Identification of insulin-like growth factor I in bovine seminal plasma and its receptor on spermatozoa: influence on sperm motility

UDP-N-acetylglucosamine-3-O-acyltransferase (UDP-GlcNAc acyltransferase) catalyzes the first step of lipid A biosynthesis (M. S. Anderson and C. R. H. Raetz, J. Biol. Chem. 262:5159-5169, 1987). We here report the isolation of the lpxA gene of Pseudomonas aeruginosa from a library of Pseudomonas strain PAO1 expressed in Escherichia coli LE392 (J. Lightfoot and J. S. Lam, J. Bacteriol. 173:5624-5630, 1991). Pseudomonas lpxA encodes a 10-carbon-specific UDP-GlcNAc acyltransferase, whereas the E. coli transferase is selective for a 14-carbon acyl chain. Recombinant cosmid 1137 enabled production of a 3-hydroxydecanoyl-specific UDP-GlcNAc acyltransferase in E. coli. It was identified by assaying lysozyme-EDTA lysates of individual members of the library with 3-hydroxydecanoyl-acyl carrier protein (ACP) as the substrate. Cosmid 1137 contained a 20-kb insert of P. aeruginosa DNA. The lpxA gene region was localized to a 1.3-kb SalI-PstI fragment. Sequencing revealed that it contains one complete open reading frame (777 bp) encoding a new lpxA homolog. The predicted Pseudomonas LpxA is 258 amino acids long and contains 21 complete hexapeptide repeating units, spaced in approximately the same manner as the 24 repeats of E. coli LpxA. The P. aeruginosa UDP-GlcNAc acyltransferase is 54% identical and 67% similar to the E. coli enzyme. A plasmid (pGD3) containing the 1.3-kb SalI-PstI fragment complemented E. coli RO138, a temperature-sensitive mutant harboring lpxA2. LpxA assays of extracts of this construct indicated that it is > 1,000-fold more selective for 3-hydroxydecanoyl-ACP than for 3-hydroxymyristoyl-ACP. Mass spectrometry of lipid A isolated from this strain by hydrolysis at pH 4.5 revealed [M-H]- 1,684.5 (versus 1,796.5 for wild-type lipid A), consistent with 3-hydroxydecanoate rather than 3-hydroxymyristate at positions 3 and 3'.     

Paracrystalline surface layers of dairy propionibacteria

We examined 70 dairy propionibacteria and detected a crystalline surface layer (S-layer) in only 2 organisms (Propionibacterium freudenreichii CNRZ 722 and Propionibacterium jensenii CNRZ 87) by freeze-etching and sodium dodecyl sulfate-polyacrylamide electrophoresis (SDS-PAGE). Both S-layers exhibited oblique (p2) symmetry (a = 9.9 nm; b = 5.4 nm; gamma = 80 degrees) and completely covered the cell surface. Treatment for 15 min at the ambient temperature with 5 M guanidine hydrochloride or acidic conditions (250 mM ammonium acetate, pH 2.7) efficiently extracted the S-layer protein from intact cells of strain CNRZ 722, whereas treatment with 5 M guanidine hydrochloride at 100 degrees C for 15 min was necessary to isolate the S-layer protein of strain CNRZ 87. The precipitates obtained after dialysis of the extracting agents produced no regular patterns. The molecular masses of the two S-layer proteins, as estimated by SDS-PAGE, were 58.5 kDa for the strain CNRZ 722 and 67.3 kDa for the strain CNRZ 87. Mass spectrometry of the isolated S-layer protein of strain CNRZ 722 gave a molecular mass value close to the expected value (56,533 Da). The N-terminal sequences of the two purified S-layer proteins differed, as did their amino acid compositions, except that the same high hydrophobic amino acid content (52%) was observed.     

