Molecular cloning and expression of the col2a1a and col2a1b genes in the medaka, Oryzias latipes

The Col2a1 gene is expressed in notochord, otic vesicle, cartilaginous tissue and the anlage of endochondral bone during development in higher vertebrates. Type II collagen, a homotrimeric product of the Col2a1 gene, functions as a key regulatory protein for cartilage development and endochondral ossification. In medaka and zebrafish, a single homolog of the col2a1 gene has been identified. However, it is necessary to note that many genes are duplicated in teleost fishes. To clarify function of col2a1 genes in teleost fishes and to further understand the process of cartilage development and endochondral ossification, we cloned and mapped the gene loci of two col2a1 orthologs in medaka. The proteins encoded by both medaka col2a1a and col2a1b genes were highly conserved (85.3% and 82.6%) relative to human COL2A1, but synteny was not observed. We also examined the expression patterns of col2a1a and col2a1b during embryonic development. Whole-mount insitu hybridization data suggests that expression patterns of both medaka co2a1a and col2a1b genes are similar to that of zebrafish co2a1 in the early embryonic stages. In medaka, the two col2a1 genes show a closely correlated pattern of spatial and temporal expression. In late embryonic stages, however, there were differences in both expression patterns in the pectoral fin. This study is the first report of two homologs of col2a1 in teleosts and also the first examination of col2a1a and col2a1b expression patterns in this group.     

Shuttle vectors containing a multiple cloning site and a lacZ alpha gene for conjugal transfer of DNA from Escherichia coli to gram-positive bacteria

The mobilizable shuttle cloning vectors, pAT18 and pAT19, are composed of: (i) the replication origins of pUC and of the broad-host-range enterococcal plasmid pAM beta 1; (ii) an erythromycin-resistance-encoding gene expressed in Gram- and Gram+ bacteria; (iii) the transfer origin of the IncP plasmid RK2; and (iv) the multiple cloning site and the lacZ alpha reporter gene of pUC18 (pAT18) and pUC19 (pAT19). These 6.6-kb plasmids contain ten unique cloning sites that allow screening of derivatives containing DNA inserts by alpha-complementation in Escherichia coli carrying the lacZ delta M15 deletion, and can be efficiently mobilized by self-transferable IncP plasmids co-resident in the E. coli donors. Plasmids pAT18, pAT19 and recombinant derivatives have been successfully transferred by conjugation from E. coli to Bacillus subtilis, Bacillus thuringiensis, Listeria monocytogenes, Enterococcus faecalis, Lactococcus lactis, and Staphylococcus aureus at frequencies ranging from 10(-6) to 10(-9). The presence of a restriction system in the recipient dramatically affects (by three orders of magnitude) the efficiency of conjugal transfer of these vectors from E. coli to Gram+ bacteria.     

Molecular cloning,expression, and functional characterization of a novel zebrafish cytosolic sulfotransferase

By searching the zebrafish expressed sequence tag (EST) database, we have identified a cDNA clone encoding a putative zebrafish cytosolic sulfotransferase (ST). This cDNA was isolated and subjected to nucleotide sequencing. Analysis of the sequence data revealed that this novel zebrafish ST displays 32-35% amino acid sequence identity to members of all major cytosolic ST gene families. Therefore, this zebrafish ST, while belonging to the cytosolic ST gene superfamily, appears to be independent from all known constituent ST gene families. Recombinant zebrafish ST, expressed using the pET23c prokaryotic expression vector and purified from transformed Escherichia coli cells, migrated as a 34-kDa protein upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Purified zebrafish ST displayed sulfating activities toward dopamine and thyroid hormones (T(3) and T(4)), with a pH optimum spanning 7-9. The enzyme also exhibited activities toward a number of xenobiotics including some flavonoids, isoflavonoids, and other phenolic compounds. A thermostability experiment revealed the enzyme to be relatively stable over a temperature range between 20 and 48 degrees C. Among 10 divalent metal cations tested, Fe(++), Hg(++), Co(++), Zn(++), Cu(++), and Cd(++) exhibited dramatic inhibitory effects on the activity of the enzyme. These results constitute a first study on the cloning, expression, and characterization of a zebrafish cytosolic ST.     

