Regulation of extracellular vesicles for protein secretion in Aspergillus nidulans
This study reveals that Aspergillus nidulans boosts extracellular vesicle production when ER-trafficked enzymes are induced, uncovering how fungi remodel their secretome through vesicle-mediated secretion to adapt to changing environments and biofilm formation.
Transcriptomic response to different heme sources in Trypanosoma cruzi epimastigotes
This study uncovers how the Chagas disease parasite adapts to changes in heme, an essential molecule for its survival, providing transcriptional clues to heme metabolism and identifying a previously unreported heme-binding protein in T. cruzi.
Luminal acetylation of microtubules is not essential for Plasmodium berghei and Toxoplasma gondii survival
Acetylation of α-tubulin at lysine 40 is not essential for cytoskeletal stability in Plasmodium berghei or Toxoplasma gondii, suggesting redundancy and plasticity in microtubule regulation in these parasites.
The dual-site agonist for human M2 muscarinic receptors Iper-8-naphtalimide induces mitochondrial dysfunction in Saccharomyces cerevisiae
S. cerevisiae is a model to study human GPCRs. N-8-Iper, active against glioblastoma via M2 receptor, causes mitochondrial damage in yeast by binding Ste2, highlighting evolutionary conservation of GPCRs.
Integrative Omics reveals changes in the cellular landscape of peroxisome-deficient pex3 yeast cells
To uncover the consequences of peroxisome deficiency, we compared Saccharomyces cerevisiae wild-type with pex3 cells, which lack peroxisomes, employing quantitative proteomics and transcriptomics technologies.
Regulation of extracellular vesicles for protein secretion in Aspergillus nidulans
Rebekkah E. Pope1, Patrick Ballmann2, Lisa Whitworth3 and Rolf A. Prade1,*
This study reveals that Aspergillus nidulans boosts extracellular vesicle production when ER-trafficked enzymes are induced, uncovering how fungi remodel their secretome through vesicle-mediated secretion to adapt to changing environments and biofilm formation.
Transcriptomic response to different heme sources in Trypanosoma cruzi epimastigotes
Evelyn Tevere1,a, María G. Mediavilla1,a, Cecilia B. Di Capua1, Marcelo L. Merli1, Carlos Robello2,3, Luisa Berná2,4 and Julia A. Cricco
This study uncovers how the Chagas disease parasite adapts to changes in heme, an essential molecule for its survival, providing transcriptional clues to heme metabolism and identifying a previously unreported heme-binding protein in T. cruzi.
Sir2 regulates selective autophagy in stationary-phase yeast cells
Ji-In Ryua, Juhye Junga, and Jeong-Yoon Kim
This study establishes Sir2 as a previously unrecognized regulator of selective autophagy during the stationary phase and highlight how cells dynamically control organelle degradation.
Regulation of extracellular vesicles for protein secretion in Aspergillus nidulans
Rebekkah E. Pope1, Patrick Ballmann2, Lisa Whitworth3 and Rolf A. Prade1,*
This study reveals that Aspergillus nidulans boosts extracellular vesicle production when ER-trafficked enzymes are induced, uncovering how fungi remodel their secretome through vesicle-mediated secretion to adapt to changing environments and biofilm formation.
Transcriptomic response to different heme sources in Trypanosoma cruzi epimastigotes
Evelyn Tevere1,a, María G. Mediavilla1,a, Cecilia B. Di Capua1, Marcelo L. Merli1, Carlos Robello2,3, Luisa Berná2,4 and Julia A. Cricco
This study uncovers how the Chagas disease parasite adapts to changes in heme, an essential molecule for its survival, providing transcriptional clues to heme metabolism and identifying a previously unreported heme-binding protein in T. cruzi.
Sir2 regulates selective autophagy in stationary-phase yeast cells
Ji-In Ryua, Juhye Junga, and Jeong-Yoon Kim
This study establishes Sir2 as a previously unrecognized regulator of selective autophagy during the stationary phase and highlight how cells dynamically control organelle degradation.
Luminal acetylation of microtubules is not essential for Plasmodium berghei and Toxoplasma gondii survival
Thrishla Kumar1,a, Katharina Röver2,a, Johannes F. Stortz3,a, Annika M. Binder2,a, Benjamin Spreng2, Madlen Konert2, Markus Meissner1, Friedrich Frischknecht2,4 and Elena Jimenez-Ruiz1,*
Acetylation of α-tubulin at lysine 40 is not essential for cytoskeletal stability in Plasmodium berghei or Toxoplasma gondii, suggesting redundancy and plasticity in microtubule regulation in these parasites.
