Sentence examples for make this fungus from inspiring English sources

The similarity of the N. tetrasperma mating chromosome to plant and animal sex chromosomes and its recent origin (<5 MYA), combined with a long history of genetic and cytological research, make this fungus an ideal model for studying the evolutionary consequences of suppressed recombination.

These properties have made this fungus a preferred production organism for a range of secreted commercial enzymes.

In addition, its remarkable ability to produce proteins has made this fungus an important commercial source of cellulases.

This switch is necessary and sufficient to trigger morphotype interconversion in vitro, which makes this fungus an interesting model to study fungal cell differentiation at the molecular level.

In addition, the availability of a whole genome knockout collection of Neurospora has made this fungus as an outstanding model organism for research on the molecular architecture of eukaryotic circadian clocks.

The availability of methods for in vitro cultivation and stimulation of appressorium development, together with the availability of the genome sequence and tools for classical and molecular genetics makes this fungus an excellent experimental model (Wilson and Talbot, 2009).

Its relatively simple life cycle in the laboratory, together with the astonishing similarity of its genome with the genome of the yeast Saccharomyces cerevisiae, have made this fungus an attractive biological model for fungal developmental studies (reviewed in Wendland and Walther [ 1], Schmitz and Philippsen [ 2]).

The host range of P. brasiliensis, method of exposure (inhalation), and propensity for multisystemic invasion makes this fungi an unlikely causative agent of the disease in the 2 stranded T. truncatus dolphins.

Although it is still commonly parboiled before preparation, recent evidence suggests that even this procedure may not make the fungus entirely safe, thus raising concerns of risk even when prepared properly.

Our primary focus is to catalogue genes predicted to encode HMEs in diverse species with emphasis on fungi and make this information available to scientific communities for comparative analysis after rigorous curation.

Prof Sophien Kamoun of TSL says the full genome sequence - the DNA instructions to "make" the fungus - gives clues to how ash trees succumb to the infection.