Modulation of Folding Kinetics of Repeat Proteins: Interplay between Intra- and Interdomain Interactions

Repeat proteins have unique elongated structures that, unlike globular proteins, are quite modular. Despite their simple one-dimensional structure, repeat proteins exhibit intricate folding behavior with a complexity similar to that of globular proteins. Therefore, repeat proteins allow one to quant...

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Veröffentlicht in:	Biophysical journal 2012-10, Vol.103 (7), p.1555-1565
Hauptverfasser:	Hagai, Tzachi, Azia, Ariel, Trizac, Emmanuel, Levy, Yaakov
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Sprache:	eng
Schlagworte:	Ankyrins - chemistry Biophysics Elongated structure Folding Kinetics Modular Modulation Molecular Dynamics Simulation Peptides Protein Folding Protein Stability Protein Structure, Tertiary Proteins Proteins and Nucleic Acids Stability Strength
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creator	Hagai, Tzachi Azia, Ariel Trizac, Emmanuel Levy, Yaakov
description	Repeat proteins have unique elongated structures that, unlike globular proteins, are quite modular. Despite their simple one-dimensional structure, repeat proteins exhibit intricate folding behavior with a complexity similar to that of globular proteins. Therefore, repeat proteins allow one to quantify fundamental aspects of the biophysics of protein folding. One important feature of repeat proteins is the interfaces between the repeating units. In particular, the distribution of stabilities within and between the repeats was previously suggested to affect their folding characteristics. In this study, we explore how the interface affects folding kinetics and cooperativity by investigating two families of repeat proteins, namely, the Ankyrin and tetratricopeptide repeat proteins, which differ in the number of interfacial contacts that are formed between their units as well as in their folding behavior. By using simple topology-based models, we show that modulating the energetic strength of the interface relative to that of the repeat itself can drastically change the protein stability, folding rate, and cooperativity. By further dissecting the interfacial contacts into several subsets, we isolated the effects of each of these groups on folding kinetics. Our study highlights the importance of interface connectivity in determining the folding behavior.
doi_str_mv	10.1016/j.bpj.2012.08.018
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By using simple topology-based models, we show that modulating the energetic strength of the interface relative to that of the repeat itself can drastically change the protein stability, folding rate, and cooperativity. By further dissecting the interfacial contacts into several subsets, we isolated the effects of each of these groups on folding kinetics. 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subjects	Ankyrins - chemistry Biophysics Elongated structure Folding Kinetics Modular Modulation Molecular Dynamics Simulation Peptides Protein Folding Protein Stability Protein Structure, Tertiary Proteins Proteins and Nucleic Acids Stability Strength
title	Modulation of Folding Kinetics of Repeat Proteins: Interplay between Intra- and Interdomain Interactions
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