Use of the 6-methylsalicylic-acid-synthase gene as a discriminating marker betweenaspergillus terreus andAspergillus flavipes

In nineteen pathogenic and saprophytic isolates denoted asAspergillus terreus the presence and restriction pattern of the genepksM (6-methylsalicylic acid synthase) was determined. Five patterns (A−E) were found and in three isolates the gene was missing. The RAPD (random amplified polymorphic DNA) patterns with three primers were analyzed. The strains withpksM pattern possibly derived from the most common pattern A by single mutation (patterns B−D) were also related by RAPD. Among them, three clades were found. The first one contained saprophytes from Asia, the other two clades contained both European and American pathogens and each of them one saprophyte. The sequences of rDNA region containing 5.8S rDNA and spacers ITS1 and ITS2 were established for representatives of each group and the strains missing thepksM gene. The isolates possessingpksM (although with different restriction patterns) grouped asA. terreus group, whereas the isolates lacking this gene were close toFennellia flavipes.     

Molecular cloning and sequencing of lysozyme gene of bacteriophage SF6 ofBacillus subtilis

Digestion of bacteriophage SF6 (ofBacillus subtilis) DNA with restriction endonuclease Pst I generates seven fragments (A-G). These fragments were cloned in pBR322 DNA, and the recombinant clones carrying the lysozyme gene were identified by measuring lysozyme activity. The complete nucleotide sequence of 996 bp fragment D, containing lysozymze gene, was determined. One open reading frame was present at 13 bp, and the termination codons were present at 961 bp. The deduced amino acid sequence of the lysozyme gene was also determined.     

Comparative genomics of four Liliales families inferred from the complete chloroplast genome sequence of Veratrum patulum O. Loes. (Melanthiaceae)

The sequence of the chloroplast genome, which is inherited maternally, contains useful information for many scientific fields such as plant systematics, biogeography and biotechnology because its characteristics are highly conserved among species. There is an increase in chloroplast genomes of angiosperms that have been sequenced in recent years. In this study, the nucleotide sequence of the chloroplast genome (cpDNA) of Veratrum patulum Loes. (Melanthiaceae, Liliales) was analyzed completely. The circular double-stranded DNA of 153,699 bp consists of two inverted repeat (IR) regions of 26,360 bp each, a large single copy of 83,372 bp, and a small single copy of 17,607 bp. This plastome contains 81 protein-coding genes, 30 distinct tRNA and four genes of rRNA. In addition, there are six hypothetical coding regions (ycf1, ycf2, ycf3, ycf4, ycf15 and ycf68) and two open reading frames (ORF42 and ORF56), which are also found in the chloroplast genomes of the other species. The gene orders and gene contents of the V. patulum plastid genome are similar to that of Smilax china, Lilium longiflorum and Alstroemeria aurea, members of the Smilacaceae, Liliaceae and Alstroemeriaceae (Liliales), respectively. However, the loss rps16 exon 2 in V. patulum results in the difference in the large single copy regions in comparison with other species. The base substitution rate is quite similar among genes of these species. Additionally, the base substitution rate of inverted repeat region was smaller than that of single copy regions in all observed species of Liliales. The IR regions were expanded to trnH_GUG in V. patulum, a part of rps19 in L. longiflorum and A. aurea, and whole sequence of rps19 in S. china. Furthermore, the IGS lengths of rbcL-accD-psaI region were variable among Liliales species, suggesting that this region might be a hotspot of indel events and the informative site for phylogenetic studies in Liliales. In general, the whole chloroplast genome of V. patulum, a potential medicinal plant, will contribute to research on the genetic applications of this genus.     

Lengths and nucleotide sequences of the internal spacers of nuclear ribosomal DNA in gymnosperms and pteridophytes

The nucleotide sequences of the internal transcribed spacers (ITS1 and ITS2) of the nuclear ribosomal DNA were analyzed in species belonging to gymnosperms and pteridophytes. The lengths of the ITSs of sixteen species of gymnosperms and seven species of pteridophytes were estimated. The gymnosperms have ITS1 regions larger than those observed in the pteridophytes and angiosperms (ca. 610–3100 bp versus 159–360 bp). On the other hand, the ITS2 regions appear to be of a conserved length (182–370 bp). We have determined the complete nucleotide sequences of ITS regions from four gymnosperm species and five pteridophyte species by cloning the PCR products. Sequence analysis showed the presence of three short tandem arranged subrepeats of about 70 bp in the 1112 bp ITS1 ofEphedra fragilis. Pyrimidine rich (about 90%) DNA segments of 40–50 bp were observed in the ITS1 ofGinkgo biloba. A highly conserved 16 bp long sequence known to be present in the ITS1 of the angiosperm species has been also found in the ITS1 ofCycas revoluta, Taxus baccata andEphedra fragilis. Dedicated to Prof.Emilio Battaglia.     

