A start has been made on establishing a collection of Aspergillus niger colour and auxotrophic mutants with an isogenic background for use as a source of genetic markers. All strains have short conidiophores (csp A1), which makes them easy to handle on test plates. Genetic markers were combined stepwise by somatic recombination. Somatic diploids were obtained at frequencies of 10(-6) -10(-5) with conidiospores collected from a heterokaryon. The haploidization of heterozygous diploids was induced by benomyl. For unlinked markers, the frequency of recombinants varied from 35%-65%. Low frequencies of recombinants were found between markers on a same chromosome, but this was sometimes disturbed by mitotic crossing-over during an early stage of the diploid. Master strains were constructed having markers for six linkage groups.
The gene coding for benzoate-para-hydroxylase (bphA) of Aspergillus niger was cloned using differential hybridisation techniques and complementation of mutants deficient in this enzyme activity. The nucleotide sequence of the gene was determined, the presence of two introns was shown and the transcription start and termination sites were determined. The structure of the mRNA upstream from the long open reading frame (ORF) is unusual. It contains two small, overlapping ORFs whose function is unknown. Comparison of the deduced amino acid sequence of the protein with the sequences present in the databanks, indicated a significant similarity of BPH to the superfamily of cytochrome P450 enzymes. Further analysis revealed that this protein is a member of a new P450 gene family designated P450LIII. The gene is designated CYP53. To increase the BPH activity of A. niger, multiple copies of the bphA gene were introduced into the genome of a recipient strain by transformation. Although increased intracellular levels of the BPH protein could be detected, the BPH enzyme activity was decreased, suggesting titration of another essential component.
This paper provides a genetic map of Aspergillus niger. At present 84 markers have been assigned to eight linkage groups. The chromosomal location of 60 markers is presented in this paper. The allocation of markers is based on recombination due to mitotic crossing over. Various methods for selection and analysis of homozygous recombinants were applied, using colour, auxotrophic and resistance markers. In addition, transformants carrying the heterologous Aspergillus nidulans gene coding for acetamidase (amdS) were used for mitotic mapping of markers in several linkage groups. In most of the transformants the amdS insert appeared to be centromere-distal to all known genetic markers, thus extending the genetic map. The linear order of the markers in the eight linkage groups has been determined. On the basis of these and earlier experiments tentative genetic maps for the eight linkage groups are presented. Genetic markers were found on both arms of the chromosomes, except for chromosomes II and IV. The genetic distance between markers and the centromere varies from about 10(-4) (LG I, II, V) up to more than 10(-2) (LG III, VI, VIII). The total frequency of mitotic recombination per genome in this fungus has been estimated to be at least 1.2 x 10(-1).
Conidial protoplasts of an A. nidulans amdS deletion strain (MH1277) have been transformed to the AmdS+ phenotype with a plasmid carrying the wild type gene (p3SR2). Optimalisation of transformation and plating conditions now has resulted in frequencies of 300-400 transformants per microgram of DNA. Analysis of DNA from AmdS+ transformants of MH1277 showed that transformation had occurred by integration of vector DNA sequences into the genome. In virtually all these transformants multiple copies of the vector were present in a tandemly repeated fashion, not preferentially at the resident, partially deleted amdS gene. It is suggested that the observed integration phenomena are dependent on the genetic background of the A. nidulans strain, used for transformation. A model to explain the tandem type of integration is proposed.
We describe a 1-year-old boy with a rare de novo 46,XY/47,XY, + i(5p) mosaicism (ratios 28/3 in peripheral blood lymphocytes and 2/12 in skin fibroblasts). The boy, born after a pregnancy of 34 weeks, had lung hypoplasia, persistent hypotonia, and postnatal growth failure. Craniofacial anomalies were also present. His clinical manifestations correspond to those described in trisomy 5p patients. Prenatal diagnosis on maternal age indication had shown normal male chromosomes in 16 cells in the short term culture of a chorionic villus sampling. Retrospectively, 1 out of 217 cells in this culture showed the i(5p). Several mechanisms could have resulted in the formation of this 46/47, + i(5p) mosaic. Postzygotic local incorrect ligation during chromatid replication, followed by a second replication offers an attractive model on theoretical grounds since it needs only one step to explain both isochromosome formation and mosaicism. Differences between the various tissues in selection pressure on cells with the isochromosome might explain the different ratios of mosaicism found.
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