Microbiology articles within Nature Communications

Root exudates display a diurnal signature, change with growth environment, and can be divided into a core metabolome common to multiple plant species, and specialized exudates produced by distinct species.

In this study, the authors perform a meta-analysis of COVID-19 vaccine effectiveness studies and compare observed protection against severe disease with model-based estimates of neutralising antibody titres. Their results show that SARS-CoV-2 antibody titres are predictive of protection against severe COVID-19 disease.

Cable bacteria are centimeter-long filamentous microbes that conduct electrons via internal wires, thus coupling sulfide oxidation between sediment layers. Here, Bjerg et al. show that the anoxic part of oxygen-respiring cable bacteria attracts swarms of other bacteria, which appear to transfer electrons to cable bacteria via soluble metabolites.

Omicron subvariants may differ in their replicative fitness and their potential to cause more severe disease. In this study, the authors characterized Omicron BA.2.75 in a hamster model and found that it replicates more efficiently in the lungs than BA.2 and BA.5.

Several strategies have been employed to enhance the tumor-targeting and anti-cancer properties of engineered bacteria. Here the authors describe the design of alternating magnetic field-manipulated bacteria engineered to release an anti-CD47 nanobody, promoting anti-tumor immune response in preclinical cancer models.

The two-component regulatory system VraRS regulates transcription of penicillin-binding protein 2 in response to cell wall antimicrobials. Here, Lu et al. show that an enzyme from the wall teichoic acid biosynthetic pathway of MRSA can also modulate the expression of virulence factors such as Staphylococcal protein A via VraRS.

Monoallelic VSG expression is essential for Trypanosoma brucei survival. Competition between TbRAP1’s RNA and dsDNA binding activities ensures that TbRAP1 sustains a high level expression of the active VSG while silencing other VSGs globally.

Establishing sustainable approaches for human space exploration is key to achieve independency from terrestrial resources, as well as for ethical considerations. Here the authors highlight microbial biotechnologies that will support sustainable processes for space-based in situ resource utilization and loop-closure, and may be translatable to Earth applications.

Animal gut microbiomes are fairly stable over time despite large daily fluctuations in diet and introductions of environmental bacteria. Here the authors report that fruit flies maintain the stability of their microbiome in part through a physical niche in the esophagus.

The Main protease of SARS-CoV-2 is key for viral replication, but its maturation process is still not completely understood. Here, the authors not only reveal unique details from the first step of maturation, but also demonstrate how different classes of inhibitor can block this step.

Here using drug susceptibility profiling, genomics and evolutionary studies the authors provide strategies to exploit collateral drug responses in Mycobacterium tuberculosis to prevent the emergence of drug resistance.

Lateral flow assays are valuable rapid diagnostic tests, but low sensitivity can hinder their precision. Here, the authors report an enrichment method using nanoporous AAO and red blood cell membranes, which when applied to patient samples prior to analysis can improve sensitivity up to 20-fold.

A recent study from Nature Communications reveals that Mycobacterium tuberculosis can hijack epigenetic machinery in host cells and induce host cell ferroptosis, which promotes pathogen pathogenicity and spread. These findings also suggest new therapeutic strategies to treat tuberculosis.

Multicellular fungi have septal pores that allow cytoplasmic exchange between adjacent cells; cell wounding and other stress conditions induce septal pore closure. Here, Mamun et al. determine the subcellular localization of hundreds of uncharacterized proteins in a multicellular fungus, identifying 62 proteins associated with the septum. Of these, 23 proteins are involved in septal pore plugging upon hyphal wounding.

IFT-A plays crucial roles in bidirectional ciliary transport, vital for cilia biogenesis and signaling. Here, Ma et al. report the IFT-A structure in two distinct states and unveil the assembly mechanism of IFT-A into the anterograde train.

Henipaviruses such as Nipah virus (NiV) cause severe encephalitis with high fatality rates in humans. NiV fusion (F) glycoprotein is a key target of the host immune response. Here, Byrne et al. isolate ten neutralizing antibodies against NiV prefusion F and provide a structural analysis of the antibodies and defined eight neutralization-sensitive epitopes on NiV F.

Bacteria can use extracellular contractile injection systems (eCISs) to inject toxic proteins into eukaryotic cells. Here, Vladimirov et al. provide evidence that the main role of eCISs in Streptomyces is not to attack other species, but to modulate the complex Streptomyces developmental process.

