Abstract
Here, we determined the sequence of a cDNA encoding a guanylic acid-specific ribonuclease (RNase He1) from Hericium erinaceus that exhibits high sequence identity (59%) with RNase Po1, an enzyme with anti-cancer activity and which is found in Pleurotus ostreatus. RNase He1 and RNase Po1 have similar structures and heat stabilities; hence, RNase He1 may also have potential as an anti-cancer agent. Therefore, we initiated structure-function studies to further characterize the enzyme. Based on the RNase Po1 structure, RNase He1 is predicted to form 3 disulfide bonds involving Cys7-Cys98, Cys5-Cys83, and Cys47-Cys81 linkages. The Cys5Ala mutant exhibited no RNase activity, whereas the Cys81Ala mutant retained RNase activity, but had reduced heat stability. Therefore, the Cys5-Cys83 bond in RNase He1 is essential for the structure of the RNase active site region. Similarly, the Cys47-Cys81 bond helps maintain the conformational stability of the active site region, and may contribute to the greater heat stability of RNase He1.
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