Cloning, sequencing and expression of the acylneuraminate lyase gene from Clostridium perfringens A99

The acylneuraminate lyase gene from Clostridium perfringens A99 was cloned on a 3.3 kb HindIII DNA fragment identified by screening the chromosomal DNA of this species by hybridization with an oligonucleotide probe that had been deduced from the N-terminal amino acid sequence of the purified protein, and another probe directed against a region that is conserved in the acylneuraminate lyase gene of Escherichia coli and in the putative gene of Clostridium tertium. After cloning, three of the recombinant clones expressed lyase activity above the background of the endogenous enzyme of the E. coli host. The sequenced part of the cloned fragment contains the complete acylneuraminate lyase gene (ORF2) of 864 bp that encodes 288 amino acids with a calculated molecular weight of 32.3 kDa. The lyase structural gene follows a noncoding region with an inverted repeat and a ribosome binding site. Upstream from this regulatory region another open reading frame (ORF1) was detected. The 3'-terminus of the lyase structural gene is followed by a further ORF (ORF3). A high homology was found between the amino acid sequences of the sialate lyases from Clostridium perfringens and Haemophilus influenzae (75% identical amino acids) or Trichomonas vaginalis (69% identical amino acids), respectively, whereas the similarity to the gene from E. coli is low (38% identical amino acids). Based on our new sequence data, the 'large' sialidase gene and the lyase gene of C. perfringens are not arranged next to each other on the chromosome of this species.     

Identification and characterization of clustered genes for thermostable xylan-degrading enzymes, beta-xylosidase and xylanase, of Bacillus stearothermophilus 21

Bacillus stearothermophilus 21 is a gram-positive, facultative thermophilic aerobe that can utilize xylan as a sole source of carbon. We isolated this strain from soil, purified its extracellular xylanase and beta-xylosidase, and analyzed the two-step degradation of xylan by these enzymes (T. Nanmori, T. Watanabe, R. Shinke, A. Kohno, and Y. Kawamura, J. Bacteriol. 172:6669-6672, 1990). An Escherichia coli transformant carrying a 4.2-kbp chromosomal segment of this bacterium as a recombinant plasmid was isolated. It excreted active beta-xylosidase and xylanase into the culture medium. The plasmid was introduced into UV-sensitive E. coli CSR603, and its protein products were analyzed by the maxicell method. Proteins harboring beta-xylosidase and xylanase activities were identified, and their molecular masses were estimated by sodium dodecyl sulfate-polyarylamide gel electrophoresis to be 75 and 40 kDa, respectively. The values were identical to those of proteins prepared from cells of B. stearothermophilus 21. The genes for both enzymes were encoded in a 3.4-kbp PstI fragment derived from the 4.2-kbp chromosomal segment. The nucleotide sequence of the 4.2-kbp segment was accordingly determined. The beta-xylosidase gene (xylA) is located upstream of the xylanase gene (xynA) with a possible promoter and a Shine-Dalgarno sequence. The latter gene is preceded by two possible promoters and a Shine-Dalgarno sequence that are located within the 3'-terminal coding region of the former. The two genes thus appear to be, at least partly, expressed independently, which was experimentally confirmed in E. coli by deletion analysis.(ABSTRACT TRUNCATED AT 250 WORDS)     

Isolation, characterization and sequence analysis of the scrK gene encoding fructokinase of Streptococcus mutans

A gene encoding an ATP-dependent fructokinase from Streptococcus mutans GS-5 was identified within a 2 kb DNA fragment immediately downstream from the scrA gene. The gene cloned in Escherichia coli also expressed mannokinase activity. Insertional inactivation of this gene in S. mutans markedly decreased both fructokinase and mannokinase activities. Nucleotide sequence analysis of the 2 kb fragment revealed an ORF starting 199 bp downstream from the scrA gene, preceded by potential ribosome-binding (Shine-Dalgarno) and promoter-like sequences. This ORF specified a putative protein of 293 amino acids with a calculated M(r) of 31,681. The deduced amino acid sequence of the fructokinase gene, scrK, from S. mutans exhibited no significant similarity to fructokinase genes from Klebsiella pneumoniae, E. coli plasmid pUR400 or Vibrio alginolyticus, but was similar to a comparable gene from Zymomonas mobilis.     

