However,
PTS 3 and PTS 18 are two candidates for fructose transport. Both PTS 3 and PTS 18 co-localize with ORFs (LGAS_0148 and LGAS_1727, respectively) which have a fructose-1-phosphate kinase domain (FruK; COG 1105). PTS 18 is a PLX3397 molecular weight homolog to the PTS transporter in L. acidophilus (LBA1777) which is induced in the presence of fructose [24], yet we were unable to demonstrate induction of PTS 18 or any other complete PTS transporter with fructose. PTS 3 does not have a homolog in L. acidophilus NCFM. Additionally, PTS 3 and/or PTS 18 may be involved in tagatose utilization. The potential activity of COG 1105 includes tagatose-6-phosphate kinase which is required for the tagatose-6-phosphate pathway. Unfortunately, no PTS transporter CFTRinh-172 nmr amongst LAB has been demonstrated to transport tagatose. However, L. acidophilus NCFM is unable to utilize tagatose
and also lacks a homolog for PTS 3. Functional characterization selleck screening library is required to determine if PTS 3 and/or PTS 18 transports fructose and/or tagatose. Previous studies have identified a lactose permease in the closely related L. acidophilus NCFM [24]. However, L. gasseri ATCC 33323 does not have a homolog for the lactose permease from L. acidophilus NCFM. Rather, L. gasseri ATCC 33323 uses PTS transporters to import lactose. PTS 6 and PTS 8 are induced by lactose [36]. Analysis of L. gasseri PTS 6, L. gasseri PTS 8 and L. gasseri PTS 6 PTS 8 revealed that PTS 6 is required for maximum fermentation of lactose [36]. The only lactose PTS transporter previously characterized in lactobacilli has been with L. casei [22, 23]. Galactose induced several PTS transporters (PTS 6, 8, 10 and 15) [36]. Similar to lactose, analysis of L. gasseri PTS 6, L. gasseri PTS 8 and L. gasseri PTS 6 PTS 8 revealed that PTS 6 is required for maximum fermentation of galactose [36]. PTS 11 is a homolog
for the PTS transporter in L. acidophilus (ORF 1012) which is induced in the presence of trehalose and is required for the utilization of trehalose [30]. In addition, LGAS_0533 is homologous to the phosphotrehalase (treC) characterized in L. acidophilus NCFM. While PTS 11 has an α-glucosidase Molecular motor near (treC), no predicted β-glucosidase is in the PTS 11 operon, suggesting that PTS 11 may not involved in β-glucoside uptake as annotated. No PTS transporter that transports N-acetylglucosamine has been characterized in LAB. Based on our current knowledge, we can not predict which PTS transporter(s) can import N-acetylglucosamine. We have identified several β-glucosides that are likely imported by PTS transporters including arbutin, salicin, gentiobiose, amygdalin and cellobiose. PTS 15 is the major cellobiose PTS transporter in L. gasseri ATCC 33323. Cellobiose PTS transporters have been identified that also transport other β-glucosides [37, 38]. In addition, PTS 15 is a homolog to a PTS transporter in Streptococcus mutans that transports β-glucoside esculin [39].