Catalog name Description price
R-M-1554 Tau (195-209) Heavy Amino acids 195-209 of tubulin-associated unit (tau). This region represents a tau tryptic peptide and is part of the core of the tau protein. Tau is a phosphoprotein involved in microtubule (MT) assembly and stability as well as brain development. Tau is phosphorylated at multiple sites by several protein kinases, including cyclic-AMP-dependent protein kinases and casein kinase type-1. Tau phosphorylation causes tau to change shape, negatively regulating its ability to stimulate MT assembly. Tau is also glycosylated, and O-glycosylation may have a role in its subcellular localisation and degradation. price>
R-M-1663 Tau Peptide (275-305) (Repeat 2 domain),CAS :330456-25-2 TAU proteins belong to the microtubule-associated protein (MAP) family and are involved in the pathogenesis of Alzheimer disease. In the human brain, there are six TAU isoforms ranging from 352 to 441 amino acids in length. These isoforms vary at the carboxyl terminal according to the presence of either three repeat or four repeat domains (R1-R4), in addition to the presence or absence of one or two insert domains at the amino-terminus . Tau Peptide (275-305) is a 31-amino acid long peptide derived from the Repeat 2 domain. price>
R-M-1793 Tat-NR2Baa,cas:847829-41-8  Tat-NR2BAA is the control peptide of Tat-NR2B9c (HY-P0117), inactive. The sequence of Tat-NR2BAA is similar to Tat-NR2B9c, but it has a double-point mutation in the COOH terminal tSXV motif, making it incapable of binding PSD-95. Tat-NR2B9c is a membrane-permeant peptide and disrupts PSD-95/NMDAR binding, correlate with uncoupling NR2B- and/or NR2A-type NMDARs from PSD-95. price>
R-M-1857 Tau protein (592-597), human TFA  Tau protein (592-597), human TFA is a peptide fragment of human Tau protein. The dysfunction of Tau protein is involved in neurodegeneration and dementia. price>
R-M1-8775 M1 peptide(GILGFVFTL) The GILGFVFTL sequence represents a T-cell epitope, meaning it can bind to major histocompatibility complex (MHC) molecules and be recognized by T-cell receptors. This interaction between the M1 peptide and MHC molecules helps activate immune responses, including the production of cytotoxic T cells that can target and eliminate virus-infected cells. price>