Polycyclic aromatic hydrocarbons (PAHs) are among the most widespread organic pollutants known for their carcinogenic and mutagenic properties. There is a growing interest in understanding the degradation and detoxification processes of these substances using biological approaches. The bacterium Pseudomonas sp. MC1 contains a metabolic plasmid (81 kb) that encodes enzymes involved in the conversion of naphthalene (the simplest and most soluble PAH) to salicylate. Therein, nahX is a part of the lower naphthalene degradation operon and encodes a 140-amino acid protein. However, the function of NahX remains unclear. To understand its function more clearly, we first determined the three-dimensional structure of NahX. It has a fold similar to that of HbpS, which acts as a sensory component in response to oxidative stress. Biochemical studies have also shown that NahX and HbpS exhibit heme degradation activity and bind to iron ions. Heme degradation and iron-sequestering activity protect bacteria against oxidative stress. Previous studies have shown that oxidative stress occurs during naphthalene degradation. Therefore, we postulate that NahX has a defense mechanism against the oxidative stress that may occur during naphthalene metabolism.
Keywords: HbpS; Heme; Iron; NahX; Naphthalene; Pseudomonas sp. MC1.
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