BAX GST Tagged Escherichia coli – Apoptosis Regulator Protein is a proapoptotic protein, belonging to the B-cell lymphoma 2 (BCL2) protein family, renowned for its role in cell death processes. This particular version of the BAX protein is further characterized by its GST tag and is expressed in Escherichia coli; offering a high level of specificity in scientific and pharmaceutical applications.
A valued resource in the study and development of drugs, chemicals, and other compounds; it delivers relatability, quality, and effectiveness for diverse industry verticals.
Immerse yourself into groundbreaking research with the BAX GST Tagged Escherichia coli - a potent apoptosis regulator protein reputable for its key role in biological studies. More than just an apoptosis activator, this protein is an integral part of the widely recognized B-cell lymphoma 2 (BCL2) protein family.
This proapoptotic protein, expressed in the highly trustworthy Escherichia coli system, serves as a prime mechanism in orchestrating cellular death, a fundamental part of maintaining cellular equilibrium and exterminating cells during disease progression. It aids researchers to delve into unresolved aspects of disease pathways and potential curative measures.
Expressed in the state-of-the-art Escherichia coli system, the BAX GST Tagged protein is optimally ready for extensive laboratory procedures. Escherichia coli expression system promises not only substantial yield of the protein, but also ensures easy cultivation and uncomplicated purification workflows.
Marked with a unique CAS number - 480064-98-0, the BAX GST Tagged Escherichia coli assures scientific reproducibility and the highest degree of reliability, paving the way for error-free experimental outcomes.
Explore the unlimited scope of research possibilities with the BAX GST Tagged Escherichia coli. Let its superior quality and reliability be the driving force behind your in-depth explorations into apoptosis and beyond, reminding us of the incomparable influence of the minutest biological components in unveiling the world's most profound biological enigmas.