Abstract
Methylosinus trichosporium OB3b is a model methanotroph that converts methane to CO(2) with methanol, formaldehyde, and formate as intermediates. Here we show that copper has a significant impact on the ability of Msn. trichosporium OB3b to grow on methanol, that is, growth consistently occurred on methanol in the absence of copper but not in its presence. Growth on methanol in the presence of copper, however, occurred in the presence of MOPS buffer that stabilized pH. Examination of transcriptome profiles, NADH/NAD ratios, and formate production indicates that growth disruption in the presence of copper was likely caused by a confluence of (1) overgeneration of reducing power from methanol oxidation; (2) formate accumulation leading to acidification of the growth medium and inactivation of formate dehydrogenase; and (3) lack of expression of oxidative stress defence genes. Finally, transcriptomic analysis showed that expression of two putative siderophore gene clusters (one on a plasmid and the other on the chromosome) was significantly controlled by both the availability of copper as well as growth substrate (i.e., methane vs. methanol). Specifically, the presence of methanol and copper significantly repressed the expression of these siderophore gene clusters, suggesting that these metallophores play a key role in facilitating methanotrophic growth.