Identification of three chitin synthase genes in the dimorphic fungal pathogenSporothrix schenckii

Degenerate PCR primers were used to amplify a 600-bp conserved gene region for chitin synthases from genomic DNA ofSporothrix schenckii, a dimorphic fungal pathogen of humans and animals. Three chitin synthase gene homologs were amplified as shown by DNA sequence analysis and by Southern blotting experiments. Based on differences among the predicted amino acid sequences of these homologs, each was placed within one of three different chitin synthase classes. Phylogenies constructed with the sequences and the PAUP 3.1.1. program showed thatS. schenckii consistently clustered most closely withNeurospora crassa in each of the three chitin synthase classes. These findings are significant because the phylogenies support by a new method the grouping of the imperfect fungusS. schenckii with the Pyrenomycetes of the Ascomycota.     

Aspergillus terreus and its toxic metabolites as a food contaminant in some Egyptian Bakery products and grains

A. terreus isolates isolated from some bakery products, corn and rice were found to be able to produce territrems. 90% of theA. terreus isolated from bakery products were able to produce territrem A, with a mean of 0.09 ppm, while 80% ofA. terreus isolates produce territrem B with a mean of 0.24 ppm. On the other hand 31.8% of the isolates ofA. terreus from corn were able to produce territrem A with a mean of 0.44 ppm. ConcerningA. terreus isolates from rice, 66.7% were found to produce territrem A, with a mean of 5.28 ppm, and 77.8% of the isolates produced territrem B with a mean of 1.79 ppm.     

Gene content and density in banana (<Emphasis Type="Italic">Musa acuminata</Emphasis>) as revealed by genomic sequencing of BAC clones

The complete sequence of Musa acuminata bacterial artificial chromosome (BAC) clones is presented and, consequently, the first analysis of the banana genome organization. One clone (MuH9) is 82,723 bp long with an overall G+C content of 38.2%. Twelve putative protein-coding sequences were identified, representing a gene density of one per 6.9 kb, which is slightly less than that previously reported for Arabidopsis but similar to rice. One coding sequence was identified as a partial M. acuminata malate synthase, while the remaining sequences showed a similarity to predicted or hypothetical proteins identified in genome sequence data. A second BAC clone (MuG9) is 73,268 bp long with an overall G+C content of 38.5%. Only seven putative coding regions were discovered, representing a gene density of only one gene per 10.5 kb, which is strikingly lower than that of the first BAC. One coding sequence showed significant homology to the soybean ribonucleotide reductase (large subunit). A transition point between coding regions and repeated sequences was found at approximately 45 kb, separating the coding upstream BAC end from its downstream end that mainly contained transposon-like sequences and regions similar to known repetitive sequences of M. acuminata. This gene organization resembles Gramineae genome sequences, where genes are clustered in gene-rich regions separated by gene-poor DNA containing abundant transposons.Communicated by J.S. Heslop-Harrison     

Molecular cloning of thehom—thrC—thrB cluster fromBacillus sp. ULM1: Expression of thethrC gene inEscherichia coli and corynebacteria,and evolutionary relationships of the threonine genes

A 6.5 kb DNA fragment containing the gene (thrC) encoding threonine synthase, the last enzyme of the threonine biosynthetic pathway, has been cloned from the DNA ofBacillus sp. ULM1 by complementation ofEscherichia coli andBrevibacterium lactofermentum thrC auxotrophs. Complementation studies showed that thethrB gene (encoding homoserine kinase) is found downstream from thethrC gene, and analysis of nucleotide sequences indicated that thehom gene (encoding homoserine dehydrogenase) is located upstream of thethrC gene. The organization of this cluster of genes is similar to theBacillus subtilis threonine operon (hom—thrC—thrB). An 1.9 kbBclI, fragment from theBacillus sp. ULM1 DNA insert that complementedthrC mutations both inE. coli and in corynebacteria was sequenced, and an ORF encoding a protein of 351 amino acids was found corresponding to a protein of 37462 Da. ThethrC gene showed a low G+C content (39.4%) and the encoded threonine synthase is very similar to theB. subtilis enzyme. Expression of the 1.9 kbBclI DNA fragment inE. coli minicells resulted in the formation of a 37 kDa protein. The upstream region of this gene shows promoter activity inE. coli but not in corynebacteria. A peptide sequence, including a lysine that is known to bind the pyridoxal phosphate cofactor, is conserved in all threonine synthase sequences and also in the threonine and serine dehydratase genes. Amino acid comparison of nine threonine synthases revealed evolutionary relationships between different groups of bacteria. Dedicated to Dr. J. Spížek on the occasion of his 60th birthday     

