fbpx
Wikipedia

Saccharomycotina

February 15, 2024

Saccharomycotina is a subdivision (subphylum) of the division (phylum) Ascomycota in the kingdom Fungi.[2][3] It comprises most of the ascomycete yeasts. The members of Saccharomycotina reproduce by budding and they do not produce ascocarps (fruiting bodies).[2][4]

The subdivision includes a single class: Saccharomycetes, which again contains a single order: Saccharomycetales.[2][3]

Notable members of Saccharomycotina are the baker's yeast Saccharomyces cerevisiae and the genus Candida that includes several human pathogens.

Etymology edit

The name comes from the Greek word σάκχαρον (sákkharon), meaning "sugar" and μύκης (mukēs) meaning "fungus".

History and economic importance edit

Historical records from ancient Egypt and China describe the processes of brewing and baking from 10,000 to 8,000 years ago, and the production of fermented beverages and foods seems to have paralleled the beginning of agriculture.[5] In the 1850s, Louis Pasteur demonstrated that yeasts are responsible for the fermentation of grape juice to wine.[6][7]

Saccharomycotina include some of the economically most important fungi known. Members include species of industrial and agricultural importance (e.g. brewing, baking, fermentation of food products, production of citric acid, production of recombinant proteins, biofuel production, biological pest control of crops). Other species cause economic losses worldwide (plant pathogens, contaminants of foods and beverages). Yet others are animal and human pathogens.[8][9]

Morphology edit

Saccharomycete yeasts usually grow as single cells. Their cellular morphology is fairly simple, although their growth form is highly adapted. Asci are naked and ascospores can have several forms. No species produce ascocarps (fruiting bodies). Saccharomycete genomes are often smaller than those of filamentous fungi.[2][10][11][4]

Some species (e.g. Metschnikowia species) tend to form chains of budding cells that are termed pseudohyphae.[2] Yet other species are able to produce true septate hyphae.[4] Such species (e.g. Candida albicans) are termed dimorphic, which means they can propagate both as budding yeasts and as filamentous hyphae.

Reproduction edit

Asexual reproduction edit

Asexual reproduction occurs mainly vegetatively by mitosis and budding. Saccharomycotina is characterized by holoblastic budding,[12] which means all layers of the parent cell wall are involved in the budding event. This leaves a scar through which no further budding occurs.

Asexual cells may vary in shape.[13] The shape of the cell may be informative in terms of detecting mode of reproduction or taxonomic placement to genera or species.

Although not commonly known, some species form endospores (e.g.Candida species).[2] These are asexual spores that are formed within their mother cell (hyphal or single cell). Strains of Candida and Metschnikowia may also form asexual resting spores called chlamydospores.[2]

Sexual reproduction edit

Sexual reproduction is not known for all species of Saccharomycotina, but may happen in certain species if environmental conditions favour it (e.g. deficiency in nitrogen and carbohydrate).[2] Sexual reproduction is well known in Saccharomyces cerevisiae. Here, the life cycle involves alternation between a haploid and a diploid phase. The life cycle proceeds as follows: Two cells of different mating type fuse and the nuclei undergo karyogamy. This results in a daughter cell with a diploid nucleus, functioning as an ascus, where meiosis occurs to produce haploid ascospores. When ascospores germinate, the haploid phase is established, and is maintained by further mitosis and budding. In most natural populations this phase is fairly short since ascospores fuse almost immediately after meiosis has occurred. This results in most yeast populations being diploid for most part of their life cycle.[4]

In Saccharomycotina there are two mating types present. The mating types specify peptide hormones called pheromones and corresponding receptors for each type. These pheromones organize the mating. The pheromones do not affect the same mating type or diploids, but bind to receptors of different mating type. Interaction between pheromone and receptor results in altered metabolism to allow for fusion between cells of different mating type.[4][2]

Distribution and ecology edit

Saccharomycete yeasts are found in nearly all regions of the world, including hot deserts, polar areas, in freshwater, in salt water, and in the atmosphere.[2] Their growth is mainly saprotrophic, but some members are important pathogens of plants and animals, including humans. They are often found in specialized habitats, e.g. small volumes of organic carbon rich liquid (e.g. flower nectar).[4]

Examples of ecological modes in Saccharomycotina:

Although yeasts are commonly isolated from soil, few are believed to have soil as a primary habitat.[2]

Accurate identification of species is important for understanding yeast ecology, something that is now possible with the increased use of DNA-based methods. Before molecular methods were available, identification was mainly based on morphology, something that resulted in misclassifications and further prevented reliable results of ecological research.

