Reviews

Understanding structure, function, and mutations in the mitochondrial ATP synthase

Ting Xu1, Vijayakanth Pagadala2, David M. Mueller1

This review summarizes the current understanding of the subunit composition of the ATP synthase and the role of the subunits followed by a discussion on known mutations and their effect on the activity of the ATP synthase. The concludes with a summary of mutations in genes encoding subunits of the ATP synthase that are known to be responsible for human disease, and a brief discussion on SNPs.

Translate to divide: сontrol of the cell cycle by protein synthesis

Michael Polymenis1 and Rodolfo Aramayo2

Protein synthesis underpins much of cell growth and, consequently, cell multiplication. Understanding how proliferating cells commit and progress into the cell cycle requires knowing not only which proteins need to be synthesized, but also what determines their rate of synthesis during cell division. Experiments with proliferating populations of microbial strains, animal or plant cell lines, have rigorous expectations. Under the same culture conditions, cells ought to have the same properties and composition in every single experiment. The basic “metrics” of proliferating cells remain constant, even after many rounds of cell division. These metrics include cellular mass and volume, and macromolecular composition. The constancy of such parameters reflects the fundamental ability of cells to coordinate their growth with their division. Balancing cell growth with cell division determines the overall rates of cell proliferation...

Live fast, die soon: cell cycle progression and lifespan in yeast cells

Javier Jiménez, Samuel Bru, Mariana PC Ribeiro and Josep Clotet

Our understanding of lifespan has benefited enormously from the study of a simple model, the yeast Saccharomyces cerevisiae. Although a unicellular organism, yeasts undergo many of the processes directly related with aging that to some extent are conserved in mammalian cells. Nutrient-limiting conditions have been involved in lifespan extension, especially in the case of caloric restriction, which also has a direct impact on cell cycle progression. In fact, other environmental stresses (osmotic, oxidative) that interfere with normal cell cycle progression also influence the lifespan of cells, indicating a relationship between lifespan and cell cycle control. In the present review we compile and discuss new findings related to how cell cycle progression is regulated by other nutrients. We centred this review on the analysis of phosphate, also give some attention to nitrogen, and the impact of these nutrients on lifespan...

Yeast as a tool for studying proteins of the Bcl-2 family

Peter Polčic, Petra Jaká and Marek Mentel

This review focuses on using yeast expressing mammalian proteins of the Bcl-2 family as a tool to investigate mechanisms, by which these proteins permeabilize mitochondrial membranes, mechanisms, by which pro- and antiapoptotic members of this family interact, and involvement of other cellular components in the regulation of programmed cell death by Bcl-2 family proteins.

Mitochondrial type II NAD(P)H dehydrogenases in fungal cell death

Pedro Gonçalves1,2,4, Arnaldo Videira1,2,3

During aerobic respiration, cells produce energy through oxidative phosphorylation, which includes a specialized group of multi-subunit complexes in the inner mitochondrial membrane known as the electron transport chain. However, this canonical pathway is branched into single polypeptide alternative routes in some fungi, plants, protists and bacteria. They confer metabolic plasticity, allowing cells to adapt to different environmental conditions and stresses...

The dual role of cyclin C connects stress regulated gene expression to mitochondrial dynamics

Randy Strich and Katrina F. Cooper

This work summarizes the role cyclin C plays in regulating stress-responsive transcription in the budding yeast Saccharomyces cerevisiae, including mitochondrial fission and regulated cell death.

Sphingolipids and mitochondrial function, lessons learned from yeast

Pieter Spincemaille1, Bruno P.A. Cammue1,2 and Karin Thevissen1

This article reviews recent research showing that Saccharomyces cerevisiae is an invaluable model to investigate sphingolipids as signaling molecules in modulating mitochondrial function, but can also be used as a tool to further enhance our current knowledge on sphingolipids and mitochondria in mammalian cells.

Cell-autonomous mechanisms of chronological aging in the yeast Saccharomyces cerevisiae

Anthony Arlia-Ciommo#, Anna Leonov#, Amanda Piano#, Veronika Svistkova# and Vladimir I. Titorenko

This article critically analyzes recent advances in the understanding of cell-autonomous mechanisms of chronological aging in the budding yeast Saccharomyces cerevisiae. It proposes a concept of a biomolecular network underlying the chronology of cellular aging in yeast, whichposits that such network progresses through a series of lifespan checkpoints.

