Cloning,characterization and overproduction of nuclease S1 gene (nucS) from Aspergillus oryzae

The nuclease S1 gene (nucS) from Aspergillus oryzae was isolated using a polymerase-chain-reaction-amplified DNA fragment as a probe, and a 2.6-kb SalI-EcoRI fragment containing the nucS gene was sequenced. It was deduced that the nucS gene had two short introns, 49 and 50 nucleotides in lenght. The nucS gene had an open-reading frame of 963 base pairs and coded for a protein of 287 amino acid residues, comprising the signal peptide of 20 amino acids and a mature protein of 267 amino acids. The deduced amino acid sequence agreed well with the published amino acid sequence except for one substitution. Southern hybridization analysis showed that the nucS gene existed as a single copy in the A. oryzae chromosome. When the structural gene of nucS was fused with the promoter of the glaA gene and introduced into A. oryzae, the yield od secreted nuclease S1 increased about 100-fold compared with the recipient strain.     

Reduced but accurate translation from a mutant AUA initiation codon in the mitochondrial COX2 mRNA of Saccharomyces cerevisiae

The gene encoding the XorII methyltransferase (M · XorII) was cloned from Xanthomonas oryzae pv. oryzae and characterized in Escherichia coli. The M · XorII activity was localized to a 3.1 kb BamHI-BstXI fragment, which contained two open reading frames (ORFs) of 1272 nucleotides (424 amino acids) and 408 nucleotides (136 amino acids). Ten polypeptide domains conserved in other M⁵ cytosine methyltransferases (MTases) were identified in the deduced amino acid sequence of the 1272 ORF. E. coli Mrr⁺ strains were transformed poorly by plasmids containing the XorII MTase gene, indicating the presence of at least one ^MCG in the recognition sequence for M · XorII (CGATCG). The 408 nucleotide ORF was 36% identical at the amino acid level to sequences of the E. coli dcm-vsr gene, which is required for very short patch repair. X. oryzae pv. oryzae genomic DNA that is resistant to digestion by Pvul and XorII hybridizes with a 7.0 kb fragment containing the XorII MTase gene and vsr homolog, whereas DNA from strains that lack M · XorII activity do not hybridize with the fragment.The sequence presented in this paper has been submitted to NCBI; the accession number is U06424     

Cloning and heterologous expression of a novel arylmalonate decarboxylase gene from Alcaligenes bronchisepticus KU 1201

We have cloned and sequenced a DNA fragment that encodes the arylmalonate decarboxylase (AMDase) gene from Alcaligenes bronchisepticus KU 1201. The AMDase gene consists of an open reading frame of 720 nucleotides, which specifies a 240-amino-acid protein of relative molecular mass (M_r) 24734. The M_r deduced from the AMDase gene is in good agreement with that of the AMDase isolated from A. bronchisepticus. No TATA or TTGA sequence was observed within the cloned DNA fragment, but the fragment was expressed in Escherichia coli by the lac promoter of pUC19. The enzyme produced in E. coli has the same M_r and the same enzyme activity as the purified from A. bronchisepticus. Comparison of the DNA sequence and the deduced amino acid sequence of AMDase with available DNA and amino acid sequence data bases revealed that there are no significant sequence homologies.Correspondence to: Hiromichi Ohta     

A novel gene——samfR involved in early stage of Streptomyces ansochromogenes differentiation

A 4.6 kb DNA fragment was cloned from the DNA library ofStreptomyces ansochromogenes using a partial DNA fragment located in the downstream of promoter-P_TH4 as probe. The experiments revealed that this DNA fragment consists ofsaw D gene and a 1.4 kbPvu II fragment which can accelerate mycelium formation ofS. ansochromogenes. The nucleotide sequence of 1.4 kb DNA fragment was determined and analysed; the result indicated that the fragment contains one complete open reading frame (ORF) which encodes a protein with 213 amino acids, and this gene was designated assamfR. The deduced protein has 36% amino acid identities and 52% amino acid similarities in comparison with that encoded byhppR gene, which is involved in the regulation of catabolism for 3-(3-hydroxyphenyl) propionate (3HPP) inRhodococcus globerulus. The function ofsamfR gene was studied using strategy of gene disruption, and the resultingsamfR mutant failed to form aerial hyphae and spores, its development and differentiation stopped at the stage of substrate mycelium in contrast with wild type strain. The results showed that thesamfR gene is closely related toS. ansochromogenes differentiation. Project supported by the National Natural Science Foundation of China (Grant No. 39830010).     

