Protein expression in Escherichia coli minicells containing recombinant plasmids specifying trimethoprim-resistant dihydrofolate reductases.

Deoxyribonucleic acid fragments containing the structural genes for several trimethoprim-resistant dihydrofolate reductases from naturally occurring plasmids were inserted into small cloning vehicles. The genetic expression of these hybrid plasmids was studied in purified Escherichia coli minicells. The type I dihydrofolate reductase, encoded by plasmid R483 and residing within transposon 7 (Tn7), had a subunit molecular weight of 18,000. The type II dihydrofolate reductase, specified by plasmid R67, had a subunit molecular weight of 9,000. These two enzymes were antigenically distinct in that anti-type II dihydrofolate reductase (R67) antibody did not cross-react with the type I (R483) protein. The trimethoprim-resistant reductase specified by plasmid R388 had a subunit molecular weight of about 10,500 and was immunologically related to the type II (R67) enzyme. A 9,000 subunit of the dihydrofolate encoded by the transposition element Tn402 was also antigenically related to the R67 reductase.     

Improvement in segregational stability of recombinant plasmids by retransformation of E. coli host cells

Summary Strains of E. coli JM103 harboring recombinant pUC8 plasmids were found to exhibit severe segregational instability in the absence of antibiotic selection. This was reversed by retransformation into fresh JM103. pUC8 was considerably more stable than its recombinant derivatives.     

乳糖诱导耐热木聚糖酶基因在大肠杆菌中表达

考察乳糖代替IPTG诱导耐热木聚糖酶基因在重组大肠杆菌BL21中表达的可行性。分别以IPTG和乳糖作为诱导剂,对诱导时机、诱导剂浓度、诱导持续时间等主要因素进行了分析比较。结果表明,当菌体生长至发酵液吸光值OD600达1．3时加入乳糖其终浓度达29．2 mmol／L,37℃,持续诱导9．5h,木聚糖酶活力达到最高,为3587.5U,是IPTG优化条件下持续诱导7h达到的最高酶活的2．07倍,而成本只有IPTG的1／204。     

R46-derived recombinant plasmids affecting DNA repair and mutation in E. coli

Summary Recombinant plasmids which render their host less mutable and more sensitive to some DNA-damaging agents have been isolated from the N-group plasmid R46. These plasmids have been physically mapped and found to originate from the region of R46 that has been deleted in pKM101. This deleted region is well removed from the muc region of R46 and pKM101 which is responsible for the mutator effects of these plasmids.The effect of these anti-mutagenic plasmids on the ability of pKM101 to complement umuC mutations has been examined, and they have been found to inhibit the complementation of such strains. We propose that these plasmids may code for a negative control function acting on the muc gene.     

Efficiency of phage protein synthesis in lambda-infected E. coli minicells

Phage lambda major head protein, the gene E product, has been identified among other phage proteins synthesized in lambda-infected Escherichia coli minicells, separated by SDS-acrylamide gel electrophoresis. On stained gels, the same protein has also been detected among total (bacterial and phage) proteins of lambda-infected minicells. The contribution of lambda proteins to the total protein content of lambda-infected minicells was found to be about 12% following 30 min lambda-infection. The inhibition of lambda early protein synthesis (shown by other authors in nucleate bacterial cells) practically does not occur in minicells; this may be the reason of the observed high efficiency of phage protein synthesis.     

Identification of the Escherichia coli tonB gene product in minicells containing tonB hybrid plasmids.

Sodium dodecyl sulfate/polyacrylamide gel analysis of proteins encoded by a series of tonB⁺ plasmids in minicells has identified the ton B gene product as a protein with an apparent molecular weight of 36,000. A parallel analysis of seven ton B mutations which have been genetically crossed onto a tonB⁺ plasmid supports this identification; the 36,000 M_r protein is absent from the set of proteins encoded by each tonB^? plasmid. Four of the tonB mutations are apparently IS1 insertions. The locations of these insertions within tonB have been determined by restriction endonuclease mapping. Correlation of these IS1 insertion sites with the molecular weights of prematurely terminated tonB polypeptides, suggests that tonB is transcribed in the direction opposite to that of the nearby tryptophan operon. In addition, a protein encoded by one of the inverted repeat sequences of the transposable element Tn5 has been tentatively identified.     

