Robert J. Brooker scite author profile

The lactose permease, encoded by the lacY gene of Escherichia coli, is an integral membrane protein that functions as a proton and lactose symporter. In this study, we have characterized a novel monodisperse, purified preparation of lactose permease, as well as functionally reconstituted lactose permease, using spectroscopic techniques. The purification of monodisperse lactose permease has been aided by the development of a lacY gene product containing an amino-terminal six histidine affinity tag. In the novel purification method described here, lactose permease is purified from beta-dodecyl maltoside-solubilized membrane vesicles using three sequential column steps: hydroxyapatite, nickel-nitriloacetic acid (Ni-NTA) affinity, and cation-exchange chromatography. The hydroxyapatite step was shown to be essential in reducing aggregation of the final purified protein. Amino acid composition analysis and sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) analysis support the conclusion that the protein has been purified to greater than 90% homogeneity. The protein has been successfully reconstituted and has been shown to be active for lactose transport. Fourier transform infrared (FT-IR) spectroscopy has been performed on monodisperse lactose permease and on proteoliposomes containing functional lactose permease. FT-IR spectroscopy supports the conclusion that the monodisperse lactose permease preparation is 80% alpha-helical and stably folded at 20 degreesC; thermal denaturation is first detected at 70 degreesC. Because the purified protein is also readily susceptible to 2H exchange, these results suggest that the protein is conformationally flexible and that 2H exchange is facilitated as the result of conformational fluctuations from the folded state.

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The Conserved Motif, GXXX(D/E)(R/K)XG[X](R/K)(R/K), in Hydrophilic Loop 2/3 of the Lactose Permease

Jessen-Marshall

Paul

Brooker

1995

Journal of Biological Chemistry

108

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A conserved motif, GXXX(D/E)(R/K)XG(R/K)(R/K), has been identified among a large group of evolutionarily related membrane proteins involved in the transport of small molecules across the membrane. To determine the importance of this motif within the lactose permease of Escherichia coli, a total of 28 site-directed mutations at the conserved first, fifth, sixth, eighth, ninth, and tenth positions were analyzed. A dramatic inhibition of activity was observed with all bulky mutations at the first-position glycine. Based on these results, together with sequence comparisons within the superfamily, it seems likely that small side chain volume (and possibly high beta-turn propensity) may be structurally important at this position. The acidic residue at the fifth position was also found to be very important for transport activity and even a conservative glutamate at this location exhibited marginal transport activity. In contrast, many substitutions at the eighth-position glycine, even those with a high side chain volume and/or low beta-turn propensity, still retained high levels of transport activity. Similarly, none of the basic residues within the motif were essential for transport activity when replaced individually by nonbasic residues. However, certain substitutions at the basic residue sites as well as the eighth-position glycine were observed to have moderately reduced levels of active transport of lactose. Taken together, the results of this study confirm the importance of the conserved loop 2/3 motif in transport function. It is suggested that this motif may be important in promoting global conformational changes within the permease.

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Importance of Conserved Acidic Residues in MntH, the Nramp homolog of Escherichia coli

Haemig

Brooker

2004

J Membrane Biol

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A bioinformatic approach was used for the identification of residues that are conserved within the Nramp family of metal transporters. Site-directed mutagenesis was then carried out to change six conserved acidic residues (i.e., Asp-34, Glu-102, Asp-109, Glu-112, Glu-154, and Asp-238) in the E. coli Nramp homolog mntH. Of these six, five of them, Asp-34, Glu-102, Asp-109, Glu-112, and Asp-238 appear to be important for function since conservative substitutions at these sites result in a substantial loss of transport function. In addition, all of the residues within the signature sequence of the Nramp family, DPGN, were also mutated in this study. Each residue was changed to several different side chains, and of ten site-directed mutations made in this motif, only P35G showed any measurable level of (54)Mn(2+) uptake with a V(max) value of approximately 10% of wild-type and a slightly elevated K(m) value. Overall, the data are consistent with a model where helix breakers in the conserved DPGN motif in TMS-1 provide a binding pocket in which Asp-34, Asn-37, Asp-109, Glu-112 (and possibly other residues) are involved in the coordination of Mn(2+). Other residues such as Glu-102 and Asp238 may play a role in the release of Mn(2+) to the cytoplasm or may be involved in maintaining secondary structure.

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Robert J. Brooker

Fourier Transform Infrared Analysis of Purified Lactose Permease: A Monodisperse Lactose Permease Preparation Is Stably Folded, α-Helical, and Highly Accessible to Deuterium Exchange

The Conserved Motif, GXXX(D/E)(R/K)XG[X](R/K)(R/K), in Hydrophilic Loop 2/3 of the Lactose Permease

Importance of Conserved Acidic Residues in MntH, the Nramp homolog of Escherichia coli

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