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Circular dichroism and 1H NMR studies on the structures of peptides derived from the calmodulin-binding domains of inducible and endothelial nitric-oxide synthase in solution and in complex with calmodulin. Nascent alpha-helical structures are stabilized by calmodulin both in the presence and absence of Ca2+.

Authors :
Matsubara, M
Hayashi, N
Titani, K
Taniguchi, H
Source :
Journal of Biological Chemistry; September 1997, Vol. 272 Issue: 37 p23050-6, 7p
Publication Year :
1997

Abstract

There exist two types of nitric-oxide synthase (NOS); constitutive isozymes that are activated by binding calmodulin in response to elevated Ca2+ and an inducible isozyme that binds calmodulin regardless of Ca2+. To study the structural basis of the difference in Ca2+ sensitivity, we have designed synthetic peptides of minimal lengths derived from the calmodulin-binding domain of endothelial NOS (eNOS) and that of macrophage NOS (iNOS). A peptide, KRREIPLKVLVKAVLFACMLMRK, derived from human iNOS sequence, retained the ability to bind to calmodulin both in the presence and absence of Ca2+, while a peptide derived from human eNOS sequence, RKKTFKEVANAVKISASLMG, bound to calmodulin only in the presence of Ca2+. Circular dichroism and two-dimensional 1H nuclear magnetic resonance studies suggested that both peptides assume nascent alpha-helical structures in aqueous solution. When mixed with calmodulin, both peptides showed circular dichroism spectra characteristic for alpha-helix. In contrast to other target proteins, the addition of iNOS peptide to calmodulin did not affect the Ca2+ binding of calmodulin appreciably. The peptide derived from the calmodulin-binding domain of iNOS, therefore, binds in alpha-helical structures both to Ca2+-calmodulin and apo-calmodulin, which is unique among various target proteins of calmodulin.

Details

Language :
English
ISSN :
00219258 and 1083351X
Volume :
272
Issue :
37
Database :
Supplemental Index
Journal :
Journal of Biological Chemistry
Publication Type :
Periodical
Accession number :
ejs7209256