Melinda A Lynch-Day

Publications (3)9.52 Total impact

• Article: The role of autophagy in Parkinson's disease.

  Melinda A Lynch-Day, Kai Mao, Ke Wang, Mantong Zhao, Daniel J Klionsky
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  ABSTRACT: Great progress has been made toward understanding the pathogenesis of Parkinson's disease (PD) during the past two decades, mainly as a consequence of the discovery of specific gene mutations contributing to the onset of PD. Recently, dysregulation of the autophagy pathway has been observed in the brains of PD patients and in animal models of PD, indicating the emerging role of autophagy in this disease. Indeed, autophagy is increasingly implicated in a number of pathophysiologies, including various neurodegenerative diseases. This article will lead you through the connection between autophagy and PD by introducing the concept and physiological function of autophagy, and the proteins related to autosomal dominant and autosomal recessive PD, particularly α-synuclein and PINK1-PARKIN, as they pertain to autophagy.
  Cold Spring Harbor perspectives in medicine. 04/2012; 2(4):a009357.
• Article: The Cvt pathway as a model for selective autophagy.

  Melinda A Lynch-Day, Daniel J Klionsky
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  ABSTRACT: Autophagy is a highly conserved, ubiquitous process that is responsible for the degradation of cytosolic components in response to starvation. Autophagy is generally considered to be non-selective; however, there are selective types of autophagy that use receptor and adaptor proteins to specifically isolate a cargo. One type of selective autophagy in yeast is the cytoplasm to vacuole targeting (Cvt) pathway. The Cvt pathway is responsible for the delivery of the hydrolase aminopeptidase I to the vacuole; as such, it is the only known biosynthetic pathway that utilizes the core machinery of autophagy. Nonetheless, it serves as a model for the study of selective autophagy in other organisms.
  FEBS letters 02/2010; 584(7):1359-66. · 3.54 Impact Factor
• Article: A genomic screen for yeast mutants defective in selective mitochondria autophagy.

  Tomotake Kanki, Ke Wang, Misuzu Baba, Clinton R Bartholomew, Melinda A Lynch-Day, Zhou Du, Jiefei Geng, Kai Mao, Zhifen Yang, Wei-Lien Yen, Daniel J Klionsky
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  ABSTRACT: Mitophagy is the process of selective mitochondrial degradation via autophagy, which has an important role in mitochondrial quality control. Very little is known, however, about the molecular mechanism of mitophagy. A genome-wide yeast mutant screen for mitophagy-defective strains identified 32 mutants with a block in mitophagy, in addition to the known autophagy-related (ATG) gene mutants. We further characterized one of these mutants, ylr356wDelta that corresponds to a gene whose function has not been identified. YLR356W is a mitophagy-specific gene that was not required for other types of selective autophagy or macroautophagy. The deletion of YLR356W partially inhibited mitophagy during starvation, whereas there was an almost complete inhibition at post-log phase. Accordingly, we have named this gene ATG33. The new mutants identified in this analysis will provide a useful foundation for researchers interested in the study of mitochondrial homeostasis and quality control.
  Molecular biology of the cell 09/2009; 20(22):4730-8. · 5.98 Impact Factor