SummaryThe genome of the fungus Aspergillus nidulans encodes both of the mating-type regulators of sexuality, thus allowing self-fertility. Pheromone signaling genes are induced during sexual development, as found in outcrossing species, but, surprisingly, the regulators do not control expression of these genes
Mating-type genes in fungi encode regulators of mating and sexual development. Heterothallic ascomyc...
Fungal diversity has amazed evolutionary biologists for decades. One societally important aspect of ...
Sexual reproduction is ubiquitous in nature. As the engine that drives genetic diversity, sex accele...
SummaryThe genome of the fungus Aspergillus nidulans encodes both of the mating-type regulators of s...
SummarySexual reproduction occurs in two fundamentally different ways: by outcrossing, in which two ...
Having an understanding of the reproductive mode of an organism is of great importance for gaining i...
Data are available on the NCBI SRA database under the following accession number: SRP108437. All cul...
Aspergillus nidulans has long-been used as a model organism to gain insights into the genetic basis ...
Unisexuality in fungi is the result of sexual reproduction in a single isolate that harbors genes as...
Many aspergilli that belongs to ascomycetes have sexuality. In a homothallic or self-fertile fungus,...
SummarySexual identity in fungi is conferred by a diverse group of transcription factors. Analysis o...
Sexual development in filamentous fungi is a complex process that relies on the precise control of a...
Background: The broadly accepted pattern of rapid evolution of reproductive genes is primarily based...
Sexual reproduction in filamentous ascomycete fungi results in the production of highly specialized...
Sexual reproduction is ubiquitous in nature, and nowhere is this more so than in the fungi. Heteroth...
Mating-type genes in fungi encode regulators of mating and sexual development. Heterothallic ascomyc...
Fungal diversity has amazed evolutionary biologists for decades. One societally important aspect of ...
Sexual reproduction is ubiquitous in nature. As the engine that drives genetic diversity, sex accele...
SummaryThe genome of the fungus Aspergillus nidulans encodes both of the mating-type regulators of s...
SummarySexual reproduction occurs in two fundamentally different ways: by outcrossing, in which two ...
Having an understanding of the reproductive mode of an organism is of great importance for gaining i...
Data are available on the NCBI SRA database under the following accession number: SRP108437. All cul...
Aspergillus nidulans has long-been used as a model organism to gain insights into the genetic basis ...
Unisexuality in fungi is the result of sexual reproduction in a single isolate that harbors genes as...
Many aspergilli that belongs to ascomycetes have sexuality. In a homothallic or self-fertile fungus,...
SummarySexual identity in fungi is conferred by a diverse group of transcription factors. Analysis o...
Sexual development in filamentous fungi is a complex process that relies on the precise control of a...
Background: The broadly accepted pattern of rapid evolution of reproductive genes is primarily based...
Sexual reproduction in filamentous ascomycete fungi results in the production of highly specialized...
Sexual reproduction is ubiquitous in nature, and nowhere is this more so than in the fungi. Heteroth...
Mating-type genes in fungi encode regulators of mating and sexual development. Heterothallic ascomyc...
Fungal diversity has amazed evolutionary biologists for decades. One societally important aspect of ...
Sexual reproduction is ubiquitous in nature. As the engine that drives genetic diversity, sex accele...
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