Ralf Hütter

Simple procedure for distinguishing CCC, OC, and L forms of plasmid DNA by agarose gel electrophoresis.

Abstract A simple and rapid method discriminating between covalently closed circular (CCC), open circular (OC), and linear (L) forms of plasmid DNA is presented. Two consecutive steps of agarose gel electrophoresis with a single DNA sample are used; use is made between the steps of ultraviolet light irradiation which introduces single-strand nicks in ethidium bromide-stained DNA, converting CCC into OC forms. Unambiguous assignments of OC and CCC forms are possible in samples containing several plasmids.

Characterisation of the hydroxystreptomycin phosphotransferase gene (sph) of Streptomyces glaucescens: Nucleotide sequence and promoter analysis

SummaryThe nucleotide sequence of a 1384 bp fragment containing the coding and promoter sequences of the streptomycin phosphotransferase gene (sph) of the hydroxystreptomycin-producing Streptomyces glaucescens was determined. Evidence for an ATG as translation start codon for sph was derived from a comparison with the aminoterminal amino acid sequence of an aminoglycoside phosphotransferase (aphD gene product) of S. griseus, exhibiting a high degree of amino acid homology to the deduced amino acid sequence of the S. glaucescens sph gene product.Transcriptional start and termination sites for the sph gene were identified by primer extension and/or nuclease S1 mapping experiments. The promoter region of the sph gene appears to be complex since tandemly arranged promoters (orfIp1, orfIp2) initiating transcription of a likely coding region (ORFI) in the opposite direction overlap sph promoter sequences. The presumptive sphp and orfIp1 promoters show considerable sequence similarities in the-10 region to Escherichia coli consensus promoter sequences but no homology to E. coli or Streptomyces-35 regions.

Cloning and expression of the genetically unstable tyrosinase structural gene from Streptomyces glaucescens

SummaryThe gene from Streptomyces glaucescens coding for an inducible tyrosinase was cloned using the low copy vector pIJ41 and the melanin-negative strain Streptomyces lividans TK23 as host. Hybridisation experiments as well as complementation studies showed that melC mutant strains carry large deletions of more than 10.5 kb, comprising the structural gene for tyrosinase, while melA and melB strains carry mutations in genes involved in the expression of tyrosinase activity. Strong DNA homology was found between the Streptomyces antibioticus and the S. glaucescens tyrosinase structural genes and both genes showed a similar regulation when introduced into melanin-negative hosts. While both tyrosinases exhibited clear induction in S. glaucescens, constitutive expression was observed in S. lividans. Northern blot experiments showed that tyrosinase expression is regulated at the transcriptional level and that the gene (822 bp) is part of a 2.3 kb transcript. The main start of the mRNA at about 475 bp upstream from the tyrosinase N-terminus was located by S1-mapping experiments.

Restriction analysis of the Streptomyces glaucescens genome by agarose gel electrophoresis

A method for the analysis of total DNA of Streptomyces glaucescens is described. The relevant steps are (a) extraction and purification of DNA, (b) restriction of DNA samples with type II restriction enzymes, (c) one dimensional separation of restriction fragments by agarose gel electrophoresis. A typical banding pattern was obtained for each wild type strain, independant of growth conditions or age of the culture. Mutant strains exhibited in most cases the same banding pattern as the parent wild type strain. Only in one specific mutant class a fragment of about 9 megadalton was missing.

Isolation and characterization of an extrachromosomal element from Nocardia mediterranei

Strain LBG A3136 of Nocardia mediterranei (ETH Collection) was found to contain a low-copy-number covalently closed circular extrachromosomal element, pMEA 100, which could only be isolated from mycelium grown on agar plates. pMEA 100 could not be isolated from the closely related strain ATCC 13685. Hybridization experiments showed that pMEA 100 is present in strain LBG A3136 in the free as well as in the integrated form whereas in strain ATCC 13685 only an integrated form was detected. Excision and reintegration in strain LBG A3136 seemed to be site specific. pMEA100 was found to be self-transmissible, eliciting the lethal zygosis phenotype, and is possibly involved in fertility in N. mediterranei.

