The 1599-bp ORF4 encodes for an unusual protein consisting of an

The 1599-bp ORF4 encodes for an unusual protein consisting of an integral membrane alkane hydroxylase (AlkB) fused to a rubredoxin (Rub) domain. While the function of PaaI thioesterase encoded by ORF6 is unknown, ORF3 encodes a bifunctional ABC lipid A transporter that may participate in the n-alkane Selleck Talazoparib uptake process. ORF5 expresses a TetR-type putative transcriptional regulator of the alkB-rub

gene (ORF4). The results suggest that these four ORFs may play an important role in long-chain n-alkane degradation by Dietzia sp. E1. Based on the novel DNA sequence data, PCR primers were designed (alkBPromF/rubCFLAG), which allowed the amplification of a 5377- and a 2231-bp fragment on the chromosomal DNA template LDE225 molecular weight of integrant and wild-type E1 cells, respectively. Both products were sequenced, and the results confirmed the expected genotypes. The alkB-rub gene was disrupted in the kanamycin-resistant integrant strain, which is referred to as Dietzia sp. E1 ΔBR throughout. The growth of this mutant strain on the n-C20 alkane was severely impaired, which allowed us to carry out complementation experiments with this growth substrate. The alkBPromF/rubCLAG primer

pair was utilized for the amplification of alkB-rub from Dietzia sp. E1, as well as from D. psychralcaliphila, D. maris, D. cinnamea P4 and D. natronolimnaea (GenBank accession nos HQ424880, HQ424881, HQ424882 and HQ424883). The fragments obtained were cloned in the pNV18Sm shuttle vector (Szvetnik et al., 2010; GenBank accession no.: GQ495223), and the created plasmids pNV18Sm-E1BRF, pNV18Sm-DpBRF, pNV18Sm-DmBRF, pNV18Sm-DcBRF and pNV18Sm-DnBRF were used for complementation experiments. All constructs carried the intact alkB-rub genes of five long-chain n-alkane-degrading Dietzia

spp. (Table 2), their 5′ flanking putative regulator sequences and furthermore a FLAG-tag coding sequence fused to the 3′ termini of the Rub genes. Plasmid constructs were introduced into wild-type E1 and/or ΔBR cells, and the growth kinetics of the produced strains were determined on n-C20 alkane carbon source (Fig. 3a). As expected, presence of the pNV18Sm control plasmid caused only minor decreases in growth rates. RG7420 mw Slower growth was observed for E1(pNV18Sm-E1BRF) as compared with E1(pNV18Sm) cells, which might be due to the fitness cost of the AlkB-Rub overexpression (Wagner et al., 2007). It is noteworthy that the complementation of the mutant phenotype in ΔBR(pNV18Sm-DcBRF), ΔBR(pNV18Sm-DmBRF) and ΔBR(pNV18Sm-E1BRF) cells not only restored the growth rate to the level orresponding to that of E1(pNV18Sm-E1BRF), but even exceeded it. Slightly lower growth rates of ΔBR(pNV18Sm-DpBRF) and ΔBR(pNV18Sm-DnBRF) cells still indicated successful complementation, because ΔBR(pNV18Sm) cells displayed severely impaired proliferation on the n-C20 alkane.

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