Neurospora crassa has been for decades a principal model for filamentous
fungal genetics and physiology as well as for understanding
the mechanism of circadian clocks. Eukaryotic fungal and animal
clocks comprise transcription-translation-based feedback loops that
control rhythmic transcription of a substantial fraction of these transcriptomes,
yielding the changes in protein...
Neurospora crassa has been for decades a principal model for filamentous
fungal genetics and physiology as well as for understanding
the mechanism of circadian clocks. Eukaryotic fungal and animal
clocks comprise transcription-translation-based feedback loops that
control rhythmic transcription of a substantial fraction of these transcriptomes,
yielding the changes in protein...
Neurospora crassa has been for decades a principal model for filamentous
fungal genetics and physiology as well as for understanding
the mechanism of circadian clocks. Eukaryotic fungal and animal
clocks comprise transcription-translation-based feedback loops that
control rhythmic transcription of a substantial fraction of these transcriptomes,
yielding the changes in protein...