Frank B. Herr scite author profile

1984. Breeding relationships among several species of Agaricus. Can. J. Bot. 62: 1884-1889. We have examined the breeding behavior of several species of Agaricus including the cultivated A. brur~nescerls and the wild A. bitorquis, A. vaporarius, A. nrvensis, A. campestris, A. silvicoln, and A. placorn~~ces. For A. brunnescens, two homokaryons carrying auxotrophic mutations and compatible mating types were obtained from the American Type Culture Collection. A stable, prototrophic heterokaryon was recovered by nutritional selection from a pairing of the two auxotrophic strains. The two nuclear types were recovered from the heterokaryon by the formation and regeneration of protoplasts, many of which were homokaryotic. In A. birorquis, a distinct macroscopic interaction correlated with dikaryon formation was observed in compatible matings of single-spore isolates. Fluffy zones of dikaryotic mycelium appeared in compatible pairings where the two cultures met. Mating among monosporous isolates was specified by unifactorial heterothallism. These observations of A. bitorquis were similar to those reported by others. Pairings of isolates from different stocks indicated a minimum of eight incompatibility alleles among 10 stocks of A. bitorquis. Although migration of nuclei generally does not occur in Agaricus, one stock of A. bitorquis produced monosporous isolates with nuclei that migrated through the resident mycelium of some compatible mates. The migration was evident as a fluffy zone of dikaryotic hyphae that spread unilaterally in a pairing. Monosporous isolates of A. vapornrius showed distinct mating interactions similar to those in A. bitorquis. No mating interactions were observed in pairings of sibling monosporous isolates of any of the other species examined. When isolates of different taxonomic species were paired, no reactions suggestive of compatibility were observed between A. brunnescens, A. bitorquis, A. vnpornrius, or any of the other species.

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The nucleotide sequence homologies of unique DNA's of some cultivated and wild mushrooms

Horgen¹,

Arthur²,

Davy³

et al. 1984

Can. J. Microbiol.

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The unique sequence DNA's of several wild and cultivated fungi including Agaricus brunnescens (=Agaricus bisporus), Agaricus bitorquis, Amanita muscaria, Amanita phalloides, Pleurotus ostreatus, Lentinus edodes, and Schizophyllum commune were compared by DNA–DNA hybridization. In addition, the characterization of a number of fungal DNA's are reported for the first time. Unique sequence DNA from Agaricus brunnescens and P. ostreatus was labeled by nick translation and each was hybridized with an excess of unlabeled driver DNA. Unique sequence DNA from two different isolates of Agaricus brunnescens showed nearly complete homology with one another, while only 56% of the unique sequence DNA from Agaricus bitorquis hybridized with the same Agaricus brunnescens DNA. Furthermore, very little sequence homology existed between Agaricus brunnescens DNA and the DNA's of the other mushrooms studied. Similarly, very little hybridization occurred between P. ostreatus labeled DNA and the DNA's of the other species. The stability of the DNA duplexes was examined by thermal elution. The Tm of Agaricus brunnescens:Agaricus bitorquis duplexes was 7.7 °C lower than Agaricus brunnescens:Agaricus brunnescens duplexes. This indicated a 7.7–11.6% mismatch between the unique DNA's of these two species.

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Characterization of the genome of the cultivated mushroom,Agaricus brunnescens

Arthur

Herr

Straus

et al. 1983

Experimental Mycology

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Frank B. Herr

The effects of antimicrotubule agents on organelle positioning in the cowpea rust fungus,Uromyces phaseoli var.vignae

Breeding relationships among several species of Agaricus

The nucleotide sequence homologies of unique DNA's of some cultivated and wild mushrooms

Characterization of the genome of the cultivated mushroom,Agaricus brunnescens

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