The artificial AT-rich block enhanced the production of bovine growth hormone in Escherichia coli

In order to increase the synthesis of bovine growth hormone (bGH) using T7 promoter system in E. coli, the artificial AT-rich block was introduced into the upstream region of a consensus Shine-Dalgarno (SD) sequence and the spacer region (between SD and ATG codon) was enriched with A and T nucleotides. The cells harboring pTAJ plasmids with AT-rich block produced bGH in the range of 3% to 25% and the cells harboring pTBJ plasmids with AT-rich sequence in the spacer region from 0.8% to 20% of total cell proteins. This result suggests that AT rich block and AT nucleotides in the spacer region destabilize mRNA secondary structure, depending on the downstream coding information of bGH gene and also, implying that the disruption of mRNA secondary structure might be a major factor for regulating bGH expression in the translational initiation process.     

Use of a portable ribosome-binding site for maximizing expression of a eukaryotic gene in Escherichia coli

To maximize expression of a eukaryotic gene in Escherichia coli, a series of plasmids were constructed containing various synthetic ribosome-binding sites (RBS). These sites consist of a Shine-Dalgarno (SD) region (with translation stop codons in all three reading frames) positioned at distances 5-9 nucleotides (nt) from the AUG initiator codon of the gene coding for human T-cell growth factor (TCGF or IL-2). The region encompassing the RBS through the TCGF structural gene from each of these plasmids was inserted as a 'cassette' into seven different E. coli expression vectors, and TCGF production was measured. Our results demonstrate a greater than 2000-fold range of TCGF synthesis dependent upon the promoter and the synthetic RBS used. The translational efficiency of the TCGF gene was found to be influenced by the quality of the RBS, which is in part determined by the external sequence context of this site. The synthetic RBS, containing the necessary information for the translation initiation process, readily accessible by restriction sites, should be of general usefulness in obtaining maximum expression of eukaryotic genes in E. coli.     

Increased synthesis of human parathyroid hormone in Escherichia coli through alterations of the 5′ untranslated region

The expression of human parathyroid hormone (hPTH) in Escherichia coli was optimized by variations of the spacing sequence between the ribosome-binding site (RBS) and the beginning of the gene (ATG) and by increasing the complementarity of the RBS to the 16 S rRNA. The expression level of 3 μg/liter increased more than 100-fold to 475 μg/liter as a direct consequence of modifications in the region 5′ of the gene.     

Cloning of acryIIIA endotoxin gene ofBacillus thuringiensis var.tenebrionis and its transient expression inindica rice

Damage caused to rice production by coleopteran insects like rice weevil (Sitophilus oryzae), a stored grain insect pest and rice hispa (Dicladispa armigera), a pest of the growing plant is quite high. In order to combat the damage, generation of insect resistant transgenic rice plant was considered desirable. CryIIIA endotoxin ofBacillus thuringiensis var.tenebrionis, a 65 kDa protein toxic to coleopteran insects, figured as the candidate gene product. Thus, the cryIIIA gene was isolated from a local isolate ofBacillus thuringiensis var.tenebrionis. The gene was tailored at the N-terminal end to its minimal size by using a synthetic ATG codon which replaced the first codon next to ATG of threonine to proline. This modification did not affect the functional property of the gene product. A chimeric construct of the modifiedcryIIIA gene was developed containing CaMV35S promoter andnos terminator for plant expression. The expressibility of thecryIIIA gene inindica rice was judged through test for transient expression in indica rice protoplasts.     