Expression of recombinant DNA functional products in Escherichia coli anucleate minicells

This review covers the use of anucleate minicells of Escherichia coli for expressing the recombinant DNA encoded proteins. We briefly discuss the methods being used for preparation of anucleate minicells, incorporation of cloned DNA and assessment of gene expression. While the largest use has been that of microbially derived cloned functional DNA, examples of eukaryotic gene product synthesis have also been reviewed. This technology may represent some interesting commercial opportunities.     

Synthesis of mot and che gene products of Escherichia coli programmed by hybrid ColE1 plasmids in minicells.

Hybrid Escherichia coli ColE1 plasmids carrying the genes for motility (mot) and chemotaxis (che) were transferred to a minicell-producing strain. The mot and che genes on the hybrid plasmid directed protein synthesis in minicells. Polypeptides synthesized in minicells were identical to the products of the motA, motB, cheA, cheW, cheM, cheX, cheB, cheY, and cheZ genes previously identified by using hybrid lambda and ultraviolet-irradiated host cells (Silverman and Simon, J. Bacteriol. 130:1317-1325, 1977), thus confirming these gene product assignments. The products of some che genes (cheA and cheM) appeared as more than one band on polyacrylamide gel electrophoresis, but analysis of partial peptide digests of these polypeptides suggested that the multiple forms were coded for by a single gene. Measurement of the physical length of the hybrid plasmids allowed an estimate of the amount of coding capacity of the cloned deoxyribonucleic acid, which was devoted to the synthesis of the mot and che gene products. These estimates were also consistent with the hypothesis that the multiple polypeptides corresponding to cheA and cheM were the products of single genes.     

Mucopeptide biosynthesis by minicells of Escherichia coli.

Minicells produced by Escherichia coli chi925 incorporated amino acids and N-acetyl-d-glucosamine into mucopeptide.     

重组人载脂蛋白AI米兰突变体在大肠杆菌中的高表达

用RT-PCR法从人肝总RNA库中克隆出人载脂蛋白Al的cDNA序列,再通过重叠PCR将载脂蛋白AI的第179位精氨酸密码子突变成半胱氨酸密码子,即载胎蛋白AI米兰突变体基因。将此目的基因克隆至表达载体pQE30,重组质粒转化JMl09宿主菌,经表达试验筛选出高表达克隆;工程菌经诱导后表达出含6个氨基酸前肽的载脂蛋白AI米兰突变体。表达产物主要以可溶形式存在,但也有部分为包涵体。     

Tunable recombinant protein expression with E. coli in a mixed-feed environment

Controlling the recombinant protein production rate in Escherichia coli is of utmost importance to ensure product quality and quantity. Up to now, only the genetic construct, introduced into E. coli, and the specific growth rate of the culture were used to influence and stir the productivity. However, bioprocess technological means to control or even tune the productivity of E. coli are scarce. Here, we present a novel method for the process-technological control over the recombinant protein expression rate in E. coli. A mixed-feed fed-batch bioprocess based on the araBAD promoter expression system using both d-glucose and l-arabinose as assimilable C-sources was designed. Using the model product green fluorescent protein, we show that the specific product formation rate can be efficiently tuned even on the cellular level only via the uptake rate of l-arabinose. This novel approach introduces an additional degree of freedom for the design of recombinant bioprocesses with E. coli. We anticipate that the presented method will result in significant quality and robustness improvement as well as cost and process time reduction for recombinant bacterial bioprocesses in the future.     

