Overexpression and purification of the sigma subunit of Escherichia coli RNA polymerase

We have constructed a plasmid that overexpresses 100-fold the sigma subunit of Escherichia coli RNA polymerase. The plasmid was constructed by placing the pLoL promoter-operator of bacteriophage lambda upstream from rpoD, the gene encoding the sigma subunit. A simple procedure for purification of the overexpressed protein has been developed based on guanidine hydrochloride denaturation/renaturation, DEAE cellulose chromatography, and Sephacryl S-200 chromatography. The purified product has been characterized and found to be indistinguishable from normally expressed sigma protein purified by previous protocols as judged by enzymatic activity, heat inactivation, and partial proteolysis.     

Overproduction and purification of the omega subunit of Escherichia coli RNA polymerase

This paper reports the construction of plasmids which direct the overproduction of the omega subunit of Escherichia coli RNA polymerase and the subsequent purification of omega. Useful overproduction is achieved only if the natural ribosomal binding site region of rpoZ is replaced with the ribosomal binding site region of bacteriophage T7 gene 10. Overproduction is directed by T7 RNA polymerase which is provided on a separate plasmid. omega is purified by three column steps either from the insoluble inclusion body fraction or from the soluble fractions of lysates. The final yield is approximately 2 mg omega per 10 g cells wet wt. Additionally, we found that recombinant omega is readily cleaved by an endogenous protease. Sequence analysis of the most prevalent proteolytic fragment suggested that the protease responsible was the product of the ompT gene. Cleavage of omega is greatly reduced in ompT- strains.     

Assembly of amber fragments of the beta subunit of Escherichia coli RNA polymerase

Immunoblotting of size-separated whole cell proteins permitted the study of protein-protein interaction. Briefly, proteins obtained from cleared cell lysates of Escherichia coli were separated by glycerol gradient centrifugation and analysed by blotting against a set of specific antibodies. We have applied this procedure to the assembly of 11 N-terminal amber fragments of the beta subunit of E. coli RNA polymerase ranging in size between 97% and 23% the length of the intact beta polypeptide (1342 amino acids). In this way, we have been able to define regions on the beta polypeptide involved in the assembly of RNA polymerase.     

Expression,purification, and characterization of a biologically active bovine enterokinase catalytic subunit in Escherichia coli

Enterokinase (EC 3.4.21.9) is a serine proteinase in the duodenum that exhibits specificity for the sequence (Asp)(4)-Lys. It converts trypsinogen to trypsin. Its high specificity for the recognition site makes enterokinase (EK) a useful tool for in vitro cleavage of fusion proteins. cDNA encoding the catalytic chain of Chinese bovine enterokinase was cloned and its encoding amino acid sequence is identical to the previously reported sequence although there are two one-base mutations which do not change the encoded amino acid. The EK catalytic subunit cDNA was cloned into plasmid pET32a, and fused downstream to the fusion partner thioredoxin (Trx) and the following DDDDK enterokinase recognition sequence. The recombinant bovine enterokinase catalytic subunit was expressed in Escherichia coli BL21(DE3), and most products existed in soluble form. After an in vivo autocatalytic cleavage of the recombinant Trx-EK catalytic domain fusion protein, intact, biologically active EK catalytic subunit was released from the fusion protein. The recombinant intact EK catalytic subunit was purified to homogeneity with a specific activity of 720 AUs/mg protein through ammonium sulfate precipitation, DEAE chromatography, and gel filtration. The purified intact EK catalytic subunit has a K(m) of 0.17 mM, and K(cat) is 20.8s(-1). From 100 ml flask culture, 4.3 mg pure active EK catalytic subunits were obtained.     

Overexpression of biologically active VEGF121 fusion proteins in Escherichia coli

