Aryl–aryl interactions in designed peptide folds: Spectroscopic characteristics and optimal placement for structure stabilization

Anderson, Jordan M.; Kier, Brandon L.; Jurban, Brice; Byrne, Aimee; Shu, Irene; Eidenschink, Lisa A.; Shcherbakov, A.; Hudson, Mike; Fesinmeyer, R. Matthew; Andersen, Niels H.

doi:10.1002/bip.22821

Cited by 23 publications

(44 citation statements)

References 54 publications

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“…[7] We chose these peptide systems because they all contain at least two Trp residues that have been shown to engage in exciton coupling and hence exhibit an exciton CD band. Finally, we investigated the Trp to Trp CN and Phe to Phe CN double mutant of another stable β-hairpin that was designed through “loop optimization” by Andersen and coworkers [20]. …”

Section: Resultsmentioning

confidence: 99%

“…In a recent study on the role of aryl-aryl interactions in β-hairpin folding, Andersen and coworkers [20] systematically examined the effect of various cross-strand interactions that can promote β-hairpin formation. In particular, they found that a peptide with the following sequence, KKYTFNPATGKWTVQE, can fold into a β-hairpin conformation at room temperature, due to a favorable Phe-Trp interaction with Trp occupying the face position and Phe at the edge position.…”

Section: Resultsmentioning

confidence: 99%

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Exciton circular dichroism couplet arising from nitrile-derivatized aromatic residues as a structural probe of proteins

Mukherjee

Gai

2016

Analytical Biochemistry

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Exciton coupling between two chromophores can produce a circular dichroism (CD) couplet that depends on their separation distance, among other factors. Therefore, exciton CD signals arising from aromatic sidechains, especially those of tryptophan (Trp), have been used in various protein conformational studies. However, the long-wavelength component of the commonly used CD couplet produced by a pair of Trp residues is typically located at around 230 nm, thus overlapping significantly with the protein backbone CD signal. This overlap often prevents a direct and quantitative assessment of the Trp CD couplet in question without further spectral analysis. Herein, we show that this inconvenience can be alleviated by using a derivative of Trp, 5-cyanotryptophan (TrpCN), as the chromophore. Specifically, through studying a series of peptides that fold into either an α-helical or β-hairpin conformation, we demonstrate that in comparison to the Trp CD couplet, that arising from two TrpCN residues is not only significantly red-shifted, but also becomes more intense due to the larger extinction coefficient of the underlying electronic transition. In addition, we show that a pair of p-cyano-phenylalanines (PheCN) or a PheCN-TrpCN pair can also produce a distinct exciton CD couplet that is useful in monitoring protein conformational changes.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Exciton circular dichroism couplet arising from nitrile-derivatized aromatic residues as a structural probe of proteins

Mukherjee

Gai

2016

Analytical Biochemistry

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“…Cross‐strand Trp/Trp EtF interactions provide at least a 2.3–5 kJ/mol stabilization of hairpin folds . More recently, we have reported that end‐capping Trp/Trp EtF interactions produce a stabilization of 5–7 kJ/mol . Some stabilization also results from the interaction of the Gly‐H N with the indole ring of the C‐terminus Trp and the Thr hydroxyl group interacting with the C═O of the Trp‐alkanoyl peptide bond.…”

Section: Resultsmentioning

confidence: 92%

“…[13,18] More recently, we have reported that end-capping Trp/Trp EtF interactions produce a stabilization of 5-7 kJ/mol. [19] Some stabilization also results from the interaction of the Gly-H N with the indole ring of the C-terminus Trp and the Thr hydroxyl group interacting with the C═O of the Trpalkanoyl peptide bond. The stability of this cap has been shown to be higher, by~2 kJ/mol, than that conferred by some covalent stabilization strategies such as disulfide bonding.…”

Section: Resultsmentioning

confidence: 99%

Biological consequences of improving the structural stability of hairpins that have antimicrobial activity

Sivanesam

Kier

Whedon

et al. 2017

Journal of Peptide Science

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Designing new antimicrobial peptides (AMPs) focuses heavily on the activity of the peptide and less on the elements that stabilize the secondary structure of these peptides. Studies have shown that improving the structure of naturally occurring AMPs can affect activity and so here we explore the relationship between structure and activity of two non-naturally occurring AMPs. We have used a backbone-cyclized peptide as a template and designed an uncyclized analogue of this peptide that has antimicrobial activity. We focused on beta-hairpin-like structuring features. Improvements to the structure of this peptide reduced the activity of the peptide against gram-negative, Escherichia coli but improved the activity against gram-positive, Corynebacterium glutamicum. Distinctions in structuring effects on gram-negative versus gram-positive activity were also seen in a second peptide system. Structural improvements resulted in a peptide that was more active than the native against gram-positive bacterium but less active against gram-negative bacterium. Our results show that there is not always a correlation between improved hairpin-structuring and activity. Other factors such as the type of bacteria being targeted as well as net positive charge can play a role in the potency of AMPs. Copyright © 2017 European Peptide Society and John Wiley & Sons, Ltd.

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“…The WWst29 system was designed in‐house, starting as a truncated version of the wild type protein Pin1 with the inclusion of a Trp/Trp aromatic cluster flanking T1 . The cross‐strand Trp/Trp cluster also reports the stability of the overall structure as the amplitude of a circular dichroic exciton couplet with maximum at 228 nm . In addition to this spectroscopic feature, the WW domain has numerous specific and well‐dispersed structuring chemical shifts that can be quantitated by proton NMR.…”

Section: Figurementioning

confidence: 99%

A pH Switch for β‐Sheet Protein Folding

Anderson

Andersen

2017

Angewandte Chemie

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Protein design advancements have led to biotechnological strategies based on more stable and more specific structures.Herein we present a6-residue sequence (HPATGK) that acts as as table structure-nucleating turn at physiological and higher pH but is notably unfavorable for chain direction reversal at low pH. When placed into the turn of a b-sheet, this leads to apHswitch of folding. Using astandard3-stranded bsheet model, the WW domain, it was found that the pH switch sequence insertion caused minimal change at pH 8b ut ac a. 50 8 8Cd rop in the melting temperature (T m )w as observed at pH 2.5: DDG F ! 11.3 kJ mol À1 .U sing the strategies demonstrated in this article,t he redesign of b-sheets to contain aglobal, or local, pH-dependent conformational switch should be possible.

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Aryl–aryl interactions in designed peptide folds: Spectroscopic characteristics and optimal placement for structure stabilization

Cited by 23 publications

References 54 publications

Exciton circular dichroism couplet arising from nitrile-derivatized aromatic residues as a structural probe of proteins

Exciton circular dichroism couplet arising from nitrile-derivatized aromatic residues as a structural probe of proteins

Biological consequences of improving the structural stability of hairpins that have antimicrobial activity

A pH Switch for β‐Sheet Protein Folding

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