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Organic Acid-Based Deep Eutectic Solvents (DESs) are Potent Antimicrobial Agents Against Antibiotic-Resistant Bacteria and Viruses

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Highlights • Organic acid-based DESs act against colistin- and methicillin-resistant strains. • T-glycoline–nanoparticle mix enhances activity against MRSA. • Organic DESs eliminate mature biofilms and damage bacterial cells. • T-glycoline and oxaline reduce titres of enveloped and non-enveloped viruses. • Nanoparticles enhance the safety of DESs.
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Targeting Cyclic di-AMP Signaling through Diadenylate Cyclase Inhibition Reduces Methicillin Resistance in Clinical MRSA Isolates

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HIGHLIGHT • Cyclic-di-AMP is a non-canonical driver of methicillin resistance in MRSA • Sub-MIC methicillin and biofilms elevate c-di-AMP via DacA upregulation • Elevated c-di-AMP activates STING and skews macrophage responses • FDA approved drugs Tropinone and eucalyptol identified as DacA inhibitors • DacA inhibition restores β-lactam susceptibility in MRSA
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Integrated omics reveal a unique antibacterial mechanism of action for the small molecule HSI#6

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Highlights • HSI#6 is a rapid, micromolar, broad-spectrum bacteriostatic agent. • Triggers immediate, multi-pathway cell envelope stress responses. • Drives temporal omics reprogramming toward metabolic shutdown. • Shows transcriptomic similarity to ionophores yet a distinct MOA. • Exhibits low resistance evolution with compensatory topA mutations.
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Nutrient-Driven Small-Colony Variants as an Adaptive Outcome in Carbapenem-Resistant Acinetobacter baumannii

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Highlights • Vitamin B12 induces stable small-colony variants (SCVs) in CRAB. • SCVs exhibit reduced cefiderocol killing and regrowth. • Mutations affect iron uptake, envelope structure, and metabolism. • Co-exposure enriches SCVs with siderophore and BfmRS changes. • Nutrients modulate antibiotic efficacy and persistence in CRAB.
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Mutations in the superoxide-responsive regulator SoxR confer fluoroquinolone resistance in Stenotrophomonas maltophilia

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Highlights • soxR mutations cause constitutive activation of SmeVWX and MfsA efflux pumps. • Mutations in soxR confer resistant to levofloxacin, a drug option for S. maltophilia. • Single R49 substitution activates SoxR and drives multidrug resistance.
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Smolstatin1, a unique cystatin-like stefin of Sphaerospora molnari, is essential for parasite development

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Highlights • Smolstatin1 clusters with other myxozoan cystatin-like stefins • Smolstatin1 is upregulated during sporogony and localizes to cell compartments and parasite surface • Smolstatin1 inhibits host and parasite cysteine proteases, mainly cathepsin L • RNAi-mediated Smolstatin1 knockdown impairs parasite motility and alters cell morphology • Smolstatin1 crystallizes as an unusual domain-swapped dimer
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