Influence of main channel structure on H₂O₂ access to the heme cavity of catalase KatE of Escherichia coli

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• 作者：Vikash Jha ; Prashen Chelikani ; Xavi Carpena ; Ignacio Fita ; Peter C. Loewen
• 关键词：Catalase ; KatE ; Channel architecture ; Side chain modification
• 刊名：Archives of Biochemistry and Biophysics
• 出版年：2012
• 出版时间：1 October, 2012
• 年：2012
• 卷：526
• 期：1
• 页码：54-59
• 全文大小：1417 K

文摘

The main channel for H₂O₂ access to the heme cavity in large subunit catalases is twice as long as in small subunit catalases and is divided into two distinct parts. Like small subunit catalases, the 15 ? of the channel adjacent to the heme has a predominantly hydrophobic surface with only weak water occupancy, but the next 15 ? extending to the protein surface is hydrophilic and contains a complex water matrix in multiple passages. At the approximate junction of these two sections are a conserved serine and glutamate that are hydrogen bonded and associated with H₂O₂ in inactive variants. Mutation of these residues changed the dimensions of the channel, both enlarging and constricting it, and also changed the solvent occupancy in the hydrophobic, inner section of the main channel. Despite these structural changes and the prominent location of the residues in the channel, the variants exhibited less than a 2-fold change in the k_cat and apparent K_M kinetic constants. These results reflect the importance of the complex multi-passage structure of the main channel. Surprisingly, mutation of either the serine or glutamate to an aliphatic side chain interfered with heme oxidation to heme d.