When less is more: hormesis against stress and disease

Andreas Zimmermann1, Maria A. Bauer1, Guido Kroemer2-5, Frank Madeo1 and Didac Carmona-Gutierrez1

This article condenses the conceptual and potentially therapeutic importance of hormesis by providing a short overview of current evidence in favor of the cytoprotective impact of hormesis, as well as of its underlying molecular mechanisms.

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Why are essential genes essential? – The essentiality of Saccharomyces genes

July 25, 2015

Essential genes are defined as required for the survival of an organism or a cell. This article reviews and analyzes the levels of essentiality of the Saccharomyces cerevisiae genes and groups the genes into four categories: (1) Conditional essential: essential only under certain circumstances or growth conditions; (2) Essential: required for survival under optimal growth conditions; (3) Redundant essential: synthetic lethal due to redundant pathways or gene duplication; and (4) Absolute essential: the minimal genes required for maintaining a cellular life under a stress-free environment. The essential and non-essential functions of the essential genes are further analyzed.

Membrane depolarization-triggered responsive diversification leads to antibiotic tolerance

July 24, 2015

In this article, the authors discuss the article "Obg and membrane depolarization are part of a microbial bet-hedging strategy that leads to antibiotic tolerance", Verstraeten et al., Mol. Cell 2015 Jul 2; 59 (1): 9-21.

Evolutionary rewiring of bacterial regulatory networks

July 6, 2015

Bacteria have evolved complex regulatory networks that enable integration of multiple intracellular and extracellular signals to coordinate responses to environmental changes. However, our knowledge of how regulatory systems function and evolve is still relatively limited. There is often extensive homology between components of different networks, due to past cycles of gene duplication, divergence, and horizontal gene transfer, raising the possibility of cross-talk or redundancy. Consequently, evolutionary resilience is built into gene networks – homology between regulators can potentially allow rapid rescue of lost regulatory function across distant regions of the genome. This article discusses Taylor, et al. Science (2015), 347(6225), reporting mutations that facilitate cross-talk between pathways can contribute to gene network evolution, but which come with severe pleiotropic costs. Arising from this work are a number of questions surrounding how this phenomenon occurs.

Wanted Plasmodium falciparum, dead or alive

June 23, 2015

In this article, mechanisms of cell death in unicellular parasites are discussed, focussing on “programmed cell death” in Plasmodium.

Yeast as a tool to explore cathepsin D function

June 11, 2015

Cathepsin D has garnered increased attention in recent years, mainly since it has been associated with several human pathologies. This review summarizes how cathepsin D can have both anti- and pro-survival functions depending on its proteolytic activity, cellular context and stress stimulus.

Coordinate responses to alkaline pH stress in budding yeast

May 22, 2015

This review summarizes the modulation of a substantial number of signaling pathways whose participate in the alkaline response in yeast. These regulatory inputs involve not only the conserved Rim101/PacC pathway, but also the calcium-activated phosphatase calcineurin, the Wsc1-Pkc1-Slt2 MAP kinase, the Snf1 and PKA kinases and oxidative stress-response pathways.

Handcuffs for bacteria – NDP52 orchestrates xenophagy of intracellular Salmonella

May 21, 2015

This microreview discusses the article "Autophagy Receptor NDP52 Regulates Pathogen-Containing Autophagosome Maturation" by Verlhac et al. (2015), Cell Host Microbe.

Struggling for breath in Sherbrooke: 1st Symposium on “One mitochondrion, many diseases” in Sherbrooke, Québec, Canada, March 11th, 2015

May 20, 2015

This meeting report summarizes discussions during the "1st symposium on “One mitochondrion, many diseases," which took place in Sherbrooke in southern Québec in 2015.

Understanding grapevine-microbiome interactions: implications for viticulture industry

May 4, 2015

This microreview discusses the article "The soil microbiome influences grapevine-associated microbiota" by Zarraonaindia et al. (2015), MBio, which reports that the grapevine-associated microbiota depends on the soil microbiome.

Cytokinins beyond plants: synthesis by Mycobacterium tuberculosis

May 4, 2015

This microreview discusses "Proteasomal Control of Cytokinin Synthesis Protects Mycobacterium tuberculosis against Nitric Oxide" by Samanovic et al. (2015), Mol Cell.

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