Vascular endothelial growth factor-A (VEGF) exists as five different isoforms, which exert their growth stimulatory effects through interaction with the FLK and KDR receptors. The VEGF(121) isoform has been employed as a highly selective carrier of therapeutic agents to target tumor endothelial cells resulting in inhibition of tumor growth and metastasis. VEGF(121) and VEGF(121)/rGel fusion toxin containing hexa-histidine tags were expressed in Escherichia coli AD494 (DE3) pLysS. Media containing glycerol as a primary carbon source increased the specific expression levels of soluble VEGF(121) and VEGF(121)/rGel (mg/L/OD10) by more than two-fold over LB media when grown in a batchtype cultivation in a bioreactor. High cell densities over OD 40 were achieved using a fed-batch method and employing feeding medium containing glycerol and yeast extract. The overall production of the target proteins was improved 18-fold for VEGF(121) (59.2mg/L) and 27-fold for VEGF(121)/rGel (42.5mg/L), respectively, compared to the conventional flask cultivation method (3.3 and 1.6mg/L for VEGF(121) and VEGF(121)/rGel, respectively). The purified VEGF(121) and VEGF(121)/rGel fusion proteins were biologically active as assessed by phosphorylation of KDR receptors and cytotoxicity against KDR expressing cells.     

Identification of an amber fragment of the beta subunit of Escherichia coli RNA polymerase: a yardstick for measuring controls on RNA polymerase subunit synthesis.

Summary An amber fragment of the subunit of Escherichia coli RNA polymerase has been recovered from strains carrying the rpoB12 amber mutation, indicating that the B12 mutation resides in the structural gene for the subunit. The fragment is readily assayed and can be used to determine the degree of expression of a single rpoB cistron in strains haploid or diploid for this region. These studies confirm that the bacterial mechanism, which can compensate for reduced translation of the message, operates by the co-ordinate induction of rpoB and rpoC. Furthermore, I show that rpo control depends upon cistron(s) located on the F factor, KLF10, whose product(s) can act negatively in trans on rpoBC expression.     

Formation of a RNA polymerase sub-assembly composed of subunit alpha from Escherichia coli and of subunit beta from Micrococcus luteus.

Functionally equivalent subunits of RNA polymerase from Micrococcus luteus and Escherichia coli differ from each other in many molecular and antigenic properties. In spite of these differences, subunit alpha from E. coli and subunit beta from M. luteus form a complex alpha2beta, when incubated together. This complex binds rifampicin tightly, which the isolated subunits do not. The hybrid complex is very similar in its properties to the complex alpha2beta formed only from E. coli or M. luteus subunits. Since the sub-assembly alpha2beta from E. coli is reported to be an obligatory intermediate in the assembly process of complete RNA polymerase, the newly described hybrid sub-assembly may function similarly as an intermediate in the formation of the hybrid form of RNA polymerase described earlier.     

Identification of a subunit assembly domain in the alpha subunit of Escherichia coli RNA polymerase

The alpha subunit of Escherichia coli DNA-dependent RNA polymerase is encoded by the rpoA gene and plays a major role in enzyme assembly. A set of C-terminal deletion mutations of the rpoA gene was constructed. The results of mixed reconstitution experiments in vitro, using the truncated alpha polypeptides encoded by the rpoA deletion mutants, suggest that the amino-terminal two-thirds of alpha subunit is sufficient for the formation of pseudo-core complexes containing both beta and beta' subunits.     

Genetic studies on the beta subunit of Escherichia coli RNA polymerase. II. Evidence that large N-terminal amber fragments of the beta subunit interfere with RNA polymerase function

Summary A collection of 95 independent, spontaneously-occurring mutants carrying amber lesions that affect expression of the gene, rpoB, has been isolated (see accompanying paper (Nene and Glass 1982)). Certain rpoB amber mutations act in trans, preventing a functional allele present on an F plasmid from acting at high temperature. Two such temperature-sensitive rpoB(Am) strains are shown to produce large, N-terminal amber fragments. The possibility that these truncated polypeptides are the cause of this trans-dominant conditional-lethal phenotype is supported by analysis of fragment levels in thermoresistant survivors: the nonsense fragments are degraded at a significantly faster rate (half-lives 1.4- to 2.6-fold reduced) in Ts⁺ derivatives likely to carry second-site mutations within rpoB. We suggest that the fragments interfere with RNA polymerase function by interacting with one or more of the polymerase subunits.     