The dual-site agonist for human M2 muscarinic receptors Iper-8-naphtalimide induces mitochondrial dysfunction in Saccharomyces cerevisiae
Angela Cirigliano1,a, Antonia Amelina2,a, Elena Passarini2, Alessandra Ricelli1, Nicole Balasco1, Mattia Mori3, Bruno Botta4, Maria Egle De Stefano2,5, Claudio Papotto6, Claudia Guerriero2, Ada Maria Tata2,5 and Teresa Rinaldi2,*
S. cerevisiae is a model to study human GPCRs. N-8-Iper, active against glioblastoma via M2 receptor, causes mitochondrial damage in yeast by binding Ste2, highlighting evolutionary conservation of GPCRs.
Organelle activity organized by the endoplasmic reticulum-mitochondria encounter structure –ERMES– is essential for Podospora anserina development
Melisa Álvarez-Sánchez1, Matías Ramírez-Noguez1, Beatriz Aguirre-López1 and Leonardo Peraza-Reyes1
Eucaryotic cell functioning and development depend on the concerted activity of its organelles. In the model fungus Podospora anserina, sexual development involves a dynamic regulation of mitochondria, peroxisomes and the endoplasmic reticulum (ER), suggesting that their activity during this process is coordinated.
Role of the putative sit1 gene in normal germination of spores and virulence of the Mucor lusitanicus
Bernadett Vágó1,2, Kitti Bauer1,2, Naomi Varghese1,2, Sándor Kiss-Vetráb1,2, Sándor Kocsubé1,2, Mónika Varga1,2, András Szekeres1,2, Csaba Vágvölgyi1,2, Tamás Papp1,2,3,# and Gábor Nagy1,2,3,#
Mucormycosis is a life-threatening infection caused by certain members of the fungal order Mucorales, with increased incidence in recent years. Individuals with untreated diabetes mellitus, and patients treated with deferoxamine are particularly susceptible to this infection.
Tumor microenvironment signatures enhances lung adenocarcinoma prognosis prediction: Implication of intratumoral microbiota
Fei Zhao1,#, Lei Wang2,3,4,#, Dongjie Du5, Heaven Zhao6,7, Geng Tian6,7, Yufeng Li2,3,8, Yankun Liu2,8,9, Zhiwu Wang2,3,10, Dasheng Liu11, Jingwu Li2,3,12, Lei Ji6,7 and Hong Zhao1
The interaction between intratumoral microbiome and the tumor microenvironment (TME) has furthered our understanding of tumor ecology. Yet, the implications of their interaction for lung cancer management remain unclear.
Maintaining phagosome integrity during fungal infection: do or die?
Mabel Yang1, Glenn F.W. Walpole1,2 and Johannes Westman1
This article refers to the paper “Lysosome Fusion Maintains Phagosome Integrity during Fungal Infection” by Westman et al. (Cell Host Microbe, 2020), which shows that macrophages respond to pathogen growth by expanding the phagosome membrane through a calcium-dependent mechanism involving lysosome insertion, maintaining membrane integrity and preventing rupture.
Milestones in Bacillus subtilis sporulation research
Eammon P. Riley1, Corinna Schwarz2, Alan I. Derman2 and Javier Lopez-Garrido2
In this review, the foundational discoveries that shaped the sporulation field are discussed, from its origins to the present day, tracing a chronology that spans more than one hundred eighty years.
A novel antibacterial strategy: histone and antimicrobial peptide synergy
Leora Duong1, Steven P. Gross2,3 and Albert Siryaporn1,3
This article refers to the study “Mammalian histones facilitate antimicrobial synergy by disrupting the bacterial proton gradient and chromosome organization” by Doolin et al. (Nat Comm, 2020) that shows that histones enhance the antimicrobial activity of peptides, disrupt bacterial membranes, and inhibit transcription, offering new insights into natural antimicrobial mechanisms.
Extracellular vesicles: An emerging platform in gram-positive bacteria
Swagata Bose1,#, Shifu Aggarwal1,#, Durg Vijai Singh1,2 and Narottam Acharya1
Extracellular vesicles (EVs) are secreted by both pathogenic and non-pathogenic bacteria to transfer biomolecules and facilitate intercellular communication. While EV secretion in gram-negative bacteria is well understood, less is known about gram-positive bacteria. This review explores the role of EVs involved in bacterial competition, survival, immune evasion, and infection of gram-positive bacteria and compares them to gram-negative counterparts.
Structural insights into the architecture and assembly of eukaryotic flagella
Narcis-Adrian Petriman1 and Esben Lorentzen1
Cilia and flagella are key structures in motility and signaling. This review highlights recent findings of cryo-EM studies that have mapped the structure of axonemal microtubules in Chlamydomonas reinhardtii, revealing over 30 associated proteins as well as recent researcht which focused on the trafficking complexes that transport components between the cell body and cilium.
