Microreviews, Review

Yeast-based assays for the functional characterization of cancer-associated variants of human DNA repair genes

Tiziana Cervelli1, Samuele Lodovichi1, Francesca Bellè1 and Alvaro Galli1

This article highlights how the genetic tractability and conserved DNA repair pathways of yeast make it a powerful system for functionally characterizing human cancer-associated variants in DNA repair genes, aiding in risk assessment and therapeutic decision-making.

A novel c-di-GMP signal system regulates biofilm formation in Pseudomonas aeruginosa

Gukui Chen1 and Haihua Liang1

This article relates to the study "The SiaA/B/C/D signaling network regulates biofilm formation in Pseudomonas aeruginosa" by Chen et al. (EMBO J, 2020) that reveals a novel signaling network encoded by the siaABCD operon in Pseudomonas aeruginosa that regulates biofilm and aggregate formation by controlling the diguanylate cyclase activity of SiaD through phosphorylation-dependent interactions with SiaC, highlighting a potential antimicrobial target.

A multifunctional small RNA binding protein for sensing and signaling cell envelope precursor availability in bacteria

Muna A. Khan1 and Boris Görke1

This article relates to the study "Small RNA‐binding protein RapZ mediates cell envelope precursor sensing and signaling in Escherichia coli" by Khan et al. (EMBO J, 2020) that uncovers a complex regulatory network in E. coli where the RNA-binding protein RapZ functions as a sensor for GlcN6P, coordinating sRNA activity and a two-component system to maintain GlcN6P homeostasis and regulate cell envelope biosynthesis.

Regulation of anti-microbial autophagy by factors of the complement system

Christophe Viret1, Aurore Rozières1, Rémi Duclaux-Loras1, Gilles Boschetti1, Stéphane Nancey1 and
Mathias Faure1,2

This review explores emerging evidence that components of the complement system, beyond their traditional immune roles, modulate autophagy - particularly xenophagy - thereby influencing cell-autonomous antimicrobial responses during host-pathogen interactions.

More than flipping the lid: Cdc50 contributes to echinocandin resistance by regulating calcium homeostasis in Cryptococcus neoformans

Chengjun Cao1 and Chaoyang Xue1,2

In this article, the authors comment on the study "A mechanosensitive channel governs lipid flippase-mediated echinocandin resistance in Cryptococcus neoformans" by Cao et al. (mBio, 2019), which uncovers a dual role for the lipid flippase subunit Cdc50 in Cryptococcus neoformans, linking lipid translocation and calcium signaling via its interaction with the mechanosensitive channel Crm1, thereby contributing to innate resistance against the antifungal drug caspofungin.

New insights in the mode of action of anti-leishmanial drugs by using chemical mutagenesis screens coupled to next-generation sequencing

Arijit Bhattacharya1, Sophia Bigot2, Prasad Kottayil Padmanabhan2, Angana Mukherjee2, Adriano Coelho3, Philippe Leprohon2, Barbara Papadopoulou2 and Marc Ouellette2

In this article, the authors comment on the study "Coupling chemical mutagenesis to next generation sequencing for the identification of drug resistance mutations in Leishmania" by Bhattacharya et al. (Nat Commun, 2019), which introduces Mut-seq, a chemical mutagenesis and sequencing approach, to uncover drug resistance mechanisms in Leishmania, revealing links between lipid metabolism genes and miltefosine resistance, and a protein kinase involved in translation conferring paromomycin resistance.

Microfluidic techniques for separation of bacterial cells via taxis

Jyoti P. Gurung1, Murat Gel2,3 and Matthew A. B. Baker1,3

Microfluidic tools, ideal for studying microbial motility due to their control over laminar flows at microscopic scales, enable precise analysis of various taxis behaviors and have advanced applications in synthetic biology, directed evolution, and medical microbiology.

Influence of delivery and feeding mode in oral fungi colonization – a systematic review

Maria Joao Azevedo1,2,3,4, Maria de Lurdes Pereira1,5, Ricardo Araujo2,3,6, Carla Ramalho3,7,8, Egija Zaura4 and Benedita Sampaio-Maia1,2,3

A systematic review of oral fungal colonization in infants found that while breastfeeding did not significantly affect the oral mycobiome, vaginal delivery was associated with higher oral yeast colonization, particularly of Candida albicans.

