Elucidating information about proteins present in biological samples is vital for scientists working in the field of life sciences. Whilst qualitative data can tell us which proteins are present in a ...

Modern DNA/RNA sequencing technologies, known generally as “next-generation sequencing” (NGS) technologies, allow us to decode nucleic acid sequences in high throughput; therefore, much faster and ...

The last two decades have witnessed the steady growth of the protein drug market. As original recombinant products come off patent, generics/ biosimilars are also beginning to be manufactured. The ...

Digital PCR, or dPCR, is a molecular biology technique that detects and quantifies nucleic acid targets. By partitioning a sample into many individual reactions, scientists can measure whether a ...

The core principle of BETMAT’s Kinetic Chromogenic LAL Assay is based on the specific enzymatic cascade triggered by the interaction between Limulus Amebocyte Lysate (LAL) and bacterial ...

As the need for more sensitive and precise molecular quantification grows across translational research, diagnostics, and therapeutic development, conventional PCR workflows can fall short. Detecting ...

Uncertainty quantification (UQ) is a field of study that focuses on understanding, modeling, and reducing uncertainties in computational models and real-world systems. It is widely used in engineering ...

Research is the backbone of society's progress. Without it, there would be no new drugs, tech, etc. Basically, every trace of human progress could grind to a halt. However, research is only as good as ...