The types of regulatory genes present in the sMMO gene cluster depend on the methanotroph strain, which complicates www.selleckchem.com/products/BIBF1120.html understanding of the regulatory mechanism for MMO. It was shown that the mmoR and mmoG genes are essential for the expression of the sMMO genes, and their role was suggested: MmoR activates a σ54-dependent promoter upstream of mmoX, while MmoG modulates MmoR and the sMMO enzyme (Csaki et al., 2003; Stafford et al., 2003;
Scanlan et al., 2009). However, the mmoR gene has not been found in type I methanotrophs, except M. capsulatus Bath (Fig. 1b). The presence of the mmoR gene in M. miyakonense HT12 indicated that type I methanotrophs harbor the mmoR gene, and that the sMMO might be subjected to the MmoRG-dependent regulation. Additionally, because mmoR is transcribed from the mmoX promoter in M. miyakonense HT12, the sMMO genes might be constitutively expressed. The mmoQ and mmoS genes encoding the two-component signaling system are found only in the sMMO gene cluster of M. capsulatus Bath (Fig. 1). It was proposed that their role to sense copper levels in the copper-mediated regulation of MMO (Csaki et al., 2003; Ukaegbu et al., 2006). Lloyd et al. (1999) showed that the copper-dependent repression of the sMMO genes functioned in the methanotrophs that do not possess sMMO. Therefore, factors for sensing copper levels such as click here mmoQ and mmoS may be widely distributed in methanotrophs. Interestingly,
homologues of the orf1 gene, which has no assigned function, were identified in the sMMO gene clusters of five other methanotrophs, learn more and they are adjacent to mmoG (Fig. 1). The orf1 gene was cotranscribed with other sMMO genes
in M. miyakonense HT12 (Fig. 3c), and presumably in other methanotrophs, but the translated product has not been verified. Nevertheless, due to the wide distribution of this ORF among methanotrophs, we speculate that the orf1 gene product might play a role in the transcription of sMMO genes or support the MmoG function. Some methanotrophs possess multiple copies of the pmoC, pmoA and pmoB genes (Stolyar et al., 1999; Gilbert et al., 2000; Yimga et al., 2003) and the mmoX gene (Ali et al., 2006). The transcriptional level and the role in growth are different for each gene (Stolyar et al., 1999; Ali et al., 2006). In Methylocystis sp. SC2, each of the pmoCAB operon is expressed depending on the methane concentrations (Baani & Liesack, 2008). These findings suggest that multiple copies of the MMO genes might function to help cells adapt to environmental changes. The results of Southern blotting showed that M. miyakonense HT12 harbors a single copy of mmoX, pmoC, pmoA and pmoB genes in the genome (Fig. S2). We attempted to amplify pmoA-like genes by PCR using the specific primers designed by Yimga et al. (2003), but no amplification was observed. To our knowledge, there has been no report showing a single copy of pmoCAB in any methanotroph genome.