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| Open AccessKlebsiella pneumoniae clinical isolates with features of both multidrug-resistance and hypervirulence have unexpectedly low virulence
Convergent strains, those containing characteristics of both multidrug-resistant & hypervirulent Klebsiella pneumoniae, are a global threat to public health. In this work, authors analyse convergent isolates from the United States and reveal unexpectantly low virulence.
- Travis J. Kochan
- , Sophia H. Nozick
- & Alan R. Hauser
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Article
| Open AccessResurrecting ancestral antibiotics: unveiling the origins of modern lipid II targeting glycopeptides
Glycopeptide antibiotics (GPAs) are microbial natural products synthesized by multiple enzymes, including a nonribosomal peptide synthetase for assembly of the peptide core. Here, the authors use computational techniques to infer a gene set for biosynthesis of an ancestral GPA, produce the peptide in a microbial host, and provide insights into the evolution of key enzymatic domains.
- Mathias H. Hansen
- , Martina Adamek
- & Nadine Ziemert
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Article
| Open AccessThe protein interactome of the citrus Huanglongbing pathogen Candidatus Liberibacter asiaticus
Research on the biology and pathogenicity of ‘Candidatus Liberibacter asiaticus’ (CLas), the bacterium that causes citrus Huanglongbing disease, is hampered by our inability to cultivate it in artificial media. Here, Carter et al. use a high-throughput yeast-two-hybrid screen to identify thousands of interactions between CLas proteins, thus providing insights into their potential functions.
- Erica W. Carter
- , Orlene Guerra Peraza
- & Nian Wang
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Article
| Open AccessStructural and functional insights into the delivery of a bacterial Rhs pore-forming toxin to the membrane
Bacterial Rhs proteins constitute a diverse family of secreted toxins. Here, the authors present a cryo-electron microscopy structure of an Rhs protein from Pseudomonas aeruginosa and provide insights into the mechanisms by which the protein delivers its encapsulated pore-forming toxin fragment to the bacterial membrane.
- Amaia González-Magaña
- , Igor Tascón
- & David Albesa-Jové
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Article
| Open AccessMetagenomic profiles of archaea and bacteria within thermal and geochemical gradients of the Guaymas Basin deep subsurface
The authors study microbial communities in hydrothermally heated, subseafloor sediment layers. They find that microbial abundance and diversity decrease with sediment depth and temperature, and provide evidence for the existence of a specialized deep, hot biosphere.
- Paraskevi Mara
- , David Geller-McGrath
- & Andreas Teske
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Article
| Open AccessRNA is a key component of extracellular DNA networks in Pseudomonas aeruginosa biofilms
The roles of extracellular RNAs present in bacterial biofilms are poorly understood. Here, Mugunthan et al. show that specific mRNAs associate with extracellular DNA in the matrix of bacterial biofilms, facilitating the formation of viscoelastic networks.
- Sudarsan Mugunthan
- , Lan Li Wong
- & Thomas Seviour
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Article
| Open AccessParabacteroides distasonis ameliorates insulin resistance via activation of intestinal GPR109a
Here, the authors show that the gut commensal Parabacteroides distasonis alleviates insulin resistance via nicotinic acid-intestinal GPR109a axis activation, a process promoted by Dendrobium officinale polysaccharide.
- Yonggan Sun
- , Qixing Nie
- & Shaoping Nie
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Article
| Open AccessDistributed genotyping and clustering of Neisseria strains reveal continual emergence of epidemic meningococcus over a century
Core genome multilocus sequence typing (cgMLST) is used to classify bacterial strains for epidemiological applications. Here, the authors describe a distributed cgMLST scheme that does not require a central database of allelic sequences, and apply it to study evolutionary patterns of epidemic and endemic strains of the genus Neisseria.
- Ling Zhong
- , Menghan Zhang
- & Zhemin Zhou
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Article
| Open AccessThe genomic epidemiology of shigellosis in South Africa
As a leading cause of diarrhoeal mortality and morbidity, authors examine the epidemiology and genome dynamics of shigellosis in South Africa, utilising whole genome sequence analysis.
- George E. Stenhouse
- , Karen H. Keddy
- & Kate S. Baker
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Article
| Open AccessStochastic chain termination in bacterial pilus assembly
Adhesive type-1 pili from Escherichia coli are filamentous protein complexes consisting of a short tip and a long rod formed by up to several thousand copies of a major subunit. Here, Giese et al. reconstitute the entire type-1 pilus rod assembly reaction in vitro, using all constituent protein subunits, and identify a subunit that acts as an irreversible assembly terminator.
