Vol. 03, 2016

Mek1/Mre4 is a master regulator of meiotic recombination in budding yeast

Nancy M. Hollingsworth

This article comments on work published by Chen et al. (PLoS BIol, 2015), showing that the meiosis specific kinase Mek1 indirectly regulates the crossover/non-crossover decision between homologs as well as genetic interference and suggests Mek1 to be a "master regulator" of meiotic recombination in budding yeast.

Shaping meiotic chromosomes with SUMO: a feedback loop controls the assembly of the synaptonemal complex in budding yeast

Hideo Tsubouchi¹, Bilge Argunhan¹ and Tomomi Tsubouchi²

This article comments on work published by Leung et al. (J Cell Biol, 2015), which shows that the formation of the meiosis-specific synaptonemal complex is controlled through SUMOylation of a regulator required for the assembly of transverse filaments, implicating the involvement of a positive feedback loop in the control of synaptonemal complex assembly.

Towards understanding the gliotoxin detoxification mechanism: in vivo thiomethylation protects yeast from gliotoxin cytotoxicity

Elizabeth B. Smith, Stephen K. Dolan, David A. Fitzpatrick, Sean Doyle and Gary W. Jones

Gliotoxin is a mycotoxin produced by some species of ascomycete fungi including the opportunistic human pathogen Aspergillus fumigatus. In order to produce gliotoxin the host organism needs to have evolved a self-protection mechanism. The authors demonstrate that the activity of a novel thiomethyltransferase is requiered for protection against exogenous gliotoxin and provide implications for understanding the evolution of gliotoxin self-protection mechanisms.

Mitochondrial proteomics of the acetic acid – induced programmed cell death response in a highly tolerant Zygosaccharomyces bailii – derived hybrid strain

Joana F Guerreiro¹, Belém Sampaio-Marques^2,3, Renata Soares⁴, Ana Varela Coelho⁴, Cecília Leão^2,3, Paula Ludovico^2,3, Isabel Sá-Correia¹

Very high concentrations of acetic acid at low pH induce programmed cell death (PCD) in both the experimental model Saccharomyces cerevisiae and in Zygosaccharomyces bailii, the latter being considered the most problematic acidic food spoilage yeast due to its remarkable intrinsic resistance to this food preservative. This study offers insights into the mechanisms involved in acetic acid - induced PCD in the Z. bailii-derived hybrid strain ISA1307 by analyzing the yeast mitochondrial protein expression profile of cells challenged by acetic acid.

The transcriptional repressor Sum1p counteracts Sir2p in regulation of the actin cytoskeleton, mitochondrial quality control and replicative lifespan in Saccharomyces cerevisiae

Ryo Higuchi-Sanabria¹, Jason D. Vevea^1,3, Joseph K. Charalel^1,4, Maria L. Sapar⁵, Liza A. Pon^1,2

Increasing the stability or dynamics of the actin cytoskeleton can extend lifespan in C. elegans and S. cerevisiae. Actin cables of budding yeast, bundles of actin filaments that mediate cargo transport, affect lifespan control through effects on mitochondrial quality control. Here, we report that Sum1p and Sir2p inversely regulate actin and mitochondrial maintenance, as well as lifespan.

Learning epigenetic regulation from mycobacteria

Sanjeev Khosla¹, Garima Sharma^1,2 and Imtiyaz Yaseen^1,2

This article comments on work published by Koshla et al. (Nat Commun, 2015), which shows that pathogenic Mycobacterium tuberculosis has evolved strategies to hijack the epigenetic regulation of host transcripton for its own survival.

Location, location, location. Salmonella senses ethanolamine to gauge distinct host environments and coordinate gene expression

Christopher J. Anderson and Melissa M. Kendall

This article comments on work published by Anderson and Kendell (PLoS Pathog, 2015), which demonstrates that Salmonella enterica serovar Typhimurium (Salmonella) exploits ethanolamine signaling to adapt to distinct host environments to precisely coordinate expression of genes encoding metabolism and virulence.

