The accurate determination of protein concentration is a foundational requirement in molecular biology, proteomics, and clinical diagnostics. Choosing the most appropriate protein quantification ...

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 ...

Research scientist Yosuke Tanigawa and Professor Manolis Kellis at MIT Computer Science and Artificial Intelligence Laboratory (CSAIL) have developed a novel methodology in human genetics to address ...

In a recent medRxiv* preprint manuscript, researchers from Singapore and the United States report the development of a digital CRISPR method for the sensitive, specific, and rapid detection of viral ...

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 ...

Quantitative polymerase chain reaction (qPCR) is a molecular technique that has reshaped the landscape of biological research and medicine due to its high sensitivity and specificity. qPCR, also known ...

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 ...

Precise protein quantification is a crucial step in workflows involving protein extraction, isolation, and analysis. Accurate knowledge of the concentration of your protein sample is essential for ...

Numerical simulations in physics often require estimating a multitude of parameters, making the process computationally ...