Erythrocyte phospho-signalling is dynamically altered during infection with Plasmodium falciparum
Jack D. Adderley1 and Christian Doerig1
This article refers to the study “Analysis of erythrocyte signalling pathways during Plasmodium falciparum infection identifies targets for host-directed antimalarial intervention” by Adderley et al. (Nat Commun, 2020) that investigates how Plasmodium falciparum malaria parasites influence red blood cells. By tracking hanges in over 800 human proteins at different parasite stages they confirmed activation of the PAK-MEK pathway and discovered significant changes, particularly during the trophozoite stage. This suggests that kinases activated by the infection could be targeted for new antimalarial therapies.
Plant and fungal products that extend lifespan in Caenorhabditis elegans
Jan Martel1,2, Cheng-Yeu Wu1-3, Hsin-Hsin Peng1,2,4, Yun-Fei Ko2,5,6, Hung-Chi Yang7, John D. Young5 and David M. Ojcius1,2,8
Caenorhabditis elegans’ lifespan is extended by plant and fungal extracts activating pathways like autophagy and mitochondrial biogenesis. Low to moderate concentrations promote longevity, while high doses are harmful. This review explores the health benefits of these substances in humans.
A new role for proteins subunits of RNase P: stabilization of the telomerase holoenzyme
P. Daniela Garcia1 and Virginia A. Zakian2
This article refers to the study “Stability and Nuclear Localization of Yeast Telomerase Depend on Protein Components of RNase P/MRP”, by Garcia et al. (Nat Commun, 2020), showing that 3 essential proteins in Saccharomyces cerevisiae are vital for telomerase assembly and nuclear localization. In their mutants, telomerase is less mature, and telomeres are shorter. TLC1 is properly folded but remains in the cytoplasm, rather than moving to the nucleus, where it maintains telomeres.
Lipid droplet biogenesis from specialized ER subdomains
Vineet Choudhary1 and Roger Schneiter2
This article refers to the paper “Seipin and Nem1 establish discrete ER subdomains to initiate yeast lipid droplet biogenesis” by Choudhary et al. (J Cell Biol, 2020), which deals with the formation of lipid droplets (LDs) at specific ER sites marked by the proteins Fld1 and Nem1. These proteins recruit enzymes such as Lro1 and Dga1 to initiate fat storage. Together, Fld1 and Nem1 define where LDs form by organising key proteins and lipids needed for their biogenesis.
Targeting GATA transcription factors – a novel strategy for anti-aging interventions?
Andreas Zimmermann1, Katharina Kainz1,2, Sebastian J. Hofer1,3, Maria A. Bauer1, Sabrina Schroeder1, Jörn Dengjel4, Federico Pietrocola5, Oliver Kepp6-9, Christoph Ruckenstuhl1, Tobias Eisenberg1,3,10,11, Stephan J. Sigrist12, Frank Madeo1,3,10, Guido Kroemer6-9, 13-15 and Didac Carmona-Gutierrez1
This article comments on work published by Carmona-Gutierrez et al. (Nat Commun., 2019), which identified a natural compound, 4,4′-dimethoxychalcone, inducing autophagy and prolonging lifespan in different organisms through a mechanism that involves GATA transcription factors.
In the beginning was the word: How terminology drives our understanding of endosymbiotic organelles
Miroslav Oborník 1,2
This In the Pit article argues that the naming conventions for biological entities influence research perspectives and methodologies, advocating for mitochondria and plastids to be classified and named as bacteria due to their endosymbiotic origins, with potential implications for our understanding of bacterial prevalence, definitions of the microbiome and multicellularity, and the concept of endosymbiotic domestication.
What’s in a name? How organelles of endosymbiotic origin can be distinguished from endosymbionts
Ansgar Gruber1
This In the Pit article suggests redefining the relationship between hosts and endosymbionts, like mitochondria and plastids, as a single species based on “sexual symbiont integration,” the loss of independent speciation, and congruence in genetic recombination and population sizes, rather than solely on historic classifications or structural properties.
Microbial wars: competition in ecological niches and within the microbiome
Maria A. Bauer1, Katharina Kainz1, Didac Carmona-Gutierrez1 and Frank Madeo1,2
In this Editorial Bauer et al. provide a brief overview on microbial competition and discuss some of its roles and consequences that directly affect humans.
Exploring the mechanism of amebic trogocytosis: the role of amebic lysosomes
Allissia A. Gilmartin1 and William A. Petri, Jr1,2,3
In this article, the authors comment on the study “Inhibition of Amebic Lysosomal Acidification Blocks Amebic Trogocytosis and Cell Killing” by Gilmartin et al. (MBio, 2017), discussing the the role of amebic lysosomes in Trogocytosis, the intracellular transfer of fragments of cell material.
