Pyrimidine auxotrophs of Mucor circinelloides were isolated after mutagenesis with nitrosoguanidine and selected for resistance to 5-fluoroorotate. These mutants were genetically and biochemically characterized and found to be deficient either in orotidine-5'-monophosphate decarboxylase (OMPdecase) activity or in orotate phosphoribosyl transferase (OPRTase) activity. Different circular DNA molecules containing the homologous pyrG gene were used to transform a representative OMPdecase-deficient strain to uracil prototrophy. Southern analysis, as well as mitotic stability analysis of the transformants, showed that the transforming DNA is always maintained extrachromosomally. The smallest fragment tested that retained both the capacity to complement the pyrG4 mutation and the ability to be maintained extrachromosomally when cloned in a suitable vector is a 1.85 kb M. circinelloides genomic DNA fragment. This fragment consists of the pyrG coding region flanked by 606 nucleotides at the 5' and 330 nucleotides at the 3' ends, respectively. Sequence analysis reveals that it does not share any element in common with another M. circinelloides genomic DNA fragment which also promotes autonomous replication in this organism, except those related to transcription. Furthermore, it differs from elements which have been shown to be involved in autonomous replication in other fungal systems. An equivalent plasmid harbouring the heterologous Phycomyces blakesleeanus pyrG gene yielded lower transformation rates, but the transforming DNA was also maintained extrachromosomally. Our results suggest that autonomous replication in M. circinelloides may be driven by elements normally present in nuclear coding genes.
A complete chitin synthase gene and one chitin synthase gene fragment of the zygomycete Mucor circinelloides have been cloned and analyzed. Both genes encode zymogenic Class II chitin synthases. Hybridization analysis showed that there must exist at least another Class II chitin synthase gene in M. circinelloides highly homologous to the cloned Mcchs1 and Mcchs2. The expression of these genes during the dimorphic growing stages was analyzed. Northern hybridizations showed that Mcchs1 transcript accumulates only during the exponentially growing hyphal stage, while no expression could be detected in the yeast form. Expression of Mcchs2 could not be detected at any stage. Accumulation of Mcchs1 transcript was not influenced by visible light. The existence of a multigene chitin synthase family and the observation that Mcchs1 transcription depends upon the dimorphic stage indicate that various chitin synthase activities may have different roles in the dimorphic growth of M. circinelloides.
Background and Objectives: The homologous group of sweet grasses belongs to the Pooideae subfamily, but grass pollen species from other subfamilies can also cause allergy, such as Cynodon dactylon (Chloridoideae) and Phragmites communis (Arundinoideae). C dactylon and P communis have not been included in the sweet grasses homologous group because of their low cross-reactivity with other grasses. The aims of this study were to investigate the profile of sensitization to C dactylon and P communis in patients sensitized to grasses and to analyze cross-reactivity between these 2 species and temperate grasses. Methods: Patients were skin prick tested with a grass mixture (GM). Specific IgE to GM, C dactylon, P communis, Cyn d 1, and Phl p 1 was measured by ImmunoCAP. A pool of sera was used for the immunoblot assays. Cross-reactivity was studied by ELISA and immunoblot inhibition. Results: Thirty patients had sIgE to GM. Twenty-four (80%) had positive results for C dactylon, 27 (90%) for P communis, 22 (73.3%) for nCyn d 1, and 92.9% for rPhl p 1. Bands were detected in the 3 extracts by immunoblot. Inhibition of GM was not observed with C dactylon or P communis by immunoblot or ELISA inhibition. When C dactylon or P communis were used in the solid phase, GM produced almost complete inhibition. Conclusions: Eighty percent of patients sensitized to grasses were also sensitized to C dactylon and 90% were sensitized to P communis. Sensitization to these species seems to be induced by allergens different to those in sweet grasses.
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