Robert Cleverley | Newcastle University (original) (raw)

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Papers by Robert Cleverley

Biochimica et Biophysica Acta (BBA) - Biomembranes, 2015

CorA channels are responsible for the uptake of essential magnesium ions by bacteria. X-ray cryst... more CorA channels are responsible for the uptake of essential magnesium ions by bacteria. X-ray crystal structures have been resolved for two full-length CorA channels, each in a non-conducting state with magnesium ions bound to the protein: These structures reveal a homo-pentameric quaternary structure with approximate 5-fold rotational symmetry about a central pore axis. We report the structure of the detergent solubilized Methanocaldococcus jannaschii CorA channel determined by Cryo-Electron Microscopy and Single Particle Averaging, supported by Small Angle X-ray Scattering and X-ray crystallography. This structure also shows a pentameric channel but with a highly asymmetric domain structure. The asymmetry of the domains includes differential separations between the trans-membrane segments, which reflects mechanical coupling of the cytoplasmic domain to the trans-membrane domain. This structure therefore reveals an important aspect of the gating mechanism of CorA channels by providing an indication of how the absence of magnesium ions leads to major structural changes.

Peptidoglycan surrounds the bacterial cytoplasmic membrane to protect the cell against osmolysis.... more Peptidoglycan surrounds the bacterial cytoplasmic membrane to protect the cell against osmolysis. The biosynthesis of peptidoglycan, made of glycan strands crosslinked by short peptides, is the target of antibiotics like b-lactams and glycopeptides. Nascent peptidoglycan contains pentapeptides that are trimmed by carboxypeptidases to tetra-and tripeptides. The well-characterized DD-carboxypeptidases hydrolyze the terminal D-alanine from the stem pentapeptide to produce a tetrapeptide. However, few LD-carboxypeptidases that produce tripeptides have been identified, and nothing is known about substrate specificity in these enzymes. We report biochemical properties and crystal structures of the LD-carboxypeptidases LdcB from Streptococcus pneumoniae, Bacillus anthracis, and Bacillus subtilis. The enzymes are active against bacterial cell wall tetrapeptides and adopt a zinc-carboxypeptidase fold characteristic of the LAS superfamily. We have also solved the structure of S. pneumoniae LdcB with a product mimic, elucidating the residues essential for peptidoglycan recognition and the conformational changes that occur on ligand binding.

The EMBO Journal, 2011

Teichoic acids and acidic capsular polysaccharides are major anionic cell wall polymers (APs) in ... more Teichoic acids and acidic capsular polysaccharides are major anionic cell wall polymers (APs) in many bacteria, with various critical cell functions, including maintenance of cell shape and structural integrity, charge and cation homeostasis, and multiple aspects of pathogenesis. We have identified the widespread LytR-Cps2A-Psr (LCP) protein family, of previously unknown function, as novel enzymes required for AP synthesis. Structural and biochemical analysis of several LCP proteins suggest that they carry out the final step of transferring APs from their lipid-linked precursor to cell wall peptidoglycan (PG). In Bacillus subtilis, LCP proteins are found in association with the MreB cytoskeleton, suggesting that MreB proteins coordinate the insertion of the major polymers, PG and AP, into the cell wall.

Molecular Membrane Biology, 2008

The Thermofluor assay has been a valuable asset in structural genomics, providing a high-throughp... more The Thermofluor assay has been a valuable asset in structural genomics, providing a high-throughput method for assessing the crystallizability of proteins. The technique has been well characterized for soluble proteins but has been less extensively described for membrane proteins. Here we show the successful application of a Thermofluor-based stability assay to an ion channel, CorA from Methanococcus jannaschii. Optimization of the concentration of free detergent within the assay was important, as excessive concentrations mask the fluorescence change associated with thermal unfolding of the protein. CorA was shown to be stabilized by low pH, but relatively insensitive to salt concentration. Divalent metal cations were also capable of stabilizing the protein, in the order Co 2' !Ni 2' !Mn 2' !Mg 2' !Ca 2' . Finally, removal of the oligohistidine tag was also shown to improve the thermal stability of CorA. Conclusions are drawn from this detailed study about the general applicability of this technique to other membrane proteins.