Characterization of the ksgA gene of Escherichia coli determining kasugamycin sensitivity

In the plasmid pUC8ksgA7, the coding region of the ksgA gene is preceded by the lac promoter (Plac) and a small open reading frame (ORF). This ORF of 15 codons is composed of nucleotides derived from the lacZ gene, a multiple cloning site and the ksgA gene itself. The reading frame begins with the ATG initiation codon of lacZ and ends a few nucleotides beyond the ATG start codon of ksgA. The ksgA gene is not preceded by a Shine-Dalgarno (SD) signal. Cells transformed with pUC8ksgA7 produce active methylase, the product of the ksgA gene. Introduction of an in-phase TAA stop codon in the small ORF abolishes methylase production in transformed cells. On the plasmid pUC8ksgA5, which contains the entire ksgA region, the promoter of the ksgA gene was found to reside in a 380 base pair Bgl1-Pvu2 restriction fragment, partly overlapping the ksgA gene, by two independent methods. Cloning of this fragment in front of the galK gene in plasmid pKO1 stimulates galactokinase activity in transformants and its insertion into the expression vector pKL203 makes beta-galactosidase synthesis independent of the presence of Plac. The sequence of the Bgl1-Pvu2 fragment was determined and a putative promoter sequence identified. An SD signal could not be distinguished at a proper distance upstream from the ksgA start codon. Instead, an ORF of 13 codons starting with ATG in tandem with an SD signal and ending 4 codons ahead of the ksgA gene was identified. This suggests that translation of the ORF is required for expression of the ksgA gene.(ABSTRACT TRUNCATED AT 250 WORDS)     

Increased synthesis of human parathyroid hormone in Escherichia coli through alterations of the 5' untranslated region

The expression of human parathyroid hormone (hPTH) in Escherichia coli was optimized by variations of the spacing sequence between the ribosome-binding site (RBS) and the beginning of the gene (ATG) and by increasing the complementarity of the RBS to the 16 S rRNA. The expression level of 3 micrograms/liter increased more than 100-fold to 475 micrograms/liter as a direct consequence of modifications in the region 5' of the gene.     

A synthetic arabinose-inducible promoter confers high levels of recombinant protein expression in hyperthermophilic archaeon Sulfolobus islandicus

Despite major progresses in genetic studies of hyperthermophilic archaea, recombinant protein production in these organisms always suffers from low yields and a robust expression system is still in great demand. Here we report a versatile vector that confers high levels of protein expression in Sulfolobus islandicus, a hyperthermophilic crenarchaeon. Two expression vectors, pSeSD and pEXA, harboring 11 unique restriction sites were constructed. They contain coding sequences of two hexahistidine (6×His) peptide tags and those coding for two protease sites, the latter of which make it possible to remove the peptide tags from expressed recombinant proteins. While pEXA employed an araS promoter for protein expression, pSeSD utilized P(araS-SD), an araS derivative promoter carrying an engineered ribosome-binding site (RBS; a Shine-Dalgarno [SD] sequence). We found that P(araS-SD) directed high levels of target gene expression. More strikingly, N-terminal amino acid sequencing of recombinant proteins unraveled that the protein synthesized from pEXA-N-lacS lacked the designed 6×His tag and that translation initiation did not start at the ATG codon of the fusion gene. Instead, it started at multiple sites downstream of the 6×His codons. Intriguingly, inserting an RBS site upstream of the ATG codon regained the expression of the 6×His tag, as shown with pSeSD-N-lacS. These results have yielded novel insight into the archaeal translation mechanism. The crenarchaeon Sulfolobus can utilize N-terminal coding sequences of proteins to specify translation initiation in the absence of an RBS site.     

Only one out of the three strong ribosomal binding sites of the early region of bacteriophage T7 exhibits high translational efficiency in fragments of about 30 base pairs

Within the early region of bacteriophage T7 three genes, 0.3, 1 and 1.3, are most efficiently expressed. They belong to the strongest initiation signals of Escherichia coli. In the T7 wild-type situation the proteins are produced with a molar ratio of gene 1:1.3:0.3 protein = 1:3.9:9.7. DNA fragments of about 30 base pairs comprising the ribosomal binding sites (RBS) of these genes were synthesized and cloned into derivatives of the pDS1 vector ribosomal binding sites (RBS) of these genes were synthesized and cloned into two derivatives of the pDS1 vector just upstream of the mouse dihydrofolate reductase gene. Although all tested RBS fragments contained an initiation triplet, a Shine-Dalgarno sequence and some nucleotides upstream and downstream of this region, only the gene 1.3 RBS fragment showed high efficiency whereas those of genes 0.3 and 1 were at the border of significance. The amount of synthesized mRNA was about the same for all three constructs. A major influence of vector-derived sequences on the RBS activity could be ruled out. The high translational activity of the short 1.3 gene RBS seems to be largely due to its primary structure. The other two RBSs studied require much longer sequences for high activity.     

