Why is it important to study bacteria? Pseudomonas aeruginosa is a bacterial strain that can be responsible for several human diseases: the most serious include malignant external otitis, ...

Microfluidic biosensing technologies enable swift identification of pathogenic bacteria, crucial for timely intervention in ...

Fabrication and characterization of plasmonic membrane. Schematic representation of the plasmonic fidget spinner (P-FS) used for the isolation and digital detection of bacteria through SERS mechanism.

Why is it important to study bacteria? Pseudomonas aeruginosa is a bacterial strain that can be responsible for several human diseases: the most serious include malignant external otitis, ...

In a recent study published in BMC Microbiology, researchers developed the Novel Organism Verification and Analysis (NOVA) algorithm to systematically analyze bacterial isolates unidentified using ...

Researchers identify live bacteria within calcium kidney stones, raising new questions about stone formation and suggesting new targets for prevention and treatment.

Metagenomic analysis of vaginal microbiota at delivery outperforms traditional screening methods in identifying newborns at ...

Complete the form below to access this streamlined workflow for microbial characterization! From efficient library preparation to scalable sequencing and intuitive data analysis, Oxford Nanopore has ...

Opportunistic infections can contribute to antimicrobial resistance making these infections more severe than would occur otherwise. Some uninvolved pathogens that cause these infections possess ...