The family GH11 Aspergillus niger JL15 xylanase B (AnXylB11) was heterologously expressed in Pichia pastoris X33. The recombinant AnXylB11 (reAnXylB11) was secreted into the culture medium with a molecular weight of approximately 33.0 kDa. The optimal temperature and pH of reAnXylB11 were 40 ℃ and 5.0, respectively. reAnXylB11 released xylobiose (X2)-xylohexaose (X6) from beechwood xylan, with xylotriose (X3) as the primary product. The hydrolysates showed significant antioxidant activity. reAnXylB11 was also competitively inhibited by recombinant rice xylanase inhibitory protein (rePriceXIP), with an inhibition constant (Ki) of 106.9 nM. Molecular dynamics (MD) simulations, non-covalent interactions (NCI), and binding free energy calculation and decomposition were conducted to decipher the interactional features between riceXIP and AnXyB11. Representative conformation of riceXIP-AnXylB11 complex showed that a U-shaped long loop between α4 and β5 (K143-L152) of riceXIP was protruded into the catalytic groove and formed tight interaction with many key residues of AnXylB11. The binding free energy of riceXIP-AnXylB11 was calculated to be - 46.1 ± 10.5 kcal/mol, with Coulomb and van der Waals forces contributing the most. NCI analysis showed that the hydrogen bonding networks such as R148riceXIP-E98AnXyl11B, K143riceXIP-D138AnXyl11B and R148riceXIP-E189AnXyl11B provided terrific contributions to the interface interaction. The Laplacian of electron density values of atom pairs R148riceXIP@ 2HH1-E89AnXylB11@OE2 and N142riceXIP@ 1HD2-D138AnXylB11@OD1 were 0.12190 and 0.16009 a.u., respectively. Exploring the interactional features between xylanase and inhibitor protein may aid in constructing mutant xylanase that is insensitive to xylanase inhibitory proteins (XIs).
Keywords: GH11 xylanase; Inhibition constant; Molecular dynamics simulations; Non-covalent interactions; RiceXIP.
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