Xylose isomerase from Escherichia coli. Characterization of the protein and the structural gene

The gene that codes for xylose isomerase in Escherichia coli has been cloned by complementation of a xylose isomerase-negative E. coli mutant. The structural gene is 1320 nucleotides in length and codes for a protein of 440 amino acids. An additional 209 nucleotides 5' and 82 nucleotides 3' to the structural gene were also sequenced. To verify that the cloned gene encodes E. coli xylose isomerase, the enzyme was purified to homogeneity and the sequence of the first 25 amino acid residues was determined by a semimicromanual Edman procedure. These results establish that the NH2-terminal methionine of xylose isomerase is specified by an ATG which is 7 nucleotides downstream from a Shine-Dalgarno sequence.     

牛凝乳酶原基因在大肠杆菌中表达调控的研究

Shine-Dalgarno序列与起始密码子之问的距离与组成对凝乳酶原基因表达有明显的影响,可导致其表达水平有15倍之差。SD序列至ATG之间为15bp不利于表达,表达质粒中sD-ATG在7-11bp之间都有可能获得高效表达;但决定因素不是简单的长度,而是RBS附近可能的二级结构即△G的大小、SD序列及ATG中参与配对的碱基数目。将pTLC23中凝乳酶原cDNA3＇端端非翻译区插入终止密码子TGA与转录终止子rrnBT₁T₂之间适当位置可提高凝乳酶原基因的表达,这可能是因为这段序列能形成由53个碱基对和8个碱基组成的稳定的mRNA二级结构,起到转录终止子的作用,而一般认为串联终止子对终止转录更为有效。     

Secondary structure as primary determinant of the efficiency of ribosomal binding sites in Escherichia coli.

Using a previously described vector (pKL203) we fused several heterologous ribosomal binding sites (RBSs) to the lacZ gene of E. coli and then studied the variation in expression of the fusions. The RBSs originated from bacteriophage Q beta and MS2 genes and the E. coli genes for elongation factor EF-Tu A and B and ribosomal protein L11 (rplK). The synthesis of the lacZ fusion proteins was measured by an immuno precipitation method and found to vary at least 100-fold. Lac-specific mRNA synthesis follows the variation in protein production. It appears that there is a correlation between the efficiency of an RBS to function in the expression of the fused gene and the lack of secondary structure, involving the Shine and Dalgarno nucleotides (SDnts) and/or the initiation codon. This efficiency is context dependent. The sequence of the SD nts and the length and sequence of the spacer region up to the initiation codon alone are not able to explain our results. Deletion mutations, created in the phage Q beta replicase RBS, reveal a complex pattern of control of expression, probably involving the use of a "false" initiation site.     

Relationship between utilization of dual translational initiation signals and protein processing in Streptomyces

Summary Two sets of the Shine-Dalgarno sequence and the initiation codon (ATG) for translation of a gene encoding the protein SSI (Streptomyces subtilisin inhibitor) were studied in vivo by site-directed mutagenesis. The result shows that each ATG can function as an initiator of translation in either Streptomyces lividans 66 or Escherichia coli. The choice of initiation codon seems dependent on the host strain and is closely related to the processing mechanism of pre-SSI protein. The upstream ATG is presumed to be utilized preferentially giving two cleavage sites in pre-SSI in S. albogriseolus S-3253, the original SSI producer strain.Abbreviations SD Shine-Dalgarno - SSI Streptomyces subtilisin inhibitor     

Increased expression of a cloned gene by local mutagenesis of its promoter and ribosome binding site.