Molecular Membrane Biology, 2008

A method to rapidly assess the oligomeric composition of multimeric proteins is notably absent fr... more A method to rapidly assess the oligomeric composition of multimeric proteins is notably absent from reported schemes for high throughput production and crystallization of membrane proteins. In this report we have investigated the suitability of PFO-PAGE electrophoresis for this purpose and present examples where it proves highly informative in selecting conditions favouring the functional oligomeric state of the target protein. Features such as the ability to analyze several samples in parallel, including crude membrane extracts, suggest it will be highly adaptable to high throughput analysis of membrane proteins.

Molecular Biology of the Cell, 2006

Structural studies on various domains of the ribonucleoprotein signal recognition particle (SRP) ... more Structural studies on various domains of the ribonucleoprotein signal recognition particle (SRP) have not converged on a single complete structure of bacterial SRP consistent with the biochemistry of the particle. We obtained a three-dimensional structure for E. coli SRP by cryoscanning transmission electron microscopy and mapped the internal RNA by electron spectroscopic imaging. Crystallographic data was fit into the SRP reconstruction and although the resulting model differed from previous models, they could be rationalized by movement through an interdomain linker of Ffh, the protein component of SRP. Fluorescence resonance energy transfer experiments determined interdomain distances consistent with our model of SRP.

Nature Communications, 2014

Bacterial cell division is facilitated by a molecular machine-the divisome-that assembles at mid-... more Bacterial cell division is facilitated by a molecular machine-the divisome-that assembles at mid-cell in dividing cells. The formation of the cytokinetic Z-ring by the tubulin homologue FtsZ is regulated by several factors, including the divisome component EzrA. Here we describe the structure of the 60-kDa cytoplasmic domain of EzrA, which comprises five linear repeats of an unusual triple helical bundle. The EzrA structure is bent into a semicircle, providing the protein with the potential to interact at both N-and C-termini with adjacent membrane-bound divisome components. We also identify at least two binding sites for FtsZ on EzrA and map regions of EzrA that are responsible for regulating FtsZ assembly. The individual repeats, and their linear organization, are homologous to the spectrin proteins that connect actin filaments to the membrane in eukaryotes, and we thus propose that EzrA is the founding member of the bacterial spectrin family.

Biochimica et Biophysica Acta (BBA) - Biomembranes, 2015

CorA channels are responsible for the uptake of essential magnesium ions by bacteria. X-ray cryst... more CorA channels are responsible for the uptake of essential magnesium ions by bacteria. X-ray crystal structures have been resolved for two full-length CorA channels, each in a non-conducting state with magnesium ions bound to the protein: These structures reveal a homo-pentameric quaternary structure with approximate 5-fold rotational symmetry about a central pore axis. We report the structure of the detergent solubilized Methanocaldococcus jannaschii CorA channel determined by Cryo-Electron Microscopy and Single Particle Averaging, supported by Small Angle X-ray Scattering and X-ray crystallography. This structure also shows a pentameric channel but with a highly asymmetric domain structure. The asymmetry of the domains includes differential separations between the trans-membrane segments, which reflects mechanical coupling of the cytoplasmic domain to the trans-membrane domain. This structure therefore reveals an important aspect of the gating mechanism of CorA channels by providing an indication of how the absence of magnesium ions leads to major structural changes.

Peptidoglycan surrounds the bacterial cytoplasmic membrane to protect the cell against osmolysis.... more Peptidoglycan surrounds the bacterial cytoplasmic membrane to protect the cell against osmolysis. The biosynthesis of peptidoglycan, made of glycan strands crosslinked by short peptides, is the target of antibiotics like b-lactams and glycopeptides. Nascent peptidoglycan contains pentapeptides that are trimmed by carboxypeptidases to tetra-and tripeptides. The well-characterized DD-carboxypeptidases hydrolyze the terminal D-alanine from the stem pentapeptide to produce a tetrapeptide. However, few LD-carboxypeptidases that produce tripeptides have been identified, and nothing is known about substrate specificity in these enzymes. We report biochemical properties and crystal structures of the LD-carboxypeptidases LdcB from Streptococcus pneumoniae, Bacillus anthracis, and Bacillus subtilis. The enzymes are active against bacterial cell wall tetrapeptides and adopt a zinc-carboxypeptidase fold characteristic of the LAS superfamily. We have also solved the structure of S. pneumoniae LdcB with a product mimic, elucidating the residues essential for peptidoglycan recognition and the conformational changes that occur on ligand binding.

