U_R_RL_RM_RLM_test1 R* does not exist, L only binds to R, M does not bind to R, only to RL and RLM interconverts into R*LM Equilibrium constants: Ka(A1)=1.00e+06 Ka(A3)=1.00e-03 Ka(A5)=1.00e+05 Ka(B1)=1.00e-03 Ka(B2)=1.00e-03 Ka(B3)=1.00e-03 Ka(B4)=1.00e+02 Ka(A2)=1.00e+06 (dependent) Ka(A4)=1.00e-03 (dependent) Ka(A6)=1.00e+10 (dependent) Ka(A7)=1.00e+14 (dependent) Ka(A8)=1.00e+19 (dependent) Rate constants (1-forward, 2-reverse): k1(A1)=1.00e+06 k2(A1)=1.00e+00 k1(A2)=1.00e+06 k2(A2)=1.00e+00 k1(A3)=0.00e+00 k2(A3)=0.00e+00 k1(A4)=0.00e+00 k2(A4)=0.00e+00 k1(A5)=1.00e+05 k2(A5)=1.00e+00 k1(A6)=1.00e+10 k2(A6)=1.00e+00 k1(A7)=0.00e+00 k2(A7)=0.00e+00 k1(A8)=0.00e+00 k2(A8)=0.00e+00 k1(B1)=0.00e+00 k2(B1)=0.00e+00 k1(B2)=0.00e+00 k2(B2)=0.00e+00 k1(B3)=0.00e+00 k2(B3)=0.00e+00 k1(B4)=1.00e+02 k2(B4)=1.00e+00 Chemical shifts: w0(R)=50.0 /s (8.0 Hz) w0(R*)=0.0 /s (0.0 Hz) w0(RL)=100.0 /s (15.9 Hz) w0(R*L)=150.0 /s (23.9 Hz) w0(RM)=0.0 /s (0.0 Hz) w0(R*M)=0.0 /s (0.0 Hz) w0(RLM)=200.0 /s (31.8 Hz) w0(R*LM)=300.0 /s (47.8 Hz) Base relaxation rates: R2(R)=10.0 /s R2(R*)=10.0 /s R2(RL)=10.0 /s R2(R*L)=10.0 /s R2(RM)=10.0 /s R2(R*M)=10.0 /s R2(RLM)=10.0 /s R2(R*LM)=10.0 /s Enthalpy difference from the base state: dH(R)=0.0 dH(R*)=0.0 dH(RL)=-1.0 dH(R*L)=-1.0 dH(RM)=0.0 dH(R*M)=0.0 dH(RLM)=-2.0 dH(R*LM)=-2.0 Total R concentration (*1000): 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 Ratio of total L to total R: 0.00 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 1.20