The study highlights genes that, when silenced, render Mycobacterium tuberculosis vulnerable to antibiotics, and identifies existing drugs that may be effective against one prominent strain.
Linker histone H1 appears capable of distinguishing between single-stranded and double-stranded DNA, suggesting that its role in maintaining our genomes extends far beyond that of keeping chromosomes compact.
The compound attacks MRSA, C. diff, and several other deadly pathogens. Its discovery demonstrates the power of combining computational biology, genetic sequencing, and synthetic chemistry to study bacterial evolution.
A mutated gene may explain why some Staphylococcus aureus infections turn lethal, a finding with significant implications for people living with 5p- syndrome.
Unlike conventional antiretroviral drugs, treatment with broadly neutralizing antibodies does not rely on vigilant daily dosing and could potentially reduce the body’s reservoir of latent viruses.
Birsoy's groundbreaking research has highlighted key nutrients that cancer cells need to survive, while shedding light on debilitating mitochondrial diseases and rare genetic disorders.