Inhibition of Aβ₄₂ oligomerization in yeast by a PICALM ortholog and certain FDA approved drugs

Sei-Kyoung Park¹, Kiira Ratia², Mariam Ba¹, Maria Valencik¹ and Susan W. Liebman^1,3

The formation of small Aβ42 oligomers has been implicated as a toxic species in Alzheimer disease (AD). Here, we show that the mechanism of the PICALM, human AD risk factor, is likely to reduce the level of Aβ42 oligomers in cells. We screened FDA-approved drugs to identify candidates that prevent the formation of Aβ42 small oligomers using the yeast Aβ42-RF reporter system. We also showed that each of the drug hits counteract yeast and mammalian cell toxicity associated with Aβ42 small aggregates.

Biofilm assembly becomes crystal clear – filamentous bacteriophage organize the Pseudomonas aeruginosa biofilm matrix into a liquid crystal

Patrick R. Secor¹, Laura K. Jennings¹, Lia A. Michaels¹, Johanna M. Sweere², Pradeep K. Singh¹, William C. Parks³, Paul L. Bollyky²

This article comments on work published by Secor et al. (Host Cell & Microbe, 2015), which highlights a previously unknown role for filamentous Pf phage in organizing the P. aeruginosa biofilm matrix into a liquid crystalline structure. These findings help ground our understanding of biofilm formation within established paradigms of soft matter physics

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Antibiotic use in childhood alters the gut microbiota and predisposes to overweight

Katri Korpela and Willem M de Vos

This article comments on work published by Korpela et al. (Nat Commun, 2016), which investigates the correlation between the use of antibiotics in early life and the excessive weight gain in later childhood.

Evidence for the hallmarks of human aging in replicatively aging yeast

Georges E. Janssens, Liesbeth M. Veenhoff

Recently, efforts have been made to characterize the hallmarks that accompany and contribute to the phenomenon of aging, as most relevant for humans. Remarkably, studying the finite lifespan of the single cell eukaryote budding yeast has been paramount for our understanding of aging. Here, we compile observations from literature over the past decades of research on replicatively aging yeast to highlight how the hallmarks of aging in humans are present in yeast.

Increased spontaneous recombination in RNase H2-deficient cells arises from multiple contiguous rNMPs and not from single rNMP residues incorporated by DNA polymerase epsilon

Anastasiya Epshtein¹, Catherine J. Potenski², and Hannah L. Klein¹

Ribonucleotides (rNMPs) can become embedded in DNA from insertion by DNA polymerases, failure to remove Okazaki fragment primers, R-loops that can prime replication, and RNA/cDNA-mediated recombination. We report here that recombination is not stimulated by rNMPs incorporated by the replicative polymerase epsilon. Instead, recombination seems to be stimulated by multiple contiguous rNMPs, which may arise from R-loops or replication priming events.

Bacterial outer membrane vesicle biogenesis: a new mechanism and its implications

Sandro Roier, Franz G. Zingl, Fatih Cakar, and Stefan Schild

This article comments on work published by Roier et al. (Nat Commun, 2016), which proposes a novel and highly conserved bacterial outer membane vesicle biogenesis mechanism based on phospholipid accumulation in the outer leaflet of the outer membrane.

Construction and evaluation of yeast expression networks by database-guided predictions

Katharina Papsdorf^1,#, Siyuan Sima^1,#, Gerhard Richter², Klaus Richter¹

DNA-Microarrays are powerful tools to obtain expression data on the genome-wide scale. We set out to define a way to cluster microarray data according to their expressional relationship and to obtain information on the significance of this clustering approach.

