Escherichia coli remains at the forefront of recombinant protein production, owing to its rapid growth, well-characterised genetics and the ease with which it can be genetically manipulated. The ...

The concept of a ‘plasmid’ was first introduced by Joshua Lederberg in 1952. Since that time, it has become widely recognized as a circular DNA able to viably function as a carrier for introducing a ...

Proteins are bio-macromolecules with a range of functionalities as a result of complex higher-order structures. As the end product of the “central dogma” in biology, proteins are considered the key ...

The cost-effective, easy-to-use T7 expression system has been integral to Escherichia coli protein production since its introduction in 1986. Now, a just-developed enhancement is making it even better ...

Expressing recombinant proteins is one of the most challenging, but at the same time most important tasks in the life sciences. Irrespective of the specific protein and the downstream applications, ...

The Recombinant Protein Production and Characterization (RPPC) Core is an Institutional Advanced Technology Core available to all Baylor College of Medicine investigators on a fee-for-service basis.

A genome engineering-based systematic strategy for developing phage resistant Escherichia coli strains has been successfully developed. A genome engineering-based systematic strategy for developing ...

Tsukuba, Japan—Recombinant protein production for pharmaceuticals and other applications often involves infecting plants with bacteria carrying specific genes to accumulate desired proteins in plants.