Review, Reviews
On the link between cell cycle and infection of the Alphaproteobacterium Brucella abortus
Michaël Deghelt, Jean-Jacques Letesson, Xavier De Bolle
This article comments on work published by Deghelt et al. (Nat Comm, 2014), which describe a cell cycle arrest and resume during the Brucella abortus trafficking in host cell, suggesting that like the model Alphaproteobacterium Caulobacter crescentus, these bacteria are able to block their cell cycle at the G1 phase when starvation is sensed.
Divide and conquer: processive transport enables multidrug transporters to tackle challenging drugs
Nir Fluman and Eitan Bibi
This article comments on work published by Fluman et al. (Nat Comm, 2014), which describes the ability of bacterial multidrug transporters to move long molecules through the membrane in a processive manner.
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.
Combinatorial stress responses: direct coupling of two major stress responses in Escherichia coli
Daniel R. Brown, Geraint Barton, Zhensheng Pan, Martin Buck and Sivaramesh Wigneshweraraj
This article comments on work published by Brown et al. (Nat Comm, 2014), which showed that the transcription of relA is activated by NtrC during nitrogen starvation, revealing that in E. coli and related bacteria, NtrC functions in combinatorial stress and serves to couple two major stress responses, the Ntr response and stringent response.
The replication timing program in the hands of two HDACs
Kazumasa Yoshida1,2, Armelle Lengronne1 and Philippe Pasero1
This article comments on work published by Yoshida et al. (Mol Cell, 2014), which performed a systematic analysis of the role of histone deacetylases (HDACs) in the regulation of origin activity in budding yeast, finding that the epigenetic regulation of repetitive sequences is a key determinant of the DNA replication program.
Increased Trypanosoma brucei cathepsin-L activity inhibits human serum-mediated trypanolysis
Sam Alsford
This article comments on work published by Alsford et al. (PLoS Pathogens, 2014), which identified a Trypanosoma brucei lysosomal cathepsin with an inhibitory effect on human serum’s trypanolytic action.
A novel role of centrin in flagellar motility: stabilizing an inner-arm dynein motor in the flagellar axoneme
Ziyin Li
This article comments on work published by Wei et al. (Nat Comm, 2014), which discovered that centrin maintains the stability of an inner-arm dynein in the flagellar axoneme in Trypanosoma brucei.
A non-proteolytic function of ubiquitin in transcription repression
Ada Ndoja and Tingting Yao
This article comments on work published by Ndoja et al. (Mol Cell, 2014), which demonstrates that monoubiquitination of some transcription activators can inhibit transcription by recruiting the AAA+ ATPase Cdc48 (also known in metazoans as p97 or VCP), which then extracts the ubiquitinated activator from DNA.
Mutagenesis by host antimicrobial peptides: insights into microbial evolution during chronic infections
Dominique H. Limoli and Daniel J. Wozniak
This article comments on work published by Limoli et al. ((PLoS Pathogens, 2014), which provides evidence that at subinhibitory levels, AMPs promote mutations in bacterial DNA, which enhance bacterial survival.
From the Uncharacterized Protein Family 0016 to the GDT1 family: Molecular insights into a newly-characterized family of cation secondary transporters
June 15, 2020
This review outlines how the formerly uncharacterized UPF0016 family, now known as the Gdt1 family, plays key roles in cation transport - especially Mn²⁺ - across species from bacteria to humans. These proteins are crucial for processes like glycosylation, photosynthesis, and calcium signaling, with functions linked to their localization in membranes such as the Golgi, chloroplast, and plasma membrane and by that highlighting their evolutionary conservation and physiological relevance, offering insights into their shared and distinct features across organisms.
A broad-spectrum antibiotic adjuvant SLAP-S25: one stone many birds
June 15, 2020
This article refers to the study "A broad-spectrum antibiotic adjuvant reverses multidrug-resistant Gram-negative pathogens" by Song et al. (Nat Microbiol, 2020), which deals with the growing threat of antibiotic resistance, with few new drugs being developed for decades. The study found that the peptide SLAP-S25 enhances the efficacy of several antibiotics against resistant Gram-negative bacteria by disrupting their membranes, thereby increasing drug uptake. This suggests that bacterial membranes are promising targets for new antibiotic adjuvants.
Hiding in plain sight: vesicle-mediated export and transmission of prion-like proteins
June 2, 2020
This article relates to the study "Glucose availability dictates the export of the soluble and prion forms of Sup35p via periplasmic or extracellular vesicles" by Kabani et al. (Mol Microbiol, 2020) that provides compelling evidence that yeast prions, such as Sup35p in its infectious [PSI⁺] state, can be exported via both extracellular vesicles (EVs) and periplasmic vesicles (PVs), with this export being modulated by environmental glucose levels. The discovery that prion particles are released in high amounts through PVs during glucose starvation adds a new dimension to our understanding of prion transmission and opens up fascinating possibilities for exploring vesicle-mediated spread of protein aggregates in neurodegenerative diseases using yeast as a model system.
Regulation of Cdc42 for polarized growth in budding yeast
May 19, 2020
This review highlights how studies in budding yeast have revealed a biphasic mechanism of Cdc42 activation that governs cell polarity establishment, with implications for understanding similar processes in mammalian cells and the role of Cdc42 in aging.
Yeast-based assays for the functional characterization of cancer-associated variants of human DNA repair genes
May 18, 2020
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
April 23, 2020
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.
Regulation of anti-microbial autophagy by factors of the complement system
March 19, 2020
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
February 20, 2020
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
January 21, 2020
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.