Isolation and cultivation of microbes with biodegradative potential

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Streptomycin-sensitivity in Streptomyces glaucescens is due to deletions comprising the structural gene coding for a specific phosphotransferase

SummaryThe wild type strain of Streptomyces glaucescens produces hydroxystreptomycin and has a natural resistance towards the streptomycin group aminoglycoside antibiotics. The inherent resistance is a genetically unstable character and mutant strains sensitive to streptomycins arise spontaneously at unusually high frequencies. The gene conferring streptomycin resistance was cloned and characterised as a streptomycin specific phosphotransferase. Hybridisation experiments show that the mutational event leading to sensitivity is due to large deletions, most likely on the chromosome, comprehending the structural gene coding for a streptomycin phosphotransferase and its flanking regions. Interspecific expression of the S. glaucescens phosphotransferase was found in Streptomyces lividans as well as in Escherichia coli.

Tryptophan degradation in Saccharomyces cerevisiae: Characterization of two aromatic aminotransferases

Tryptophan was found to be degraded in Saccharomyces cerevisiae mainly to tryptophol. Upon chromatography on DEAE-cellulose two aminotransferases were identified: Aromatic aminotransferase I was constitutively synthesized and was active in vitro with tryptophan, phenylalanine or tyrosine as amino donors and pyruvate, phenylpyruvate or 2-oxoglutarate as amino acceptors. The enzyme was six times less active with and had a twenty times lower affinity for tryptophan (Km=6 mM) than phenylalanine or tyrosine. It was postulated thus that aromatic aminotransferase I is involved in vivo in the last step of tyrosine and phenylalanine biosynthesis. Aromatic aminotransferase II was inducible with tryptophan but also with the other two aromatic amino acids either alone or in combinations. With tryptophan as amino donor the enzyme was most active with phenylpyruvate and not active with 2-oxoglutarate as amino acceptor; its affinity for tryptophan was similar as for the other aromatic amino acids (Km=0.2–0.4 mM). Aromatic aminotransferase II was postulated to be involved in vivo mainly in the degradation of tryptophan, but may play also a role in the degradation of the other aromatic amino acids.A mutant strain defective in the aromatic aminotransferase II (aat2) was isolated and its influence on tryptophan accumulation and pool was studied. In combination with mutations trp2fbr, aro7 and cdr1-1, mutation aat2 led to a threefold increase of the tryptophan pool as compared to a strain with an intact aromatic aminotransferase II.

Extremely large chromosomal deletions are intimately involved in genetic instability and genomic rearrangements inStreptomyces glaucescens

SummaryGenetic instability inStreptomyces glaucescens characteristically involves the occurrence of gross genomic rearrangements including high-level sequence amplification and extensive deletion. We investigated the relationship of the unstablemelC andstrS loci and a 100 kb region of the chromosome which frequently gives rise to intense heterogeneous DNA amplification. Standard chromosome walking using a cosmid bank in conjunction with a “reverse-blot” procedure enabled us to construct a contiguous genomicBamHI map of the unstable region exceeding 900 kb. The unstable genes and the amplifiable region (AUD locus) are physically linked within a 600 kb segment of the chromosome. The previously characterized deletions which affect these loci are merely components of much larger deletions ranging from 270 to over 800 kb which are polar in nature, effecting the sequential loss of thestrS andmelC loci. The more extensive deletions terminate either adjacent to, or in the vicinity of DNA reiterations at the AUD locus. Additionally, a deletion junction fragment and the corresponding deletion ends were cloned and analysed at the sequence level.

Certain chromosomal regions in Streptomyces glaucescens tend to carry amplifications and deletions

SummaryStreptomycetes are subject to a high degree of genetic instability. One manifestation of this phenomenon is the occurrence of tandemly reiterated DNA stretches within the chromosome. We describe the analysis of ten reiterated sequences observed in various ethidium bromide-treated streptomycin-sensitive and melanin-negative mutant strains of Streptomyces glaucescens. The repeated DNA units were 2.9 to 35 kb in lenght. No two sequences were identical. The amplified sequences occupied up to 45% of the total genomic DNA. Structural analysis of the cloned repeated DNA stretches by means of restriction enzymes and by cross hybridization revealed the presence of two chromosomal areas rich in DNA reiterations. In some cases reiterated regions were accompanied by nearby rearrangements.