Follicular vascularity--the predictive value of transvaginal power Doppler ultrasonography in an in-vitro fertilization programme: a preliminary study

The glnA gene from the human pathogen Streptococcus agalactiae was cloned from a genomic library prepared with the lambda phage vector lambdaDASHII. A 4.6-kb DNA fragment of one of the recombinant phages was subcloned in pUC18. This Escherichia coli clone expressed a 52-kDa protein encoded by a 1,341-bp open reading frame. The nucleotide sequence of the open reading frame and the deduced amino acid sequence shared a significant degree of homology with the sequences of other glutamine synthetases (GS). The highest homology was between our deduced protein and GS of gram-positive bacteria such as Bacillus subtilis, Bacillus cereus, and Staphylococcus aureus. Plasmids with the cloned streptococcal glnA were able to complement E. coli glnA mutants grown on minimal media. Rabbit antisera to streptococcal GS recombinant protein recognized not only the recombinant protein but also a similar-sized band in mutanolysin extracts of all group B streptococcal strains tested, regardless of polysaccharide type or surface protein profile. The amino acid sequence of the deduced protein had similarities to other streptococcal cell-surface-bound proteins. The possible functional role of the immunological features of streptococcal GS is discussed.     

Cloning, expression and characterisation of the cDNA encoding human hepatic squalene synthase, and its relationship to phytoene synthase

The reaction catalysed by squalene synthase (SQS) shows many similarities to that performed by another polyisoprene synthase, phytoene synthase (PhS). By identifying sequences conserved between yeast SQS (ySQS) and PhS, we have cloned a 2-kb cDNA (hSQS) encoding human SQS, a protein of 417 amino acids with a predicted M(r) of 48,041, which has only limited homology to ySQS. When expressed in E. coli, the hSQS cDNA directed the production of active enzyme. Two hSQS mRNA species of 2.0 and 1.55 kb have been identified which differ in their 3' untranslated sequences. The two mRNAs are present in roughly equal amounts in heart, placenta, lung, liver, kidney and pancreas, but the 2-kb mRNA predominates in brain and skeletal muscle. In HepG2 cells, both mRNAs are induced 2-4-fold by the 3-hydroxy-3-methylglutaryl-coenzyme A reductase inhibitor, lovastatin. In contrast, Northern blot analysis of rat tissues reveals only a 2.0-kb mRNA, which is considerably up-regulated in vivo by lovastatin.     

Cloning and sequencing of the gene encoding a 31-kilodalton antigen of Haemophilus somnus

Immunoblots using bovine antibody against Haemophilus somnus as the primary antibody consistently identified 31-, 40- and 78-kDa proteins in Sarkosyl-insoluble extracts of H. somnus. A genomic library of H. somnus 8025 DNA was constructed in plasmid pUC19, and 45 recombinants expressed proteins which were recognized by bovine antiserum in Western blots (immunoblots). Ten of the recombinants expressing a 31-kDa protein caused the lysis of bovine erythrocytes. Restriction endonuclease mapping indicated that the hemolytic recombinants shared an approximately 1.7-kb BglII fragment. Southern blot analysis using the BglII fragment as a probe revealed homology among the recombinants and the presence of an identically sized BglII fragment in the chromosome of all H. somnus isolates tested. Sequence analysis indicated the presence of an 822-bp open reading frame within the 1.7-kb BglII fragment. Deletion of this open reading frame resulted in the loss of hemolytic activity and protein expression in recombinant Escherichia coli, suggesting the possible role of the 31-kDa protein as a hemolysin. An amino acid sequence deduced from the DNA sequence shared homology with outer membrane protein A of E. coli, Salmonella typhimurium, and Shigella dysenteriae, with P6 of Haemophilus influenzae, and with PIII of Neisseria gonorrhoeae. An amino acid analysis of the recombinant 31-kDa protein agreed with the amino acid composition deduced from the DNA sequence.     

A Streptomyces avermitilis gene encoding a 4-hydroxyphenylpyruvic acid dioxygenase-like protein that directs the production of homogentisic acid and an ochronotic pigment in Escherichia coli

