Total DNA synthesis and cloning in Escherichia coli of a gene coding for the human growth hormone releasing factor

A DNA containing a sequence coding for the human growth hormone releasing factor (hGRF) has been obtained by enzymatic assembly of chemically synthesized DNA fragments. The synthetic gene consists of a 140 base-pair fragment containing initiation and termination signals for translation and appropriate protruding ends for cloning into a newly constructed plasmid vector (pULB1219). Eleven oligodeoxyribonucleotides, from 14 to 31 bases in length, sharing pairwise stretches of complementary regions of at least 13 bases were prepared by phosphotriester solid-phase synthesis. The DNA sequence was designed to take into account the optimal use of E. coli codons. Oligomers were annealed in one step and assembled by ligation. The DNA fragment of the expected size (140 bp) was recovered and cloned into the pULB1219 vector. The expected sequence was confirmed by DNA sequencing.     

Chemical synthesis of a human fibroblast interferon gene and its expression in Escherichia coli

Using the solid phase phosphotriester method, a gene coding for human fibroblast interferon consisting of 166 amino acid residues was chemically synthesized. The gene obtained by ligation of 61 synthesized oligodeoxyribonucleotide fragments was inserted into the downstream of tryptophan promoter, and expressed in E. coli. Lysate of this E. coli showed the antiviral activity which was specifically neutralized by anti-fibroblast interferon antibody. No particular advantage was observed in the expression efficiency by the synthetic gene over that by the native gene.     

Synthesis of a Gene Coding for Human Vasoactive Intestinal Peptide (VIP)

Abstract

A gene coding for human Vasoactive Intestinal Peptide (VIP) was designed as a double-stranded 99 base pair DNA sequence. The sixteen fragments of the gene were chemically synthesized using a solid-phase phosphoramidite triester coupling approach and enzymatically assembled using T4 DNA ligase. The resulting gene was cloned into pBR322 and sequenced using the Maxam-Gilbert sequencing procedure.     

Chemico-enzymatic synthesis and cloning of human angiogenin gene in M13mp8 phage

The nucleotide sequence coding for human angiogenin has been deduced from the published amino acid sequence with the use of codons preferentially utilized in highly expressed E. coli genes. It was divided into forty-three oligonucleotides, which were synthesized by automatic gene assembler and then joined by DNA ligase into three double-stranded blocks, the blocks were consequently cloned and ligated in M13mp8 phage, and the resultant 389-bp DNA sequence coding for human angiogenin was analysed by chain-terminator sequencing technique.     

mRNA- and DNA-directed synthesis of herpes simplex virus-coded exonuclease in Xenopus laevis oocytes

Microinjection of herpes simplex virus (HSV)-infected cell mRNA into Xenopus laevis oocytes resulted in the production of a new exonuclease activity. This enzyme strongly resembled the HSV alkaline exonuclease in many biochemical properties, and hybrid-arrested translation studies showed that it was virus coded, mapping at 0.080 to 0.185 genome map units. Exonuclease mRNA had a size and genome location equivalent to the mRNA encoding V185 in reticulocyte lysates, suggesting that V185 is the exonuclease. The enzyme synthesized in oocytes was found to act as an exonuclease in vivo. Two plasmids containing HSV DNA fragments directed the synthesis of exonuclease when microinjected into oocyte nuclei, and this finding enabled the coding and control sequences for this gene to be localized to 0.155 to 0.185 genome map units.     

Directed reconstruction of the influenza virus hemagglutinin gene

A new approach to create chimeric genes by directed exchange of oligonucleotide fragments was developed. By oligonucleotide-directed mutagenesis a few deletion mutants of the influenza virus hemagglutinin (HA) gene were obtained. These variants of HA gene contain unique restriction sites in DNA regions coding for the A and B epitopes of the HA molecule. The obtained special vectors may be used for cloning DNA fragments coding for new amino acid sequences in internal sites of the HA gene.     

An alternative method for the synthesis of tailor-made genes

Oligonucleotide synthesis was coupled with amplification by the polymerase chain reaction to generate an exact translational fusion between a plant signal sequence and an animal structural gene. A synthetic 111-mer oligonucleotide representing less than two percent of the reaction products was successfully amplified by using short primers containing restriction sites designed for ease of cloning and providing in-frame fusion. The method overcomes the length-versus-yield dilemma in oligonucleotide synthesis, and is generally adaptable to the construction of a translationally competent coding sequence from any two DNA fragments.     