- Christoph Giese
- , Chasper Puorger
- & Rudi Glockshuber
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Article
| Open AccessThe Mla system of diderm Firmicute Veillonella parvula reveals an ancestral transenvelope bridge for phospholipid trafficking
E. coli maintains membrane lipid asymmetry by transferring glycerophospholipids from the outer membrane to the inner membrane; this requires outer membrane protein MlaA, periplasmic chaperone MlaC, and inner-membrane complex MlaBDEF. Here, the authors show that in some bacteria that lack MlaA and MlaC, MlaD forms a transenvelope bridge comprising a typical inner-membrane domain and, in addition, an outer-membrane domain.
- Kyrie P. Grasekamp
- , Basile Beaud Benyahia
- & Christophe Beloin
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Article
| Open AccessHigh-resolution temporal profiling of E. coli transcriptional response
Understanding how cells dynamically adapt to their environment is important, but temporal information about cellular behaviour is often limited. Here, Miano et al. apply unsupervised machine learning to a dataset describing the activity of over 1,800 promoters in E. coli, measured every 10 minutes, defining three primary stages of promoter activation in response to heavy metal stress.
- Arianna Miano
- , Kevin Rychel
- & Jeff Hasty
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Article
| Open AccessTaxonomic and environmental distribution of bacterial amino acid auxotrophies
Many microorganisms are auxotrophic, that is, unable to synthesize the compounds they require for growth. Here, Ramoneda et al. predict amino acid biosynthetic capabilities of over 26,000 bacterial genomes using a metabolic pathway model validated with empirical data, and identify ecological contexts in which auxotrophy can be a successful strategy.
- Josep Ramoneda
- , Thomas B. N. Jensen
- & Noah Fierer
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Article
| Open AccessDirect comparison of spatial transcriptional heterogeneity across diverse Bacillus subtilis biofilm communities
The bacterium Bacillus subtilis can form various types of surface-associated communities, such as colonies, pellicles and submerged biofilms. Here, Dergham et al. provide a direct comparison of spatial transcriptional heterogeneity across the three types of surface-associated communities, revealing mosaic expression patterns for genes involved in various pathways.
- Yasmine Dergham
- , Dominique Le Coq
- & Romain Briandet
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Article
| Open AccessSerine peptidase Vpr forms enzymatically active fibrils outside Bacillus bacteria revealed by cryo-EM
Here, cryo-EM is used to identify an unreported fibril species derived from lab-cultured Bacillus amyloiquefaciens composed of the extracellular serine peptidase Vpr. Fibrillar Vpr is shown to be enzymatically active, suggesting the fibril form represents a strategy of enriching Vpr extracellular activity.
- Yijia Cheng
- , Jianting Han
- & Qin Cao
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Article
| Open AccessA smooth tubercle bacillus from Ethiopia phylogenetically close to the Mycobacterium tuberculosis complex
The Mycobacterium tuberculosis complex (MTBC) includes several pathogens thought to have originated in East Africa from an ancestor closely related to Mycobacterium canettii. Here, the authors describe a clinical tuberculosis strain isolated in Ethiopia that has typical M. canettii features but is phylogenetically much closer to the MTBC clade, supporting that the emergence of MTBC pathogens is a recent evolutionary event.
- Bazezew Yenew
- , Arash Ghodousi
- & Daniela Maria Cirillo
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Article
| Open Accessc-di-GMP inhibits the DNA binding activity of H-NS in Salmonella
H-NS is a global regulatory protein that represses expression of many genes in bacteria. Here, Li et al. show that a second messenger, cyclic di-GMP, binds to H-NS and inhibits its binding to DNA, thus relieving H-NS-mediated transcriptional silencing.
- Shuyu Li
- , Qinmeng Liu
- & Lei Zhang
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Article
| Open AccessMid-cell migration of the chromosomal terminus is coupled to origin segregation in Escherichia coli
In slow-growing Escherichia coli, the chromosomal terminus is initially located at the new pole and must therefore migrate to midcell during replication to reproduce the same pattern in the daughter cells. Here, Sadhir & Murray use high-throughput time-lapse microscopy to quantify this transition, its timing and its relationship to chromosome segregation, identifying an unexplored connection between the origin of replication locus and the terminus.
- Ismath Sadhir
- & Seán M. Murray
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| Open AccessThe environmentally-regulated interplay between local three-dimensional chromatin organisation and transcription of proVWX in E. coli
Here, the authors use the proVWXoperon of Escherichia coli as a model system to show how the nucleoid associated protein H-NS regulates gene expression in vivo by local chromatin remodelling.
