Review, Reviews
The many facets of homologous recombination at telomeres
Clémence Claussin and Michael Chang
The ends of linear chromosomes are capped by nucleoprotein structures called telomeres. A dysfunctional telomere may resemble a DNA double-strand break (DSB), which is a severe form of DNA damage. The presence of one DSB is sufficient to drive cell cycle arrest and cell death. Therefore cells have evolved mechanisms to repair DSBs such as homologous recombination (HR). HR-mediated repair of telomeres can lead to genome instability, a hallmark of cancer cells, which is why such repair is normally inhibited. However, some HR-mediated processes are required for proper telomere function. The need for some recombination activities at telomeres but not others necessitates careful and complex regulation, defects in which can lead to catastrophic consequences. Furthermore, some cell types can maintain telomeres via telomerase-independent, recombination-mediated mechanisms. In humans, these mechanisms...
From the baker to the bedside: yeast models of Parkinson’s disease
Regina Menezes1,2, Sandra Tenreiro3,5, Diana Macedo2, Cláudia N. Santos1,2, Tiago Fleming Outeiro4,5,6
The baker’s yeast Saccharomyces cerevisiae has been extensively explored for our understanding of fundamental cell biology processes highly conserved in the eukaryotic kingdom. This review provides a brief historical perspective on the emergence of yeast as an experimental model and on how the field evolved to exploit the potential of the model for tackling the intricacies of various human diseases. In particular, the authors focus on existing yeast models of the molecular underpinnings of Parkinson’s disease (PD), focusing primarily on the central role of protein quality control systems.
Why are essential genes essential? – The essentiality of Saccharomyces genes
Zhaojie Zhang and Qun Ren
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
Natalie Verstraeten, Wouter Joris Knapen, Maarten Fauvart, Jan Michiels
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
Tiffany B. Taylor1,*, Geraldine Mulley1, Liam J. McGuffin1, Louise J. Johnson1, Michael A. Brockhurst2, Tanya Arseneault1,3, Mark W. Silby4 and Robert W. Jackson1,5
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
Fatimata Sow1, Mary Nyonda1, Anne-Lise Bienvenu1, 2, Stephane Picot1, 2
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
H. Pereira1, C.S.F. Oliveira1,2, L. Castro1, A. Preto1, S. R. Chaves1,#, M. Côrte-Real1,#
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
Albert Serra-Cardona, David Canadell and Joaquín Ariño
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
Pauline Verlhac1,2,3,4,5, Christophe Viret1,2,3,4,5 and Mathias Faure1,2,3,4,5
This microreview discusses the article "Autophagy Receptor NDP52 Regulates Pathogen-Containing Autophagosome Maturation" by Verlhac et al. (2015), Cell Host Microbe.
Lipid and fatty acid metabolism in trypanosomatids
October 6, 2021
This work reviews specific aspects of lipid and fatty acid metabolism in the protozoan parasites T. brucei, T. cruzi, and Leishmania spp., as well as the pathways that have been explored for the development of new chemotherapies.
Understanding the pathogenesis of infectious diseases by single-cell RNA sequencing
August 4, 2021
This work highlights recent remarkable advances in single-cell RNA sequencing technologies and their applications in the investigation of host-pathogen interactions. Current challenges and potential prospects for disease treatment are discussed as well.
Exploring absent protein function in yeast: assaying post translational modification and human genetic variation
July 2, 2021
This review discusses the applicability of yeast systems to investigate absent human protein function with a specific focus on the impact of protein variation on protein-protein interaction modulation.
LasR-regulated proteases in acute vs. chronic lung infection: a double-edged sword
May 31, 2021
This article comments on work published by Hennemann et al. (PLoS Pathog, 2021), which observed that in Pseudomonas aeruginosa, functional loss of the quorum sensing transcriptional activator LasR in lasR variants results in impaired secreted protease production, leads to increased expression of the membrane-bound surface adhesion molecule mICAM-1 in the airway epithelium, and increases neutrophilic inflammation.
DNA polymerase III protein, HolC, helps resolve replication/transcription conflicts
May 6, 2021
This article comments on work published by Cooper et al. (mBio, 2021), which isolated and identified spontaneous suppressor mutants in a strain devoid of the holC gene, which encodes an accessory protein to the core clamp loader complex and is the only protein of the DNA polymerase III holoenzyme that binds to single-strand DNA binding protein.
Too much of a good thing: Overproduction of virulence factors impairs cryptococcal pathogenicity
April 20, 2021
This article comments on work published by Reuwsaat et al. (mBio, 2021), which identified the transcription factor Pdr802 as essential for Cryptococcus neoformans adaptation to and survival under host conditions both in vitro and in vivo.
Mechanisms underlying lactic acid tolerance and its influence on lactic acid production in Saccharomyces cerevisiae
April 14, 2021
This article reviews the manner in which Saccharomyces cerevisiae deals with the accumulation of lactic acid as a singular stress factor as well as in combination with other stresses. In addition, different methods to improve lactic acid tolerance in S. cerevisiae using targeted and non-targeted engineering methods are discussed.
When the pandemic opts for the lockdown: Secretion system evolution in the cholera bacterium
February 18, 2021
This article comments on work published by Santoriello et al. (Nat Comm, 2020), which demonstrates that the T6SS island Auxiliary Cluster 3 (Aux3) is unique to pandemic strains of V. cholerae.