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Local structural features around the C-terminal segment of Streptomyces subtilisin inhibitor studied by carbonyl carbon nuclear magnetic resonances three phenylalanyl residues.

作者信息

Kainosho M, Nagao H, Tsuji T

出版信息

Biochemistry. 1987 Feb 24;26(4):1068-75. doi: 10.1021/bi00378a013.

DOI:10.1021/bi00378a013
PMID:3567155
Abstract

The carbonyl carbon NMR signals of the Phe residues in Streptomyces subtilisin inhibitor (SSI) were selectively observed for [F]SSI, in which all phenylalanines were uniformly labeled with [1-13C]Phe. The three enhanced resonances in the spectrum of [F]SSI were unambiguously assigned to the specific sites in the amino acid sequence by means of 15N,13C double-labeling techniques. Namely, the resonances at 174.9 and 172.6 ppm (in D2O, pH 7.3, 50 degrees C) showed the satellite peaks due to 13C-15N spin coupling in the spectra of [F,GS]SSI and [F,A]SSI, in which Ser/Gly and Ala residues were labeled with [15N]Gly/Ser and [15N]Ala, respectively, together with [1-13C]Phe. The carbonyl groups of Phe-97 and Phe-111 are involved in peptide bonds with the amino nitrogens of Ser-98 and Ala-112, respectively. These results clearly indicate that the signals at 174.5 and 172.6 ppm are due to Phe-97 and Phe-111, respectively. The signal at the lowest field (177.1 ppm) was thus assigned to the carboxyl carbon of the C-terminal Phe-113. The lifetimes of the amide hydrogens of the three Phe residues and their C-terminal-side neighbors (Ser-98 and Ala-112) were investigated by using the effect of deuterium-hydrogen exchange of amide on the line shapes (DEALS) for the Phe carbonyl carbon resonances. In this method, the NMR spectra of [F]SSI dissolved in 50% D2O (pH 7.3) were measured at various temperatures, and the line shape changes caused by deuteriation isotope shifts were analyzed.(ABSTRACT TRUNCATED AT 250 WORDS)

摘要

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