Saint Louis University’s Protein Core is a shared-use core facility that supports expression, purification and analysis of reagent and preclinical proteins. The core provides instrumentation and ...

In academic and industrial protein research, speed, accuracy, and accessibility are essential. After purifying proteins using ...

Making proteins for research or therapies often starts with cell-line development. In many applications, genetic engineering is used to optimize a cell line for producing high levels of the intended ...

The Expi293™ PRO Expression System is a high-performance transient HEK293 mammalian protein expression platform designed to help researchers express more proteins faster, at higher yields, and with ...

Human genes are written in long strings of three-letter units composed of four different nucleotides. These units—or ...

As artificial intelligence and machine learning increasingly shape the design and optimization of therapeutic protein candidates, researchers require expression ...

To enhance CAR T therapies, scientists are actively studying TCR signaling and T-cell exhaustion mechanisms to improve CAR T persistence and function. Additionally, there is a growing trend towards ...

Two parallel experiments in protein self-assembly produced strikingly different results, demonstrating that protein designers ...

Advanced proteomics and AI reveal blood protein changes, offering insights into early Alzheimer's detection and ...