Drug resistance to current antimalarials is rising and new drugs and targets are urgently needed. Here the authors identify Plasmodium falciparum acyl-CoA synthetase 10 as a new target whose inhibition leads to a decrease in triacylglycerols.

Cryptosporidium parvum virus 1 is a virus harbored by the pathogenic protozoan Cryptosporidium parvum, and whose role in parasite biology and host interactions remains unclear. Here, Deng et al. demonstrate the impact this virus has on host response and infection outcome.

Takano et al. show that heterologous booster by SARS-CoV-2 recombinant spike protein vaccine recalls a more sustained and broader anti-spike receptor-binding domain antibody response compared to homologous booster by mRNA vaccine.

Escherichia coli is a human pathogen and a member of the healthy microbiota. Here, using samples from children of low and middle-income living in sub-Saharan Africa and south Asia countries, the authors characterize the genomic landscape of non-diarrheagenic fecal E. coli, finding similarities to diarrheagenic pathotype E. coli.

Continuous monitoring of SARS-CoV-2 variant properties is important for public health planning. Here, the authors use data from the United States and show that Omicron BA.4/5 subvariants, which became dominant in mid-2022, have stronger immune escape properties, but are no more severe, than the previously dominant BA.2.

In this paper, the authors use hydrogen-deuterium exchange mass spectrometry to describe how the SARS-CoV-2 spike glycoprotein has evolved its structural dynamics features and receptor binding capability from the emergence of the original Wuhan isolate to the recent omicron variant. The findings reported shed light on the evolution of SARS-CoV-2 in the human population and the mechanisms of emergence of new variants.

Here, the authors report a live chimeric DENV2/4 EDII virus, encoding DENV2 and DENV4 neutralizing epitopes, that replicates efficiently in primates and simultaneously elicits neutralizing DENV2 and DENV4 type-specific antibodies, providing domain-specific diagnostic reagents and simplified vaccine strategies.

This study investigates the average genome size of planktonic prokaryotes across tropical and polar oceans and down to the hadal realm. Using hundreds of metagenomes of marine microorganisms, genome size was found to be highest in the perennially cold polar ocean, suggesting that environmental factors influence genome size selection and the ecological strategies of marine microbes.

Nigeria has a high burden of malaria which mostly results from Plasmodium falciparum infection, but other species are also endemic. Here, the authors estimate the prevalence of active infection and previous exposure to P malariae, P ovale, and P vivax in children in Nigeria in 2018 and determine risk factors.

Maternally inherited symbionts that kill male insect hosts are well known in bacteria, but are also beginning to be recognised in viruses. In this study, the authors identify a gene from a symbiotic virus genome that is responsible for the male-killing phenotype of this virus in the fly Drosophila biauraria.

The Karijolich laboratory describes an atlas of A-to-I RNA editing during the KSHV lifecycle in primary effusion lymphoma. These analyses identified conserved editing events within a viral-encoded microRNA, revealing a critical role for the microRNA and its modification in virus infection.

Here, the authors comparatively analyze the impact of three successful clinical preventive interventions against NEC in preterm, VLBW infants and demonstrate a major impact of especially probiotic-based strategies on the development and maturation of the gut microbiome.

Surveillance of respiratory pathogens in air may improve understanding of indoor transmission risks but impacts of context-specific factors on pathogen abundance are not well understood. Here, the authors investigate factors associated with 29 respiratory pathogens through surveillance of 21 community settings in Belgium.

Lassa virus vaccination is impeded by the limited capacity of vaccine candidates to induce rapid protection. In this study, the authors found that a single shot of a measles-based Lassa vaccine protected nonhuman primates 16 or 8 days after vaccination.

Waning protective efficacy of mRNA-based booster vaccinations has been observed against newly emerging SARS-CoV-2 variants of concern. In this work, Pavot et al. formulate a monovalent Beta vaccine and demonstrate durable cross-neutralising antibody responses in non-human primates, against a spectrum of variants.

Newcastle disease virus (NDV) belongs to Paramyxoviridae and encodes a large protein (L) and phosphoprotein (P) for viral RNA synthesis. Here the authors present cryo-EM structures of the L-P complex, and propose a model of how RNA initiation/elongation alternates during viral RNA synthesis.

Raspha et al. apply proteomics and different microscopy approaches to investigate the role of ubiquitination in the lifecycle progression of Plasmodium berghei. They describe the location and function of proteins linked to the conserved SKP1/Culin1/FBXO1 complex (SCF) – a member of the cullinRING E3 ligases (CRLs).