Optogenetic monitoring identifies phosphatidylthreonine-regulated calcium homeostasis in Toxoplasma gondii

Arunakar Kuchipudi¹, Ruben D. Arroyo-Olarte¹, Friederike Hoffmann¹, Volker Brinkmann², Nishith Gupta^{1, 2}

Toxoplasma gondii is an obligate intracellular parasite, which inflicts acute as well as chronic infections in a wide range of warm-blooded vertebrates. Using an optogenetic sensor to monitor subcellular calcium in this model intracellular pathogen we found a novel regulatory function of phosphatidylthreonine in calcium signaling.

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Autophagy: machinery and regulation

Zhangyuan Yin, Clarence Pascual and Daniel J. Klionsky

Macroautophagy/autophagy is an evolutionarily conserved cellular degradation process that targets cytoplasmic materials including cytosol, macromolecules and unwanted organelles. The discovery and analysis of autophagy-related (Atg) proteins have unveiled much of the machinery of autophagosome formation. In this review, we briefly summarize the physiological roles, molecular mechanism, regulatory network, and pathophysiological roles of autophagy.

NprR, a moonlighting quorum sensor shifting from a phosphatase activity to a transcriptional activator

Stéphane Perchat¹, Antoine Talagas², Samira Zouhir², Sandrine Poncet¹, Laurent Bouillaut^1,¶, Sylvie Nessler² and Didier Lereclus¹

This article comments on work published by Perchat et al. (PLoS Pathog, 2016), which demonstrates that, in the absence of the signaling peptide NprX, the sensor NprR is a dimer, which negatively controls sporulation in Bacillus thuringiensis, independently of its transcription factor activity.

Threading Granules in Freiburg: 2^nd International Symposium on “One Mitochondrion, Many Diseases – Biological and Molecular Perspectives”, a FRIAS Junior Researcher Conference, Freiburg im Breisgau, Germany, March 9^th/10^th, 2016

Ralf J. Braun¹, Ralf M. Zerbes², Florian Steinberg³, Denis Gris⁴, and Verónica I. Dumit⁵

INTRODUCTION Mitochondria (greek: μίτος & χονδρίον, mitos & chondrion, i.e., thread & granule) are the power houses of eukaryotic cells, and are pivotally involved in essential metabolic processes, including iron/sulfur

The interaction between herpes simplex virus 1 genome and promyelocytic leukemia nuclear bodies (PML-NBs) as a hallmark of the entry in latency

Patrick Lomonte

This article comments on work published by Maroul et al. (PLoS Pathog, 2016), which demonstrates that the interaction of the viral genomes with the nuclear architecture and specifically the promyelocytic leukemia nuclear bodies is a major determinant for the entry of HSV-1 into latency.

Francisella IglG protein and the DUF4280 proteins: PAAR-like proteins in non-canonical Type VI secretion systems?

Claire Lays^{1, 2}, Eric Tannier^{2, 3}, Thomas Henry^1,2

This article comments on work published by Rigard et al. (PLoS Pathog, 2013), which identified the function of IgIG, a protein of unknown function, encoded within the Francisella Pathogenicity Island.

B cell-helping functions of gut microbial metabolites

Chang H. Kim^1,2,3,4

This article comments on work published by Kim et al. (Cell Host & Microbe, 2016), which showed that the microbial metabolites short-chain fatty acids (SCFAs) regulate the metabolism and gene expression in B cells to promote antibody production.

How do yeast sense mitochondrial dysfunction?

Dmitry A. Knorre¹, Svyatoslav S. Sokolov¹, Anna N. Zyrina², Fedor F. Severin^1,3

Apart from energy transformation, mitochondria play important signaling roles. In yeast, mitochondrial signaling relies on several molecular cascades. However, it is not clear how a cell detects a particular mitochondrial malfunction. In our review we argue that in yeast the major known routes of mitochondrial signaling are moderated by non-mitochondrial inputs.

