Morgan Hiebert (left) studies drug-resistant tuberculosis within the National Reference Centre for Mycobacteriology (Winnipeg, Manitoba) led by Hafid Soualhine, situated in the National Microbiology ...

These kits have been designed for the isolation of total RNA from a range of samples, including cells, bacteria, yeast, viruses, and bodily fluids, including plasma/serum, blood, saliva, CSF, and more ...

Membraneless organelles (MLOs), also known as “biomolecular condensates,” are formed by the biological process of liquid-liquid phase separation (LLPS). MLOs are highly dynamic bodies containing ...

Real-time PCR (qPCR) analysis has become the method of choice for quantitating DNA in a wide variety of applications. The availability of commercial kits has made the technique easy to perform, ...

Membraneless organelles in cells contain high concentrations of semi-extractable RNAs, which could serve as potential biomarkers and drug targets. However, the identification and characterization of ...

Scientists have optimized a protocol to achieve a higher quantity and quality of isolated RNA from mangrove root tissues rich in secondary metabolites. The secondary metabolite content in mangrove ...

Transcriptomics represents a critical discipline in cancer research, enabling comprehensive mapping of gene expression profiles and the identification of fusion genes implicated in tumor development.

The answer depends on the questions you’re trying to answer, as well as the origin, quantity, and quality of your samples. In this article, we’ll briefly discuss several RNA-seq workflows, how they ...

Inside cells, RNAs and proteins form tiny, liquid-like droplets called biomolecular condensates. These droplets are essential for organizing cellular life, yet why some RNAs cluster more readily than ...