Activity of α-Aminoadipate Reductase Depends on the N-Terminally Extending Domain.

Daniel Kalb, Gerald Lackner, Marcus Rappe, Dirk Hoffmeister

Index: ChemBioChem. 16(10) , 1426-30, (2015)

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Abstract

L-α-Aminoadipic acid reductases catalyze the ATP- and NADPH-dependent reduction of L-α-aminoadipic acid to the corresponding 6-semialdehyde during fungal L-lysine biosynthesis. These reductases resemble peptide synthetases with regard to their multidomain composition but feature a unique domain of elusive function--now referred to as an adenylation activating (ADA) domain--that extends the reductase N-terminally. Truncated enzymes based on NPS3, the L-α-aminoadipic acid reductase of the basidiomycete Ceriporiopsis subvermispora, lacking the ADA domain either partially or entirely were tested for activity in vitro, together with an ADA-adenylation didomain and the ADA domainless adenylation domain. We provide evidence that the ADA domain is required for substrate adenylation: that is, the initial step of the catalytic turnover. Our biochemical data are supported by in silico modeling that identified the ADA domain as a partial peptide synthetase condensation domain.© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.