Conformation of Angiotensin II. Evidence for a Specific Hydrogen Bonded Conformation

R. E. Lenkinski; R. L. Stephens; N. R. Krishna

doi:10.1021/bi00514a021

Conformation of Angiotensin II. Evidence for a Specific Hydrogen Bonded Conformation

R. E. Lenkinski, R. L. Stephens, N. R. Krishna

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Abstract

The peptide amide hydrogen exchange rates of human angiotensin II in H20 have been measured at room temperature by the transfer of solvent saturation method. The data are consistent with the assumption of a highly motile dynamic equilibrium between folded and highly solvated conformations. The NH of His6 is observed to exchange more slowly than predicted, suggesting that it is a participant in an internal hydrogen bond. Several models previously suggested in the literature for the conformation of the peptide in aqueous solution are examined, and most are found to be inconsistent with the exchange data. Evidence in support of a structure for the Ile5-His6 fragment of the hormone involving a C7eq-C5 bend is presented.

Original language	English (US)
Pages (from-to)	3122-3126
Number of pages	5
Journal	Biochemistry
Volume	20
Issue number	11
DOIs	https://doi.org/10.1021/bi00514a021
State	Published - May 1981

ASJC Scopus subject areas

Biochemistry

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abstract = "The peptide amide hydrogen exchange rates of human angiotensin II in H20 have been measured at room temperature by the transfer of solvent saturation method. The data are consistent with the assumption of a highly motile dynamic equilibrium between folded and highly solvated conformations. The NH of His6 is observed to exchange more slowly than predicted, suggesting that it is a participant in an internal hydrogen bond. Several models previously suggested in the literature for the conformation of the peptide in aqueous solution are examined, and most are found to be inconsistent with the exchange data. Evidence in support of a structure for the Ile5-His6 fragment of the hormone involving a C7eq-C5 bend is presented.",

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AU - Stephens, R. L.

AU - Krishna, N. R.

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N2 - The peptide amide hydrogen exchange rates of human angiotensin II in H20 have been measured at room temperature by the transfer of solvent saturation method. The data are consistent with the assumption of a highly motile dynamic equilibrium between folded and highly solvated conformations. The NH of His6 is observed to exchange more slowly than predicted, suggesting that it is a participant in an internal hydrogen bond. Several models previously suggested in the literature for the conformation of the peptide in aqueous solution are examined, and most are found to be inconsistent with the exchange data. Evidence in support of a structure for the Ile5-His6 fragment of the hormone involving a C7eq-C5 bend is presented.

AB - The peptide amide hydrogen exchange rates of human angiotensin II in H20 have been measured at room temperature by the transfer of solvent saturation method. The data are consistent with the assumption of a highly motile dynamic equilibrium between folded and highly solvated conformations. The NH of His6 is observed to exchange more slowly than predicted, suggesting that it is a participant in an internal hydrogen bond. Several models previously suggested in the literature for the conformation of the peptide in aqueous solution are examined, and most are found to be inconsistent with the exchange data. Evidence in support of a structure for the Ile5-His6 fragment of the hormone involving a C7eq-C5 bend is presented.

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Conformation of Angiotensin II. Evidence for a Specific Hydrogen Bonded Conformation

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