Molecular cloning, expression, and functional characterization of a cystatin from pineapple stem

A cDNA fragment encoding the cysteine protease inhibitor, cystatin, was cloned from pineapple (Ananas comosus) stem. This clone was constructed in a fusion vector and was easily over-expressed in Escherichia coli; satisfactory over-expression of non-fusion cystatin was achieved after an additional start codon was inserted prior to its coding sequence. Both recombinant cystatins were predominately found in the soluble fraction of the cell extract, and were demonstrated to be functionally active in a reverse zymographic assay. The fusion and non-fusion cystatins were separately purified to homogeneity via a His-tag or papain-coupling affinity column. Effective inhibitory activity against papain was detected with both the fusion and non-fusion cystatins with comparable K(i) values of 1.18 x 10(-10) M and 9.53 x 10(-11) M, respectively. The recombinant cystatins were found to be thermally stable up to 60 degrees C. Inhibition of the endogenous protease activity in minced fish muscle revealed that the recombinant pineapple cystatins might be an adequate stabilizer to prevent protein degradation during industrial food processing.     

Molecular cloning and functional characterization of KCC3, a new K-Cl cotransporter

We isolated and characterized a novelK-Cl cotransporter, KCC3, from human placenta. The deduced proteincontains 1,150 amino acids. KCC3 shares 75-76% identity at theamino acid level with human, pig, rat, and rabbit KCC1 and 67%identity with rat KCC2. KCC3 is 40 and 33% identical to twoCaenorhabditis elegans K-Cl cotransporters and ~20%identical to other members of the cation-chloride cotransporter family(CCC), two Na-K-Cl cotransporters (NKCC1, NKCC2), and the Na-Clcotransporter (NCC). Hydropathy analysis indicates a typical KCCtopology with 12 transmembrane domains, a large extracellular loopbetween transmembrane domains 5 and 6 (unique to KCCs), and largeNH₂ and COOH termini. KCC3 is predominantly expressed inkidney, heart, and brain, and is also expressed in skeletal muscle,placenta, lung, liver, and pancreas. KCC3 was localized to chromosome15. KCC3 transiently expressed in human embryonic kidney (HEK)-293cells fulfilled three criteria for increased expression of K-Clcotransport: stimulation of cotransport by swelling, treatment withN-ethylmaleimide, or treatment with staurosporine.

     

Molecular cloning,expression, and functional characterization of a 2Cys-peroxiredoxin in Chinese cabbage

A cDNA (C2C-Prx) corresponding to a 2Cys-peroxiredoxin (2Cys-Prx) was isolated from a leaf cDNA library of Chinese cabbage. The predicted amino acid sequence of C2C-Prx has 2 conserved cysteines and several peptide domains present in most of the 2Cys-Prx subfamily members. It shows the highest sequence homology to the 2Cys-Prx enzymes of spinach (88%) and Arabidopsis (86%). Southern analysis using the cDNA insert of C2C-Prx revealed that it consists of a small multigene family in Chinese cabbage genome. RNA blot analysis showed that the gene was predominantly expressed in the leaf tissue of Chinese cabbage seedlings, but the mRNA was generally expressed in most tissues of mature plant, except roots. The expression of C2C-Prx was slightly induced by treatment with H₂O₂ (100M) or Fe³⁺/O₂/DTT oxidation system, but not by ABA (50 M) or GA₃ (10 M). The C2C-Prx is encoded as a preprotein of 273 amino acids containing a putative chloroplast-targeting signal of 65 amino acids at its N-terminus. The N-terminally truncated recombinant protein (C2C-Prx) migrates as a dimer in a non-reducing SDS-polyacrylamide gel and as a monomer in a reducing condition. The C2C-Prx shows no immuno cross-reactivity to antiserum of the yeast thiol-specific antioxidant protein, and vice versa. The C2C-Prx prevents the inactivation of glutamine synthetase and the DNA cleavage in the metal-catalyzed oxidation system. In the yeast thioredoxin system containing thioredoxin reductase, thioredoxin, and NADPH, the C2C-Prx exhibits peroxidase activity on H₂O₂.     

