burgdorferi has a malQ gene (Fraser et al , 1997; Godány et al ,

burgdorferi has a malQ gene (Fraser et al., 1997; Godány et al., 2008). We hypothesized that MalQ may use trehalose as a substrate in addition to or instead of maltose because the maltose transport system in Thermococcus litoralis is promiscuous for trehalose

transport (Xavier et al., 1996; Horlacher et al., 1998). Furthermore, borrelial proteins acting on different sugars than predicted are not unprecedented: Smoothened Agonist clinical trial the chb gene products were initially categorized as transporting and modifying cellobiose (Fraser et al., 1997), but later found to recognize chitobiose (Tilly et al., 2001). We took a reverse genetic approach to examine malQ function in B. burgdorferi (Brisson et al., 2012). Almost the entire malQ ORF was deleted in B. burgdorferi strains B31-A3 and 297 by exchanging it with the antibiotic resistance cassettes flgBp-aadA (streptomycin and spectinomycin resistance)

or flgBp-aacC1 (gentamicin resistance) (Fig. 2a). PCR analyses of genomic DNA from transformants and parental strains confirmed that the antibiotic resistance cassettes replaced the malQ gene (Fig. 2c). In addition, the malQ gene was not detected by PCR in the malQ::aadA and malQ::aacC1 mutants (Fig. 2c). The malQ gene was cloned into the shuttle vector pBSV2 (Stewart et al., 2001) to generate pBSmalQ learn more (Fig. 2b), which was used to complement the malQ mutants in trans yielding strains malQ::aadA/pBSmalQ and malQ::aacC1/pBSmalQ. The malQ transcript was detected by RT-PCR in both the wild-type B31-A3 (Fig. 2d, lane 1) and the complemented malQ::aadA/pBSmalQ strains (Fig. 2d, lane 7), but not in the malQ::aadA mutant strain (Fig. 2d, lane 4). Next, we examined whether MalQ plays a role in carbohydrate utilization. Unexpectedly, malQ was not required for growth on either maltose or trehalose in vitro (Fig. 3a). These results suggest that B. burgdorferi has an alternative pathway to catabolize these disaccharides; in fact, the genome carries a homolog of treA, encoding a putative trehalase (Fraser et al., 1997),

although PI-1840 preliminary efforts to disrupt this gene have not been fruitful. We also tested the ability of B. burgdorferi to grow on GlcNAc and its dimer, diacetyl chitobiose, which are components of the tick exoskeleton and the peritrophic membrane that surrounds the blood meal. Chitobiose has previously been shown capable as serving as a carbon and energy source (Tilly et al., 2001). We found that B31-A3 wild type grew at least as well in GlcNAc as in glucose, while cells grown in chitobiose reached a lower cell density after 7 d (Fig. 3b). Again, growth on GlcNAc or chitobiose did not require malQ in vitro (Fig. 3b). These results do not eliminate the possibility that MalQ may be essential to utilize another, as yet unidentified, carbohydrate. In fact, as noted by Godány et al. (2008), the B.

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