Uversky / Lyubchenko | Bio-Nanoimaging | Buch | 978-0-12-394431-3 | sack.de

Buch, Englisch, 552 Seiten, Format (B × H): 222 mm x 282 mm, Gewicht: 1736 g

Uversky / Lyubchenko

Bio-Nanoimaging


Protein Misfolding and Aggregation

Buch, Englisch, 552 Seiten, Format (B × H): 222 mm x 282 mm, Gewicht: 1736 g

ISBN: 978-0-12-394431-3
Verlag: Elsevier Health Sciences

Bio-Nanoimaging: Protein Misfolding & Aggregation provides a unique introduction to both novel and established nanoimaging techniques for visualization and characterization of misfolded and aggregated protein species. The book is divided into three sections covering: - Nanotechnology and nanoimaging technology, including cryoelectron microscopy of beta(2)-microglobulin, studying amyloidogensis by FRET; and scanning tunneling microscopy of protein deposits - Polymorphisms of protein misfolded and aggregated species, including fibrillar polymorphism, amyloid-like protofibrils, and insulin oligomers - Polymorphisms of misfolding and aggregation processes, including multiple pathways of lysozyme aggregation, misfolded intermediate of a PDZ domain, and micelle formation by human islet amyloid polypeptide

Protein misfolding and aggregation is a fast-growing frontier in molecular medicine and protein chemistry. Related disorders include cataracts, arthritis, cystic fibrosis, late-onset diabetes mellitus, and numerous neurodegenerative diseases like Alzheimer's and Parkinson's. Nanoimaging technology has proved crucial in understanding protein-misfolding pathologies and in potential drug design aimed at the inhibition or reversal of protein aggregation. Using these technologies, researchers can monitor the aggregation process, visualize protein aggregates and analyze their properties.
Uversky / Lyubchenko Bio-Nanoimaging jetzt bestellen!

Zielgruppe

<p>Researchers and post-graduate students studying molecular medicine and molecular basis of disease, biotechnology, nanomedicine, pharmacology and drug discovery, molecular and cellular biology, biochemistry, biophysics, structural biology</p>

Autoren/Hrsg.

Uversky, Vladimir N
Lyubchenko, Yuri

Fachgebiete

Weitere Infos & Material

Part 1. Nanotechnology and nanoimaging of aggregating proteins

Nanoimaging of aggregated proteins; Cryoelectron microscopy of beta(2)-microglobulin; Amyloid fibril length quantification by AFM; Seeing fibril formation in real time; Studying amyloidogensis by FRET; Structure, growth and assembly of amyloid-like fibrils using high-speed atomic force microscopy; Analyzing amyloid fibril structure by scanning transmission electron microscopy; Magic angle spinning NMR of amyloid fibrils; Analyzing protein deposits in vivo by confocal laser multiphoton laser scanning microscopy; Amyloid imaging agents; Reporters of amyloid structure; Immunohistochemical detection of amyloid components; Scanning tunneling microscopy of protein deposits; Probing of protein misfolding with single molecule force spectroscopy; Single molecule characterization of a-synuclein in aggregation-prone states

Part 2. Polymorphism of protein misfolded and aggregated species

Fibrillar polymorphism; Ab fibril polymorphism; Prefibrillar Ab oligomers; Structural heterogeneity of in vitro and ex vivo amyloid assemblies; Polymorphism of tau fibrils; Amyloid-like protofibrils with different physical properties; Micelle-Like Architecture of the Amyloid-ß Peptide; Insulin oligomers; Worm-like amyloid fibrils of mouse prion protein; Apolipoprotein C-II Amyloid Fibrils; Amylin oligomers and fibrils; Amyloid fibrils of human stefins; Fibrillar structure of Sup35 in vivo; Dopamine-induced a-synuclein oligomers; Amyloid spherulites; A stable lipid-induced aggregate of alpha-synuclein

Part 3. Polymorphism of protein misfolding and aggregation processes

Multiple pathways of lysozyme aggregation; Structure-function study of amyloid ion channels in neurodegenerative diseases; Amyloid ß-protein assembly; Molecular mechanisms underlying alpha synucelin misassembly; Multiple pathways of amyloid assembly /disassembly studied by AFM; Sequestering of metastable proteins with essential cellular functions by amyloid-like aggregates; Misfolded intermediate of a PDZ domain; Structural characterization of the amyloidogenic state of human lysozyme; Landscape Model of Filamentous Protein Aggregation; Micelle formation by human islet amyloid polypeptide; Effect of anionic polysaccharide on ß-lactoglobulin fibrillation

Uversky, Vladimir N
Vladimir N. Uversky is a Professor at the Department of Molecular Medicine, University of South Florida, USA. He obtained B.S. and M.S. degrees in Physics from Leningrad State University in Russia in 1986, then completed Ph.D. and Doctor of Sciences (D.Sc.) degrees in Physics and Mathematics (field of study - Biophysics) at the Moscow Institute of Physics and Technology (1991) and the Institute Experimental and Theoretical Biophysics of the Russian Academy of Sciences (1998), respectively. In 1998, he moved to the University of California Santa Cruz to study protein folding, misfolding, protein conformation diseases, and protein intrinsic disorder phenomena. In 2004, he was invited to join the Indiana University School of Medicine to primary work on intrinsically disordered proteins, and since 2010 has been on faculty at the University of South Florida. He has authored over 850 scientific publications and edited several books and book series on protein structure.

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