Journal ArticleDOI
Mechanism of acid induced folding of proteins
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Various strong acids and their neutral salts refolded the acid-unfolded cytochrome c and apomyoglobin to the A states as was the case with HCl, confirming that the anions are responsible for bringing about the transition.Abstract:
We have previously shown [Goto, Y., Calciano, L. J., & Fink, A. L. (1990) Proc. Natl. Acad. Sci. U.S.A. 87, 573-577] that beta-lactamase, cytochrome c, and apomyoglobin are maximally unfolded at pH 2 under conditions of low ionic strength, but a further decrease in pH, by increasing the concentration of HCl, refolds the proteins to the A state with properties similar to those of a molten globule state. To understand the mechanism of acid-induced refolding of protein structure, we studied the effects of various strong acids and their neutral salts on the acid-unfolded states of ferricytochrome c and apomyoglobin. The conformational transition of cytochrome c was monitored at 20 degrees C by using changes in the far-UV CD and in the Soret absorption at 394 nm, and that of apomyoglobin was monitored by changes in the far-UV CD. Various strong acids (i.e., sulfuric acid, perchloric acid, nitric acid, trichloroacetic acid, and trifluoroacetic acid) refolded the acid-unfolded cytochrome c and apomyoglobin to the A states as was the case with HCl. For both proteins neutral salts of these acids caused similar conformational transitions, confirming that the anions are responsible for bringing about the transition. The order of effectiveness of anions was shown to be ferricyanide greater than ferrocyanide greater than sulfate greater than thiocyanate greater than perchlorate greater than iodide greater than nitrate greater than trifluoroacetate greater than bromide greater than chloride.(ABSTRACT TRUNCATED AT 250 WORDS)read more
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Journal ArticleDOI
Why are "natively unfolded" proteins unstructured under physiologic conditions?
TL;DR: Analysis of amino acid sequences, based on the normalized net charge and mean hydrophobicity, has been applied to two sets of proteins and shows that “natively unfolded” proteins are specifically localized within a unique region of charge‐hydrophobia phase space.
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Molten globule and protein folding.
TL;DR: It is predicted and confirmed experimentally that the molten globule state can exist in a living cell and plays an important role in a number of physiological processes.
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What does it mean to be natively unfolded
TL;DR: It appeared that natively unfolded proteins are characterized by low overall hydrophobicity and large net charge, and possess hydrodynamic properties typical of random coils in poor solvent, or premolten globule conformation.
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Protein stability and molecular adaptation to extreme conditions.
TL;DR: Proteins, due to the delicate balance of stabilizing and destabilizing interactions, are only marginally stable, and enhanced intrinsic stability requires only minute local structural changes so that general strategies of stabilization cannot be established.
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Α-synuclein misfolding and Parkinson's disease.
TL;DR: The molecular basis of PD appears to be tightly coupled to the aggregation of α-synuclein and the factors that affect its conformation, and the influence of environmental and genetic factors on this process is examined.
References
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Journal ArticleDOI
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