Cloning of DNA sequences encoding foreign peptides and their expression in the K88 pili.

A genetic system that allows the cloning of a peptide-coding sequence in the Escherichia coli K88ac and K88ad pilin genes and their expression as recombinant pili has been constructed. Two insertion vectors were created by subcloning the pilin genes in a pBR322 plasmid and replacing the coding sequence of two nonconserved clusters by a linker. The K88ac helper genes were subcloned in the compatible pACYC184 plasmid, and expression of pili by bacteria carrying both plasmids occurred by complementation. Two peptide-coding sequences of the influenza hemagglutinin were cloned in both insertion vectors, and recombinant pilins were shown to be assembled in pili. One recombinant pilus was shown to elicit antibodies against the synthetic peptide in immunized rats. The somatostatin-coding sequence was cloned in both vectors and led in one case to detectable pilus production. The fused somatostatin was shown to be recognized by specific monoclonal and polyclonal antibodies.     

Frequency among Enterobacteriaceae of the DNA sequences encoding type 1 pili.

Type 1 pili, characterized by mannose-inhibitable agglutination of fowl or guinea pig erythrocytes, have been found throughout the family Enterobacteriaceae. A radiolabeled probe was prepared from a restriction endonuclease-digested fragment of the Escherichia coli pil operon and used to detect homologous DNA sequences in 236 bacteria representing 11 genera of Enterobacteriaceae. Only isolates identified as E. coli or Shigella spp. exhibited homology. In contrast, mannose-sensitive hemagglutination was observed in nine genera. Probe DNA did not hybridize to plasmid DNA, indicating a chromosomal location for the pil operon. Analysis of restriction nuclease-digested whole-cell DNA from 60 E. coli and two Shigella sp. isolates indicated that internal sequences were conserved in most strains, but that changes in flanking sequences in the chromosome were common.     

Cloning and analysis of DNA sequences from Streptomyces hygroscopicus encoding geldanamycin biosynthesis

A gene library constructed from large (20 kb) fragments of total DNA from the geldananmycin-producing strain Streptomyces hygroscopicus 3602 cloned in the plasmid vector pIJ61 were used to transform S. lividans TK24. Three transformants of about 800 tested were found to have acquired the ability to produce an antibiotic lethal to a geldanamycin-sensitive strain of Bacillus subtilis. The plasmids isolated from these transformants, pIA101, pIA102 and pIA103, each contained an insert of 15 kb. A 4.5 kb DNA fragment from the insert in pIA102 hybridised to DNA from S. hygroscopicus 3602 and to DNA encoding part of the erythromycin polyketide synthase but not to S. lividans TK24 DNA. The integration-defective phage vector C31 KC515 containing this 4.5 kb fragment was able to lysogenise S. hygroscopicus 3602 to produce lysogens defective in geldanamycin production. Loss of the prophage restored the ability to produce geldanamycin. Extracts of fermentation broth cultures of S. lividans containing pIA101, pIA102 and pIA102 and pIA103 analysed by thin-layer chromatography (TLC) contained compounds identical or very similar to purified geldanamycin, which were not present in S. lividans. These compounds showed a mass spectrum indistinguishable from geldanamycin. The evidence suggests that the clones contain DNA sequences encoding functions required for geldanamycin biosynthesis including components of the polyketide synthase.     

Cloning of chromosomal DNA encoding the F41 adhesin of enterotoxigenic Escherichia coli and genetic homology between adhesins F41 and K88.

