The 1:1 Langmuir binding model was

The 1:1 Langmuir binding model was DZNeP cell line used to fit the kinetic parameters regarding the Emodin/HpFabZ binding process, in which the association rate constant (k a ) and dissociation rate constant (k d ) were fitted simultaneously by rate Equation 1, (1) Where, R represents the response unit, C is the concentration of the Emodin, R max stands for the maximal response. The equilibrium dissociation constant (K D ) was determined by Equation 2. (2) The accuracy of the obtained results

was evaluated by Chi2. The fitted kinetic parameters listed in Table 2 thus demonstrated a strong binding affinity of Emodin against HpFabZ by K D value of 4.59 μM, which is consistent with K i value. Thermodynamic analysis of Emodin/HpFabZ binding by isothermal titration calorimetry (ITC) To inspect the kinetic and thermodynamic characters regarding the inhibition of Emodin against HpFabZ enzyme, ITC technology based assay was performed. Fig. 2B showed the raw data with subtraction of the blank titration. The ITC titration data in Table 2 has clearly established a 1:1 AZD5582 ic50 stoichiometry for HpFabZ-Emodin complex formation. Based on the obtained thermodynamic data (ΔH

= -17.77 ± 1.11 kcal/mol, TΔS = -9.12 kcal/mol, ΔG = -8.65 kcal/mol), it was easily concluded that the enthalpy contributed favorably to the binding free energy in Emodin/HpFabZ interaction, indicating a significant enthalpy driven binding of Emodin to HpFabZ. As shown in Table 2, Emodin exhibits a strong binding affinity against HpFabZ with K D ‘ value of 0.45 μM fitted from ITC data. It is noticed that the almost 10-fold difference between the KD values fitted from SPR and ITC based assays could be tentatively ascribed to the MRIP different states for HpFabZ. In SPR

assay, HpFabZ was immobilized on CM5 chip, which might cause some conformation limitation for the enzyme. While in ITC assay, HpFabZ exists freely without any conformation restriction. Anti-H. pylori activity of Emodin The inhibition activities of Emodin against H. pylori strains SS1 and ATCC 43504 were assayed according to the standard agar dilution method [31]. The MIC (minimum inhibitory concentration) value was defined as the lowest concentration of antimicrobial agent that completely inhibited visible bacterial growth. The results thus suggested that Emodin could inhibit the growth of H. pylori strains SS1 and ATCC 43504 with MIC values of 5 μg/ml and 10 μg/ml, respectively (Table 1). Crystal structure of HpFabZ-Emodin complex The crystal structure of HpFabZ in complex with Emodin was determined to inspect the binding details of Emodin against HpFabZ at atomic level. HpFabZ-Emodin crystallization was performed using hanging-drop vapor-diffusion method and the crystallographic statistics are summarized in Table 3. Table 3 Summary of diffraction data and structure refinement statistics   HpFabZ-Emodin Data collection   Space group P212121 Cell dimensions      a, b, c(Å) 74.2036, 100.3975, 186.4314    α, β, γ (°) 90.00, 90.

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