A 1.5-kb genomic fragment isolated from Streptomyces avermitilis that directs the synthesis of a brown pigment in Escherichia coli was characterized. Since pigment production in recombinant E. coli was enhanced by the addition of tyrosine to the medium, it had been inferred that the cloned DNA might be associated with melanin biosynthesis. Hybridization studies, however, showed that the pigment gene isolated from S. avermitilis was unrelated to the Streptomyces antibioticus melC2 determinant, which is the prototype of melanin genes in Streptomyces spp. Sequence analysis of the 1.5-kb DNA that caused pigment production revealed a single open reading frame encoding a protein of 41.6 kDa (380 amino acids) that resembled several prokaryotic and eukaryotic 4-hydroxyphenylpyruvate dioxygenases (HPDs). When this open reading frame was overexpressed in E. coli, a protein of about 41 kDa was detected. This E. coli clone produced homogentisic acid (HGA), which is the expected product of the oxidation of 4-hydroxyphenylpyruvate catalyzed by an HPD, and also a brown pigment with characteristics similar to the pigment observed in the urine of alkaptonuric patients. Alkaptonuria is a genetic disease in which inability to metabolize HGA leads to increasing concentrations of this acid in urine, followed by oxidation and polymerization of HGA to an ochronotic pigment. Similarly, the production of ochronotic-like pigment in the recombinant E. coli clone overexpressing the S. avermitilis gene encoding HPD is likely to be due to the spontaneous oxidation and polymerization of the HGA accumulated in the medium by this clone.     

Deletion of the carboxyl-terminal region of 1-aminocyclopropane-1-carboxylic acid synthase, a key protein in the biosynthesis of ethylene, results in catalytically hyperactive, monomeric enzyme

1-Aminocyclopropane-1-carboxylic acid (ACC) synthase is a key enzyme regulating biosynthesis of the plant hormone ethylene. The expression of an enzymatically active, wound-inducible tomato (Lycopersicon esculentum L. cv Pik-Red) ACC synthase (485 amino acids long) in a heterologous Escherichia coli system allowed us to study the importance of hypervariable COOH terminus in enzymatic activity and protein conformation. We constructed several deletion mutants of the gene, expressed these in E. coli, purified the protein products to apparent homogeneity, and analyzed both conformation and enzyme kinetic parameters of the wild-type and truncated ACC syntheses. Deletion of the COOH terminus through Arg429 results in complete inactivation of the enzyme. Deletion of 46-52 amino acids from the COOH terminus results in an enzyme that has nine times higher affinity for the substrate S-adenosylmethionine than the wild-type enzyme. The highly efficient, truncated ACC synthase was found to be a monomer of 52 +/- 1.8 kDa as determined by gel filtration, whereas the wild-type ACC synthase, analyzed under similar conditions, is a dimer. These results demonstrate that the non-conserved COOH terminus of ACC synthase affects its enzymatic function as well as dimerization.     

Cloning, sequencing, and heterologous expression of rat methionine synthase cDNA

Methionine synthase catalyzes cobalamin-dependent methyl transfer reaction from 5-methyltetrahydrofolate to homocysteine, forming methionine. Rat methonine synthase cDNA was cloned and analyzed by RT-PCR, 3'- and 5'-RACE techniques. The cDNA consists of a 0.3-kb upstream untranslated region, a 3.8-kb coding region, and a 0.4-kb downstream untranslated region. The open reading frame encoded a polypeptide of 1,253 amino acid residues with a calculated molecular weight of 139,162. This molecular weight was in good agreement with the observed one (143,000) of the purified rat liver enzyme. The deduced amino acid sequence was 53, 92, and 64% identical with those of the Escherichia coli, human, and presumptive Caenorhabditis elegans enzymes, respectively. All the fingerprint sequences, forming parts of the cobalamin- and S-adenosylmethionine-binding sites, were completely conserved in the rat methionine synthase. A high-level expression of catalytically active enzyme in insect cells was done by infection with a baculovirus containing the rat methionine synthase cDNA.     

Prevalence of cytolethal distending toxin production in Campylobacter jejuni and relatedness of Campylobacter sp. cdtB gene

Campylobacter jejuni produces a toxin called cytolethal distending toxin (CDT). The genes encoding this toxin in C. jejuni 81-176 were cloned and sequenced. The nucleotide sequence of the genes revealed that there are three genes, cdtA, cdtB, and cdtC, encoding proteins with predicted sizes of 30,11-6, 28,989, and 21,157 Da, respectively. All three proteins were found to be related to the Escherichia coli CDT proteins, yet the amino acid sequences have diverged significantly. All three genes were required for toxic activity in a HeLa cell assay. HeLa cell assays of a variety of C. jejuni and C. coli strains suggested that most C. jejuni strains produce significantly higher CDT titers than do C. coli strains. Southern hybridization experiments demonstrated that the cdtB gene is present on a 6.0-kb ClaI fragment in all but one of the C. jejuni strains tested; the cdtB gene was on a 6.9-kb ClaI fragment in one strain. The C. jejuni 81-176 cdtB probe hybridized weakly to DNAs from C. coli strains. The C. jejuni 81-176 cdtB probe did not hybridize to DNAs from representative C. fetus, C. lari, C. "upsaliensis," and C. hyointestinalis strains, although the HeLa cell assay indicated that these strains make CDT. PCR experiments indicated the probable presence of cdtB sequences in all of these Campylobacter species.     

