Literature DB >> 19164912

Hacking the code of amyloid formation: the amyloid stretch hypothesis.

M Teresa Pastor1, Alexandra Esteras-Chopo, Luis Serrano.   

Abstract

Many research efforts in the last years have been directed towards understanding the factors determining protein misfolding and amyloid formation. Protein stability and amino acid composition have been identified as the two major factors in vitro. The research of our group has been focused on understanding the relationship between amino acid sequence and amyloid formation. Our approach has been the design of simple model systems that reproduce the biophysical properties of natural amyloids. An amyloid sequence pattern was extracted that can be used to detect amyloidogenic hexapeptide stretches in proteins. We have added evidence supporting that these amyloidogenic stretches can trigger amyloid formation by nonamyloidogenic proteins. Some experimental results in other amyloid proteins will be analyzed under the conclusions obtained in these studies. Our conclusions together with evidences from other groups suggest that amyloid formation is the result of the interplay between a decrease of protein stability, and the presence of highly amyloidogenic regions in proteins. As many of these results have been obtained in vitro, the challenge for the next years will be to demonstrate their validity in in vivo systems.

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Year:  2007        PMID: 19164912      PMCID: PMC2633701          DOI: 10.4161/pri.1.1.4100

Source DB:  PubMed          Journal:  Prion        ISSN: 1933-6896            Impact factor:   3.931


  68 in total

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Journal:  J Biol Chem       Date:  1999-09-03       Impact factor: 5.157

Review 2.  Protein misfolding, evolution and disease.

Authors:  C M Dobson
Journal:  Trends Biochem Sci       Date:  1999-09       Impact factor: 13.807

3.  Conformational transitions of islet amyloid polypeptide (IAPP) in amyloid formation in vitro.

Authors:  R Kayed; J Bernhagen; N Greenfield; K Sweimeh; H Brunner; W Voelter; A Kapurniotu
Journal:  J Mol Biol       Date:  1999-04-09       Impact factor: 5.469

4.  Designing conditions for in vitro formation of amyloid protofilaments and fibrils.

Authors:  F Chiti; P Webster; N Taddei; A Clark; M Stefani; G Ramponi; C M Dobson
Journal:  Proc Natl Acad Sci U S A       Date:  1999-03-30       Impact factor: 11.205

5.  Fibrillogenesis of apomyoglobin facilitated by aggregation sequence of yeast Sup35 in various regions.

Authors:  Yingbo He; Huadong Tang; Zhiwei Yi; Hao Zhou; Yongzhang Luo
Journal:  FEBS Lett       Date:  2005-02-28       Impact factor: 4.124

Review 6.  Design of model systems for amyloid formation: lessons for prediction and inhibition.

Authors:  María Teresa Pastor; Alexandra Esteras-Chopo; Manuela López de la Paz
Journal:  Curr Opin Struct Biol       Date:  2005-02       Impact factor: 6.809

7.  Structure of the cross-beta spine of amyloid-like fibrils.

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8.  Prediction of "aggregation-prone" and "aggregation-susceptible" regions in proteins associated with neurodegenerative diseases.

Authors:  Amol P Pawar; Kateri F Dubay; Jesús Zurdo; Fabrizio Chiti; Michele Vendruscolo; Christopher M Dobson
Journal:  J Mol Biol       Date:  2005-07-08       Impact factor: 5.469

9.  Crystal structure of a Src-homology 3 (SH3) domain.

Authors:  A Musacchio; M Noble; R Pauptit; R Wierenga; M Saraste
Journal:  Nature       Date:  1992-10-29       Impact factor: 49.962

10.  Yeast prions [URE3] and [PSI+] are diseases.

Authors:  Toru Nakayashiki; Cletus P Kurtzman; Herman K Edskes; Reed B Wickner
Journal:  Proc Natl Acad Sci U S A       Date:  2005-07-15       Impact factor: 11.205
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  24 in total

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Journal:  Blood       Date:  2017-10-31       Impact factor: 22.113

2.  New insights into the molecular mechanism of amyloid formation from cysteine scanning.

Authors:  Li Fei; Sarah Perrett
Journal:  Prion       Date:  2010-01-16       Impact factor: 3.931

3.  Identity determinants of infectious proteins.

Authors:  Yury O Chernoff
Journal:  Proc Natl Acad Sci U S A       Date:  2008-09-04       Impact factor: 11.205

4.  Genetic and epigenetic control of the efficiency and fidelity of cross-species prion transmission.

Authors:  Buxin Chen; Kathryn L Bruce; Gary P Newnam; Stefka Gyoneva; Andrey V Romanyuk; Yury O Chernoff
Journal:  Mol Microbiol       Date:  2010-04-23       Impact factor: 3.501

Review 5.  Prion-based nanomaterials and their emerging applications.

Authors:  Marta Díaz-Caballero; Maria Rosario Fernández; Susanna Navarro; Salvador Ventura
Journal:  Prion       Date:  2018-10-02       Impact factor: 3.931

6.  Strain conformation controls the specificity of cross-species prion transmission in the yeast model.

Authors:  Anastasia V Grizel; Aleksandr A Rubel; Yury O Chernoff
Journal:  Prion       Date:  2016-07-03       Impact factor: 3.931

7.  Yeast Short-Lived Actin-Associated Protein Forms a Metastable Prion in Response to Thermal Stress.

Authors:  Tatiana A Chernova; Denis A Kiktev; Andrey V Romanyuk; John R Shanks; Oskar Laur; Moiez Ali; Abheek Ghosh; Dami Kim; Zhen Yang; Maggie Mang; Yury O Chernoff; Keith D Wilkinson
Journal:  Cell Rep       Date:  2017-01-17       Impact factor: 9.423

8.  Prion-based memory of heat stress in yeast.

Authors:  Tatiana A Chernova; Yury O Chernoff; Keith D Wilkinson
Journal:  Prion       Date:  2017-05-19       Impact factor: 3.931

Review 9.  Biomolecular Assemblies: Moving from Observation to Predictive Design.

Authors:  Corey J Wilson; Andreas S Bommarius; Julie A Champion; Yury O Chernoff; David G Lynn; Anant K Paravastu; Chen Liang; Ming-Chien Hsieh; Jennifer M Heemstra
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10.  Effect of charged residues in the N-domain of Sup35 protein on prion [PSI+] stability and propagation.

Authors:  Stanislav A Bondarev; Vadim V Shchepachev; Andrey V Kajava; Galina A Zhouravleva
Journal:  J Biol Chem       Date:  2013-08-21       Impact factor: 5.157
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