Inverse polymerase chain reaction mediated chromosome walking within the human glutamic acid decarboxylase gene

Using inverse polymerase chain reaction (PCR), we have cloned partial intronic sequences from human glutamic acid decarboxylase (GAD) gene. A small 153 bp core region was selected from the GAD cDNA sequence to design outward primers corresponding to its 3′ and 5′ ends. EcoRI digested human DNA which had been circularized by self-ligation and then linearized withSacII was used as a substrate to can.y out PCR. This gave a 900 bp long product which was cloned into pUC19. The sequence analysis of this fragment revealed the presence of introns in the region flanking the selected core DNA. In this work we used this technique to walk into the upsteam region of the GAD gene using sequence information from its cloned cDNA.     

Nucleotide sequence of an alternative glucoamylase-encoding gene (glaB) expressed in solid-state culture of Aspergillus oryzae

The DNA (glaB) and a cDNA-encoding glucoamylase produced in solid-state culture of Aspergillus oryzae were cloned using oligodeoxyribonucleotide probes derived from internal amino acid sequences of the enzyme. Comparison of the nucleotide sequences of a genomic DNA fragment with its cDNA showed the glaB gene carried three exons interrupted by two introns and had an open reading frame encoding 493 aa residues. The 5′-flanking region had a TATA box at nt −87 from the start codon and two putative CAAT sequences at nt −276 and −288. The glaB gene shared 57% homology at the aa level with the glaA gene which was cloned previously from A. oryzae. Interestingly, the glucoamylase encoded by the glaB gene had no C-terminal domain such as that proposed to have starch binding activity in Aspergillus glucoamylases. Introduction of cDNA of the glaB gene to Saccharomyces cerevisiae caused the secretion of active glucoamylase to culture medium and introduction of the glaB gene to A. oryzae increased glucoamylase productivity in solid-state culture. Northern blot analysis showed the glaB gene was expressed in solid-state culture, but not in submerged culture.     

Cloning and sequencing of the cellulose synthase catalytic subunit gene of Acetobacter xylinum

The gene for the catalytic subunit of cellulose synthase from Acetobacter xylinum has been cloned by using an oligonucleotide probe designed from the N-terminal amino acid sequence of the catalytic subunit (an 83 kDa polypeptide) of the cellulose synthase purified from trypsin-treated membranes of A. xylinum. The gene was located on a 9.5 kb HindIII fragment of A. xylinum DNA that was cloned in the plasmid pUC18. DNA sequencing of approximately 3 kb of the HindIII fragment led to the identification of an open reading frame of 2169 base pairs coding for a polypeptide of 80 kDa. Fifteen amino acids in the N-terminal region (positions 6 to 20) of the amino acid sequence, deduced from the DNA sequence, match with the N-terminal amino acid sequence obtained for the 83 kDa polypeptide, confirming that the DNA sequence cloned codes for the catalytic subunit of cellulose synthase which transfers glucose from UDP-glucose to the growing glucan chain. Trypsin treatment of membranes during purification of the 83 kDa polypeptide cleaved the first 5 amino acids at the N-terminal end of this polypeptide as observed from the deduced amino acid sequence, and also from sequencing of the 83 kDa polypeptide purified from membranes that were not treated with trypsin. Sequence analysis suggests that the cellulose synthase catalytic subunit is an integral membrane protein with 6 transmembrane segments. There is no signal sequence and it is postulated that the protein is anchored in the membrane at the N-terminal end by a single hydrophobic helix. Two potential N-glycosylation sites are predicted from the sequence analysis, and this is in agreement with the earlier observations that the 83 kDa polypeptide is a glycoprotein [13]. The cloned gene is conserved among a number of A. xylinum strains, as determined by Southern hybridization.     