A holobiont view on thrombosis: unravelling the microbiota’s influence on arterial thrombus growth

Giulia Pontarollo1, Klytaimnistra Kiouptsi1 and Christoph Reinhardt1,2

In this article, the authors comment on the study "The microbiota promotes arterial thrombosis in low-density lipoprotein receptor-deficient mice" by Kiouptsi et al. (mBio, 2019) that showed that commensal microbiota, intricately linked to host physiology, may influence cardiovascular disease, as shown by studies using germ-free atherosclerosis-prone mice to examine how microbial presence and diet affect arterial thrombosis and lesion development.

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Massive gene swamping among cheese-making Penicillium fungi

March 3, 2014

This article comments on work published by Cheeseman et al. (Nat Comm, 2014), which indicates that horizontal gene transfer is a crucial mechanism of rapid adaptation, even among eukaryotes.

Genome-wide studies of telomere biology in budding yeast

March 1, 2014

In the last decade, technical advances have allowed carrying out systematic genome-wide screens for mutants affecting various aspects of telomere biology. In this review we summarize these efforts, and the insights that this Systems Biology approach has produced so far.

Mnemons: encoding memory by protein super-assembly

February 25, 2014

This article comments on work published by Caudron and Barral (Cell, 2013), which proposes that polyQ- and polyN-based elements, termed mnemons, act as cellular memory devices to encode previous environmental conditions.

Fatal attraction in glycolysis: how Saccharomyces cerevisiae manages sudden transitions to high glucose

February 20, 2014

This article comments on work published by van Heerden et al. (Science, 2014), which demonstrates that the startup of glycolysis exhibits two dynamic fates: a proper, functional, steady state or the imbalanced state described above. Both states are stable, attracting states, and the probability distribution of initial states determines the fate of a yeast cell exposed to glucose.

Intersubunit communications within KaiC hexamers contribute the robust rhythmicity of the cyanobacterial circadian clock

January 29, 2014

This article comments on work published by Kitayama et al. (Nat Comm, 2013), which suggests that intersubunit communication precisely synchronizes KaiC subunits to avoid dephasing, and contributes to the robustness of circadian rhythms in cyanobacteria.

Mitochondrial protein import under kinase surveillance

January 29, 2014

This article summarizes recent discoveries in the yeast Saccharomyces cerevisiae model system that point towards a vital role of reversible phosphorylation in regulation of mitochondrial protein import.

Building a flagellum in biological outer space

January 25, 2014

This article comments on work published by Evans et al. (Nature, 2013), which presents a simple and elegant transit mechanism in which growth is powered by the subunits themselves as they link head-to-tail in a chain that is pulled through the length of the growing structure to the tip. This new mechanism answers an old question and may have resonance in other assembly processes.

A novel mechanism involved in the coupling of mitochondrial biogenesis to oxidative phosphorylation

January 5, 2014

This article comments on a study by Ostojić et al. (Cell Metabolism, 2013), which has uncovered a regulatory loop by which the biogenesis of a major enzyme of the OXPHOS pathway, the respiratory complex III, is coupled to the energy producing activity of the mitochondria.

Stalling autophagy: a new function for Listeria phospholipases

January 4, 2014

This article comments on a study biy Tattoli et al. (EMBO J, 2013), which demonstrated that Listeria PI-PLC and PC-PLC contribute to the bacterial escape from autophagy through a mechanism that involves direct inhibition of the autophagic flux in the infected cells

Identifying the assembly pathway of cyanophage inside the marine bacterium using electron cryo-tomography

January 4, 2014

Thiswork comments on a study by Dai et al. (Nature 2013) that illustrates that electron cryo-tomography is an approach whereby one can capture directly structural snapshots of transient phage assembly intermediates during maturation process. Such analysis can be generalizable not only to human viruses in human cells but also various molecular machines undergoing biological processes.

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