Efficient Biochemical Method for Characterizing and Classifying Related Amyloidogenic Peptides.

Amyloidosis is a group of proteinopathies characterized by the systemic or organ-specific deposition of proteins in the form of amyloid fibers. Nearly 40 proteins play a role in these pathologies, and the structures of the associated fibers are beginning to be determined by Cryo-EM. However, the molecular events underlying the process, such as fiber nucleation and elongation, are poorly understood, which impairs developing efficient therapies.

Hsp90 directly interacts, in vitro, with amyloid structures and modulates their assembly and disassembly.

Background: The 90kDa heat shock protein (Hsp90) participates in regulating the homeostasis of cellular proteins and was considered one of the key chaperones involved in the control and regulation of amyloid deposits. Hsp90 interacts with the amyloid protein tau through tau aggregation-prone regions, including the VQIVYK hexapeptide motif. This hexapeptide, which self-aggregates, forming amyloid fibrils, is widely used to model amyloid formation mechanisms.

MetAmyl: a METa-predictor for AMYLoid proteins.

The aggregation of proteins or peptides in amyloid fibrils is associated with a number of clinical disorders, including Alzheimer's, Huntington's and prion diseases, medullary thyroid cancer, renal and cardiac amyloidosis. Despite extensive studies, the molecular mechanisms underlying the initiation of fibril formation remain largely unknown. Several lines of evidence revealed that short amino-acid segments (hot spots), located in amyloid precursor proteins act as seeds for fibril elongation.

AMYPdb: a database dedicated to amyloid precursor proteins.

Background: Misfolding and aggregation of proteins into ordered fibrillar structures is associated with a number of severe pathologies, including Alzheimer's disease, prion diseases, and type II diabetes. The rapid accumulation of knowledge about the sequences and structures of these proteins allows using of in silico methods to investigate the molecular mechanisms of their abnormal conformational changes and assembly. However, such an approach requires the collection of accurate data, which are inconveniently dispersed among several generalist databases.

Pore selectivity analysis of an aquaglyceroporin by stopped-flow spectrophotometry on bacterial cell suspensions.

Background information. Transport of water and small neutral solutes across plasma membranes is facilitated by AQP (aquaporin) and aquaglyceroporin channels, which belong to the MIP (major intrinsic protein) family. So far, more than 800 MIP proteins have been identified on the basis of sequence homology, but only less than 10% of them have been functionally characterized.