Cloning and Structural Analysis of bglM Gene Coding for the Fungal Cell Wall-lytic β-1,3-Glucan-hydrolase BglM of Bacillus circulans IAM1165

Bacillus circulans IAM1165 produces isoforms of β-1,3-glucan-hydrolases. Of these enzymes, the 42-kDa enzyme BglM degrades Aspergillus oryzae cell walls the most actively. A gene coding for a BglM precursor consisting of 411 amino acid residues was cloned. The 27 N-terminal amino acid sequence of the precursor is a signal peptide. The 141 C-terminal amino acid sequence showed a motif of carbohydrate-binding module family 13. This domain bound to pachyman, lichenan, and A. oryzae cell walls. The central domain showed a bacterial β-1,3-glucan-hydrolase motif belonging to glycosyl hydrolase family 16. By removal of the C-terminal domain in the IAM1165 culture, mature BglM was processed to several 27-kDa fragments that hydrolyze a soluble β-1,3-glucan.     

Analysis of yeast prp20 mutations and functional complementation by the human homologue RCC1, a protein involved in the control of chromosome condensation

Summary A DNA fragment that codes for the 364 amino-terminal amino acid residues of a putative Bacillus subtilis SecA homologue has been cloned using the Escherichia coli SecA gene as a probe. The deduced amino acid sequence showed 58% identity to the aminoterminus of the E. coli SecA protein. A DNA fragment which codes for 275 amino-terminal amino acid residues of the B. subtilis SecA homologue was expressed in E. coli and the corresponding gene product was shown to be recognized by anti-E. coli SecA antibodies. This polypeptide, although only about 30% the size of the E. coli SecA protein, also restored growth of E. coli MM52 (secA ^ts) at the non-permissive temperature and the translocation defect of proOmpA in this mutant was relieved to a substantial extent.     

Cloning and Expression of the Exo-β-D-1,3-glucanase Gene (exgS) from Aspergillus saitoi

A gene of exo-1,3-β-D-glucanase (exgS) was cloned from a koji mold, Aspergillus saitoi, genomic DNA using PCR. The exgS has an ORF comprising 2832 bp, which contains one intron of 45 bp, and encodes 945 amino acids. The deduced amino acid sequences showed that the ExgS has a non-homologous linker region consisting of 180 amino acids, which encompassed highly conserved regions observed in Exg homologues from filamentous fungi. A recombinant protein (ExgS) has been recovered from the cultural filtrate of an Aspergillus oryzae strain that carried an expression vector containing full length of the exgS. The N-terminal amino acid sequences of the recombinant exo-1,3-β-D-glucanase (ExgS) were identical to that of native ExgS from A. saitoi.     

Isolation and characterization of a <Emphasis Type="Italic">Glutamate decarboxylase</Emphasis> (GAD) gene and their differential expression in response to abiotic stresses from <Emphasis Type="Italic">Panax ginseng</Emphasis> C. A. Meyer

Glutamate decarboxylase (GAD) catalyzes the conversion of l-glutamate to γ-aminobutyric acid (GABA). A full-length cDNA encoding GAD (designated as PgGAD) was isolated and characterized from the root of Panax ginseng C. A. Meyer. The length cDNA of PgGAD was 1881 bp and contained a 1491 bp open reading frame (ORF) encoding a glutamate decarboxylase protein of 496 amino acids, possessing a Ser-X-X-Lys active site, which belongs to the GAD group. The deduced amino acid sequence of the PgGAD was classified in the plant GAD family and has 76–85% high similarity with other plants as like petunia, Arabidopsis, tomato. Secondary structure of PgGAD was predicted by using SOPMA software program. Southern blot analysis of genomic DNA suggests that, there is more than one copy of the PgGAD gene. The organ specific gene expression pattern also studied in P. ginseng seedlings, in which the stem showed elevated expression than root, leaf, bud and rhizomes. Along with this, we also confirmed the gene expression of PgGAD under various abiotic stresses like temperature stress, osmotic stress, anoxia, oxidative stress, and mechanical damage. Temporal analysis of gene expression except exposure of oxidative stress revealed an enhanced expression after each stresses. The enzyme activity of PgGAD was stimulated to 2-fold under cold stress.     

