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Hypothesis Driven versus Hypothesis-free: Filling the Gaps in CoQ Biosynthesis

Two independent investigations based on the power of yeast genetics, but using radically different discovery-driven approaches, have solved a long-pursued goal: the understanding of the early steps in CoQ biosynthesis, which may help diagnose CoQ deficiencies of unknown origin (Payet et al., 2016; S...

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Published in:	Cell metabolism 2016-10, Vol.24 (4), p.525-526
Main Authors:	Enríquez, José Antonio, Sánchez-Cabo, Fátima, Vázquez, Jesús
Format:	Article
Language:	English
Subjects:	Ataxia Mitochondrial Diseases Muscle Weakness Ubiquinone
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description	Two independent investigations based on the power of yeast genetics, but using radically different discovery-driven approaches, have solved a long-pursued goal: the understanding of the early steps in CoQ biosynthesis, which may help diagnose CoQ deficiencies of unknown origin (Payet et al., 2016; Stefely et al., 2016). Two independent investigations based on the power of yeast genetics, but using radically different discovery-driven approaches, have solved a long-pursued goal: the understanding of the early steps in CoQ biosynthesis, which may help diagnose CoQ deficiencies of unknown origin (Payet et al. and Stefely et al.).
doi_str_mv	10.1016/j.cmet.2016.09.021
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subjects	Ataxia Mitochondrial Diseases Muscle Weakness Ubiquinone
title	Hypothesis Driven versus Hypothesis-free: Filling the Gaps in CoQ Biosynthesis
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