pIJ101, a multi-copy broad host-range Streptomyces plasmid: functional analysis and development of DNA cloning vectors

Streptomyces lividans ISP 5434 contains four small high copy number plasmids: pIJ101 (8.9 kb), pIJ102 (4.0 kb), pIJ103 (3.9 kb) and pIJ104 (4.9 kb). The three smaller species appear to be naturally occurring deletion variants of pIJ101. pIJ101 and its in vivo and in vitro derivatives were studied after transformation into S. lividans 66. pIJ101 was found to be self-transmissible by conjugation, to elicit "lethal zygosis" and to promote chromosomal recombination at high frequency in both S. lividans 66 and S. coelicolor A3(2). A restriction endonuclease cleavage map of pIJ101 was constructed for 11 endonucleases; sites for five others were lacking. Many variants of pIJ101 were constructed in vitro by inserting DNA fragments determining resistance to neomycin, thiostrepton or viomycin, and having BamHI termini, into MboI or BclI sites on the plasmid, sometimes with deletion of segments of plasmid DNA. The physical maps of these plasmids were related to their phenotypes in respect of lethal zygosis and transfer properties. In vivo recombination tests between pairs of variant plasmids were also done. These physical and genetic studies indicated that determinants of conjugal transfer occupy less than 2.1 kb of the plasmid. A second segment is required for spread of the plasmid within a plasmid-free culture to produce the normal lethal zygosis phenotype: insertion of foreign DNA in this region caused a marked reduction in the diameter of lethal zygosis zones. The minimum replicon was deduced to be 2.1 kb or less in size; adjacent to this region is a 0.5 kb segment which may be required for stable inheritance of the plasmid. The copy number of several derivatives of pIJ101 in S. lividans 66 was between 40 and 300 per chromosome and appeared to vary with the age or physiological state of the culture. pIJ101 derivatives have a wide host range within the genus Streptomyces: 13 out of 18 strains, of diverse species, were successfully transformed. Knowledge of dispensable DNA segments and the availability of restriction sites for the insertion of DNA, deduced from the properties of plasmids carrying the E. coli plasmid pACYC184 introduced at various sites, was used in the construction of several derivatives of pIJ101 suitable as DNA cloning vectors. These were mostly designed to be non-conjugative and to carry pairs of resistance genes for selection. They include a bifunctional shuttle vector for E. coli and Streptomyces; a Streptomyces viomycin resistance gene of this plasmid is expressed in both hosts.     

Molecular cloning, sequence analysis, and functional expression of a novel growth regulator, oncostatin M.

Oncostatin M is a polypeptide of Mr approximately 28,000 that acts as a growth regulator for many cultured mammalian cells. We report the cDNA and genomic cloning, sequence analysis, and functional expression in heterologous cells of oncostatin M. cDNA clones were isolated from mRNA of U937 cells that had been induced to differentiate into macrophagelike cells by treatment with phorbol 12-myristate 13-acetate, and a genomic clone was also isolated from human brain DNA. Sequence analysis of these clones established the 1,814-base-pair cDNA sequence as well as exon boundaries. This sequence predicted that oncostatin M is synthesized as a 252-amino-acid polypeptide, with a 25-residue hydrophobic sequence resembling a signal peptide at the N terminus. The predicted oncostatin M amino acid sequence shared no homology with other known proteins, but the sequence of the 3' noncoding region of the cDNA contained an A + T-rich stretch with sequence motifs found in the 3' untranslated regions of many cytokine and lymphokine cDNAs. Oncostatin M mRNA of approximately 2 kilobase pairs was detected in phorbol 12-myristate 13-acetate-treated U937 cells and in activated human T cells. Transfection of cDNA encoding the oncostatin M precursor into COS cells resulted in the secretion of proteins with the structural and functional properties of oncostatin M. The unique amino acid sequence, expression by lymphoid cells, and growth-regulatory activities of oncostatin M suggest that it is a novel cytokine.     

