An investigation of the SH1-SH2 and SH1-ATPase distances in myosin subfragment-1 by resonance energy transfer using nanosecond fluorimetry.

The separation between the two reactive thiols SH1 (Cys-704) and SH2 (Cys-694) and that between SH1 and the active site of myosin subfragment-1 were further investigated by Förster energy transfer techniques. The SH1-SH2 distance was determined with the probe 5-[[2-[(iodoacetyl)amino]ethyl] amino]naphthalene-1-sulfonic acid (AEDANS) attached to SH1 as the energy donor and 5-(iodoacetamido)fluorescein (IAF) attached to SH2 as energy acceptor. The results derived from measurements of donor lifetimes yielded a donor-acceptor separation in the range 26-52 A, with the distance R(2/3) based on rapid and isotropic probe motions being 40 A. These parameters were not sensitive to added MgADP, in agreement with previous results obtained by using the steady-state method. The SH1-SH2 distance was also determined with AEDANS attached to SH1 and N-(4-dimethylamino-3,5-dinitrophenyl)maleimide (DDPM) attached to SH2. The range in R for the AEDANS/DDPM pair was 12-36 A, with R(2/3) equal to 27 A. The transfer efficiency between these two probes increased by an average of 38% upon addition of MgADP. These results are in agreement with those previously reported (Dalbey, R.E., Weiel, J. and Yount, R.G. (1983) Biochemistry 22, 4696-4706), but the uncertainty in choosing an appropriate value of the orientation factor to describe the AEDANS-DDPM separation does not allow a unique interpretation of the observed increase in energy transfer because it could reflect either an increase in the average orientation factor or a decrease in the donor-acceptor separation. Nevertheless, the results are consistent with the notion that nucleotide binding induces structural perturbations that can be sensed by SH1 and SH2. The distance between SH1 and the ATPase site was determined with AEDANS linked to SH1 and the nucleotide analogue 2'(3')-O-(2,4,6-trinitrophenyl)adenosine 5'-diphosphate (TNP-ADP) noncovalently bound to the active site as energy acceptor. The bound TNP-ADP was highly immobilized, with a depolarization factor approaching unity. The separation between AEDANS at SH1 and TNP-ADP at the active site was in the range 15-44 A. The actual minimal separation between SH1 and the active site is probably less than 15 A, which suggests that direct interaction between the two sites cannot be ruled out from energy transfer results.