Group protein expression

Figure 7.6. Purification of protein from pooled yeast strains. Each yeast ORF was cloned as a fusion to glutathione-S-transferase in a protein expression vector to create 6144 yeast strains. The individual strains were pooled in groups of 96 to create a set of 64 pools. Each pool was grown and the 96 fusion proteins are purified in batch. Each pool was then assayed for a biochemical function (Martzen et al., 1999). Pools positive for function were then deconvoluted using smaller pools consisting of strains from rows and columns of a 96-well plate.

Thanks to the pioneering works of many research groups, solid-state NMR is now a well established spectroscopy for the study of biological solids, particularly for those with inherent structural disorder such as amyloid fibrils. We have provided an overview of a rather complete set of NMR techniques which have developed for samples prepared by chemical synthesis or protein expression. There are many different ways to present the materials discussed in this review. We hope that the way we have chosen can give a snapshot of some facets of the very exciting discipline of biological solid-state NMR spectroscopy. In spite of the success of solid-state NMR as a tool in biological study, it is not yet a mature technique and there is much room for further development. Below we will speculate on a few possibilities from our own perspective. 

In addition to phase I and phase II enzymes, equally important is a group of transporter proteins expressed in various tissues, such as the liver, intestine, brain and kidney, which modulate the absorption, distribution and excretion of many drugs. 

Nunoi and co-workers (1988) fractionated neutrophil cytoplasm by Mono Q anion-exchange chromatography and obtained three fractions (NCF-1, -2 and -3) that were active in the assembly of the oxidase. Independently, Volpp and colleagues (Volpp, Nauseef Clark, 1988) prepared antiserum from cytosolic factors that eluted from a GTP-affinity column, and this antiserum (Bl) recognised cytoplasmic factors of relative molecular masses 47 kDa and 66 kDa. It was later shown by this group that these cytosolic factors translocated to the plasma membrane during activation. NCF-1 was shown to contain the 47-kDa protein and NCF-2 the 66-kDa protein. Analysis of the defect in the cytosol of autosomal recessive CGD patients revealed that most of these (88%) lacked the 47-kDa protein (p41 -phox), whereas the remainder lacked the 66-kDa protein (p66-phox). Both of these components have now been cloned and recombinant proteins expressed. Interestingly, in the cell-free system, recombinant p47-phox and p66-phox can restore oxidase activity of the cytosol from autosomal recessive CGD patients who lack these components. 

Rogalla P, Drechsler K, Kazmierczak B, Rippe V, Bonk U, Bullerdiek J (1997) Expression of HMGl-C, a member of the high mobility group protein family, in a subset of breast cancers relationship to histologic grade. Mol Carcinog 19(3) 153-156... 

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