The EMBO Journal, 2011

Teichoic acids and acidic capsular polysaccharides are major anionic cell wall polymers (APs) in ... more Teichoic acids and acidic capsular polysaccharides are major anionic cell wall polymers (APs) in many bacteria, with various critical cell functions, including maintenance of cell shape and structural integrity, charge and cation homeostasis, and multiple aspects of pathogenesis. We have identified the widespread LytR-Cps2A-Psr (LCP) protein family, of previously unknown function, as novel enzymes required for AP synthesis. Structural and biochemical analysis of several LCP proteins suggest that they carry out the final step of transferring APs from their lipid-linked precursor to cell wall peptidoglycan (PG). In Bacillus subtilis, LCP proteins are found in association with the MreB cytoskeleton, suggesting that MreB proteins coordinate the insertion of the major polymers, PG and AP, into the cell wall.

Molecular Membrane Biology, 2008

The Thermofluor assay has been a valuable asset in structural genomics, providing a high-throughp... more The Thermofluor assay has been a valuable asset in structural genomics, providing a high-throughput method for assessing the crystallizability of proteins. The technique has been well characterized for soluble proteins but has been less extensively described for membrane proteins. Here we show the successful application of a Thermofluor-based stability assay to an ion channel, CorA from Methanococcus jannaschii. Optimization of the concentration of free detergent within the assay was important, as excessive concentrations mask the fluorescence change associated with thermal unfolding of the protein. CorA was shown to be stabilized by low pH, but relatively insensitive to salt concentration. Divalent metal cations were also capable of stabilizing the protein, in the order Co 2' !Ni 2' !Mn 2' !Mg 2' !Ca 2' . Finally, removal of the oligohistidine tag was also shown to improve the thermal stability of CorA. Conclusions are drawn from this detailed study about the general applicability of this technique to other membrane proteins.

Molecular Membrane Biology, 2008

A method to rapidly assess the oligomeric composition of multimeric proteins is notably absent fr... more A method to rapidly assess the oligomeric composition of multimeric proteins is notably absent from reported schemes for high throughput production and crystallization of membrane proteins. In this report we have investigated the suitability of PFO-PAGE electrophoresis for this purpose and present examples where it proves highly informative in selecting conditions favouring the functional oligomeric state of the target protein. Features such as the ability to analyze several samples in parallel, including crude membrane extracts, suggest it will be highly adaptable to high throughput analysis of membrane proteins.

Molecular Biology of the Cell, 2006

Structural studies on various domains of the ribonucleoprotein signal recognition particle (SRP) ... more Structural studies on various domains of the ribonucleoprotein signal recognition particle (SRP) have not converged on a single complete structure of bacterial SRP consistent with the biochemistry of the particle. We obtained a three-dimensional structure for E. coli SRP by cryoscanning transmission electron microscopy and mapped the internal RNA by electron spectroscopic imaging. Crystallographic data was fit into the SRP reconstruction and although the resulting model differed from previous models, they could be rationalized by movement through an interdomain linker of Ffh, the protein component of SRP. Fluorescence resonance energy transfer experiments determined interdomain distances consistent with our model of SRP.

Nature Communications, 2014

Bacterial cell division is facilitated by a molecular machine-the divisome-that assembles at mid-... more Bacterial cell division is facilitated by a molecular machine-the divisome-that assembles at mid-cell in dividing cells. The formation of the cytokinetic Z-ring by the tubulin homologue FtsZ is regulated by several factors, including the divisome component EzrA. Here we describe the structure of the 60-kDa cytoplasmic domain of EzrA, which comprises five linear repeats of an unusual triple helical bundle. The EzrA structure is bent into a semicircle, providing the protein with the potential to interact at both N-and C-termini with adjacent membrane-bound divisome components. We also identify at least two binding sites for FtsZ on EzrA and map regions of EzrA that are responsible for regulating FtsZ assembly. The individual repeats, and their linear organization, are homologous to the spectrin proteins that connect actin filaments to the membrane in eukaryotes, and we thus propose that EzrA is the founding member of the bacterial spectrin family.