Arboviruses and symbiotic viruses can be paternally transmitted by male insects to their offspring, but the mechanism remains largely unknown. Here, the authors identify the sperm-specific serpin protein HongrES1 of the leafhopper Recilia dorsalis as a mediator of paternal transmission of the reovirus rice gall dwarf virus and of a previously undescribed symbiotic virus of the Virgaviridae family, Recilia dorsalis filamentous virus, via direct binding of virions to leafhopper sperm surfaces and subsequent paternal transmission via interaction with both viral capsid proteins.

Here, the authors provide a longitudinal genetic surveillance of the antimicrobial resistance potential of the human oral microbiome in the first decade of life, revealing a dynamic environment altered by tooth decay with the increasing potential to mobilize genes as children grow.

Intrahepatic cholestasis of pregnancy (ICP) is a liver disease that sometimes develops during pregnancy and is characterized by increased serum bile acid levels. Here the authors report that the gut microbiome species B. fragilis is enriched in patients with ICP and promotes ICP development in mice via inhibition of signalling though the bile acid receptor FXR.

Whilst SARS-CoV-2 mRNA vaccines have demonstrated efficacy in reducing infection severity, research has shown that SARS-CoV-2 infection is associated with new autoantibodies. Whether this would also be observed during mRNA vaccination is unclear. Here, the authors use an autoantibody screening platform to monitor autoantibody responses in a diverse cohort during vaccination.

This study investigates the protection provided by mRNA COVID-19 vaccine booster doses against Omicron-associated severe disease in adults aged 50 and older. The authors use data from Ontario, Canada, and find that booster doses provide strong protection but that it declined during the period of BA.4/BA.5 predominance.

SARS-CoV-2 infection can lead to varied post-acute symptoms in the lungs and other organs, including the gastrointestinal system. Here the authors estimate the risks and 1-year burdens of a set of pre-specified incident gastrointestinal outcomes following SARS-CoV-2 infection in an electronic health care record-based cohort study.

Foamy viruses are ancient retroviruses that are prevalent in non-human primates. Fernández et al. report an X-ray structure of a protein domain from a simian Foamy virus that mediates the attachment to cells, providing insights into viral entry.

Salmonella typhimurium translocates numerous effectors via its type III secretion system. Here, Göser et al. present a characterisation of selected proteins and their dynamic interaction with Salmonella-containing vacuoles and – induced filaments.

HIV maturation inhibitors such as bevirimat (BVM) interfering with Gag processing are emerging as alternative anti-retroviral drug candidates. Here, the authors report structures of assemblies of HIV-1 Gag fragments spanning the CA C-terminal domain and SP1 region bound to BVM.

Cyanobacteria mutants with improved tolerance to combined high light and high temperature (HLHT) are rarely reported. Here, the authors use a hypermutation system for adaptive laboratory evolution and identify a mutant with improved HLHT tolerance by enhancing expression of shikimate kinase.

Microtubules are a ubiquitous eukaryotic cytoskeletal element typically consisting of 13 protofilaments arranged in a hollow cylinder. Using CryoEM and subvolume averaging, Ferreira and Pražák et al. show that Plasmodium does not adhere to a single microtubule structure. Instead, the cytoskeleton changes substantially to produce a unique, fit for purpose structure and organisation at each stage of its life cycle.

Arastehfar et al. show that macrophage-engulfed cells of fungal pathogen Candida glabrata exhibit multidrug tolerance and increased survival in the presence of cidal antifungal drugs, forming a reservoir from which drug-resistant mutants emerge

It has been proposed that bacterial membrane proteins may be produced via ‘transertion’, or concurrent transcription, translation and membrane insertion from membrane-associated genes. Here, Kaval et al. provide evidence supporting that Vibrio parahaemolyticus uses transertion to assemble a transmembrane complex (type III secretion system) used to inject virulence factors into host cells.

Here, the authors study the population-level impact of antimicrobial resistance genes (ARGs). By analyzing 8972 metagenomes and 3,096 gut microbiomes from healthy individuals not taking antibiotics, they demonstrate significant correlations between both the total ARG abundance and diversity and per capita antibiotic usage rates across ten countries spanning three continents. Using a collection of 154,723 human-associated metagenome assembled genomes (MAGs) they link these ARGs to microbial taxa and horizontal gene transfer.

Vibrio cholerae has undergone continuous evolution, and differing strains have caused numerous outbreaks. Here, the authors present a genomic study of Vibrio cholerae O1 responsible for a 2022 outbreak in Dhaka.