The genetic determinant for production of the adhesive antigen F41 was isolated from a porcine enterotoxigenic Escherichia coli strain by cosmid cloning. The cloned DNA included sequences homologous to those of hybridization probes prepared from the K88 adhesive antigen operon. Transposon insertions which inactivated F41 production mapped to the same region of DNA showing homology with the K88 genes, demonstrating the genetic relatedness of F41 and K88. Hybridization of a K88 gene probe to plasmid and total DNA from the porcine E. coli isolate from which the F41 gene was cloned indicated that F41 is chromosomally encoded by this strain. This observation was extended to other F41-producing animal isolates. A large number of animal E. coli isolates were examined with K88, F41, and K99 gene probes and for mannose-resistant hemagglutination of human group O erythrocytes and K88 and F41 antigen production. All K88 and F41 antigen producers possessed genetic homology with the K88 and F41 gene probes. Most, but not all, F41-producing strains possessed homology to the K99 gene probe, reflecting the previously observed association of F41 and K99 antigen production. In the strains examined, homology with the K99 gene probe was plasmid associated, whereas homology with the F41 gene probe was chromosomal. The K88 antigen-producing strains showed no homology with the K99 probe. A number of strains possessed homology with the K88 and F41 gene probes and were mannose-resistant hemagglutination positive, but did not produce K88 or F41 antigens. This suggests that there are adhesins among animal isolates of E. coli which are genetically related to but antigenically distinct from K88 and F41.     

Inhibition of adhesive activity of K88 fibrillae by peptides derived from the K88 adhesin.

A cyanogen bromide fragment derived from the K88ab adhesin inhibited the hemagglutinating activity of K88 fibrillae. Smaller fragments which inhibited the adherence of K88 fibrillae to erythrocytes or to intestinal epithelial cells were obtained by digestion of K88ab fibrillae with alpha-chymotrypsin. Active peptides were isolated from the digestion mixture and identified as Ser-Leu-Phe and Ala-Ile-Phe. Both tripeptides correspond to the peptide stretches Ser-148-Leu-Phe-150 and Ala-156-Ile-Phe-158, respectively, which are part of conserved regions in the primary structure of the K88 variants ab, ac, and ad. The isolated tripeptides inhibited the hemagglutinating activity of purified K88 fibrillae in the 1 to 5 microM range, while adherence of the fibrillae to intestinal epithelial cell brush borders was inhibited in the 10 to 50 microM range. Furthermore, the tripeptides were capable of eluting attached bacteria from agglutinated erythrocytes. The inhibitory activity of the isolated peptides was confirmed by testing various synthetic peptides for their ability to inhibit the interaction of the different K88 variants with various species of erythrocytes. The significance of these findings for the localization of the receptor-binding domain is discussed.     

Molecular cloning of sequences encoding the human heat-shock proteins and their expression during hyperthermia

Plasmids containing cDNA copies of mRNAs induced in HeLa cells by heat shock have been isolated and characterized. In vitro translation of RNAs selected by hybridization to plasmid DNAs identified sequences representing the three major classes (89, 70 and 27-kDa) of heat-shock proteins (hsp) and a 60-kDa minor hsp. Plasmids with inserts specific for the 27, 60, and 70-kDa hsp each hybridize with a single discrete size class of heat-inducible mRNA. Plasmids specific for the 89-kDa protein, however, hybridize with either a 2.7- or 2.95-kb mRNA species. Both mRNAs are coordinately induced during heat shock. We show that the characteristic pattern of induction and repression of each class of hsp during sustained hyperthermia is the result of changes in the steady state level of each mRNA.     

Cloning and expression of plasmid DNA sequences involved in Salmonella serotype Typhimurium virulence

A 22kb region of the 90kb virulence-associated plasmid, pIP1350, of Typhimurium strain C52 was cloned into the mobilizable vector pSUP202, yielding plasmid pIP1352. This recombinant plasmid restored full virulence to plasmidless strain C53 in a mouse model. Transposon Tn5 insertion mutagenesis demonstrated the existence of two DNA sequences in pIP1352 designated VirA and VirB, both of which are essential for the expression of virulence. A recombinant plasmid containing only the VirA and VirB regions markedly increased the virulence of the plasmidless strain C53, but did not confer full virulence. These results suggested that a third virulence-associated region might be present on pIP1352. Eleven proteins encoded by the 22kb insert sequence of pIP1352 were identified in Escherichia coli SE5000 maxicells. The VirA region encoded at least two proteins with apparent molecular weights of 71,000 and 28,000 and the VirB region encoded two proteins of 43,000 and 38,000.     