人溶菌酶基因的合成和克隆

用固相亚磷酰胺法合成了人溶菌酶的全基因,全长为409bp,它包括了编码人溶菌酶的结梅基因,起始密码于ATG,终止密码子TAA、TGA,以及两端的BamHI和SphI的识别顺序。整个基因分成24个寡聚核苷酸片段进行合成,每个片段长度分别为26至38个核苷酸．然后用两种方法酶促连接成完整的人溶菌酶基因。基因克隆到M13载体上。用点杂交和限制酶酶切分析确定阳性克隆株。用双脱氧链终止法进行序列分析,证实所合成的人溶菌酶基因序列与设计的完全一致。     

Patch oligodeoxynucleotide synthesis (POS): a novel method for synthesis of long DNA sequences and full-length genes

Synthesis of long DNA fragments is often associated with mutations and requires multiple DNA manipulation steps. A novel DNA synthesis method, referred to as patch oligodeoxynucleotide synthesis (POS) to assembly long DNA fragments is presented here. This method involves connection of two types of oligodeoxynucleotides: long constructional oligonucleotides (COs) and short patch oligonucleotides (POs). Long COs were connected by a ligase with the aid of POs, which were complementary to both adjacent COs to help remove secondary structures during assembly. The partial double-stranded DNA template that was formed was then amplified by PCR. Accordingly, we synthesized SV40 polyadenylation signal sequences (187 bp), a codon-optimized yellow fluorescent protein gene (678 bp), and Rattus norvegicus catenin β1 (2,352 bp). This presented method can be broadly applied to synthesize DNA fragments of varying lengths with great convenience.     

Chemical synthesis and expression of a calmodulin gene designed for site-specific mutagenesis

A gene coding for a calmodulin was synthesized and expressed in Escherichia coli. The gene was produced by the enzymatic ligation of 61 chemically synthesized DNA fragments. The gene possesses 27 unique, regularly spaced, restriction endonuclease cleavage sites to facilitate gene mutagenesis by the replacement of specific gene segments with synthetic double-stranded DNA. An expression vector containing the calmodulin gene was used to transform E. coli. Purification and characterization of calmodulin (VU-1 calmodulin) expressed by these transformants showed that it lacks two posttranslational modifications: an amino-terminal blocking group and N epsilon, N epsilon, N epsilon-trimethyllysine at position 115. The cyclic nucleotide phosphodiesterase activator properties of VU-1, higher plant, and vertebrate calmodulins were not statistically different. However, VU-1 calmodulin was found to activate nicotinamide adenine dinucleotide (NAD) kinase to a maximal level that was at least 3-fold higher than that found with higher plant and vertebrate calmodulins. This higher level of activation is also characteristic of calmodulins from Dictyostelium discoideum and Chlamydomonas reinhardtii [Roberts, D. M., Burgess, W. H., & Watterson, D. M. (1984) Plant Physiol. 75, 796-798; Marshak, D. R., Clarke, M., Roberts, D. M., & Watterson, D. M. (1984) Biochemistry 23, 2891-2899]. The only common feature among Dictyostelium, Chlamydomonas, and VU-1 calmodulins not found in higher plant and vertebrate calmodulins is an unmethylated lysine at position 115. The results indicate that the lack of methylation of lysine-115 may contribute to the maximal level of NAD kinase activation.(ABSTRACT TRUNCATED AT 250 WORDS)     

An alternative approach in gene synthesis: use of long selfpriming oligodeoxynucleotides for the construction of double-stranded DNA

A novel approach for the synthesis of double-stranded DNA fragments from only one long oligodeoxynucleotide (oligo) is presented. The basic strategy is to use oligos which possess a short inverted repeat at their 3' end resulting in the formation of a hairpin structure. The 3' end of this hairpin then serves as a primer in the Klenow (large) fragment of E. coli DNA polymerase I-mediated synthesis of the second DNA strand. Removal of the loop structure as well as generation of sticky ends for subsequent cloning is achieved by digestion with restriction enzymes. Several oligos ranging in size from 130 to 147 nt were synthesized and successfully used in the cloning of gene fragments of up to 120 bp in length. Furthermore, a strategy for the simultaneous cloning of two synthetic DNA fragments is outlined yielding even larger gene fragments. By sequential cloning of these gene fragments the methodology presented here will allow the synthesis of genes of any size. The proposed methodology should also be useful for site-directed mutagenesis as well as saturation mutagenesis.     

Cloning and sequencing of a bile acid-inducible operon from Eubacterium sp. strain VPI 12708.