Chlamydia trachomatis Genital Infections

Catherine M. O’Connell and Morgan E. Ferone

Chlamydia trachomatis infections are the most commonly reported sexually transmitted bacterial infections in the US and globally. Ascending infection may result in infertility, ectopic pregnancy and chronic pelvic pain in some women. In this review we provide an overview of current knowledge regarding epidemiology, disease outcomes and effective treatment of chlamydial genital tract infection and explore potential mechanisms facilitating C. trachomatis infection of genital mucosa identified via bioinformatics and other molecular approaches.

HPV disease transmission protection and control

Neil D. Christensen

Human papillomaviruses (HPVs) represent a large collection of viral types associated with significant clinical disease of cutaneous and mucosal epithelium. In this review we present an overview of papillomavirus biology and propose a series of questions that provide a basis for discussion of some areas of interest that continue to represent important gaps in our knowledge in the HPV research field.

Yeast screening platform identifies FDA-approved drugs that reduce Aβ oligomerization

Triana Amen^1,2 and Daniel Kaganovich¹

This article comments on work published by Park et al. (Microbial Cell, 2016), which discovered a number of small molecules capable of modulating Aβ aggregation in a yeast model.

Francisella IglG protein and the DUF4280 proteins: PAAR-like proteins in non-canonical Type VI secretion systems?

October 30, 2016

Sulfur transfer and activation by ubiquitin-like modifier system Uba4•Urm1 link protein urmylation and tRNA thiolation in yeast

October 24, 2016

Urm1 is a unique dual-function member of the ubiquitin protein family and conserved from yeast to man. It acts both as a protein modifier in ubiquitin-like urmylation and as a sulfur donor for tRNA thiolation. We therefore studied whether Urm1 dual-functions may be interlinked by comparing both tRNA thiolation and urmylation under URM1 pathway inactivating conditions. We found that the two URM1 pathway branches, tRNA thiolation and protein urmylation, are chemically linked through sulfur supply, transfer and activation by the ubiquitin-like modifier system Uba4•Urm1

The curious case of vanishing mitochondria

September 30, 2016

Due to their involvement in the energy metabolism, mitochondria are essential for most eukaryotic cells. Microbial eukaryotes living in low oxygen environments possess reduced forms of mitochondria, namely mitochondrion-related organelles (MROs). Recently, the first microbial eukaryote with neither mitochondrion nor MRO was characterized – Monocercomonoides sp. The discovery of such bona fide amitochondriate eukaryote broadens our knowledge about the diversity and plasticity of eukaryotic cells and provides a substantial contribution to our understanding of eukaryotic cell evolution.

Accumulation of metabolic side products might favor the production of ethanol in Pho13 knockout strains

September 23, 2016

This article comments on work published by Collard et al. (Nat Chem Biol, 2016), which describes the discovery of a striking example illustrating the metabolite repair concept.

B cell-helping functions of gut microbial metabolites

September 23, 2016

How do yeast sense mitochondrial dysfunction?

September 22, 2016

Sexually transmitted infections: old foes on the rise

September 4, 2016

Sexually transmitted infections (STIs) are commonly spread via sexual contact. It is estimated that one million STIs are acquired every day worldwide. Besides their impact on sexual, reproductive and neonatal health, they can cause disastrous and life-threatening complications if left untreated. In addition to this personal burden, STIs also represent a socioeconomic problem, deriving in treatment costs of tremendous proportions. Despite a substantial progress in diagnosis, treatment and prevention, the incidence of many common STIs is increasing, and STIs continue to represent a global public health problem and a major cause for morbidity and mortality. With this Special Issue, Microbial Cell provides an in-depth overview of the eight major STIs, covering all relevant features of each infection.

Chlamydia trachomatis Genital Infections

September 4, 2016

HPV disease transmission protection and control

September 4, 2016

Hepatitis B virus and its sexually transmitted infection – an update

September 4, 2016

About 5% of the world’s population has chronic hepatitis B virus (HBV) infection, and nearly 25% of carriers develop chronic hepatitis, cirrhosis, and hepatocellular carcinoma. The purpose of this article is to provide up-to-date information on HBV and HBV infection as a major sexually transmitted infection.

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