed that sections from undecalcified tibiae fixed for 4 h in HistoChoice® resulted in enhanced toluidine blue and Von Kossa histochemical staining compared to formalin fixation. HistoChoice® produced comparable or improved staining for alkaline phosphatase. Acid phosphatase localization was better in formalin fixed specimens, but osteoclasts were visuralized more easily in HistoChoice® fixed specimens. As expected, immunohistochemical labeling was antibody dependent; some antibodies labeled better in HistoChoice® fixed specimens while others were better in formalin fixed specimens. Toluidine blue, Von Kossa, and alkaline phosphatase staining of sections fixed for 12 h produced sections that were similar to 4 h fixed sections. Fixation for 12 h preserved acid phosphatase activity better. Increasing fixation to 12 h affected immunolocalization differentially. Bone sialoprotein labeling in HistoChoice® fixed specimens was comparable to formalin fixed samples. On the other hand, after 12 h formalin fixation, osteocalcin labeling was comparable to HistoChoice®. For most histochemical applications, fixing murine bone specimens for 4 h with HistoChoice® yielded superior staining compared to formalin fixation. If immunohistochemical localization is desired, however, individual antibodies must be tested to determine which fixation process retains antigenicity better. In addition, there was no detectable difference in the intensity of fluorochrome labeling using either fixative. Finally, fixation duration did not alter the intensity of labeling. 相似文献
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Protein expression, characterized in Western blots and gelatinolytic activity, of cruzipain (Cr), the major Trypanosoma cruzi cysteine proteinase, was compared among 3 attenuated T. cruzi strains (TUL 0, TCC, and Y null) and their virulent counterparts (TUL 2, Tulahuen, and Y). All attenuated strains displayed a weaker gelatinolytic activity as compared with their virulent counterparts. The electrophoretic mobility and immunological reactivity revealed quantitative and qualitative differences, with the attenuated parasites showing bands of less density in all strains and lower mobility in 2 of them, as compared with the virulent strains. Sequence analysis of 1 Cr gene in the Tulahuen and TCC strains indicated 37/1404 base pair substitutions, corresponding to 20 amino acid changes in the attenuated strain. A similar comparative analysis of 1 Cr gene between Y and Y null strains showed 13/1404 base pair substitutions, corresponding to 8 amino acid changes in the attenuated strain. Although enough variability exists in the Cr gene to allow for less- or nonfunctional isoforms of the protein, further clones should be analyzed to establish whether attenuation is regularly associated with specific sequence changes of this enzyme. 相似文献
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Grazia R. Tundo Diego Sbardella Chiara Ciaccio Giuseppe Grasso Magda Gioia Andrea Coletta 《Critical reviews in biochemistry and molecular biology》2017,52(5):554-582
Insulin-degrading enzyme (IDE) is a ubiquitous zinc peptidase of the inverzincin family, which has been initially discovered as the enzyme responsible for insulin catabolism; therefore, its involvement in the onset of diabetes has been largely investigated. However, further studies on IDE unraveled its ability to degrade several other polypeptides, such as β-amyloid, amylin, and glucagon, envisaging the possible implication of IDE dys-regulation in the “aggregopathies” and, in particular, in neurodegenerative diseases. Over the last decade, a novel scenario on IDE biology has emerged, pointing out a multi-functional role of this enzyme in several basic cellular processes. In particular, latest advances indicate that IDE behaves as a heat shock protein and modulates the ubiquitin–proteasome system, suggesting a major implication in proteins turnover and cell homeostasis. In addition, recent observations have highlighted that the regulation of glucose metabolism by IDE is not merely based on its largely proposed role in the degradation of insulin in vivo. There is increasing evidence that improper IDE function, regulation, or trafficking might contribute to the etiology of metabolic diseases. In addition, the enzymatic activity of IDE is affected by metals levels, thus suggesting a role also in the metal homeostasis (metallostasis), which is thought to be tightly linked to the malfunction of the “quality control” machinery of the cell. Focusing on the physiological role of IDE, we will address a comprehensive vision of the very complex scenario in which IDE takes part, outlining its crucial role in interconnecting several relevant cellular processes. 相似文献