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The thermostability of an integral membrane protein in detergent solution is a key parameter that dictates the likelihood of obtaining well-diffracting crystals suitable for structure determination. However, many mammalian membrane proteins are too unstable for crystallisation. We developed a thermostabilisation strategy based on systematic mutagenesis coupled to a radioligand-binding thermostability assay that can be applied to receptors, ion channels and transporters. It takes approximately 6-12 months to thermostabilise a G protein-coupled receptor (GPCR) containing 300 amino acid residues. The resulting thermostabilised membrane proteins are more easily crystallised and result in high-quality structures. This methodology has facilitated structure-based drug design applied to GPCRs, because it is possible to determine multiple structures of the thermostabilised receptors bound to low affinity ligands. Protocols and advice are given on how to develop thermostability assays for membrane proteins and how to combine mutations to make an optimally stable mutant suitable for structural studies.
Structure determination of mammalian integral membrane proteins is challenging due to their instability upon detergent solubilisation and purification. Recent successes in the structure determination of G-protein-coupled receptors (GPCRs) resulted from the development of GPCR-specific protein engineering strategies. One of these, conformational thermostabilisation, could in theory facilitate structure determination of other membrane proteins by improving their tolerance to detergents and locking them in a specific conformation. We have therefore used this approach on the cocaine-sensitive rat serotonin transporter (SERT). Out of a panel of 554 point mutants throughout SERT, 10 were found to improve its thermostability. The most stabilising mutations were combined to make the thermostabilised mutants SAH6 (L99A + G278A + A505L) and SAH7 (L405A + P499A + A505L) that were more stable than SERT by 18 °C and 16 °C, respectively. Inhibitor binding assays showed that both of the thermostabilised SERT mutants bound [125I]RTI55 (β-CIT) with affinity similar to that of the wild-type transporter, although cocaine bound with increased affinity (17- to 56-fold) whilst ibogaine, imipramine and paroxetine all bound with lower affinity (up to 90-fold). Neither SAH6 nor SAH7 was capable of transporting [3H]serotonin into HEK293 cell lines stably expressing the mutants, although serotonin bound to them with an apparent Ki of 155 μM or 82 μM, respectively. These data combined suggest that SAH6 and SAH7 are thermostabilised in a specific cocaine-bound conformation, making them promising candidates for crystallisation. Conformational thermostabilisation is thus equally applicable to membrane proteins that are transporters in addition to those that are GPCRs.
The potential of expression analysis using cDNA microarrays to address complex problems in a wide variety of biological contexts is now being realised. A limiting factor in such analyses is often the amount of RNA required, usually tens of micrograms. To address this problem researchers have turned to methods of improving detection sensitivity, either through increasing fluorescent signal output per mRNA molecule or increasing the amount of target available for labelling by use of an amplification procedure. We present a novel DNA-based method in which an oligonucleotide is incorporated into the 3' end of cDNA during second-strand cDNA synthesis. This sequence provides an annealing site for a single complementary heel primer that directs Taq DNA polymerase amplification of cDNA following multiple cycles of denaturation, annealing and extension. The utility of this technique for transcriptome-wide screening of relative expression levels was compared to two alternative methodologies for production of labelled cDNA target, namely incorporation of fluorescent nucleotides by reverse transcriptase or the Klenow fragment. Labelled targets from two distinct mouse tissues, adult liver and kidney, were compared by hybridisation to a set of cDNA microarrays containing 6500 mouse cDNA probes. Here we demonstrate, through a dilution series of cDNA derived from 10 micro g of total RNA, that it is possible to produce datasets comparable to those produced with unamplified targets with the equivalent of 30 ng of total RNA. The utility of this technique for microarray analysis in cases where sample is limited is discussed.
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