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Cohabitating people share about a quarter of their gut and oral microbiota

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People who live together share more oral and gut microbes with each other than with other people in their communities, according to a study published June 15, 2026, in the Cell Press journal Cell Press Blue . This was true regardless of the cohabitants’ relationships—siblings, parents, and offspring all shared similar numbers of microbial strains, and romantic partners shared even more oral (but not gut) microbes with each other, likely due to kissing. The research, covered in NPR, Gizmodo , and IFLScience , also found a link between more transmissible microbes and health, particularly type 2 diabetes. The findings could help design more targeted therapies for improving people’s microbiomes.   

Ecological and Functional Succession of the Microbial Community during Pit Mud Maturation in Nongxiangxing Baijiu

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Abstract Pit mud (PM) microbiota play a vital role in Baijiu flavor formation, yet its ecological and functional succession during maturation remains incompletely elucidated. Here, physicochemical profiling, amplicon sequencing, and metagenomics were integrated to investigate 5-, 15-, and 30-year PM of Sichuan Tang Dynasty Laojiao cellars. Bacteria dominated the community (82.59%), followed by Archaea (16.99%), with Lactobacillus acetotolerans, Ruminococcaceae CPB6, and Methanobacterium paludis as major species. Discrepancies between sequencing methods were reflected in fungal taxa which had low-abundance. The 15-year PM exhibited distinct community and functional features, indicating a critical transitional stage. Functional analysis revealed that fermentation-relevant functions were mainly contributed by 7 key genera and 5 species. Physicochemical properties changed with pit age, characterized by increased moisture as well as decreased acidity and humic substance levels. Moisture,...

Gut commensal Bacteroides-derived pantothenic acid alleviates metabolic syndrome

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Highlights • Microbial pantothenic acid (PA) supply is reduced in individuals with MetS • panC enables B. fragilis to supply PA to the colonic microenvironment • B. fragilis PA biosynthesis preserves the gut barrier and alleviates MetS • Microbial PA sustains KLF4 via the PANK2/3-CoA axis to support differentiation

Interbacterial Antagonism Mediates Plant Growth Modulation by Rhizosphere Synthetic Communities in Barley

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Highlight • Bacterial isolates showed positive or negative effects on barley growth. • GR effects were neutralized by GP and NA isolates in SynCom. • GP isolates suppressed GR via contact-dependent T6SS activity. • Cytokinin produced by GP/NA; Variovorax degraded IAA. • Root microbiome shaped by fertilization and season, not inoculation.

Disruption of a major facilitator superfamily transporter responsible for acetic acid efflux, increases the virulence of the insect pathogenic fungus Metarhizium rileyi

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Highlights • Deficiency of MrMFS1 was confirmed to underlie to the accelerated growth. • No morphological or physiological alterations were observed upon deletion of MrMFS1 . • The deletion mutant exhibits enhanced stress tolerance and insecticidal activity. • MrMFS1 mediates the proton-coupled efflux of acetic acid.

Predicting antimicrobial resistance for precision medicine

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Summary Antibiotics are among medicine’s greatest successes, but resistance evolution threatens their continued efficacy. Decades of research have deepened our understanding of the mechanisms and evolutionary dynamics of antimicrobial resistance. More recently, advances in machine learning (ML) and artificial intelligence (AI) show promise in predicting antimicrobial resistance in pathogens based on rapid whole-genome sequencing and other accessible data. In this perspective, we highlight advances in understanding the mechanisms and spread of antimicrobial resistance. We discuss how this knowledge, coupled with ML- and AI-based approaches, can inform the prediction of resistance and a precision-medicine strategy that targets pathogenic bacteria specifically, thereby limiting resistance evolution and collateral damage to the microbiome. These accurate predictions of bacterial vulnerabilities will enable the adaptation of classical antimicrobial treatments with adjuvants, as well as the ...

Genome-Based Taxonomy and Provirus Identification in Halococcus from Hypersaline Environments

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Highlights • Halococci differ from other haloarchaea by their thick cell wall structure. • Currently no viruses are known to infect Halococci. • Seven novel Halococcus strains were characterized and the genomes sequenced. • The novel Halococcus strains contain predicted anti-viral defence mechanisms. • Detected proviruses indicate that Halococci are infected by viruses in nature.