Further Evidence for the Absence of Polyproline II Stretch in the XAO Peptide

Makowska, Joanna; Rodziewicz‐Motowidło, Sylwia; Bagiñska, Katarzyna; Makowski, Mariusz; Vila, Jorge A.; Liwo, Adam; Chmurzyński, Lech; Scheraga, Harold A.

doi:10.1529/biophysj.106.097550

Cited by 56 publications

(91 citation statements)

References 67 publications

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“…Small angle x-ray studies on peptides containing significant polyproline II content (based on CD) showed a much smaller radius of gyration than expected from an extended polyproline structure [32]. Their interpretation was that polyproline II may be a folding conformation of only one or two residues in a continuous flux with other conformations and not lead to an extended semi-rigid rod structure [32]. Ma and Wang [14] also have concluded that the titin PEVK fluctuated between polyproline, beta turn, and unordered structure.…”

Section: Circular Dichroism and Pevk Secondary Structurementioning

confidence: 91%

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Studies on titin PEVK peptides and their interaction

Duan

DeKeyser

Damodaran

et al. 2006

Archives of Biochemistry and Biophysics

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Experiments were conducted on several synthetic and expressed peptides from the PEVK region of titin, the giant muscle protein. Different secondary structure prediction methods based on amino acid sequence gave estimates ranging from over 70% alpha helical to no helix (totally disordered) for the polyE peptide corresponding to human exon 115. Circular dichroism (CD) experiments demonstrated that both the positively charged PPAK modules and the negatively charged PolyE repeats had similar spectral properties with disordered secondary structure predominating. Gel permeation chromatography showed that both PPAK and polyE peptides had 2 to 4 times larger Stokes radii than expected from their molecular mass. Mixtures of the oppositely charged titin peptides caused no change in apparent secondary structure as observed by circular dichroism or migration properties using native gel electrophoresis. Similarly addition of calcium did not alter the CD spectra or peptide electrophoretic mobility of the individual peptides or their mixtures. The properties of both the PPAK and polyE type peptides suggest that both had most of the characteristic properties to be classified as intrinsically disordered proteins.

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Section: Circular Dichroism and Pevk Secondary Structurementioning

confidence: 91%

“…Recent work [32] has suggested that the polyproline II helix may be only a temporally transient structure. Small angle x-ray studies on peptides containing significant polyproline II content (based on CD) showed a much smaller radius of gyration than expected from an extended polyproline structure [32].…”

Section: Circular Dichroism and Pevk Secondary Structurementioning

confidence: 99%

Studies on titin PEVK peptides and their interaction

Duan

DeKeyser

Damodaran

et al. 2006

Archives of Biochemistry and Biophysics

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show abstract

“…Scheraga and coworkers have presented evidence to challenge the previous claims of Kallenbach and others, reporting that PII is one of many conformations available to alanine in XAO and that PII is not a dominant global conformation of the XAO peptide [49,50] . Supporting this result, small angle X -ray scattering ( SAXS ) also demonstrated that the XAO peptide adopts a much smaller radius of gyration (∼ 7.4 Å ) in solution compared with that expected of an ideal, fully extended PII helix ( ∼ 13 Å ), indicating that PII bias is local and that PII helix is not a global conformation of the peptide [51] .…”

Section: Experimental Measurement Of Pii Propensitiesmentioning

confidence: 93%

Experimental and Computational Studies of Polyproline II Propensity

Elam

Schrank

Hilser

2012

Protein and Peptide Folding, Misfolding, and Non‐Folding

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“…This new tool, because it isolates the determination of structure to an individual C a , could be instrumental in discriminating between current conflicting views of the role of the P conformation in the characterization of ''unfolded'' peptides. 27,28 …”

Section: Discussionmentioning

confidence: 99%

Conformation dependence of the C^αD^α stretch mode in peptides: Side‐chain influence in dipeptide structures

Mirkin

Krimm

2010

Biopolymers

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We have shown by theoretical studies of alanine peptides that the C(α)D(α) stretch frequency could be particularly useful for determining peptide structure because of its sensitivity to the ϕ,ψ torsion angles at the C(α) atom. To demonstrate that this is a robust methodology worthy of experimental exploration, we have also shown that this mode is even more determinative of conformation in aqueous solution, mainly as a result of the development of differential C(α)--D(α)···O(water) interactions. As further assurance, we now determine the influence of the side chain on this band, showing for aliphatic, a polar, and an aromatic side chains that the dependence is minor and explaining why this is also expected for other side chains. These results should stimulate new experimental methodologies in the field of peptide structure determination.

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Further Evidence for the Absence of Polyproline II Stretch in the XAO Peptide

Cited by 56 publications

References 67 publications

Studies on titin PEVK peptides and their interaction

Studies on titin PEVK peptides and their interaction

Experimental and Computational Studies of Polyproline II Propensity

Conformation dependence of the C^αD^α stretch mode in peptides: Side‐chain influence in dipeptide structures

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Further Evidence for the Absence of Polyproline II Stretch in the XAO Peptide

Cited by 56 publications

References 67 publications

Studies on titin PEVK peptides and their interaction

Studies on titin PEVK peptides and their interaction

Experimental and Computational Studies of Polyproline II Propensity

Conformation dependence of the CαDα stretch mode in peptides: Side‐chain influence in dipeptide structures

Contact Info

Product

Resources

About

Conformation dependence of the C^αD^α stretch mode in peptides: Side‐chain influence in dipeptide structures