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- Bookedited by Christine M. Oslowski.Contents:
Methods for studying ER stress and UPR markers in human cells / Donna Kennedy, Afshin Samali, and Richard Jäger
Assays for induction of the unfolded protein response and selective activation of the three major pathways / Ananya Gupta, Danielle E. Read, and Sanjeev Gupta
Assays to characterize molecular chaperone function in vitro / Martin Haslbeckand Johannes Buchner
Analysis of the heat shock factor complex in mammalian HSP70 promoter / Mitsuaki Fujimoto ... [et al.]
Immunofluorescence-based methods to monitor DNA end resection / Bipasha Mukherjee, Nozomi Tomimatsu, and Sandeep Burma
Visualizing the spatiotemporal dynamics of DNA damage in budding yeast / Chihiro Horigome ... [et al.]
Detecting reactive oxygen species by immunohistochemistry / Geou-Yarh Liou and Peter Storz
Investigating inflammasome activation under conditions of cellular stress and injury / Clare C. Cunningham ... [et al.]
Methods for studying microRNA functions during stress / Yoshinari Ando and Anthony K. L. Leung
Measuring autophagy in stressed cells / Marina N. Sharifi ... [et al.]
Detection of apoptosis using fluorescent probes / Grishma Khanal ... [et al.]
Measuring death of pancreatic beta cells in response to stress and cytotoxic T cells / Jibran A. Wali ... [et al.]
Adaptation of the secretory pathway in cancer through IRE1 signaling / Stéphanie Lhomond ... [et al.]
Studying nitrosative stress in Parkinson's disease / Kenny K. K. Chung
Cross talk between ER stress, oxidative stress, and inflammation in health and disease / Aditya Dandekar, Roberto Mendez, and Kezhong Zhang
Stress responses during ageing : molecular pathways regulating protein homeostasis / Emmanouil Kyriakakis, Andrea Princz, and Nektarios Tavernarakis
Targeting stress responses for regenerative medicine / Irina Milisav, Samo Ribarič, and Dušan Šuput.Digital Access Springer 2015 - ArticleHoustĕk J, Kopecký J, Drahota Z.Comp Biochem Physiol B. 1978;60(3):209-14.1. Mitochondrial membrane of brown adipose tissue compared to that of liver possesses a very high activity of oxidative enzymes but a low activity of ATPase. 2. The polypeptide composition of the mitochondrial membranes proves that the above differences in enzyme activities are due to increased content of oxidative enzymes and decreased content of ATPase in brown adipose tissue. 3. The inhibition of ATPase of brown adipose tissue mitochondria by aurovertin, oligomycin and DCCD indicates modified proportions between the components of the ATPase complex. 4. The organization of brown adipose tissue mitochondrial membrane in relation to its thermogenic function is discussed.