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Monitoring Intracellular Oxygen Concentration: Implications for Hypoxia Studies and Real-Time Oxygen Monitoring. Potter M et al, Oxygen Transport to Tissue XXXVII, Advances in Experimental Medicine and Biology, 2016; 876: 257 - 63
In vitro analysis of cell metabolism using a long-decay pH-sensitive lanthanide probe and extracellular acidification assay. Hynes J et al., Analytical Biochemistry, 2009; 390: 21-28.
High-Throughput Real-Time Analysis of Cell Oxygenation Using Intracellular Oxygen-Sensitive Probes. Hynes and Carey Mitochondrial Medicine 1, Probing Mitochondrial Function, Methods in Molecular Biology, 2015; 1264: 203 - 217.
Fluorescence-Based Microplate Assays for In Vitro Assessment of Mitochondrial Toxicity, Metabolic Perturbation, and Cellular Oxygenation. Hynes J et al., Curr. Protoc. Toxicol., 2016 May; Chapter 2: Unit 2.16.

Chapple, S. J., et al. (2016). "Bach1 differentially regulates distinct Nrf2-dependent genes in human venous and coronary artery endothelial cells adapted to physiological oxygen levels." Free Radical Biology and Medicine 92: 152-162.

Cancer Cell Mitochondria Targeting by Pancratistatin Analogs is Dependent on Functional Complex II and III. Ma D et al. Sci. Rep., 2017; 7: 42957.
Analysis of mitochondrial function using phosphorescence oxygen sensitive probes. Will Y et al. Nature Protocols. 2007; 1(6): 2563-2572.
A high-throughput dual parameter assay for assessing drug-induced mitochondrial dysfunction provides additional predictivity over two established mitochondrial toxicity assays. Hynes J et al. Toxicol. In Vitro, 2012 Mar; 27(2): 560-569.