Journal
JOURNAL OF MEMBRANE BIOLOGY
Volume 250, Issue 2, Pages 145-162Publisher
SPRINGER
DOI: 10.1007/s00232-016-9942-x
Keywords
Fluorescence spectroscopy; Glutamate transport; Homology modelling; Phylogenetic analysis; Site-directed mutagenesis; Solid-state NMR
Funding
- BBSRC Membrane Protein Structure Initiative (MPSI) [BBS/B/14418]
- EU European Drug Initiative on Channels and Transporters consortium (EDICT) [201294]
- EPSRC [EP/G035695/1]
- Invitrogen Corporation
- University of Leeds
- EPSRC [EP/G035695/1] Funding Source: UKRI
- Engineering and Physical Sciences Research Council [EP/G035695/1] Funding Source: researchfish
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Escherichia coli glutamate/aspartate-proton symporter GltP is a member of the Dicarboxylate/Amino Acid:Cation Symporter family of secondary active transport proteins. A range of computational, chemical, biochemical and biophysical methods characterised evolutionary relationships, structural features, substrate binding affinities and transport kinetics of wild-type and mutant forms of GltP. Sequence alignments and phylogenetic analysis revealed close homologies of GltP with human glutamate transporters involved in neurotransmission, neutral amino acid transporters and with the archaeal aspartate transporter GltPh. Topology predictions and comparisons with the crystal structure of GltPh were consistent with eight transmembrane-spanning alpha-helices and two hairpin re-entrant loops in GltP. Amplified expression of recombinant GltP with C-terminal affinity tags was achieved at 10% of total membrane protein in E. coli and purification to homogeneity with a yield of 0.8 mg/litre. Binding of substrates to GltP in native inner membranes and to purified protein solubilised in detergent was observed and quantified using solid-state NMR and fluorescence spectroscopy, respectively. A homology model of GltP docked with L-glutamate identified a putative binding site and residues predicted to interact with substrate. Sequence alignments identified further highly conserved residues predicted to have essential roles in GltP function. Residues were investigated by measuring transport activities, kinetics and response to thiol-specific reagents in 42 site-specific mutants compared with cysteine-less GltP (C256A) having an apparent affinity of initial rate transport (K (m)) for H-3-L-glutamate of 22.6 +/- 5.5 mu M in energised E. coli cells. This confirmed GltP residues involved in substrate binding and transport, especially in transmembrane helices VII and VIII.
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