Recovery of recombinant bacterial plasmids from E. coli transformed with DNA from microinjected mouse cells

We have previously described the isolation of thymidine kinase positive (TK+), human beta-globin gene-containing colonies following co-microinjection of mouse TK- L cells with two recombinant pBR322 plasmids, one containing the TK gene of herpes simplex virus type I (plasmid pXl), and the second containing a human genomic DNA fragment within which is the human beta-globin gene (plasmid pRKl). DNA isolated from one such clone was used in bacterial transformation experiments with a selection for tetracycline-resistant colonies (that is, for cells containing pRKl). A total of forty-two tetracycline-resistant colonies were isolated, thirty of which contained circular pRK1 molecules identical to those originally injected. The remaining twelve colonies contained unique plasmids that were grouped into five different classes of recombinant molecules. All five of these unique recombinant classes appear to contain a common deletion endpoint occurring at a specific region of the pBR322 segment of pRKl. Four of the unique recombinant classes appear to have arisen from the deletion of a segment of a pRKl trimer or dimer molecule, while the fifth class appears to have resulted from recombination between pRKl and pXl followed by a deletion event within this recombinant. It is uncertain whether these deletions are occurring within the eukaryotic cell or upon subsequent transformation of the bacterial cell. If the latter, then the passage of the plasmid DNA through the eukaryotic cell alters a specific site of the pBR322 DNA in such a way that deletions can occur at a high frequency in this region when the plasmid DNA is introduced back into a bacterial cell. Thus, we have established a prokaryote-eukaryote-prokaryote DNA transfer and recovery system which should be useful in studies on DNA replication and the regulation of gene expression in higher eukaryotes.     

Translation in Escherichia coli mini-cells containing hamster mitochondrial DNA-Co1E1 - Ampr recombinant plasmids.

Hamster mitochondrial DNA is cleaved into two fragments (4.2 and 11.4 kilobase pairs of DNA (kb)) by the restriction enzyme, Eco RI. Recombinant DNA molecules formed in vitro between an Escherichia coli plasmid, Co1E1 - Ampr, and Eco RI-digested hamster mitochondrial DNA were transformed into E. coli K12. The translation products of the parent plasmid, Co1E1 - Ampr, and recombinant plasmid DNAs containing (i) the 4.2 kb mitochondrial DNA fragment and (ii) the 11.4 kb fragment were characterized on sodium dodecyl sulfate-polyacrylamide gels using bacterial mini-cell lysates. The Co1E1 - Ampr plasmid specifies at least six polypeptides whose structural genes comprise 56% of the plasmid DNA. Insertion of hamster mitochondrial DNA at the Eco RI site of the plasmid alters the relative rate of synthesis of these six polypeptides and induces the occurrence of a new band on sodium dodecyl sulfate-polyacrylamide gels which is probably not specified by the inserted mitochondrial DNA sequences.     

Construction of expression plasmids producing high levels of human immuno interferon in E. coli

Improved expression vectors have been constructed which are derived from runaway-replication mutants of plasmid pYM307 and carry the strong hybrid promoter tac with lac iq gene. The activity of this promoter is controlled by lac repressor, product of the lac iq gene. Heat induction leads to amplification of the plasmid copy number. This system was used for high level expression of the chemically synthesized gene for human immune interferon (hIFN-7). 3 h after induction at 37 degrees C the hIFN-7 amounted to about 20% of total cellular proteins.     

Transport regulation of recombinant gene expression in E. coli and B. subtilis

Expression kinetics of the lactose (lac) operon in Escherichia coli are reviewed for both wild-type and recombinant cell cultures under chemostatic conditions. A unified model which involves regulation of active inducer (lactose) transport, promoter-operator regulated expression of the lac operon, glucose-mediated inducer exclusion, and catabolite repression is summarized and supporting data is shown to verify its accuracy. The synthesis of alpha-amylase with a recombinant form of Bacillus subtilis is also reviewed to point out generic features in transport regulation, the lac operon model providing a point of departure. While there are many similarities in the influence of transport on both regulating models, there are also important differences. In a chemostat system, the synthesis of alpha-amylase is nongrowth associated, while beta-galactosidase is a growth-associated enzyme. Nevertheless, transport regulation is an important feature in both instances.     

The transposon content of nonconjugated E. coli plasmids

The search of nonconjugated plasmids in antibiotic-resistant cells of wild E. coli strains was performed and their transposon maintenance has been studied. The possibility of existence of some different nonconjugated plasmids in one bacterial cells was shown and each plasmid could carry the same transposon. Insertion of one transposon into the conjugated plasmid pAP42 resulted in numerous deletions in the genome of this plasmid.