Vinod K. Narayana scite author profile

Translation fidelity is crucial for prokaryotes and eukaryotic nuclear‐encoded proteins; however, little is known about the role of mistranslation in mitochondria and its potential effects on metabolism. We generated yeast and mouse models with error‐prone and hyper‐accurate mitochondrial translation, and found that translation rate is more important than translational accuracy for cell function in mammals. Specifically, we found that mitochondrial mistranslation causes reduced overall mitochondrial translation and respiratory complex assembly rates. In mammals, this effect is compensated for by increased mitochondrial protein stability and upregulation of the citric acid cycle. Moreover, this induced mitochondrial stress signaling, which enables the recovery of mitochondrial translation via mitochondrial biogenesis, telomerase expression, and cell proliferation, and thereby normalizes metabolism. Conversely, we show that increased fidelity of mitochondrial translation reduces the rate of protein synthesis without eliciting a mitochondrial stress response. Consequently, the rate of translation cannot be recovered and this leads to dilated cardiomyopathy in mice. In summary, our findings reveal mammalian‐specific signaling pathways that respond to changes in the fidelity of mitochondrial protein synthesis and affect metabolism.

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High‐resolution extracted ion chromatography, a new tool for metabolomics and lipidomics using a second‐generation orbitrap mass spectrometer

Koulman

Woffendin

Narayana

et al. 2009

Rapid Comm Mass Spectrometry

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Most analytical methods in metabolomics are based on one of two strategies. The first strategy is aimed at specifically analysing a limited number of known metabolites or compound classes. Alternatively, an unbiased approach can be used for profiling as many features as possible in a given metabolome without prior knowledge of the identity of these features. Using high-resolution mass spectrometry with instruments capable of measuring m/z ratios with sufficiently low mass measurement uncertainties and simultaneous high scan speeds, it is possible to combine these two strategies, allowing unbiased profiling of biological samples and targeted analysis of specific compounds at the same time without compromises. Such high mass accuracy and mass resolving power reduces the number of candidate metabolites occupying the same retention time and m/z ratio space to a minimum. In this study, we demonstrate how targeted analysis of phospholipids as well as unbiased profiling is achievable using a benchtop orbitrap instrument after high-speed reversedphase chromatography. The ability to apply both strategies in one experiment is an important step forward in comprehensive analysis of the metabolome.

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An integrated metagenomics and metabolomics approach implicates the microbiota-gut-brain axis in the pathogenesis of Huntington's disease

Kong

Ellul

Narayana

et al. 2021

Neurobiology of Disease

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Vinod K. Narayana

Review of recent developments in GC–MS approaches to metabolomics-based research

Stress signaling and cellular proliferation reverse the effects of mitochondrial mistranslation

High‐resolution extracted ion chromatography, a new tool for metabolomics and lipidomics using a second‐generation orbitrap mass spectrometer

An integrated metagenomics and metabolomics approach implicates the microbiota-gut-brain axis in the pathogenesis of Huntington's disease

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