Unlocking the world of bacteria Novel approach to DNA transformation and genetic mutation of bacteria Date: June 26, 2024 Source: Helmholtz Centre for Infection Research Summary: Bacteria possess ...

That’s because mEnrich-seq leverages bacteria’s natural DNA methylation motifs—the signatures built into bacterial DNA that differentiate various strains.

These protective systems mark the bacterial genome with a unique methylation pattern and destroy incoming foreign DNA lacking this pattern.

DNA methylation is a widely studied epigenetic modification with crucial roles in gene regulation, development, and disease, particularly in cancer. It has immense potential as a biomarker for early ...

Prokaryotic DNA contains three types of methylation: N6-methyladenine, N4-methylcytosine and 5-methylcytosine. The lack of tools to analyse the frequency and distribution of methylated residues in ...

DNA and RNA methylation, initially thought to operate as distinct pathways, have been shown to interact closely, shifting our understanding of gene regulation. A team of researchers from the ...

Horizontal gene transfer Another form of DNA methylation, 6mA, was erroneously reported by other researchers in several organisms before its detection was traced to bacterial contamination.

The natural epigenetic barcodes in bacteria give us a unique way to solve this problem. Even though different species and strains have similar genomes, they often encode different DNA ...

Horizontal gene transfer Another form of DNA methylation, 6mA, was erroneously reported by other researchers in several organisms before its detection was traced to bacterial contamination.

DNA methylation in bacteria, primarily involving the addition of methyl groups to adenine or cytosine residues, constitutes a pivotal epigenetic mechanism that modulates gene expression without ...