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Mucor

{{Short description|Genus of fungi}}

{{More citations needed|date=September 2023}}

{{Automatic taxobox

| image = Mucor spec. - Lindsey 1a.jpg

| image_caption = Mucor mucedo

| taxon = Mucor

| authority = Fresen.

| subdivision_ranks = Species

| subdivision = See text

}}

Mucor is a microbial genus of approximately 40 species of molds and dimorphic fungi in the family Mucoraceae.{{cite journal | vauthors = Bartnicki-Garcia S, Nickerson WJ | title = Induction of yeast-like development in Mucor by carbon dioxide | journal = Journal of Bacteriology | volume = 84 | issue = 4 | pages = 829–840 | date = October 1962 | pmid = 13969719 | pmc = 277966 | doi = 10.1128/jb.84.4.829-840.1962 }}{{cite journal | vauthors = Orlowski M | title = Mucor dimorphism | journal = Microbiological Reviews | volume = 55 | issue = 2 | pages = 234–258 | date = June 1991 | pmid = 1886520 | pmc = 372813 | doi = 10.1128/mr.55.2.234-258.1991 }}{{Cite book |last=Ruiz-Herrera |first=José |title=Dimorphic Fungi: Their importance as Models for Differentiation and Fungal Pathogenesis |date=2012 |publisher=Bentham Science Publishers |isbn=978-1-60805-364-3 |edition=1st |location=SAIF Zone}} The genus includes both pathogenic and avirulent species, and some members of it can be utilized in biotechnical applications.{{Cite journal |last=Morin-Sardin |first=Stéphanie |last2=Nodet |first2=Patrice |last3=Coton |first3=Emmanuel |last4=Jany |first4=Jean-Luc |date=2017-01-01 |title=Mucor: A Janus-faced fungal genus with human health impact and industrial applications |url=https://linkinghub.elsevier.com/retrieve/pii/S1749461316300586 |journal=Fungal Biology Reviews |volume=31 |issue=1 |pages=12–32 |doi=10.1016/j.fbr.2016.11.002 |issn=1749-4613|url-access=subscription }} These fungi are commonly found in soil, digestive systems, plant surfaces, some cheeses like Tomme de Savoie, rotten vegetable matter and iron oxide residue in the biosorption process.

Description

Colonies of this fungal genus are typically yellow, beige or grey.{{Cite book |last=Campbell |first=Colin K. |title=Identification of pathogenic fungi |last2=Warnock |first2=D. W. |last3=Johnson |first3=Elizabeth Margaret |date=2013 |publisher=Wiley-Blackwell |isbn=978-1-118-52004-8 |location=Chichester, West Sussex}} They are characterized by rapid growth and sporulation in high aw environments, and they reproduce both sexually and asexually.

Mucor spores or sporangiospores can be simple or branched and form apical, globular sporangia that are supported and elevated by a column-shaped columella. Mucor species can be differentiated from molds of the genera Absidia, Rhizomucor, and Rhizopus by the shape and insertion of the columella, and the lack of stolons and rhizoids. Some Mucor species produce chlamydospores. They form mold with irregular non-septate hyphae branching at wide angles (>90°).

Reproduction

Mucor mucedo (type species) use asexual reproduction. When erect hyphal sporangiophores are formed, the tip of the sporangiophore swells to form a globose sporangium that contains uninucleate, haploid sporangiospores. An extension of the sporangiophore called the columella protrudes into the sporangium. The sporangium walls are easily ruptured to release the spores, which germinate readily to form a new mycelium on appropriate substrates.

During sexual reproduction, compatible strains form short, specialized hyphae called gametangia. At the point where two complementary gametangia fuse, a thick-walled, spherical zygosporangium develops. The zygosporangium typically contains a single zygospore. Nuclear karyogamy and meiosis (sexual recombination) occur within it.

Clinical significance

Most species of Mucor are unable to cause disease in humans and endothermic animals due to their inability to grow at temperatures around 37 °C. But some thermotolerant species such as Mucor circinelloides, M. irregularis and M. hiemalis can cause mucormycosis, an acute and invasive fungal infection effecting primarily immunocompromised hosts.{{Cite journal |last=Monika |first=P. |last2=Chandraprabha |first2=M. N. |date=2022-06-01 |title=Risks of mucormycosis in the current Covid-19 pandemic: a clinical challenge in both immunocompromised and immunocompetent patients |url=https://link.springer.com/article/10.1007/s11033-022-07160-3 |journal=Molecular Biology Reports |language=en |volume=49 |issue=6 |pages=4977–4988 |doi=10.1007/s11033-022-07160-3 |issn=1573-4978 |pmc=8808276 |pmid=35107737}} Many Mucor species fungi are intrinsically resistant to most available antifungals, which causes issues in treatment of this disease.{{Cite journal |last=Navarro-Mendoza |first=María Isabel |last2=Pérez-Arques |first2=Carlos |last3=Parker |first3=Josie |last4=Xu |first4=Ziyan |last5=Kelly |first5=Steven |last6=Heitman |first6=Joseph |date=2024-08-14 |editor-last=Chowdhary |editor-first=Anuradha |title=Alternative ergosterol biosynthetic pathways confer antifungal drug resistance in the human pathogens within the Mucor species complex |url=https://journals.asm.org/doi/10.1128/mbio.01661-24 |journal=mBio |language=en |volume=15 |issue=8 |doi=10.1128/mbio.01661-24 |issn=2150-7511 |pmc=11323496 |pmid=38980037}} The available treatment options all target the ergosterol biosynthesis pathway of these fungi, and mutations in genes transcribing enzymes for it have been linked to resistance development towards the primary treatment option for the disease.

Selected species

References

{{Reflist}}

External links

  • {{Commons category-inline}}
  • {{Wikispecies-inline}}
  • [http://zygomycetes.org/index.php?id=84 Mucor] at Zygomycetes.org
  • [http://www.indexfungorum.org/Names/names.asp?strGenus=Mucor Mucor species] from Index Fungorum
  • [http://www.indexfungorum.org/Names/genusrecord.asp?RecordID=25484 Mucor page] from Index Fungorum

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Category:Mucoraceae

Category:Zygomycota genera