Molecular cloning and functional expression analysis of a cDNA for human hepassocin, a liver-specific protein with hepatocyte mitogenic activity

By means of differential cDNA expression cloning, we earlier isolated a novel rat cDNA and its protein, named hepassocin, which is upregulated during liver regeneration. Using the rat cDNA as a probe, we have now isolated human hepassocin cDNA encoding a protein of 312 amino acids, which has 81.4% and 83.8% identity, respectively, to rat hepassocin before and after elimination of its signal peptide. Dot blot analysis revealed that hepassocin mRNA was strongly expressed in adult liver, fairly strongly in fetal liver, and weakly in pancreas, but not in other tissues. Recombinant human hepassocin produced in Chinese hamster ovary (CHO) cells by the dihydrofolate reductase-methotrexate (DHFR--MTX) gene amplification method is a homodimer (68 kDa) and has mitogenic activities in hepatocytes of various animal species including rat, mouse, rabbit and dog, and the activity was lost with 2-mercaptoethanol treatment. These results suggest that hepassocin is a potent regulator in liver cell growth not only in rats but also in humans. Computer searches revealed that human hepassocin as well as rat hepassocin has a characteristic disulfide structure close to that of fibrinogen-gamma. We assume that this newly identified growth factor exerts functions in association with an extracellular matrix such as fibrinogen.     

Molecular cloning and functional expression of a fibrinolytic protease gene from the polychaeta, Periserrula leucophryna

Full-length cDNA encoding a fibrinolytic protease (PLFP) from the cDNA library of the polychaete, Periserrula leucophryna was cloned, sequenced and expressed in Escherichia coli. The entire cDNA of the PLFP clone was 921 bp (CDS: 41-837), including a coding nucleotide sequence of 798 bp, a 5′-untranslaed region of 40 bp, and a 3′-noncoding region of 83 bp. The ORF encoded a 265-amino acid polypeptide precursor consisting of a 36-residue signal sequence and a 229-residue mature polypeptide. The sequence alignment results of PLFP revealed sequence similarity with several fibrinolytic enzymes. Sequence analysis revealed a conserved catalytic triad of His78, Asp126 and Ser219 residues, suggesting that PLFP is a serine protease. Mature PLFP had an apparent molecular weight of approximately 25 kDa and was produced in inclusion bodies when expressed in E. coli. Substrate specificity results that recombinant PLFP was active towards Arg-X or Lys-X and did not hydrolyze substrates with nonpolar amino acids at the P1 site. Recombinant PLFP was strongly inhibited by typical serine protease inhibitors, further indicating that PLFP is a member of the serine protease family. PLFP was able to dissolve artificial plasminogenfree fibrin, and its fibrinolytic behavior was similar to that of plasmin. Taken these results together, PLFP is a new member of the fibrinolytic enzyme family with selective specificity on fibrin, and the availability of PLFP offers an attractive alternative approach for thrombolysis therapy because rPLFP is believed to have advantages over currently used plasminogen activators, that is, lower price and lower side effect.     

A new, rapid and simple procedure for direct cloning of PCR products into baculoviruses.

We propose a novel method for direct cloning of foreign genes into baculoviruses which avoids the use of bacterial transfer vectors. The foreign gene to be inserted is derived by PCR using appropriate primers each of which contains an additional 50 nt of baculovirus sequence for homologous recombination between the PCR-derived DNA and the baculovirus DNA, thus accomplishing insertion of the foreign gene into the baculovirus. The direct cloning of green fluorescent protein and beta-glucuronidase in different baculovirus loci is described. The method is simple and avoids the use of cumbersome techniques associated with enzymatic treatment and DNA purification.     