Molecular cloning and nucleotide sequences of cDNA and gene encoding endo-inulinase from Penicillium purpurogenum

A cDNA and a gene encoding endo-inulinase from Penicillium purpurogenum were isolated, and were cloned for the first time. Two oligonucleotide probes, which were synthesized based on the partial amino acid sequences of the purified endo-inulinase, were used to screen a cDNA library. A 1.7-kb DNA fragment encoding endo-inulinase was isolated and analyzed. A single open reading frame, consisting of 1548-bp, was found to encode a polypeptide that comprised a 25-amino acid signal peptide and 490-amino acid mature protein. All the partial amino acid sequences of the purified enzyme were discovered in the deduced ones. The deduced amino acid sequences of endo-inulinase had similar sequences to those of fructan hydrolases. A 3.5-kb chromosomal DNA fragment encoding endo-inulinase was also isolated and analyzed. The same ORF with cDNA clone as identified. There were no introns in the endo-inulinase gene.     

Adult specific expression and induction of cytochrome P450lpr in house flies

Arabinogalactan-proteins (AGPs) were isolated from the pistils of Nicotiana alata, deglycosylated, and the protein backbones fractionated by reversed-phase HPLC as previously reported. A major fraction, RT35 was isolated and peptide sequences were obtained after protease digestion. A gene-specific degenerate oligonucleotide was designed according to the amino acid sequences and a 380 bp PCR fragment was amplified in vitro from pistil RNA. The PCR fragment was used to screen a pistil cDNA library and a 762 bp cDNA clone (AGPNa3) was isolated and sequenced. The AGPNa3 cDNA encodes a 169 amino acid protein which consists of three domains: an N-terminal secretion signal, a Pro-rich domain and a C-terminal Cys-rich domain. The mature protein has 145 amino acid residues (16.7 kDa) and a predicted pl of 7.5. Northern blot analyses showed that the AGPNa3 gene was only expressed in the pistils of N. alata and of closely related Nicotiana species but not in other plants or suspension-cultured cells. Further Northern blot analysis and in situ hybridization showed that within the pistil, it was primarily expressed in the stigmatic tissues of mature flowers.     

Functional characterization of the protease of human endogenous retrovirus, K10: can it complement HIV-1 protease?

To investigate the biochemical properties of the protease encoded by the human endogenous retrovirus, K10 (HERV-K), 213 amino acids of the 3'-end of the HERV-K protease (PR) open reading frame were expressed in Escherichia coli. Autocatalytic cleavage of the expressed polypeptide resulted in an 18.2 kDa protein which was shown to be proteolytically active against a fluorogenic peptide used as a substrate for HIV-1 protease. On the basis of sequence homology and molecular modeling, the 106 N-terminal amino acids of HERV-K PR were predicted to comprise a retroviral protease core domain. An 11.6 kDa protein corresponding to this region was expressed and shown to be a fully functional enzyme. The 11.6 kDa domain of HERV-K PR is unusually stable over a wide pH range, exhibits optimal catalytic activity between pH 4.0 and 5.0, and exists as a dimer at pH 7.0 with a Kd of 50 microM. Like HIV-1 PR, the HERV-K PR core domain is activated by high salt concentrations and processes HIV-1 matrix-capsid polyprotein at the authentic HIV-1 PR recognition site. However, both the 18.2 and 11.6 kDa forms of HERV-K PR were highly resistant to a number of clinically useful HIV-1 PR inhibitors, including ritonavir, indinavir, and saquinavir. This raises the possibility that HERV-K PR may complement HIV-1 PR during infection, and could have implications for protease inhibitor therapy and drug resistance.