2013
DOI: 10.1007/s12551-013-0113-3
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The loop hypothesis: contribution of early formed specific non-local interactions to the determination of protein folding pathways

Abstract: The extremely fast and efficient folding transition (in seconds) of globular proteins led to the search for some unifying principles embedded in the physics of the folding polypeptides. Most of the proposed mechanisms highlight the role of local interactions that stabilize secondary structure elements or a folding nucleus as the starting point of the folding pathways, i.e., a "bottom-up" mechanism. Nonlocal interactions were assumed either to stabilize the nucleus or lead to the later steps of coalescence of t… Show more

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Cited by 16 publications
(20 citation statements)
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References 117 publications
(119 reference statements)
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“…A quantity of work has focused on the character of the unfolded state and its possible role in guiding subsequent folding (3,4,6,(40)(41)(42). Is the denatured state ensemble (DSE) compact at the start of the folding process?…”
Section: Discussionmentioning
confidence: 99%
“…A quantity of work has focused on the character of the unfolded state and its possible role in guiding subsequent folding (3,4,6,(40)(41)(42). Is the denatured state ensemble (DSE) compact at the start of the folding process?…”
Section: Discussionmentioning
confidence: 99%
“…First, the experimental results obtained within the loop hypothesis (LH) context employing FRET techniques by Haas and collaborators (i.e., with an emphasis on recent results for the early kinetics of Escherichia coli adenylate kinase (AK) folding) will be shown to lend support to the main proposal of this Feature Article. 46,47 Then, the theoretical basis for the view of protein folding presented here will be seen to naturally emerge from the so-called sequential collapse model (SCM) of Bergasa-Caceres and Rabitz, 48 based on concepts first presented in Bergasa-Caceres' Ph.D. thesis. 49 A comparison also will be made between the SCM prediction and the LH experimental results for early nonlocal contact formation in adenylate kinase.…”
Section: ■ Introductionmentioning
confidence: 99%
“…Nevertheless, we applied mainly the ensemble detection methods for several reasons: deducing the folding pathway requires ensemble characteristics; natural amino acids, or mildly modified residues can be used and the structural perturbation can be minimized; full sets of fluorescence decay curves can be collected in nanosecond time intervals; application of the double kinetics approach is more straightforward compared to the single-molecule FRET-detected (smFRET)-based methods; pairs of probes suitable for monitoring distances in the range corresponding to sub-domain structural dimensions are readily available; and the ability to resolve subpopulations of intramolecular distances, a major strength of the smFRET-based methods, is also readily provided by the ensemble-based trFRET experiments [152]. Analyses of the trFRET measurements do not yield atom-to-atom distances, and depend on the size and dynamics of the probes and on the correct determination of the Förster constant, R o .…”
Section: Mode Of Detectionmentioning
confidence: 99%
“…Five secondary structure elements in the CORE domain were labeled (Table 1), and the folding kinetics were studied by the FRET-detected stopped flow system. All of them were disordered at the initial phase of the folding pathway [110,152]. Analysis of the trFRET double kinetics experiments showed the shift of the mean endto-end distance between the ends of β strands and the rate of reduction of FWHM of the distance distributions.…”
Section: Kinetics Of Folding Of Secondary Structure Elements In the Amentioning
confidence: 99%