We have used a highly environment-sensitive fluorescent probe 6-bromoacetyl-2-dimethylaminonaphthalene (badan) to study the interaction between calmodulin (CaM) and a CaM-binding peptide of the ryanodine receptor (CaMBP) and its sub-fragments F1 and F4. Badan was attached to the Thr34Cys mutant of CaM (CaM-badan). Ca2+ increase in a physiological range of Ca2+ (0.1 - 2 muM) produced about 40 times increase in the badan fluorescence. Upon binding to CaMBP, the badan fluorescence of apo-CaM showed a small increase at a slow rate; whereas that of Ca-CaM showed a large decrease at a very fast rate. Upon binding of CaM to the badan-labeled CaMBP, the badan fluorescence showed a small and slow increase at low Ca2+, and a large and fast increase at high Ca2+. Thus, the badan probe attached to CaM Cys(34) can be used to monitor conformational changes occurring not only in CaM, but also those in the CaM-CaMBP interface. Based on our results we propose that both the interaction interface and the global conformation of the CaM-CaMBP complex are altered by calcium. (C) 2004 Elsevier Inc. All rights reserved.