Cloning and expression of the cDNA encoding the FXPRL family of peptides and a functional analysis of their effect on breaking pupal diapause in Helicoverpa armigera

Diapause hormone (DH) and pheromone biosynthesis activating neuropeptide (PBAN) are encoded by a single mRNA in the suboesophegeal ganglion (SG) and are responsible for induction of embryonic diapause in Bombyx mori and sex pheromone biosynthesis in lepidopteran insects. PBAN cDNA analyses revealed that the DH-like peptide is present in several species that have a pupal diapause. However, the function of the DH-like peptide remains unknown. In the present study, we cloned the cDNA encoding DH-PBAN in Helicoverpa armigera utilizing the rapid amplification of the cDNA ends method. The nucleotide se quence analysis revealed that the longest open reading frame of this cDNA encodes a 194-amino acid precursor protein that con tains a 33-aa PBAN, a 24-aa DH-like peptide, and three other neuropeptides, all of which have a common C-terminal pentapeptide motif FXPR/KL ( X=G, T, S). A homology search showed that H. armigera DH-like and PBAN are highly homologous to those from other insects. Northern blot analysis demonstrated a single message RNA corresponding to the size of Har-DH-PBAN cDNA from pupal SG with significantly higher expression in the SG of nondiapause pupae than diapausing pupae. Western blot analysis showed DH-like peptide expression from SG of both males and females. When DH-like peptide was injected into nondiapause larvae and pupae, it did not induce diapause, but rather efficiently broke pupal diapause in H. armigera. The ED(50) of DH to terminate pupal diapause is 20 pmol/pupae. The other four FXPRLamide neuropeptides from the DH-PBAN polyprotein precursor have cross activity for diapause termination. These observations therefore suggest a potential role for these FXPRL family peptides in promoting continuous development in several noctuid species. The high expression of this gene in pharate adults and adults indicates that the FXPRL family peptides may have multiple physiological functions.     

Cloning, mapping and expression of the genetic determinant that encodes for the K88ab antigen.

The K88 antigen, a plasmid-specified virulence factor of E. coli involved in porcine neonatal diarrhoea, is often found to be associated with the ability to metabolize raffinose (Raf). Plasmid pRI8801 (51 megadalton) was used to clone the determinants of K88 and Raf with the vector pBR322. K88 was found to be encoded by a 7.7 megadalton HindIII fragment. The expression was highly dependent on the orientation of the HindIII fragment within pBR322. By in vitro generation of deletions, the HindIII fragment was reduced in size to 4.3 megadalton. The expression of K88 by pRI8801 and the recombinant plasmids was studied using an enzyme-linked immunosorbent assay. Raf was found to be located on a 4.0 megadalton SalI fragment. A physical map of pRI8801 was constructed. The K88 antigen and Raf genes are not closely linked but separated by a stretch of DNA of about 20 megadalton.     

Generating DNA sequences encoding tandem peptide repeats suitable for expression and immunological application

Tandem repeats of single short peptide sequences are useful for many purposes. Here we describe a method called ligation-PCR to construct DNA sequences encoding numerous tandem peptide repeats that can stably produce such repeats in both prokaryotic and eukaryotic cells. The method employs double-strand target monomers consisting of a short peptide coding sequences. These sequences contain 3-bp cohesive overhangs to ensure correct repeat orientation and reading frame during ligation. The ligation products are PCR amplified and directly cloned into a new TA-cloning vector, pZeroT. Constructs containing tandem 10-amino-acid myc-tag peptide coding sequence repeats that ranged from approximately 0.45–1.2 kb, representing 15–40 copies of the corresponding peptide, were successfully obtained by this method. When one of the constructs was subcloned into prokaryotic vector pET-28 c (+) and eukaryotic vector rGHpcDNA3.0, and introduced into E. Coli and COS-7 cells, respectively, proteins containing tandem myc-tag peptide repeats were expressed with expected molecular weights. Purified proteins from E. Coli could successfully stimulate a peptide specific immune response. This method provides a means to manipulate peptides at the nucleic acid level, and can serve as the basis for biological peptide synthesis, epitope-specific antibody production, and epitope-based DNA vaccine construction.     