A strategy for local mutagenesis of DNA has been developed. The lac promoter in phage M13mp9 was replaced with the E. coli trp promoter. A restriction fragment bearing only the trp promoter region was mutagenized with nitrous acid, religated to the unmutagenized vector and transfected into E.coli. Several clones which give darker blue plaques on indicator media, suggesting increased beta-galactosidase synthesis, were selected for DNA sequencing. One clone has a G leads to A transition on the 3' side of the 'Pribnow box' which results in a constitutive promoter. Two clones have different point mutations (C leads to T and T leads to C) between the Shine-Dalgarno sequence and initiation codon which raise expression of beta-galactosidase two-fold. A secondary structure model suggests that the latter two mutations could exert their effect by destabilizing base-pairing of the lac Z coding region with the ribosome binding site (RBS), thereby allowing easier access to ribosomes. Support for the model comes from the finding that neither of the RBS mutations increase expression of a different downstream gene which forms no obvious secondary structure with the RBS region, whether or not the mutations are present. These results strengthen the hypothesis that secondary structure masking is a major determinant of RBS strength.     

Cloning, sequencing and expression of the amylase isozyme gene from Pseudomonas sp. KFCC 10818

Summary A gene coding for amylase was cloned and sequenced from an alkalophilic Pseudomonas sp. KFCC 10818. The coding region for the amylase precursor contained 1,692 nucleotides. The presumed Shine-Dalgarno sequence, AAGG, was located at 8 nucleotides upstream from the ATG initiation codon. The precursor protein had a putative signal peptide of 25 amino acid residues at its amino terminus. The Pseudomonas amylase had four highly conserved regions as other -amylases. The amylase expressed from E. coli harboring the Pseudomonas gene produced maltose and maltotriose from soluble starch.The nucleotide sequence reported in this paper has been submitted in the GenBank/EMBL database with accession number(s) U40056.     

Genetic analysis of the Shine-Dalgarno interaction: selection of alternative functional mRNA-rRNA combinations.

The interaction of bacterial mRNAs with the small ribosomal subunit is strongly promoted by Watson-Crick base pairing between a purine-rich consensus ribosomal RNA-binding sequence (RBS) on mRNA and its complementary message-binding sequence (MBS) on rRNA known as the Shine-Dalgarno interaction. To identify and characterize components of the Shine-Dalgarno interaction that contribute to translation initiation, we simultaneously and randomly mutated both the MBS of the 16S rRNA gene from Escherichia coli and the RBS of the chloramphenicol acetyl transferase (CAT) gene and selected chloramphenicol-resistant mutant combinations. Nucleotide distribution in both mutated sequences of the survivors was nonrandom and the MBSs of the surviving clones showed a preference for purines. In addition, strong interactions between specific nucleotide pairs within each of the mutated sequences were indicated. Although the contribution of free energy of duplex formation between rRNA and mRNA was highly significant (P < 0.001), only 23% of the observed activity in all of the mutants could be attributed to this variable. MBSs that were lethal upon expression were also isolated. These sequences may cause overtranslation of specific messages in the cell. These data indicate that specific sequence constraints exist (primarily within the MBS) that are necessary to establish a functional threshold for translation and that only after establishment of this threshold is the level of expression significantly affected by the free energy of MBS-RBS duplex formation.     

The initiation of translation in E. coli: apparent base pairing between the 16srRNA and downstream sequences of the mRNA.

Bacteriophage T7's gene 0.3, coding for an antirestriction protein, possesses one of the strongest translation initiation regions (TIR) in E. coli. It was isolated on DNA fragments of differing length and cloned upstream of the mouse dihydrofolate reductase gene in an expression vector to control the translation of this gene's sequence. The TIR's efficiency was highly dependent on nucleotides +15 to +26 downstream of the gene's AUG. This sequence is complementary to nucleotides 1471-1482 of the 16srRNA. Similar sequences complementary to this rRNA region are present in other efficient TIRs of the E. coli genome and those of its bacteriophages. There seems to be a correlation between this sequence homology and the efficiency of the initiation signals. We propose that this region specifies a stimulatory interaction between the mRNA and 16srRNA besides the Shine-Dalgarno interaction during the translation initiation step.