Expression of active rat DNA polymerase beta in Escherichia coli

A recombinant plasmid for expression of rat DNA polymerase beta was constructed in a plasmid/phage chimeric vector, pUC118, by an oligonucleotide-directed mutagenesis technique. The insert contained a 1005 bp coding sequence for the whole rat DNA polymerase beta. The recombinant plasmid was designed to use the regulatory sequence of Escherichia coli lac operon and the initiation ATG codon for beta-galactosidase as those for DNA polymerase beta. The recombinant clone, JMp beta 5, obtained by transfection of E. coli JM109 with the plasmid, produced high levels of DNA polymerase activity and a 40-kDa polypeptide that were not detected in JM109 cell extract. Inducing this recombinant E. coli with isopropyl beta-thiogalactopyranoside (IPTG) yielded amounts of 40-kDa polypeptide as high as 19.3% of total protein. Another recombinant clone, JMp beta 2-1, which was constructed by an oligonucleotide-directed mutagenesis to use the second ATG codon for the initiation codon, thus deleting the first 17 amino acid residues from the amino terminus, produced neither high DNA polymerase activity nor the 40-kDa polypeptide. The evidence suggests that this amino-terminal structure is important for stability of this enzyme in E. coli. The DNA polymerase was purified to homogeneity from the IPTG-induced JMp beta 5 cells by fewer steps than the procedure for purification of DNA polymerase beta from animal cells. The properties of this enzyme in activity, chromatographic behavior, size, antigenicity, and also lack of associated nuclease activity were indistinguishable from those of DNA polymerase beta purified from rat cells, indicating the identity of the overproduced DNA polymerase in the JMp beta 5 and the rat DNA polymerase beta.     

Expression and purification of biologically active human OSF-1 in Escherichia coli.

OSF-1 (also known as pleiotrophin, HB-GAM, HBGF-8 or HBNF) is a heparin-binding, neurotrophic protein. Its tissue-specific expression in rats is developmentally regulated and the protein is highly conserved between species. The protein is believed to be involved in neuronal development. Previous experiments in our laboratory showed that OSF-1 is primarily expressed in brain and bone. The biological function of OSF-1 in bone is unknown. In order to overcome the limited availability of the native protein, we now report on the high-level expression of human OSF-1 in Escherichia coli. The protein is present in the form of inclusion bodies, which were isolated and solubilized. The partially purified protein was refolded and further purified employing heparin sepharose chromatography. N-terminal sequence determination revealed the same amino acid sequence as the natural mature protein. The isolated backfolded recombinant human OSF-1 did promote neurites outgrowth in primary cultures of cortical neurons.     

Functionally important site in the vicinity of the amino-terminus of the Escherichia coli RNA polymerase beta subunit

We have analyzed the interaction of monoclonal antibodies against Escherichia coli RNA polymerase with products of its limited proteolysis. Two major proteolytic fragments of molecular masses 107 and 43 kDa originate as a result of a single cleavage in the vicinity of the 980th amino acid residue. Anti-beta subunit monoclonal antibody PYN-2 inhibiting RNA polymerase activity at the stage of RNA elongation reacts with an epitope located between the amino-terminus and the 50th amino acid residue of the beta subunit. DNA sequencing has shown that the RNA polymerase mutation rpoB22 converts the Gln(1111) codon of the beta subunit gene into the amber codon. An epitope for the monoclonal antibody PYN-6 was located between the major site of proteolytic cleavage and Gln(1111) of the beta subunit.     

Overexpression of native human beta 2-microglobulin in Escherichia coli and its purification

beta 2-Microglobulin (beta 2M), the small subunit of human leukocyte antigen (HLA) class-I proteins, has been synthesized in Escherichia coli and purified in mg amounts. A beta 2m cDNA clone was fused in-frame behind DNA encoding the signal sequence for the outer membrane protein, OmpA. Three different constructions were made, whose products differed by the insertion of either an extra Ala residue, the hexapeptide AEFLEA [single-letter amino acid (aa) code], or no aa between the OmpA signal sequence and beta 2M-coding sequence. All three protein products were correctly processed by bacterial signal peptidase, as determined by N-terminal sequencing, and all three were secreted as soluble proteins into the periplasmic space. However, the signal sequence of the preprotein with the inserted hexapeptide, AEFLEA, was cleaved to a much greater degree than the other two preproteins. When there was no insertion, the mature protein was identical to human beta 2M, as analyzed by sodium dodecyl sulfate-polyacrylamide-gel electrophoresis, circular dichroism, and native isoelectric focusing. This 'bacterial beta 2M', radiolabeled with Bolton-Hunter reagent, was able to exchange into papain-solubilized HLA-B7, as determined by Sephadex G-75 chromatography and immune precipitation, indicating that bacterial beta 2M could complex with the heavy chain of HLA-B7.