Cloning and expression analysis of DNA sequences for the major latex protein of opium poppy

Opium-poppy (Papaver somniferum L.) latex contains a group of very abundant, laticifer-specific peptides called the major latex proteins (MLPs). We determined a partial amino-acid sequence of an MLP cyanogen bromide peptide fragment that was used to design an MLP oligonucleotide primer. An MLP-specific DNA probe was then generated by polymerase chain reaction (PCR) of first-strand complementary DNA (cDNA) templates primed with the MLP oligonucleotide and oligodeoxythymidylic acid. This DNA fragment, called MLP-PCR, and two partial MLP cDNAs isolated with it, all contain open reading frames matching the known MLP amino-acid sequence. RNA gel blots of latex, tissue cultures, and the major organs of mature plants of opium poppy show that MLP is coded for by an 860-nucleotide mRNA and that this accumulates exclusively in laticifers.     

In vitro evaluation of the activity of microencapsulated carvacrol against Escherichia coli with K88 pili

Aims: The aim of the current study is to develop encapsulation of essential oils for oral delivery to the small intestine of pigs in order to retain their antimicrobial activity. Methods and Results: Carvacrol was used as a model essential oil and successfully encapsulated in microcapsules made from Ca‐alginate hydrogel using an emulsion–extrusion technology with high encapsulation efficiency. This encapsulation method did not compromise the antimicrobial activity when tested against Escherichia coli K88 in a culture medium, as well as in a simulated gastrointestinal model. In the simulated gastrointestinal model, <20% of encapsulated carvacrol was released in the simulated gastric fluid; the rest was nearly completely released in the intestinal fluid after 6 h of incubation. Conclusions: Encapsulation in Ca‐alginate microcapsules could effectively reduce the early absorption of carvacrol in the upper gastrointestinal tract after oral administration, therefore, retains its potential antibacterial activity for the small intestine. Significance and Impact of the Study: The developed encapsulation method is expected to be suitable for encapsulation of other essential oils. The results from this study would increase the likelihood of success in the application of essential oils as antimicrobial agents for controlling enteric diseases in pigs.     

Cloning and expression analysis of full length mouse cDNA sequences encoding the transformation associated protein p53.

We have cloned and sequenced overlapping cDNA fragments which together encode the entire mouse protein p53. Using these cDNA's we have reconstructed the full length coding region for the protein, and have analysed its coding potential by expression in vitro, both as a full length sequence and as a subfragment contained in a fusion protein. The predicted amino acid sequence contains no obvious homologies to any known oncogenes but includes a possible tyrosine kinase acceptor site.     

Cloning and expression in Escherichia coli of a human cDNA encoding the DNA repair protein N-methylpurine-DNA glycosylase

