%THEORETICAL PROTEIN PROFILES% %Hard to fold and aggregation prone% % Rate constants that are protein specific k_da = 0.8 k_a = 1.2 km = 20 Km = 50 kf = 0.002 Kf = 2800 s_ix_3 = 0.000577 s_ix_9 = 0.2 s_ix_910eq = 0.25 s_ix_11 = 0.06269592 d_ix_1 = 0.1 d_ix_12eq = 0.1 d_ix_3 = 5 d_ix_4 = 15 d_ix_8 = 0.1 d_ix_89eq = 1 d_ix_10 = 0.2 d_ix_11 = 15 k_ix_5 = 0.3 k_ix_56eq = 0.006 k_ix_7 = 1 k_ix_78eq = 0.5 k_ix_9 = 1 k_ix_10 = 1 g_ix_3 = 10 g_ix_34eq = 100 g_ix_5 = 1 g_ix_56eq = 10 p_ix_1 = 1 p_ix_12eq = 1 p_ix_5 = 0.002 p_ix_56eq = 1 gmacc = 0.1 gmstab = 1 gnacc = 500 gnstab = 0.0001 b_ix_13 = 0.1 b_ix_1314eq = 50 b_ix_17 = 2 t_ix_3 = 0.3 t_ix_34eq = 6 %Not as hard to fold but still aggregation prone% % Rate constants that are protein specific k_da = 0.8 k_a = 1.2 km = 0.5 Km = 50 kf = 0.8 %¤ Nat U Kf = 2800 s_ix_3 = 0.000577 s_ix_9 = 0.2 s_ix_910eq = 0.25 s_ix_11 = 0.4761904762 d_ix_1 = 0.1 d_ix_12eq = 0.1 d_ix_3 = 5 d_ix_4 = 15 d_ix_8 = 0.1 d_ix_89eq = 1 d_ix_10 = 0.2 d_ix_11 = 15 k_ix_5 = 0.3 k_ix_56eq = 0.006 k_ix_7 = 1 k_ix_78eq = 0.5 k_ix_9 = 1 k_ix_10 = 1 g_ix_3 = 10 g_ix_34eq = 100 g_ix_5 = 1 g_ix_56eq = 10 p_ix_1 = 1 p_ix_12eq = 1 p_ix_5 = 1 p_ix_56eq = 1 gmacc = 1 gmstab = 1 gnacc = 1 gnstab = 0.0001 b_ix_13 = 0.1 b_ix_1314eq = 50 b_ix_17 = 2 t_ix_3 = 0.3 t_ix_34eq = 6 % Easily folded and non-aggregation prone % Rate constants that are protein specific k_da = 0.8 k_a = 0 km = 0.5 Km = 50 kf = 0.8 %¤ Nat U Kf = 2800 s_ix_3 = 0.000577 s_ix_9 = 0.2 s_ix_910eq = 0.25 s_ix_11 = 0.4761904762 d_ix_1 = 0.1 d_ix_12eq = 0.1 d_ix_3 = 5 d_ix_4 = 15 d_ix_8 = 0.1 d_ix_89eq = 1 d_ix_10 = 0.2 d_ix_11 = 15 k_ix_5 = 0.3 k_ix_56eq = 0.006 k_ix_7 = 1 k_ix_78eq = 0.5 k_ix_9 = 1 k_ix_10 = 1 g_ix_3 = 10 g_ix_34eq = 100 g_ix_5 = 1 g_ix_56eq = 10 p_ix_1 = 1 p_ix_12eq = 1 p_ix_5 = 1 p_ix_56eq = 1 gmacc = 1 gmstab = 1 gnacc = 1 gnstab = 0.0001 b_ix_13 = 0.1 b_ix_1314eq = 50 b_ix_17 = 2 t_ix_3 = 0.3 t_ix_34eq = 6