Control the potential of your research with our selection of bioactive proteins, peptides, and receptors. Explore our catalog, featuring mouse nerve growth factor (NGF), toxins (Saporin), A1 and 2 bovine beta casein, and receptor body chimeras (Fc-Fusion proteins) designed for inhibition experiments. For Alzheimer's Disease (AD) research, we provide oligomerized amyloid beta as a crucial control. Enhance your experiments with our immunohistochemically tested blocking peptides.
Our portfolio also includes a wide range of high-quality recombinant proteins available in human, mouse, and rat species. Our recombinant proteins are produced using yeast expression systems, ensuring high yields and consistent quality, making them ideal for applications in cell signaling, immunology, neuroscience and beyond. Our recombinant options - such as cytokines, growth factors, enzymes, and transcription factors - provide reliable tools to advance your discoveries with precision and reproducibility.
Human Proteins
A range of proteins expressed in yeast for studying cellular growth and immunology.
Mouse Proteins
Expressed in yeast to guaranteed product quality and consistency.
Rat Proteins
Discover high quality recombinant proteins expressed in yeast for precise research needs.
Proteins
Native proteins are isolated in their natural, biologically active form, while recombinant proteins are produced through generic engineering in host cells. Available in mouse, human, and rat species, these proteins are vital tools for research, diagnostics, and therapeutics, supporting the development of targeted treatments.
Peptides
Peptides are short chains of amino acids that serve as versatile tools in biological research, therapeutics, and diagnostics. Our Amyloid Beta Oligomeric Stabilized and HFIP-Treated Purified peptides deliver high quality, consistent tools for studying Alzheimer's-related disease models.
Small Molecules
Small molecules are low molecular weight compounds that can easily enter cells to influence specific biological processes. Our LRRK2-IN-1 is a potent, selective inhibitor of the LRRK2 kinase, making it an essential tool for studying Parkinson's disease and related neurodegenerative disorders.
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