The vibrational spectra of protonated water clusters: A benchmark for self-consistent-charge density-functional tight binding

Yu, Haibo; Cui, Qiang

doi:10.1063/1.2806992

Cited by 55 publications

(68 citation statements)

References 54 publications

(70 reference statements)

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“…Various applications have shown that SCC-DFTB is able to reproduce DFT results with sufficient accuracy in many systems (34,35). For the present study, the ability of SCC-DFTB to reproduce strongly hydrogen bonded structures and proton affinities as well as the qualitative spectral features of various water clusters have been shown in recent studies (36,37) (also see SI for additional benchmarks).…”

Section: Methodsmentioning

confidence: 72%

“…The IR spectrum for the QM region is computed by the Fourier transform of the dipole autocorrelation function collected from SCC-DFTB/MM molecular dynamics trajectories; multiple independent simulations are carried out for statistical significance. The nuclear quantum effect on the computed IR spectra is approximated with a harmonic quantum correction factor as done in the recent study of water clusters (37). See SI for additional technical details and discussions.…”

Section: Methodsmentioning

confidence: 99%

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Amino acids with an intermolecular proton bond as proton storage site in bacteriorhodopsin

Phatak

Ghosh

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

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134

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The positions of protons are not available in most high-resolution structural data of biomolecules, thus the identity of proton storage sites in biomolecules that transport proton is generally difficult to determine unambiguously. Using combined quantum mechanical/ molecular mechanical computations, we demonstrate that a pair of conserved glutamate residues (Glu 194/204) bonded by a delocalized proton is the proton release group that has been long sought in the proton pump, bacteriorhodopsin. This model is consistent with all available experimental structural and infrared data for both the wild-type bacteriorhodopsin and several mutants. In particular, the continuum infrared band in the 1,800-to 2,000-cm ؊1 region is shown to arise due to the partially delocalized nature of the proton between the glutamates in the wild-type bacteriorhodopsin; alternations in the flexibility of the glutamates and electrostatic nature of nearby residues in various mutants modulate the degree of proton delocalization and therefore intensity of the continuum band. The strong hydrogen bond between Glu 194/204 also significantly shifts the carboxylate stretches of these residues well <1,700 cm ؊1 , which explains why carboxylate spectral shift was not observed experimentally in the typical >1,700-cm ؊1 region upon proton release. By contrast, simulations with the proton restrained on the nearby water cluster, as proposed by several recent studies [see, for example, Garezarek K, Gerwert K (2006) Functional waters in intraprotein proton transfer monitored by FTIR difference spectroscopy. Nature 439:109], led to significant structural deviations from available X-ray structures. This study establishes a biological function for strong, low-barrier hydrogen bonds.infrared spectroscopy ͉ proton pumping ͉ water cluster ͉ quantum mechanical/molecular mechanical simulations

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Section: Methodsmentioning

confidence: 72%

Section: Methodsmentioning

confidence: 99%

Amino acids with an intermolecular proton bond as proton storage site in bacteriorhodopsin

Phatak

Ghosh

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

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134

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“…The "intermolecular proton bond" explains the short distance between the two Glu sidechains as observed in several crystal structures. Importantly, this Glu-pair model qualitatively captures the continuum feature in the IR spectra near 18002000 cm 1 (Figure 3(c)); similar to the case of protonated water cluster [82], MD simulations are essential for capturing the proper continuum feature. Moreover, the connection between the proton de-localization and the continuum band was shown explicitly by a simulation in which only one of the Glu sidechains was treated as QM, thus abolishing both delocalization of the stored proton and the continuum band.…”

Section: Involvement Of An Unusual Titratable Group As Proton Loadingmentioning

confidence: 88%

Toward molecular models of proton pumping: Challenges, methods and relevant applications

et al. 2011

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Motivated by several long-lasting mechanistic questions for biomolecular proton pumps, we have engaged in developing hybrid quantum mechanical/molecular mechanical (QM/MM) methods that allow an efficient and reliable description of long-range proton transport in transmembrane proteins. In this review, we briefly discuss several relevant issues: the need to develop a "multi-scale" generalized solvent boundary potential (GSBP) for the analysis of chemical events in large trans-membrane proteins, approaches to validate such a protocol, and the importance of improving the flexibility of QM/MM Hamiltonian. Several recent studies of model and realistic protein systems are also discussed to help put the discussions into context. Collectively, these studies suggest that the QM/MM-GSBP framework based on an approximate density functional theory (SCC-DFTB) as QM holds the promise to strike the proper balance between computational efficiency, accuracy and generality. With additional improvements in the methodology and recent developments by others, especially powerful sampling techniques, this "multi-scale" framework will be able to help unlock the secrets of proton pumps and other biomolecular machines.proton pumping, QM/MM simulations, SCC-DFTB, microscopic pK a , multi-scale simulations

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“…полос в рамках кластерной схемы строения воды (Н 2 О) n в соответствии с литературными данными [33,34]. Особенность спектров КР в диапазоне 4000−3000 сm −1 заключалась в значительном различии интенсивностей (I) полос для компонент излучения, рассеянного в ортогональных направлениях (I z z и I z y ) и (I y y и I y z ) соответственно вдоль и поперек c-каналов об-разца (рис.…”

Section: результаты экспериментаunclassified

“…Полосы в области 4000−3750 cm −1 относятся к антисимметричным колебаниям свободных гидроксилов [34,35]. Диффузная полоса 2960−2900 сm [37][38][39][40].…”

Section: результаты экспериментаunclassified

Исследование Индукционно-Резонансного Взаимодействия Кластеров Воды В Минералах Фторапатита Методами Поляризационной ИК И Кр-Спектроскопии

Золотарев¹

2018

Журнал Технической Физики

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The vibrational spectra of protonated water clusters: A benchmark for self-consistent-charge density-functional tight binding

Cited by 55 publications

References 54 publications

Amino acids with an intermolecular proton bond as proton storage site in bacteriorhodopsin

Amino acids with an intermolecular proton bond as proton storage site in bacteriorhodopsin

Toward molecular models of proton pumping: Challenges, methods and relevant applications

Исследование Индукционно-Резонансного Взаимодействия Кластеров Воды В Минералах Фторапатита Методами Поляризационной ИК И Кр-Спектроскопии

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