| pubmed-article:9328579 | pubmed:abstractText | For structural studies, high-level production of properly folded, disulfide-linked, unglycosylated protein in E. coli is an attractive alternative to production in eukaryotic systems. We describe here the production of heterodimeric, murine D10 T-cell receptor (sD10TCR) in E. coli as a secreted leucine zipper (LZ) fusion protein. Two genes, one (alpha-acid) encoding the alpha-chain variable and constant domains (V alpha and C alpha) of D10 TCR fused to an LZ 'acid' encoding sequence and the other (beta-base) encoding the beta-chain variable and constant domains (V beta and C beta) fused to an LZ 'base' encoding sequence, were co-expressed from a bacteriophage T7 promoter as a dicistronic message. Secreted alpha-acid and beta-base proteins formed proper inter- and intra-chain disulfide bonds in the periplasm, bypassing the need for in vitro protein refolding. Complementary LZ sequences facilitated the formation of alpha beta heterodimers. sD10TCR-LZ was purified by affinity chromotography using a D10 TCR clonotype-specific monoclonal antibody (mAb 3D3). Typical yields of purified protein were 4-5 mg/l of culture. Purified sD10TCR-LZ was reactive with a panel of conformationally sensitive TCR-specific monoclonal antibodies, consistent with its conformational integrity and appeared to be suitable for structural studies by X-ray crystallography or NMR spectroscopy. | lld:pubmed |
