Due to their biotechnological relevance as well as their importance as disease agents,
filamentous fungi and oomycetes have been prime candidates for genetic selection and in …

Filamentous fungi play an important role in human health and industrial/agricultural
production. With the increasing number of full genomes available for fungal species, the …

In recent years, a variety of genetic tools have been developed and applied to various
filamentous fungi, which are widely applied in agriculture and the food industry. However …

Functional genomics of filamentous fungi has gradually uncovered gene information for
constructing 'cell factories' and controlling pathogens. Available gene manipulation methods …

Filamentous fungi have wide applications in biotechnology. The CRISPR/Cas9 system is a
powerful genome-editing method that facilitates genetic alterations of genomes in a variety …

Background CRISPR technology has revolutionized fungal genetic engineering by
increasing the speed and complexity of the experiments that can be performed. Moreover …

Filamentous fungi represent an invaluable source of pharmaceutically active compounds.
The development of versatile methods to genetically manipulate filamentous fungi is of great …

Widely distributed in various environmental niches, filamentous fungi play an important role
in industry, drug development, and plant/animal health. Manipulation of the genome and the …

The number of fully sequenced fungal genomes is rapidly increasing. Since genetic tools
are poorly developed for most filamentous fungi, it is currently difficult to employ genetic …

Aspergillus, a genus of filamentous fungi, is extensively distributed in nature and plays
crucial roles in the decomposition of organic materials as an important environmental …