- Fatema-Zahra M. Rashid
- , Frédéric G. E. Crémazy
- & Remus T. Dame
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Article
| Open AccessBacterial genome size and gene functional diversity negatively correlate with taxonomic diversity along a pH gradient
Bacterial functional diversity does not necessarily correlate with taxonomic diversity because average genome size may vary by community. Here, Wang et al. investigate bacterial communities along a natural pH gradient in forest soils, and find that average genome size and functional diversity decrease, whereas taxonomic diversity increases, as soil pH rises from acid to neutral.
- Cong Wang
- , Qing-Yi Yu
- & Cheng Gao
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Article
| Open AccessATP synthase evolution on a cross-braced dated tree of life
The timing of cellular evolution is poorly constrained. Here, the authors used improved molecular dating approaches to study the evolution of the ATP synthase in light of a dated tree of life thereby providing an absolute timescale for cellular evolution including eukaryotic origins.
- Tara A. Mahendrarajah
- , Edmund R. R. Moody
- & Anja Spang
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Article
| Open AccessUnconventional structure and mechanisms for membrane interaction and translocation of the NF-κB-targeting toxin AIP56
Structural and functional characterization of an NF-κB-targeting bacterial toxin reveals an unconventional structure and mechanisms of membrane interaction and translocation.
- Johnny Lisboa
- , Cassilda Pereira
- & Nuno M. S. dos Santos
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Article
| Open AccessBacteria can maintain rRNA operons solely on plasmids for hundreds of millions of years
Bacteria usually have at least one rRNA operon on the chromosome, suggesting that the exclusive presence of rRNA operons on a plasmid is rare and unlikely to be stably maintained. Here, Anda et al. find that at least four bacterial clades in different phyla lost their chromosomal rRNA operons independently, and one of the clades has maintained this peculiar genome organization for hundreds of millions of years.
- Mizue Anda
- , Shun Yamanouchi
- & Wataru Iwasaki
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Article
| Open AccessFunctional annotation of enzyme-encoding genes using deep learning with transformer layers
Functional annotation of open reading frames in microbial genomes remains substantially incomplete. Here, Kim et al. present a deep learning model that utilizes transformer layers as a neural network architecture to predict specific catalytic functions for enzyme-encoding genes of unknown function.
- Gi Bae Kim
- , Ji Yeon Kim
- & Sang Yup Lee
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Article
| Open AccessFunctional and structural diversity in deubiquitinases of the Chlamydia-like bacterium Simkania negevensis
Intracellular bacteria use deubiquitinase effectors to avoid being targeted for autophagic clearance. The authors show that the Chlamydia-like bacterium Simkania negevensis encodes an unusually broad range of these enzymes, including members that specifically target linear and K6-linked ubiquitin chains.
- Vanessa Boll
- , Thomas Hermanns
- & Kay Hofmann
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Article
| Open AccessEssential gene complement of Planctopirus limnophila from the bacterial phylum Planctomycetes
Bacteria of the phylum Planctomycetes display unique cell biology features but are relatively understudied. Here, the authors report a genome-wide analysis of essential gene content in a planctomycete, providing insights into the divergent molecular and cell biology of these organisms.
- Elena Rivas-Marin
- , David Moyano-Palazuelo
- & Damien P. Devos
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Article
| Open AccessEnterohaemorrhagic E. coli utilizes host- and microbiota-derived L-malate as a signaling molecule for intestinal colonization
Here, Liu et al show that enterohaemorrhagic Escherichia coli utilizes host- and microbiota-derived L-malate as an essential nutrient and signalling molecule to promote its growth and colonization in the large intestine.
- Bin Liu
- , Lingyan Jiang
- & Bin Yang
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Article
| Open AccessSingle-cell analysis identifies genes facilitating rhizobium infection in Lotus japonicus
The authors use single-cell analysis to identify genes specifically expressed in plant root cells that respond to infection by nitrogen-fixing rhizobia. They show that one of these genes, SYMRKL1, is required for normal progression of infection.
- Manuel Frank
- , Lavinia Ioana Fechete
- & Stig Uggerhøj Andersen
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Article
| Open AccessDual function of OmpM as outer membrane tether and nutrient uptake channel in diderm Firmicutes
Outer membrane tethering is important for cell envelope integrity in diderm bacteria. Here, the authors present structures and functional analyses of the stalked porin OmpM, which is the main outer membrane tethering system within the Terrabacteria.
