Leave message Can’t find what you’re looking for? Fill out this form to inquire about our custom protein services! Inquire about our Custom Services >>
Explore our series of high-quality proteins covering comprehensive diagnostic indicators in order to facilitate the in vitro diagnostic research of neurological diseases.
Pre-formed fibrils are an invaluable preclinical model for exploring pathogenesis of neurological diseases through aggregation of misfolded proteins. Explore our pre-seeded PFFs to use in your research.
Neural factors are a class of protein molecules with neurotrophic activity that can promote the survival and regeneration of nerve cells. Explore our series of recombinant neural factors to support the culture and differentiation of nerve cells.
Partnering with Biochips de diagnóstico, we now provide solutions for in vivo electrophysiology recordings, including high-quality multi-channel electrodes and other products to facilitate high-quality, efficient analysis of neural circuit structure and function.
Neural antibodies can specifically label and recognize molecules on nerve cells, enabling a more comprehensive understanding and study of the biological properties, functions, and mechanisms of nerve cells in neurodegenerative diseases.
Covering iPSC neural cells, brain organoids, and microelectrode array services, our tools support neural development, disease modeling, and drug screening with high quality and reliable performance to meet diverse research needs.
Los marcadores de proteínas son un componente esencial en la investigación biológica y el desarrollo de fármacos. Ya sea para electroforesis de proteínas o western blot (Mancha Occidental), nuestros marcadores de proteínas teñidos previamente le ayudan a determinar rápidamente el peso molecular de la proteína objetivo o a evaluar la eficacia de la transferencia.
La estreptavidina es una proteína tetramérica que proporciona 4 sitios de unión de biotina de alta afinidad. Ofrecemos una amplia gama de productos preconjugados con estreptavidina para apoyar su investigación, así como proteínas biotiniladas.
El ajuste del anticuerpo de control de isotipo correspondiente para detectar la unión no específica puede reducir la generación de resultados falsos positivos y evaluar los posibles factores de influencia con precisión en el proceso de desarrollo de fármacos. Explore nuestros controles de isotipo para su investigación.
La eficacia de un anticuerpo terapéutico depende del fragmento Fab y de su actividad de unión al antígeno objetivo, pero también depende del fragmento Fc y de su interacción con receptores Fc clave, por lo que los candidatos deben probarse frente a un panel de receptores durante la ingeniería de anticuerpos. ¡Explore nuestra amplia colección de proteínas recombinantes del receptor Fc!
Nos comprometimos a acelerar la investigación, el desarrollo, la aprobación y la comercialización de vacunas contra enfermedades infecciosas. Con esta idea, ViruStop está especialmente diseñado para la investigación de virus
¡Disponemos de anticuerpos antígeno-específicos o neutralizantes para su investigación! ¡Si desea realizar ensayos de neutralización o evaluar títulos de anticuerpos, explore nuestro catálogo de anticuerpos!
¡En lugar de desarrollar sus propios ensayos, explore nuestros kits y ensayos diseñados para cuantificar rápidamente la presencia de antígenos o el título de anticuerpos!
* We couldn't find what you're looking for. You can let us help by filling the form below. Our
tech team will get back to you shortly.
* This form is only used to collect product demand consultation. All the information
will be kept strictly confidential.
Synonym Name
Glycoprotein
Background
Hendra virus (HeV) and Nipah virus (NiV) are henipaviruses discovered in the mid-to late 1990s that possess a broad host tropism and are known to cause severe and often fatal disease in both humans and animals. HeV and NiV infect host cells through the coordinated efforts of two envelope glycoproteins. The G glycoprotein attaches to cell receptors, triggering the fusion (F) glycoprotein to execute membrane fusion. G is a type II homotetrameric transmembrane protein responsible for binding to ephrinB2 or ephrinB3 (ephrinB2/B3) receptors. F is a homotrimeric type I transmembrane protein that is synthesized as a premature F0 precursor and cleaved by cathepsin L during endocytic recycling to yield the mature, disulfide-linked, F1 and F2 subunits. Upon binding to ephrinB2/B3, NiV G undergoes conformational changes leading to F triggering and insertion of the F hydrophobic fusion peptide into the target membrane. Subsequent refolding into the more stable post-fusion F conformation drives merger of the viral and host membranes to form a pore for genome delivery to the cell cytoplasm.
Clinical and Translational Updates
This web search service is supported by Google Inc.