Structural insights for designed alanine-rich helices: Comparing NMR helicity measures and conformational ensembles from molecular dynamics simulation

Kun Song; James M. Stewart; R. Matthew Fesinmeyer; Niels H. Andersen; Carlos Simmerling

doi:10.1002/bip.21004

Structural insights for designed alanine-rich helices: Comparing NMR helicity measures and conformational ensembles from molecular dynamics simulation

Kun Song
, James M. Stewart
, R. Matthew Fesinmeyer
, Niels H. Andersen
, Carlos Simmerling

Laufer Center for Physical and Quantitative Biology

Stony Brook University

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

The temperature dependence of helical propensities for the peptides Ac-ZGG-(KAAAA)_3X-NH₂(Z = Y or G, X = A, K, and D-Arg) were studied both experimentally and by MD simulations. Good agreement is observed in both the absolute helical propensities as well as relative helical content along the sequence; the global minimum on the calculated free energy landscape corresponds to a single α-helical conformation running from K4 to A18 with some terminal fraying, particularly at the C-terminus. Energy component analysis shows that the single helix state has favorable intramolecular electrostatic energy due to hydrogen bonds, and that less-favorable two-helix globular states have favorable solvation energy. The central lysine residues do not appear to increase helicity; however, both experimental and simulation studies show increasing helicity in the

Original language	English
Pages (from-to)	747-760
Number of pages	14
Journal	Biopolymers
Volume	89
Issue number	9
DOIs	https://doi.org/10.1002/bip.21004
State	Published - Sep 2008

Keywords

Alpha helix
NMR
Peptides models
Protein folding
Simulation

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10.1002/bip.21004

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title = "Structural insights for designed alanine-rich helices: Comparing NMR helicity measures and conformational ensembles from molecular dynamics simulation",

abstract = "The temperature dependence of helical propensities for the peptides Ac-ZGG-(KAAAA)3X-NH2(Z = Y or G, X = A, K, and D-Arg) were studied both experimentally and by MD simulations. Good agreement is observed in both the absolute helical propensities as well as relative helical content along the sequence; the global minimum on the calculated free energy landscape corresponds to a single α-helical conformation running from K4 to A18 with some terminal fraying, particularly at the C-terminus. Energy component analysis shows that the single helix state has favorable intramolecular electrostatic energy due to hydrogen bonds, and that less-favorable two-helix globular states have favorable solvation energy. The central lysine residues do not appear to increase helicity; however, both experimental and simulation studies show increasing helicity in the",

keywords = "Alpha helix, NMR, Peptides models, Protein folding, Simulation",

author = "Kun Song and Stewart, \{James M.\} and Fesinmeyer, \{R. Matthew\} and Andersen, \{Niels H.\} and Carlos Simmerling",

year = "2008",

month = sep,

doi = "10.1002/bip.21004",

language = "English",

volume = "89",

pages = "747--760",

journal = "Biopolymers",

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TY - JOUR

T1 - Structural insights for designed alanine-rich helices

T2 - Comparing NMR helicity measures and conformational ensembles from molecular dynamics simulation

AU - Song, Kun

AU - Stewart, James M.

AU - Fesinmeyer, R. Matthew

AU - Andersen, Niels H.

AU - Simmerling, Carlos

PY - 2008/9

Y1 - 2008/9

N2 - The temperature dependence of helical propensities for the peptides Ac-ZGG-(KAAAA)3X-NH2(Z = Y or G, X = A, K, and D-Arg) were studied both experimentally and by MD simulations. Good agreement is observed in both the absolute helical propensities as well as relative helical content along the sequence; the global minimum on the calculated free energy landscape corresponds to a single α-helical conformation running from K4 to A18 with some terminal fraying, particularly at the C-terminus. Energy component analysis shows that the single helix state has favorable intramolecular electrostatic energy due to hydrogen bonds, and that less-favorable two-helix globular states have favorable solvation energy. The central lysine residues do not appear to increase helicity; however, both experimental and simulation studies show increasing helicity in the

AB - The temperature dependence of helical propensities for the peptides Ac-ZGG-(KAAAA)3X-NH2(Z = Y or G, X = A, K, and D-Arg) were studied both experimentally and by MD simulations. Good agreement is observed in both the absolute helical propensities as well as relative helical content along the sequence; the global minimum on the calculated free energy landscape corresponds to a single α-helical conformation running from K4 to A18 with some terminal fraying, particularly at the C-terminus. Energy component analysis shows that the single helix state has favorable intramolecular electrostatic energy due to hydrogen bonds, and that less-favorable two-helix globular states have favorable solvation energy. The central lysine residues do not appear to increase helicity; however, both experimental and simulation studies show increasing helicity in the

KW - Alpha helix

KW - NMR

KW - Peptides models

KW - Protein folding

KW - Simulation

UR - https://www.scopus.com/pages/publications/49649105768

U2 - 10.1002/bip.21004

DO - 10.1002/bip.21004

M3 - Article

C2 - 18428207

SN - 0006-3525

VL - 89

SP - 747

EP - 760

JO - Biopolymers

JF - Biopolymers

IS - 9

ER -

Structural insights for designed alanine-rich helices: Comparing NMR helicity measures and conformational ensembles from molecular dynamics simulation

Abstract

Keywords

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