- Augustinas Silale
- , Yiling Zhu
- & Bert van den Berg
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Article
| Open AccessMicrobiome and metabolome features in inflammatory bowel disease via multi-omics integration analyses across cohorts
Gut microbiota play pivotal roles in IBD. Here, Ning et al. use a multi-omics approach to characterize gut microbiota and metabolites alterations, and potential pathogenic bacteria associated with IBD, with the aim to help develop more precise biomarkers for IBD diagnosis and drug targets
- Lijun Ning
- , Yi-Lu Zhou
- & Jie Hong
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Article
| Open AccessGreater wax moth control in apiaries can be improved by combining Bacillus thuringiensis and entrapments
The greater wax moth (GWM) is a major bee pest. Here, the authors show how a pest control method that combines a strain of Bacillus thuringiensis and a lure-based entrapment can help to control GWM using lab experiments and field beehives.
- Bo Han
- , Li Zhang
- & Pingli Dai
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Article
| Open AccessStructure and function of the EA1 surface layer of Bacillus anthracis
S-layers form continuous protein lattices on the surface of bacteria. Here, authors use S-layer depolymerizing nanobodies to solve the structure of the EA1 S-layer in the pathogen Bacillus anthracis and show its role as cell wall supportive structure”
- Adrià Sogues
- , Antonella Fioravanti
- & Han Remaut
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Article
| Open AccessStructural basis for the toxicity of Legionella pneumophila effector SidH
Legionella pneumophila secretes hundreds of effectors to facilitate infection. Here, Sharma et al show that the virulence effector SidH adopts a unique α-helical conformation, leading to toxicity via tRNA binding site and resolve the structural basis of SidH regulation through ubiquitination.
- Rahul Sharma
- , Michael Adams
- & Sagar Bhogaraju
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Article
| Open AccessStructure of a membrane-bound menaquinol:organohalide oxidoreductase
The structure of a bacterial membrane protein complex involved in the bioremediation of tetrachloroethene, a major chlorinated organic pollutant, was determined. It elucidates the path of electrons from menaquinol to the active site of the enzyme.
- Lorenzo Cimmino
- , Américo G. Duarte
- & Julien Maillard
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Article
| Open AccessThe structure of a hibernating ribosome in a Lyme disease pathogen
Ribosomes are prime targets for antibiotics in pathogenic bacteria. Here, cryo-electron microscopy reveals features in the Borrelia burgdorferi ribosome that provide insights into ribosome evolution, dormancy, and antibiotic binding.
- Manjuli R. Sharma
- , Swati R. Manjari
- & Nilesh K. Banavali
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Article
| Open AccessPathogen-driven degradation of endogenous and therapeutic antibodies during streptococcal infections
Group A streptococcus causes a wide range of human diseases and significantly contributes to morbidity and mortality worldwide. Here, Toledo et al show how streptococcus alters the structure and function of endogenous and therapeutic antibodies during infection and how this is affected by the host microenvironment.
- Alejandro Gomez Toledo
- , Eleni Bratanis
- & Johan Malmström
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Article
| Open AccessAcylation of glycerolipids in mycobacteria
This paper reports on two mycobacterial glycerolipid acyltransferases capable of transferring acyl chains to position 1 or position 2 of both glycerol-3-phosphate and lysophosphatidic acid.
- Shiva Kumar Angala
- , Ana Carreras-Gonzalez
- & Mary Jackson
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Article
| Open AccessSIgA structures bound to Streptococcus pyogenes M4 and human CD89 provide insights into host-pathogen interactions
Here, the authors used cryo-EM to explore secretory Immunoglobulin A interactions with bacterial and host receptors, uncovering unexpected binding stoichiometry and unappreciated functional consequences relevant to understanding host-pathogen interactions.
- Qianqiao Liu
- & Beth M. Stadtmueller
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Article
| Open AccessMiniature spatial transcriptomics for studying parasite-endosymbiont relationships at the micro scale
The filarial worm Brugia malayi has evolved a mutualistic association with the endosymbiotic bacteria Wolbachia. Here, Sounart et al describe a spatial transcriptomic technique that can spatially resolve these miniature specimens.
- Hailey Sounart
- , Denis Voronin
- & Stefania Giacomello
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Article
| Open AccessCryptic susceptibility to penicillin/β-lactamase inhibitor combinations in emerging multidrug-resistant, hospital-adapted Staphylococcus epidermidis lineages
Staphylococcus epidermidis can cause invasive infections that are difficult to treat due to multi-resistance to most clinically relevant drugs, including methicillin and other β-lactam antibiotics, vancomycin, and rifampicin. In this work, the authors use in vitro assays and a mouse infection model to explore cryptic susceptibility and development of resistance to penicillin/β-lactamase combinations.