Analysis ofcis-regulatory elements involved in the activation of a member of chalcone synthase gene family (PsChs1) in pea

Cis-regulatory elements involved in the activation of the plant defense-related gene encoding chalcone synthase 1 (PsChs1) in pea (Pisum sativum L.) were examined by transient transfection, gel mobility shift assay andin vitro DNase I-footprinting analysis. Transient transfection assay revealed that a 61 bp DNA fragment spanning from –242 to –182 ofPsChs1 was required for the maximal promoter activity and possibly involved in the enhancement of elicitor-mediated activation. Nuclear isolate from elicitor-treated pea epicotyl tissues contained some factor(s) that specifically bound to this DNA fragment to form a complex with low mobility (LMC, low mobility complex) in gel mobility shift assay. DNase I-footprinting analysis of LMC revealed that among three protected regions detected in a 61 bp DNA fragment, two regions contained identical AT-rich sequence, TAAAATACT. Site directed mutation in either or both identical sequences, TAAAATACT to TGGAATACT, resulted in the reduction or loss in the ability to form LMC. Detailed analysis of 61 bp DNA fragment demonstrated that the region from –242 to –226 containing promoter-distal TAAAATACT motif was imperative for the maximal elicitor-mediated activation ofPsChs1.     

A new reducing polyketide synthase gene from the lichen-forming fungus Cladonia metacorallifera

Lichens produce unique polyketide secondary metabolites including depsides, depsidones, dibenzofurans and depsones. The biosynthesis of these compounds is governed by polyketide synthase (PKS), but the mechanism via which they are produced has remained unclear until now. We reported the 6-methylsalicylic acid synthase (6-MSAS) type of PKS gene, which is a member of the fungal-reducing PKSs. A cultured mycobiont of Cladonia metacorallifera was employed in the isolation and characterization of a polyketide synthase gene (CmPKS1). The complete sequence information for CmPKS1 was acquired via the screening of a Fosmid genomic library with a 456 bp fragment corresponding to part of the acyl transferase (AT) domain as a probe. CmPKS1 contains β-ketoacyl synthase (KS), AT, dehydratase (DH), ketoreductase (KR) and phosphopantetheine attachment site (PP) domains.: The domain organization of CmPKS1 (KS-AT-DH-KR-PP) is a typical 6-MSAS-type PKS, and the results of phylogenetic analysis showed that CmPKS1 grouped with other fungal-reducing PKSs. Quantitative real time PCR analyses showed that CmPKS1 was expressed preferentially in the early growth stage of the axenically cultured mycobiont. Furthermore CmPKS1 expression was found to be dependent on the carbon sources and concentrations in the medium.     

Extracellular proteinase spectrum ofAspergillus terreus grown on various substrates

The level of proteinase activity and the ratio of proteinases I and II, secreted byAspergillus terreus, a cellulase producer, was followed during its growth on media containing various carbon sources. Correlation was found between the level of proteinase secretion and the rate of change of the cellulase complex spectrum. The extracellular proteolytic system ofA. terreus was presented mainly by proteinase II (metalloproteinase) during cultivation under conditions favoring fast accumulation of low-molar mass cellulases. The results indicate that proteinase II could be responsible for the limited proteolysis of high-molar mass cellulases ofA. terreus into smaller enzymes of the cellulolytic complex, thus changing their substrate specificity.     

Cloning,characterization and localization of <Emphasis Type="Italic">CHS</Emphasis> gene from blood orange, <Emphasis Type="Italic">Citrus sinensis</Emphasis> (L.) Osbeck cv. Ruby

Chalcone synthase (CHS) is involved in the biosynthesis of anthocyanin. In this study, a full-length DNA of CHS gene (named as CsCHS-bo) was cloned from the blood orange, Citrus sinensis (L.) Osbeck cv. Ruby. The gene was 1,512 bp in size containing an open reading frame (1,176 bp) encoding 391 amino acids. Comparative and bioinformatic analyses revealed that the deduced protein of CsCHS-bo was highly homologous to CHS from other plant species. The protein of CsCHS-bo had four CHS-specific conserved motifs and a CHS-family signature sequence GFGPG. Phylogenetic analysis indicated that the protein of CsCHS-bo was in a subgroup with CHS of Ruta Palmatum. The CsCHS-bo was localized to the chromosomes 2p, 4p and 6p by an improved fluorescence in situ hybridization technique, indicating that at least three copies of CsCHS-bo were present in the genome. The novel nucleotide sequence data published here have been deposited in the EMBL/DDBJ/GenBank databases under accession number EU410483.