sg:pub.10.1134/s1061934817130056 - Springer Nature SciGraph

Article Info

DATE

2017-12

AUTHORS

N. S. Katina, M. Yu. Suvorina, E. I. Grigorashvili, V. V. Marchenkov, N. A. Ryabova, A. D. Nikulin, A. K. Surin

ABSTRACT

The formation of amyloid aggregates in human organs and tissues causes the development of incurable diseases. However, experimental studies of the mechanism of amyloid formation by proteins and the structural characteristics of amyloids are complicated because of the heterogeneity and high molecular weight of the aggregates. We used limited proteolysis and mass spectrometry for the identification of regions in the apomyoglobin polypeptide chain, which give rise to intermolecular interactions in amyloid structures. Tandem mass spectroscopy enabled the identification of regions in the myoglobin polypeptide chain, which form the core of amyloid structures. It was shown that the main structural elements for the formation of the core of amyloid fibrils in myoglobin were regions from 60 through 90 and from 97 through 124 amino acid residues. These regions coincide well with those theoretically predicted. This approach yielded important data on the structure of protein molecules in aggregates and on conformational rearrangements of apomyoglobin upon amyloid formation. More... »

PAGES

1271-1279

References to SciGraph publications

2004-10. Prediction of sequence-dependent and mutational effects on the aggregation of peptides and proteins in NATURE BIOTECHNOLOGY

1994-10. Compactness of protein molten globules: temperature-induced structural changes of the apomyoglobin folding intermediate in EUROPEAN BIOPHYSICS JOURNAL

1998-02. Structural and dynamic characterization of partially folded states of apomyoglobin and implications for protein folding in NATURE STRUCTURAL & MOLECULAR BIOLOGY

2009-01. Amyloid formation by globular proteins under native conditions in NATURE CHEMICAL BIOLOGY

2006-06. Tricine–SDS-PAGE in NATURE PROTOCOLS

2011-05. Apomyoglobin mutants with single point mutations at Val10 can form amyloid structures at permissive temperature in BIOCHEMISTRY (MOSCOW)

2002-02-01. Kinetic partitioning of protein folding and aggregation in NATURE STRUCTURAL & MOLECULAR BIOLOGY

2012-07. Resolution of the effects induced by W → F substitutions on the conformation and dynamics of the amyloid-forming apomyoglobin mutant W7FW14F in EUROPEAN BIOPHYSICS JOURNAL

Journal

TITLE

Journal of Analytical Chemistry

ISSUE

VOLUME

Subjects

FOR: Biochemistry And Cell Biology

FOR: Biological Sciences

Author Affiliations

Institute of Protein Research

Identifiers

URI

http://scigraph.springernature.com/pub.10.1134/s1061934817130056

DOI

http://dx.doi.org/10.1134/s1061934817130056

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1101228182

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36	″	schema:description	The formation of amyloid aggregates in human organs and tissues causes the development of incurable diseases. However, experimental studies of the mechanism of amyloid formation by proteins and the structural characteristics of amyloids are complicated because of the heterogeneity and high molecular weight of the aggregates. We used limited proteolysis and mass spectrometry for the identification of regions in the apomyoglobin polypeptide chain, which give rise to intermolecular interactions in amyloid structures. Tandem mass spectroscopy enabled the identification of regions in the myoglobin polypeptide chain, which form the core of amyloid structures. It was shown that the main structural elements for the formation of the core of amyloid fibrils in myoglobin were regions from 60 through 90 and from 97 through 124 amino acid residues. These regions coincide well with those theoretically predicted. This approach yielded important data on the structure of protein molecules in aggregates and on conformational rearrangements of apomyoglobin upon amyloid formation.
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