A 871-base pair cDNA encoding the human N-methylpurine-DNA glycosylase (MPG) was cloned from a HeLa S3 cDNA expression library in a pUC vector by phenotypic screening of MPG-negative (tag- alkA-) Escherichia coli cells exposed to methylmethane sulfonate. The active MPG is expressed as a 31-kDa fusion protein. The human cDNA-encoded MPG releases 3-methyladenine, 7-methylguanine, and 3-methylguanine from DNA and thus has a substrate range similar to that of the indigenous enzyme and the E. coli AlkA protein. The cDNA hybridizes with distinct restriction fragments of mammalian DNAs but not with E. coli or yeast DNA. A search in the GenBank data bank failed to show any other cloned DNA with a similar sequence. Although the human protein has 62% sequence homology with the corresponding rat enzyme, only a few amino acid residues are conserved between the human protein and the E. coli and yeast MPGs. However, a conserved glutamine residue in all MPGs that release 3-alkyladenine and an arginine residue in eukaryotic MPGs and E. coli AlkA that act additionally on N-alkylguanines suggest that these residues are involved in recognition of adenine and guanine adducts in DNA, respectively. Although the 1.1-kilobase mRNAs of MPG from human and rodents are similar in size, liver and cultured cells of rat have much lower levels of MPG mRNA than do human and mouse cells. A hamster cell line variant isolated as being resistant to methylmethane sulfonate does not have a higher level of MPG mRNA than the parent cell line.     

Transferable Streptomyces DNA amplification and coamplification of foreign DNA sequences.

The 8.8-kb amplifiable unit of DNA of Streptomyces achromogenes subsp. rubradiris, AUD-Sar 1, which carries 0.8-kb terminal direct repeats and a spectinomycin resistance determinant, can mediate high-level amplification of an AUD-Sar 1-derived 8.0-kb DNA sequence not only in S. achromogenes but also in the heterologous host Streptomyces lividans. This was seen upon introduction of AUD-Sar 1 into chloramphenicol-sensitive strains of S. lividans via the temperature-sensitive (39 degrees C) plasmid pMT660, which contains the thiostrepton resistance gene tsr. Following the cultivation of transformants at 39 degrees C on media containing spectinomycin, a number of strains which were unable to grow on thiostrepton and which carried the amplified 8.0-kb DNA sequence as arrays of 200 to 300 copies of tandem 8.0-kb repeats were found. Chloramphenicol-resistant strains of S. lividans did not yield amplified sequences under similar conditions. Studies with plasmids carrying inserted antibiotic resistance genes at two sites of AUD-Sar 1 yielded coamplified sequences which contain the inserted DNA. Transformation with a plasmid carrying a 1.0-kb deletion in AUD-Sar 1 followed by growth under similar conditions yielded a 7.0-kb repeated DNA sequence. Southern analysis revealed the absence of vector sequences located on the right side of AUD-Sar 1 in the input plasmids in all examined DNA samples of amplified strains. In contrast, a majority of the samples revealed the presence at unit copy level of AUD-Sar 1 left-adjacent sequences which are part of the input plasmids and in several samples the presence of certain vector sequences located near them. The results suggest input plasmid integration into the S. lividans chromosome prior to the generation of the amplified sequences and the deletion of AUD-Sar 1 adjacent sequences.     

Cloning and expression in Escherichia coli of two DNA fragments from Bacillus sphaericus encoding mosquito-larvicidal activity

A library of Bacillus sphaericus 1593 DNA was constructed in Escherichia coli using pBR322 as vector and screened for clones expressing larvicidal activity against Culex mosquito larvae. Two larvicidal clones were identified and their plasmids characterized by restriction mapping. pAS233 and pAS377 contained inserts of 8.6 and 15 kb which were reduced by subcloning to 3.6 and 4.3 kb, respectively. A peptide of 29 kDa was the single product detected by maxicell expression of pAS377PT, a plasmid subcloned from pAS377. No insert-encoded peptide could be detected for pAS233HA, a subclone of pAS233, although maxicells containing this plasmid encoded larvicidal activity. The insert of pAS377PT was transcribed from a vector promoter whereas the insert of pAS233HA was transcribed from its own promoter and hence its expression in B. subtilis was possible. The insert was ligated to a shuttle vector yielding pSVI which was then used to transform B. subtilis. Recombinant E. coli and B. subtilis clones showed equivalent larvicidal activity of 1–10 μg cell protein per ml. Larvicidal activity was observed during vegetative growth for recombinant B. subtilis even though B. sphaericus 1593 synthesizes its mosquito-toxin only during sporulation.