Cloning and expression of chondroitinase AC from Bacteroides stercoris HJ-15

Enzymes that degrade glycosaminoglycans (GAGs) can help reveal the biological roles, structure, and mechanisms of GAGs. We cloned chondroitinase AC, which can degrade chondroitin sulfates A and C, from the genomic library of Bacteroides stercoris HJ-15 isolated from human intestine. The probe (1.4 kb) for the chondroitinase AC gene was prepared from the PCR product of the primers produced using two internal amino acid sequences of chondroitinase AC purified from B. stercoris HJ-15. Using this probe, a chondroitinase AC-positive, 4 kb DNA fragment was selected from pKF3 vector gene libraries containing 2.5–4.5 kb DNA fragments digested with HindIII. The amino acid sequence of the cloned chondroitinase AC showed 41% homology to that of Flavobacterium heparinum. The cloned chondroitinase AC gene was expressed under the T7 promoter of the expression vector, pET-26b(+), in Escherichia coli BL21(DE3) and purified using His bind column chromatography. The expressed chondroitinase AC potently degraded chondroitin sulfates A and C.     

Molecular Cloning and Overexpression of fleA Gene Encoding a Fucose-specific Lectin of Aspergillus oryzae

A protein from the cell lysate of Aspergillus oryzae was purified by column chromatography immobilized with a ferrichrysin (Fcy), which is one of the siderophores of A. oryzae. It is produced only in an iron-deficient culture and its molecular weight is estimated as 35,000 by SDS-PAGE. Two internal amino acid sequences of the protein obtained by lysylendopeptidase digestion were analyzed. Molecular cloning shows that it encodes 310 putative amino acid residues separated by 4 introns and is designated as fleA. It shows approximately 26% similarity with the gene encoding a fucose-specific lectin of Aleuria aurantia (AAL). The gene was overexpressed under control of the melO promoter in a submerged culture of A. oryzae. The fleA gene product showed hemagglutination activity against rabbit erythrocytes. A hemagglutination inhibition assay of monosaccharides showed that this lectin specifically binds to L-fucose and weakly reacts with mannose and N-acetyl-neuraminic acid.     

Isolation of the facA (acetyl-CoA synthetase) gene of Phycomyces blakesleeanus

A 5.6 kb DNA fragment from the fungus Phycomyces blakesleeanus has been cloned and sequenced. The fragment contains a gene that probably codes for the enzyme acetyl-coenzyme A synthetase (facA). The amino acid sequence deduced for the P. blakesleeanns protein is highly homologous to those of acetyl-coA-synthetases from other organisms. When placed under the control of a constitutive promoter from Aspergillus nidulans, the cloned gene complemented a facA mutation of this organism. In P. blakesleeanns, the expression of facA is induced by acetate.     

Peroxyl Radical Scavenging Activity of Caffeic Acid and Its Related Phenolic Compounds in Solution

The esterase gene (est) of Pseudomonas putida MR-2068 was cloned into Escherichia coli JM109. An 8-kb inserted DNA directed synthesis of an esterase in E. coli. The esterase gene was in a 1.1-kb PstI-ClaI fragment within the insert DNA. The complete nucleotides of the DNA fragment containing the esterase gene were sequenced and found to include a single open reading frame of 828 bp coding for a protein of 276 amino acid residues. The open reading frame was confirmed by N-terminal amino acid sequence analysis of the purified esterase. A potential Shine-Dalgarno sequence is followed by the open reading frame. The esterase activity of the recombinant E. coli was more than 200 times higher than that of parental strain, P. putida MR-2068.     

The nucleotide sequence of the lipo-penicillinase gene of alkalophilic Bacillus sp. strain 170

The lipo-penicillinase (LIPEN) gene from an alkalophilic Bacillus sp. strain 170 was cloned in Escherichia coli using the vector pHSG399. A plasmid, pFAP121, was isolated from an ampicillin resistant transformant and the cloned LIPEN gene was found to be in a 2.2 kb DNA fragment. The nucleotide sequence of a 1.9 kb segment encoding the LIPEN was determined. This segment showed an open reading frame which would encode a polypeptide of 310 amino acids. The amino acid sequence of this LIPEN gene product has strong homology with those of the Bacillus cereus -lactamase III and Bacillus licheniformis penicillinase.