| Description | Ala-MPSD TFA is a control peptide for MPSD (HY-P10471). In Ala-MPSD TFA, the four serine residues of MPSD are substituted by alanines[1] | Amyloid β-Protein (3-42) TFA is a precursor of Pyr peptide. Pyroglutamic acid-modified Aβ (pEAβ) (3-42) is the core of the amyloid plaque in Alzheimer's disease. pEAβ (3-42) accelerates the aggregation of Aβ(1-42), while Aβ(1-42) significantly slows down the primary andAmyloid β-Protein (3-42) TFA is a precursor of Pyr peptide. Pyroglutamic acid-modified Aβ (pEAβ) (3-42) is the core of the amyloid plaque in Alzheimer's disease. pEAβ (3-42) accelerates the aggregation of Aβ(1-42), while Aβ(1-42) significantly slows down the primary and secondary nucleation of pEAβ(3-42)... Read More | Apo-Bovine Transferrin refers to iron free Transferrin (HY-P3267), serves as Transferrin receptor ligand and mediates iron release from endothelial cells. Apo-Transferrin indicates an iron deficient environment, can directly bind to hephaestin, which can convert Fe2+ to Fe3+. Apo-Transferrin Apo-Bovine Transferrin refers to iron free Transferrin (HY-P3267), serves as Transferrin receptor ligand and mediates iron release from endothelial cells. Apo-Transferrin indicates an iron deficient environment, can directly bind to hephaestin, which can convert Fe2+ to Fe3+. Apo-Transferrin mediates iron efflux most likely in cooperation with ferroportin 1[1]... Read More | Gramicidin is an antimicrobial peptide assembling as channels in membranes and increasing their permeability towards cations | Lysozyme (Muramidase) is a conserved antimicrobial protein. Lysozyme exerts its bactericidal effect by hydrolyzing bacterial cell wall peptidoglycan (PG). Lysozyme plays an important role in limiting bacterial growth on mucosal surfaces and other sites, not only controlling potential pathogens but Lysozyme (Muramidase) is a conserved antimicrobial protein. Lysozyme exerts its bactericidal effect by hydrolyzing bacterial cell wall peptidoglycan (PG). Lysozyme plays an important role in limiting bacterial growth on mucosal surfaces and other sites, not only controlling potential pathogens but also limiting overgrowth of microbiota to prevent dysbiosis. Extracellular lysozyme can also degrade polymeric PG into soluble fragments, activate NOD receptors in mucosal epithelial cells, and lead to the secretion of chemokines and activating factors by neutrophils and macrophages[1][2]... Read More |