- Xiaoliang Ba
- , Claire L. Raisen
- & Jesper Larsen
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Article
| Open AccessGlobally distributed Myxococcota with photosynthesis gene clusters illuminate the origin and evolution of a potentially chimeric lifestyle
Photosynthesis is thought to be restricted to a few bacterial and eukaryotic phyla. Here, Li et al. provide evidence of photosynthetic abilities in uncultivated bacteria within the phylum Myxococcota, suggesting that some of these organisms may combine predatory and photosynthetic abilities.
- Liuyang Li
- , Danyue Huang
- & Yinzhao Wang
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Article
| Open AccessOxygen respiration and polysaccharide degradation by a sulfate-reducing acidobacterium
Sulfate-reducing microorganisms are common in anoxic environments and represent an important link between the sulfur and carbon cycles. Here, Dyksma & Pester show that microbial sulfate reduction and aerobic respiration are not mutually exclusive in the same organism, sulfate reducers can mineralize organic polymers, and anaerobic mineralization of complex organic matter is not necessarily a multi-step process.
- Stefan Dyksma
- & Michael Pester
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Article
| Open AccessTerC proteins function during protein secretion to metalate exoenzymes
TerC family membrane proteins associate with the general protein secretion complex to facilitate the co-translocational loading of Mn(II) into nascent metalloenzymes. Here, the authors show that Bacillus subtilis mutants lacking TerC proteins are defective in production of the membrane-embedded lipoteichoic acid synthase and secreted proteases.
- Bixi He
- , Ankita J. Sachla
- & John D. Helmann
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Article
| Open AccessRhs NADase effectors and their immunity proteins are exchangeable mediators of inter-bacterial competition in Serratia
Rhs proteins delivered by the Type VI secretion system play a key role in competition between rival bacteria. Here, the authors show that Rhs proteins with exchangeable NAD(P)+ glycohydrolase toxin domains and ‘orphan’ immunity proteins are flexible agents of intraspecies competition in Serratia.
- Martin Hagan
- , Genady Pankov
- & Sarah J. Coulthurst
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Article
| Open AccessThe leaderless communication peptide (LCP) class of quorum-sensing peptides is broadly distributed among Firmicutes
The human pathogen Streptococcus pyogenes secretes a short peptide (LCP) that mediates intercellular communication and controls bacterial virulence. Here, the authors show that LCP homologues act as bacterial intercellular signals and regulate gene expression also in other bacteria.
- Shifu Aggarwal
- , Elaine Huang
- & Muthiah Kumaraswami
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Article
| Open AccessAuxin-producing bacteria promote barley rhizosheath formation
The rhizosheath, or the soil layer closely attached to roots, can help plants tolerate drought. Here, the authors show that rhizosheath formation in barley is promoted by soil bacteria that produce indole-3-acetic acid, a common auxin.
- Feiyun Xu
- , Hanpeng Liao
- & Weifeng Xu
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Article
| Open AccessGenome-wide promoter responses to CRISPR perturbations of regulators reveal regulatory networks in Escherichia coli
Measuring gene expression responses for every transcription factor (TF)-gene pair in living prokaryotic cells is challenging. Here the authors report pooled promoter responses to TF perturbation sequencing (PPTP-seq) using CRISPRi, which they use to address this problem in E. coli.
- Yichao Han
- , Wanji Li
- & Fuzhong Zhang
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Article
| Open AccessA linear and circular dual-conformation noncoding RNA involved in oxidative stress tolerance in Bacillus altitudinis
The presence and/or biological functionality of circular RNAs in bacteria are unclear. Here, the authors identify a dual-conformation (linear and circular) noncoding RNA that promotes tolerance to oxidative stress in Bacillus altitutidinis, and provide evidence for the existence of other circular RNAs in diverse bacterial species.
- Ting-Ting He
- , Yun-Fan Xu
- & Hai-Yan Wang
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Article
| Open AccessBacterial cell-size changes resulting from altering the relative expression of Min proteins
In bacteria such as E. coli, Min proteins ensure proper localization of the septum at the mid-zone of the cell before cell division. Here, the authors study the effects of changes in relative expression of Min proteins on cell size, providing evidence that Min proteins contribute to the regulation of cell size and the timing of septum formation.
- Harsh Vashistha
- , Joanna Jammal-Touma
- & Hanna Salman
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