Uncovering the hidden: complexity and strategies for diagnosing latent tuberculosis
Mario Alberto Flores-Valdez
This editorial postulates that advanced proteomic and transcriptomic techniques are evolving and may enhance the detection of latent tuberculosis, thereby distinguishing true M. tuberculosis infections from other conditions, which is vital for controlling potential reactivation and transmission.
The Yin & Yang of Mitochondrial Architecture – Interplay of MICOS and F1Fo-ATP synthase in cristae formation
Heike Rampelt1 and Martin van der Laan2
This Editorial posits that mitochondrial cristae architecture is shaped by the interplay of MICOS and ATP synthase, with a recent study illuminating their roles in cristae formation and maintenance.
When a ribosomal protein grows up – the ribosome assembly path of Rps3
Brigitte Pertschy
This article comments on two papers by Mitterer et al., which followed yeast protein Rps3, highlighting the sophisticated mechanisms for protein protection, nuclear transport, and integration into pre-ribosomal particles for final assembly with 40S subunits.
Microbial Cell
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Peer-reviewed, open-access research using unicellular organisms (and multicellular microorganisms) to understand cellular responses and human disease.
The journal (founded in 2014) is led by its Editors-in-Chief Frank Madeo, Didac Carmona-Gutierrez, and Guido Kroemer
Microbial Cell has been publishing original scientific literature since 2014, and from the very beginning has been managed by active scientists through an independent Publishing House (Shared science Publishers). The journal was conceived as a platform to acknowledge the importance of unicellular organisms, both as model systems as well as in the biological context of human health and disease.
Ever since, Microbial Cell has very positively developed and strongly grown into a respected journal in the unicellular research community and even beyond. This scientific impact is reflected in the yearly number of citations obtained by articles published in Microbial Cell, as recorded by the Web of Science (Clarivate, formerly Thomson/Reuters):
The scientific impact of Microbial Cell is also mirrored in a series of milestones:
2015: Microbial Cell is included in the Emerging Sources Citation Index (ESCI), a selection of developing journals drafted by Clarivate Analytics based on the candidate’s publishing standards, quality, editorial content, and citation data. Note: As an ESCI-selected journal, Microbial Cell is currently being evaluated in a rigorous and long process to determine an inclusion in the Science Citation Index Expanded (SCIE), which allows the official calculation of Clarivate Analytics’ impact factor.
2016: Microbial Cell is awarded the so-called DOAJ Seal by the selective Directory of Open Access Journals (DOAJ). The DOAJ Seal is an exclusive mark of certification for open access journals granted by DOAJ to journals that adhere to outstanding best practice and achieve an extra high and clear commitment to open access and high publishing standards.
2017: Microbial Cell is included in Pubmed Central (PMC), allowing the archiving of all the journal’s articles in PMC and PubMed.
2019: Microbial Cell is indexed in the prestigious abstract and citation database Scopus after a thorough selection process. This also means that Microbial Cell obtains, for the first time, an official Scopus CiteScore as well as an official journal ranking in the Scimago Journal and Country Ranking.
2022: Microbial Cell’s CiteScore reaches a value of 7.2 for the year 2021, positioning Microbial Cell among the top microbiology journals (previously available CiteScores: 2019: 5.4; 2020: 5.1).
2022: Microbial Cell is indexed in the highly selective Science Citation Index Expanded™, which covers approx. 9,500 of the world’s most impactful journals across 178 scientific disciplines. In their journal selection and curation process, Clarivate´s editors apply 24 ‘quality’ criteria and four ‘impact’ criteria to select the most influential journals in their respective fields. This selection is also a pre-requisite for inclusion in the JCR, which features the impact factor.
2022: Microbial Cell is listed in the Journal Citation Reports™ (JCR), and obtains its first official Journal Impact Factor™ (JIF) for the year 2021: 5.316.Check Article Types and Manuscript Preparation guidelines. Submit online via Scholastica.
Sulfur dioxide resistance in Saccharomyces cerevisiae: beyond SSU1
Estéfani García-Ríos1 and José Manuel Guillamón1
This article discusses the importance of understanding sulfite resistance in Saccharomyces cerevisiae due to its use in winemaking and the potential role of the transcription factor Com2. While the SSU1 gene and its activity have been correlated with sulfite tolerance, the work by Lage et al. (2019) indicates that Com2 might control a large percentage of the genes activated by SO2 and contribute to the yeast’s protective response, offering new insights into the molecular factors influencing this oenological trait.