Our large collection of ß-Amyloid (1-42) peptides includes:
Native sequences – human and mouse/rat sequences (unless otherwise specified, sequences are human in origin)
Single or multiple amino acid substitution sequences, e.g. S26C
Biotin labeled sequences – N or C terminally labeled, with or without linker
Dye labeled sequences – HiLyte Fluor™ or classic dye labeled
ClearPoint™ heavy-isotope labeled sequences
Shorter sequences that end on the 42nd amino acid and analog
HFIP treated β-Amyloid (1-42)
ß-Amyloid (Aß) peptides are generated as cleavage products 39 to 43 amino acids in length from the membrane protein, Amyloid Precursor Protein (APP) by two proteases, β-secretase and γ-secretase.1-
Aßs are amphiphilic peptides with a hydrophilic N-terminal domain (residues 1 to 28) and a hydrophobic C-terminal (residues 29 to 40-42), the latter corresponding to a part of the transmembrane domain of APP.4 β-Amyloid assembly into fibrils is initiated by a conformational transition from random coil to β-sheet (hence the name β-amyloid) and a nucleation-dependent aggregation process.4 Aβ peptides that are 39 to 42 amino acid residues in length with a molecular mass of approximately 4 kDa are the core components of neuritic plaques seen in Alzheimer’s disease (AD) brains. The presence of excess amount of Aß deposits and neurofibrillary tangles, NFTs, 5-6 comprising of hyperphosphorylated Tau proteins are the hallmarks of an AD brain.1
Aβ (1-42), a major component of amyloid plaques, accumulates in neurons of Alzheimer’s disease (AD) brains. Biochemical analysis of the amyloid peptides isolated from AD brain indicates that Aβ (1-42) is the principal species associated with senile plaque amyloids, while Aβ (1-40) is more abundant in cerebrovascular amyloid deposit.7-8
1. Selkoe DJ. Nature 399, A23 (1999).
2. Suh, Y-H. and F. Checler, Pharmacol Rev 54, 469 (2002).
3. Kang, J. et al. Nature 325, 733 (1987).
4. Jarrett, JT. et al. Biochem 32, 4693 (1993).
5. Masters, CL. et al. EMBO J 4, 2757 (1985).
6. Braak, H. et al. Acta Neuropathol 87, 554 (1994).
7. Nagele, R. et al. Neurosci 110, 199 (2002).
8. Garzon-Rodriguez, W. et al. J Biol Chem 272, 21037 (1997).
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