Valinomycin Crystal Structure Determination by Direct Methods

Duax, William L.; Hauptman, H.; Weeks, Charles M.; Norton, D. A.

doi:10.1126/science.176.4037.911

Cited by 121 publications

(41 citation statements)

References 13 publications

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“…"free" and intramolecularly H-bonded ester C=O groups (1767 cm-l and 1742 -1, respectively). This interpretation is consistent with the X-ray structure izcribed by Duax et al (1972) (Fig. l(b)).…”

Section: Resultssupporting

confidence: 79%

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Raman spectroscopic study of the valinomycin-KSCN complex

Asher

Rothschild

Stanley

1974

Journal of Molecular Biology

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This paper reports the first Raman spectroscopic study of the potassium complex of the cation-specific antibiotic valinomyoin.Complete Raman spectra (140 to 3000 cm-l) of crystalline valinomycin-KSCN and its Ccl,, CHCl, and CaHSOH solutions are presented and used to probe the structure of the complex in these environments. In all oases a single, narrow peak is observed in the ester C=O stretch region (1750 to 1775 cm-l) which contrasts strongly with the broad bands observed in solutions of uncomplexed valinomyoin. This is consistent with the presence of a single conformation in which all six ester C= 0 groups co-ordinate an enclosed potassium ion. We find that although the ester C=O stretch frequencies of the complex are similar in the solid state and in non-polar solution (~1770 cm-l) they are considerably different in the presence of polar solvents (~1756 cm-l); this may indicate that the complexed potassium ion is still free to interact with nearby solvent ions (and possibly its counterion) through gaps in the hydrophobic "shield"provided by the hydrocarbon residues of valinomycin.In contrast the amide C=O frequencies of the complex (~1660 cm-l) are solvent-independent.These groups are apparently strongly hydrogen-bonded to provide a rather rigid, compact framework for the complex conformation.

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Section: Resultssupporting

confidence: 79%

“…The structure of uncomplexed valinomycin crystals (monoclinic, space group P21) grown from warm n-octane has been determined by X-ray diffraction (Duax et al, 1972). Unique to this conformation is the presence of intramolecularly hydrogen-bonded ester C=O groups (Fig.…”

Section: Introductionmentioning

confidence: 99%

Raman spectroscopic study of the valinomycin-KSCN complex

Asher

Rothschild

Stanley

1974

Journal of Molecular Biology

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“…4) despite recrystallization of the X-ray specimen from isooctane, i.e. from a solution where form A is predominant [7,8]. The structure observed has a pseudo symmetry center.…”

Section: Valinomychmentioning

confidence: 99%

Second febs—ferdinand springer lecture membrane active complexones. chemistry and biological function

Ovchinnikov

1974

FEBS Letters

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“…Some of the aliphatic carbon signals 2,4,8,12 are shifted downfield, too. At the same time, most of the methyl signals change their positions.…”

Section: Nmr Measurementsmentioning

confidence: 99%

“…[1][2][3][4] The ability of valinomycin to carry ions is primarily due to the formation of a molecular complex. As revealed in particular for the K þ complex by NMR, [5][6][7][8][9][10][11] infrared spectra, 5-9 X-ray diffraction, [12][13][14][15] and other techniques (see reference 16 and references therein), the complex formation requires a change in the conformation of the depsipeptide ring, after which the six peptide units fortify a bracelet-like form of the molecule by intramolecular hydrogen bonds and the six carbonyls of the carboxylic ester groups adopt a hexadentate formation binding the metal cation by a polycentric dipolar bond. The change is more dramatic in polar media, in which valinomycin has a propeller-like conformation 16 due to intermolecular hydrogen bonds with the solvent.…”

Section: Introductionmentioning

confidence: 99%

NMR evidence of a valinomycin–proton complex

2005

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In addition to the well-known complexes of valinomycin with alkali metal cations, an equimolar complex of the same compound with proton was found to be formed in nitrobenzene. Hydrogen bis(1,2-dicarbollylide) cobaltate (HDCC) was used as a proton source. According to NMR spectra, the complex formation is quantitative at proton/valinomycin molar ratios up to 1:1 but there is fast exchange of protons between coordinated and uncoordinated valinomycin molecules at lower ratios. 1 H and 13 C NMR spectra show a dramatic change in the valinomycin conformation during its coordination with protons, probably from a propeller-like to a bracelet-like form. As valinomycin is one of the well-known ion-carrying ionophores facilitating especially the K þ ion transport across a biological membrane, the existence of the valinomycin-proton complex could be important in biochemistry and biology. #

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Valinomycin Crystal Structure Determination by Direct Methods

Cited by 121 publications

References 13 publications

Raman spectroscopic study of the valinomycin-KSCN complex

Raman spectroscopic study of the valinomycin-KSCN complex

Second febs—ferdinand springer lecture membrane active complexones. chemistry and biological function

NMR evidence of a valinomycin–proton complex

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