Human peptidylglycine alpha-amidating monooxygenase: cDNA, cloning and functional expression of a truncated form in COS cells

We have identified a cDNA encoding human peptidylglycine alpha-amidating monooxygenase (PAM; EC 1.14.17.3) with a total length of 3748 bp by screening of a human thyroid carcinoma lambda gt11 library using two heterologous oligonucleotides to conserved regions which derived from frog skin and bovine pituitary PAM sequences. Furthermore we have identified a sequence which differs in a 321 bp deletion. COS cells transfected with a truncated form of this cDNA (lacking the putative carboxyl-terminal transmembrane domain) generated a functional PAM that showed a 20-fold increase of the activity compared to the control and was visualized by immunoblotting.     

Molecular cloning, functional analysis, and RNA expression analysis of connexin45.6: a zebrafish cardiovascular connexin

In the vertebrate cardiovascular system, gap junctions function in intercellular communication essential for both the coordinated propagation of the heartbeat and the control of vasomotor responses in the vascular system. Connexins, the protein subunits of gap junctions, are coded by a multigene family. In this study, a connexin gene (zfCx45.6), which exhibits 53% amino acid identity to chick Cx42, was cloned from zebrafish genomic DNA. With the use of the LN54 radiation hybrid panel, zfCx45.6 was mapped to zebrafish linkage group 9. Northern blots and RT-PCR revealed the presence of zfCx45.6 mRNA in the embryo before 2 h postfertilization (hpf) and then again beginning at about 12 hpf, after which time no major changes in relative expression levels were detected. In the adult, zfCx45.6 mRNA continued to be detected in the heart, as well as the brain, liver, and ovary, but not the lens. Whole mount in situ hybridization revealed zfCx45.6 mRNA was expressed at high levels in the major vessels of the entire embryo and in both the atrium and ventricle of the adult heart. Expression of zfCx45.6 channels in paired Xenopus oocytes produced high levels of intercellular coupling that was voltage sensitive. With the previous isolation of zebrafish Cx43 and Cx43.4, zebrafish orthologues have now been isolated for three of the four connexins expressed in the mammalian cardiovascular system.     

Molecular cloning, expression and immunological characterisation of Lol p 5C, a novel allergen isoform of rye grass pollen demonstrating high IgE reactivity

A novel isoform of a major rye grass pollen allergen Lol p 5 was isolated from a cDNA expression library. The new isoform, Lol p 5C, shares 95% amino acid sequence identity with Lol p 5A. Both isoforms demonstrated shared antigenic activity but different allergenic activities. Recombinant Lol p 5C demonstrated 100% IgE reactivity in 22 rye grass pollen sensitive patients. In comparison, recombinant Lol p 5A showed IgE reactivity in less than 64% of the patients. Therefore, Lol p 5C represents a novel and highly IgE-reactive isoform allergen of rye grass pollen.     

Molecular cloning, functional expression and pharmacological characterization of a human bradykinin B2 receptor gene.

The gene encoding a putative G protein-coupled receptor (HG10) was cloned from human genomic DNA by low stringency PCR and found to be homologous to the recently described rat bradykinin B2 receptor. The receptor was expressed in xenopus oocytes and stably transfected CHO cell lines. Binding studies demonstrated that HG10 encodes a high affinity BK receptor with an apparent Kd of 150 pM. Displacement by BK agonists and antagonists allowed the characterization of the receptor as a B2 subtype. Functional coupling to the Ca(2+)-phosphatidylinositol cascade was demonstrated in transfected CHO cells where inositol phosphates accumulation and intracellular calcium concentration were elevated in response to BK stimulation. The agonistic and antagonistic properties of BK analogs do not match strictly the pharmacological profile described for the rat or guinea pig B2 receptor subtypes or the putative B3 subtype. This discrepancy is attributed either to species variability or to differences in the coupling efficiency of receptors to the transduction cascade in different cell types. From our results, the existence of B3 receptors and of B2 subtypes appears questionable.