Two bile acid-inducible polypeptides from Eubacterium sp. strain VPI 12708 with molecular weights of 27,000 and approximately 45,000 have previously been shown to be encoded by genes residing on a 2.9-kb EcoRI fragment. We now report the cloning and sequencing of three additional overlapping DNA fragments upstream from this EcoRI fragment. Together, these four fragments contain a large segment of a bile acid-inducible operon which encodes the 27,000- and 45,000-Mr (now shown to be 47,500-Mr) polypeptides and open reading frames potentially coding for four additional polypeptides with molecular weights of 59,500, 58,000, 19,500, and 9,000 to 11,500. A bile acid-inducible polypeptide with an apparent Mr of 23,500, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, was purified to homogeneity, and the N-terminal amino acid sequence that was obtained matched the sequence deduced from the open reading frame coding for the 19,500-Mr polypeptide. A short DNA segment containing the 3' downstream end of the gene coding for the 47,500-Mr polypeptide was not successfully cloned but was directly sequenced from DNA fragments synthesized by polymerase chain reaction. The mRNA initiation site for the bile acid-inducible operon was shown by primer extension to be immediately upstream from the gene encoding the 58,000-Mr polypeptide. A potential promoter region upstream from the mRNA initiation site displayed significant homology with the promoter regions of previously identified bile acid-inducible genes from Eubacterium sp. strain VPI 12708. We hypothesize that this bile acid-inducible operon codes for most of the enzymes involved in the bile acid 7 alpha-dehydroxylation pathway in this bacterium.     

Deoxyribonucleic acid synthesis in isolated DNA-membrane complexes

The DNA synthesized by isolated Escherichia coli DNA-membrane complexes has been analysed by centrifugation techniques. The in vitro synthesized DNA sediments after deproteinization, in part with the parental bulk DNA and in part as a spectrum of fragments with sedimentation coefficients between 10 and 25 s. The fragments are, at least partially, precursors to the fast sedimenting DNA. The DNA fragments are mostly double stranded and contain (i) parental DNA pieces non-covalently bound to newly synthesized DNA strands of similar length, as well as (ii) one well-defined fraction in which parental DNA and newly synthesized DNA are covalently joined. The results are discussed in terms of the “prefork synthesis” model of Haskell & Davern (1969).     

Automatic identification of structural gene fragments using a set of peptides

A computer program is designed to facilitate the identification of coding gene's fragments using a set of peptides. The program is written on Basic programming language for personal computer "Iskra-226" (USSR). To accelerate some operations, computer code commands are used. Treatment of 50 DNA fragments by means of 10 peptides takes ca. 1 h of computer time. The program outputs list coding gene's fragments and corresponding peptides. The suggested algorithm is based on our finding that the number of false identifications of a coding gene fragments may be predicted by Poisson distribution and minimized using correct criteria. The suggested method enables one to evaluate the reliability of the true identification of DNA fragments in case of mistakes in primary structure of the gene fragments or peptides.     

DNA synthesis in vitro with an endoplasmic-reticulum-DNA-polymerase complex from unfertilized sea urchin eggs

An endoplasmic-reticulum-DNA-polymerase complex was prepared from unfertilized sea urchin eggs and its DNA-synthesizing activity was examined using single-stranded DNA of bacteriophage fd as a template. The complex catalyzed the ribonucleotide-dependent DNA synthesis which required dNTPs, NTPs, Mg2+ and single-stranded DNA. The DNA synthesis was sensitive to aphidicolin and N-ethylmaleimide but was resistant to 2',3'-dideoxyribosylthymine 5'-triphosphate (ddTTP) and alpha-amanitin, suggesting the involvement of DNA polymerase alpha. In parallel with the DNA synthesis, a small amount of RNA was synthesized in the presence of 100 micrograms/ml alpha-amanitin. The Km value of ribonucleotides for the RNA synthesis coincided with that for the DNA synthesis, suggesting a correlation between the DNA and RNA syntheses. Labelling of the products with [gamma-32P]ATP followed by DNA digestion with pancreatic DNase I revealed the attachment of an oligoribonucleotide (7-11 bases in length) at the 5' ends of the DNA products. These observations suggest that in DNA synthesis, primer RNA synthesis occurs first, followed by DNA chain elongation. During 1-90-min incubation, the amount of the DNA synthesized increased but the length was not significantly increased. Over 80% of the number of synthesized DNA molecules comprised a single population of short DNA fragments (60-200 bases, on average 120 bases in length) and the number of fragments increased, depending on the incubation time. However, DNA fragments of various sizes (about 100-6000 bases) were synthesized with DNA polymerase alpha solubilized from the endoplasmic-reticulum-DNA-polymerase complex. All this evidence suggests that in vitro, the complex preferentially synthesizes a particular size of short DNA fragments. The significance of the fragments is discussed.