Comparative Structure Analysis of Tyrosine and Valine Residues in Unprocessed Silk Fibroin (Silk I) and in the Processed Silk Fiber (Silk II) from Bombyx mori Using Solid-State super(13)C, super(15)N, and super(2)H NMR

The solid-state super(13)C CP-MAS NMR spectra of biosynthetically labeled [ super(13)C alpha ]Tyr, [ super(13)C beta ]Tyr, and [ super(13)C alpha ]Val silk fibroin samples of Bombyx mori, in silk I (the solid-state structure before spinning) and silk II (the solid-state structure after spinning) for...

Full description

Saved in:
Bibliographic Details
Published in:Biochemistry (Easton) 2002-04, Vol.41 (13), p.4415-4424
Main Authors: Asakura, Tetsuo, Sugino, R, Yao, Juming, Takashima, Hidehiko, Kishore, R
Format: Article
Language:English
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The solid-state super(13)C CP-MAS NMR spectra of biosynthetically labeled [ super(13)C alpha ]Tyr, [ super(13)C beta ]Tyr, and [ super(13)C alpha ]Val silk fibroin samples of Bombyx mori, in silk I (the solid-state structure before spinning) and silk II (the solid-state structure after spinning) forms, have been examined to gain insight into the conformational preferences of the semicrystalline regions. To establish the relationship between the primary structure of B. mori silk fibroin and the "local" structure, the conformation-dependent super(13)C chemical shift contour plots for Tyr C alpha , Tyr C beta , and Val C alpha carbons were generated from the atomic coordinates of high-resolution crystal structures of 40 proteins and their characteristic super(13)C isotropic NMR chemical shifts. From comparison of the observed Tyr C alpha and Tyr C beta chemical shifts with those predicted by the contour plots, there is strong evidence in favor of an antiparallel beta -sheet structure of the Tyr residues in the silk fibroin fibers. On the other hand, Tyr residues take a random coil conformation in the fibroin film with a silk I form. The Val residues are likely to assume a structure similar to those of Tyr residues in silk fiber and film. Solid-state super(2)H NMR measurements of [3,3- super(2)H sub(2)]Tyr-labeled B. mori silk fibroin indicate that the local mobility of the backbone and the C alpha -C beta bond is essentially "static" in both silk I and silk II forms. The orientation-dependent (i.e., parallel and perpendicular to the magnetic field) solid-state super(15)N NMR spectra of biosynthetically labeled [ super(15)N]Tyr and [ super(15)N]Val silk fibers reveal the presence of highly oriented semicrystalline regions.
ISSN:0006-2960
DOI:10.1021/bi0119013