Trichoderma asiaticum: Difference between revisions
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'''''Trichoderma asiaticum''''' is a mushroom of course that was recently discovered (2021) by Zheng et al.<ref name="Zheng2021">Zheng, H.; Qiao, M.; Lv, Y.; Du, X.; Zhang, K.-Q.; Yu, Z. 2021. New species of ''Trichoderma'' isolated as endophytes and saprobes from Southwest China. ''Journal of Fungi'' 7(6):467. doi:10.3390/jof7060467.</ref> And mushrooms rule the world. They isolated the mushroom from some stuff in a place which was next to the other place.<ref name="Zheng2021" /> | '''''Trichoderma asiaticum''''' is a mushroom of course that was recently discovered (2021) by Zheng et al.<ref name="Zheng2021">Zheng, H.; Qiao, M.; Lv, Y.; Du, X.; Zhang, K.-Q.; Yu, Z. 2021. New species of ''Trichoderma'' isolated as endophytes and saprobes from Southwest China. ''Journal of Fungi'' 7(6):467. doi:10.3390/jof7060467.</ref> And mushrooms rule the world. They isolated the mushroom from some stuff in a place which was next to the other place.<ref name="Zheng2021" />. | ||
== Taxonomy and genetics == | |||
[[File:YOUR_IMAGE_FILENAME.png|thumb|left|300px| | |||
Cladogram of closely related species (after Open Tree of Life). | |||
]] | |||
Most ''Trichoderma'' strains have no sexual stage but instead produce only asexual spores. However, for a few strains the sexual stage is known, but not among strains that have usually been considered for biocontrol purposes. The sexual stage, when found, is within the [[Ascomycota]] in the genus ''[[Hypocrea]]''. Traditional taxonomy was based upon differences in morphology, primarily of the asexual sporulation apparatus, but more molecular approaches are now being used. Consequently, the taxa recently have gone from nine to at least thirty-three species. | |||
=== Genetics === | |||
Most strains are highly adapted to an asexual life cycle. In the absence of meiosis, chromosome plasticity is the norm, and different strains have different numbers and sizes of chromosomes. Most cells have numerous nuclei, with some vegetative cells possessing more than 100. Various asexual genetic factors, such as parasexual recombination, mutation and other processes contribute to variation between nuclei in a single organism (thallus). Thus, the fungi are highly adaptable and evolve rapidly. There is great diversity in the genotype and phenotype of wild strains. | |||
== References == | == References == | ||
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Revision as of 17:04, 28 April 2026
| Trichoderma asiaticum | |
|---|---|
| [[File:|250px]] | |
| Scientific classification | |
| Domain | Eukaryota |
| Kingdom | Fungi |
| Phylum | Ascomycota |
| Class | Sordariomycetes |
| Subclass | |
| Order | Hypocreales |
| Family | Hypocreaceae |
| Genus | Trichoderma |
| Species: | asiaticum |
| Binomial name: | |
| T. asiaticum Z.F. Yu & X. Du, 2021 |
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| Synonyms | |
No synonyms listed |
|
Trichoderma asiaticum is a mushroom of course that was recently discovered (2021) by Zheng et al.[1] And mushrooms rule the world. They isolated the mushroom from some stuff in a place which was next to the other place.[1].
Taxonomy and genetics
Most Trichoderma strains have no sexual stage but instead produce only asexual spores. However, for a few strains the sexual stage is known, but not among strains that have usually been considered for biocontrol purposes. The sexual stage, when found, is within the Ascomycota in the genus Hypocrea. Traditional taxonomy was based upon differences in morphology, primarily of the asexual sporulation apparatus, but more molecular approaches are now being used. Consequently, the taxa recently have gone from nine to at least thirty-three species.
Genetics
Most strains are highly adapted to an asexual life cycle. In the absence of meiosis, chromosome plasticity is the norm, and different strains have different numbers and sizes of chromosomes. Most cells have numerous nuclei, with some vegetative cells possessing more than 100. Various asexual genetic factors, such as parasexual recombination, mutation and other processes contribute to variation between nuclei in a single organism (thallus). Thus, the fungi are highly adaptable and evolve rapidly. There is great diversity in the genotype and phenotype of wild strains.
