Molecular dynamics simulations revealed Ca(2+)-dependent conformational change of Calmodulin

Yuto Komeiji; Yutaka Ueno; Masami Uebayasi

doi:10.1016/s0014-5793(02)02853-3

Molecular dynamics simulations revealed Ca(2+)-dependent conformational change of Calmodulin

FEBS Lett. 2002 Jun 19;521(1-3):133-9. doi: 10.1016/s0014-5793(02)02853-3.

Authors

Yuto Komeiji¹, Yutaka Ueno, Masami Uebayasi

Affiliation

¹ IMCB/RICS, National Institute of Advanced Industrial Science and Technology (AIST), Central 6, Tsukuba, Japan. y-komeiji@aist.go.jp

PMID: 12067741
DOI: 10.1016/s0014-5793(02)02853-3

Abstract

Molecular dynamics simulations were performed to simulate Ca(2+)-dependent conformational change of calmodulin (CaM). Simulations of the fully Ca(2+)-bound form of CaM (Holo-CaM) and the Ca(2+)-free form (Apo-CaM) were performed in solution for 4 ns starting from the X-ray crystal structure of Holo-CaM. A striking difference was observed between the trajectories of Holo-CaM and Apo-CaM: the central helix remained straight in the former but became largely bent in the latter. Also, the flexibility of Apo-CaM was higher than that of Holo-CaM. The results indicated that the bound Ca(2+) ions harden the structure of CaM.

MeSH terms

Amino Acid Sequence
Calcium / chemistry*
Calmodulin / chemistry*
Cations, Divalent
Computer Simulation*
Crystallography, X-Ray
Models, Molecular*
Molecular Sequence Data
Protein Structure, Tertiary

Substances

Calmodulin
Cations, Divalent
Calcium