2010
DOI: 10.1073/pnas.0911107107
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Net charge per residue modulates conformational ensembles of intrinsically disordered proteins

Abstract: Intrinsically disordered proteins (IDPs) adopt heterogeneous ensembles of conformations under physiological conditions. Understanding the relationship between amino acid sequence and conformational ensembles of IDPs can help clarify the role of disorder in physiological function. Recent studies revealed that polar IDPs favor collapsed ensembles in water despite the absence of hydrophobic groups-a result that holds for polypeptide backbones as well. By studying highly charged polypeptides, a different archetype… Show more

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Cited by 541 publications
(699 citation statements)
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References 58 publications
(92 reference statements)
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“…4,9 In accord with physical intuition, unfolded polypeptide chains have been shown to expand with increasing net charge. 4,14,30,31,33,53 Based on these results, an increase in net charge, |Z|, of unfolded CspTm from 3.8 at pH 7 to 10.2 at pH 2.9 would therefore be expected to lead to an expansion of the chain, in contrast to our experimental observation. In the past, the effect of charges on the dimensions of polymers has often been treated as an additional contribution to the effective excluded volume of the chain, and several theories have been developed based on this concept to describe the behavior of polyelectrolytes and polyampholytes 30,31,54 (all of which are conceptually similar).…”
Section: Treating Charge-charge Interactions In Unfolded Csptm With Pcontrasting
confidence: 55%
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“…4,9 In accord with physical intuition, unfolded polypeptide chains have been shown to expand with increasing net charge. 4,14,30,31,33,53 Based on these results, an increase in net charge, |Z|, of unfolded CspTm from 3.8 at pH 7 to 10.2 at pH 2.9 would therefore be expected to lead to an expansion of the chain, in contrast to our experimental observation. In the past, the effect of charges on the dimensions of polymers has often been treated as an additional contribution to the effective excluded volume of the chain, and several theories have been developed based on this concept to describe the behavior of polyelectrolytes and polyampholytes 30,31,54 (all of which are conceptually similar).…”
Section: Treating Charge-charge Interactions In Unfolded Csptm With Pcontrasting
confidence: 55%
“…2(b)), indicating a continuous expansion of unfolded CspTm driven by interactions of the two denaturants with the polypeptide, with chain dimensions comparable to those obtained at pH 7. This result is surprising, since recent experiments 4, 9, 14 and Monte-Carlo simulations 53 suggest that the dimensions of unfolded proteins increase with increasing net charge of the chain; according to this effect, the high net charge of unfolded CspTm at pH 2.9 should lead to a pronounced expansion of the chain at low ionic strength. Our results imply that a change in the protonation state of the polypeptide by lowering the pH does not only increase the net charge, but must also alter other properties of the polypeptide chain.…”
Section: Denaturant Binding In Mixed Denaturantsmentioning
confidence: 46%
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“…Indeed, IDPs are more susceptible to undergoing PTMs than folded proteins 1. Because of the inherent flexibility of these proteins, PTMs will have an important impact on their activity, cellular localization, and interaction properties, by modulating their structural dynamics 2, 3, 4, 5, 6, 7, 8. For example, N‐terminal acetylation of α‐synuclein9 increases the helical propensity of the N‐terminal segment7 and enhances the affinity of α‐synuclein for calmodulin by a factor of 10 10.…”
Section: Introductionmentioning
confidence: 99%
“…We have repeated the hydrophobicity calculations on caseins using the scale of Kyte and Doolittle (Kyte and Doolittle, 1982). The use of this scale rather than any other is easy to justify because it is widely used in current protein science and, in conjunction with either the fractions of positively and negatively charged residues or normalised net charge, is used quite generally, and with a high success rate, to discriminate between folded proteins and IDPs (Uversky et al, 2000, Mao et al, 2010, Huang et al, 2014. Using the Kyte and Doolittle scale, or an optimised IDP hydropathy scale (Huang et al, 2014), caseins are predicted correctly to be IDPs and to be more hydrophilic, on average, than the great majority of globular proteins (Redwan et al, 2015).…”
Section: Response To Horne and Luceymentioning
confidence: 99%