Taxonomy edit

Saccharomycotina is a subdivision (subphylum) of the division (phylum) Ascomycota. It is a sister group to Pezizomycotina.[2][3]

Yeasts were traditionally classified as a separate group of the fungal kingdom, but in recent years[when?] DNA-based methods have changed the understanding of phylogenetic relationships among fungi. Yeasts are considered to be a polyphyletic group,[2][11] consisting of members of Basidiomycota, Taphrinomycotina, as well as Saccharomycotina. This realization has led to major changes in the phylogeny and taxonomy of Saccharomycotina.[2]

In addition, the recent[when?] changes in the International Code of Nomenclature for algae, fungi and plants[17][18] have had a major impact on the classification of fungi, including Saccharomycotina. The changes imply that a fungus can only bear one correct name, i.e. separate names for anamorphs and teleomorphs are no longer allowed. This involves major changes in Saccharomycotina taxonomy, as many species are currently described from both anamorphic and teleomorphic stages.[18] The genus Candida is an example of a genus that is undergoing large-scale revisions.

Molecular identification methods are important tools for discovery of new species and subsequently give better understanding of biodiversity in this group. Much of the future classification of Saccharomycotina will rest on phylogenetic analysis of DNA sequences rather than on the morphological and developmental characters.[citation needed]

See also edit

References edit

  1. ^ Eriksson, O.E. & K. Winka (1997). "Supraordinal taxa of Ascomycota". Myconet. 1: 1–16.
  2. ^ a b c d e f g h i j k l m n o Kurtzman, C. P., and Sugiyama, J. (2015). "9 Subcellular Structure and Biochemical Characters in Fungal Phylogeny". Systematics and Evolution (2nd ed.). Berlin, Germany: Springer. pp. 3–27. doi:10.1007/978-3-662-46011-5_9. ISBN 978-3-662-46010-8.{{cite book}}: CS1 maint: multiple names: authors list (link)
  3. ^ a b c Eriksson, O. E., and Winka, K (1997). "Supraordinal taxa of Ascomycota". Myconet.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  4. ^ a b c d e f Moore. D., Robson, G.D., and Trinci, A. P. J. (2011). 21st Century Guidebook to Fungi (2nd ed.). Cambridge, UK: Cambridge University Press. pp. 200–202.{{cite book}}: CS1 maint: multiple names: authors list (link)
  5. ^ John P. Arnold (2005) [1911]. Origin and History of Beer and Brewing: From Prehistoric Times to the Beginning of Brewing Science and Technology. Cleveland, Ohio: BeerBooks. p. 34. ISBN 978-0-9662084-1-2. OCLC 71834130.
  6. ^ Pasteur, L. (1858). "Nouveaux faits concernant l'histoire de la fermentation alcoolique". Annales de Chimie et de Physique. 3: 404–414.
  7. ^ Manchester, K.L. (2007). "Louis Pasteur, fermentation, and a rival". South African Journal of Science. 103 (9–10): 377–380.
  8. ^ a b Martins, N., Ferreira, I.C., Barros, L., Silva, S., Henriques, M (June 2014). "Candidiasis: predisposing factors, prevention, diagnosis and alternative treatment". Mycopathologia. 177 (5–6): 223–240. doi:10.1007/s11046-014-9749-1. hdl:1822/31482. PMID 24789109. S2CID 795450.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  9. ^ a b Erdogan, A., and Rao, S.S. (April 2015). "Small intestinal fungal overgrowth". Curr Gastroenterol Rep. 17 (4): 16. doi:10.1007/s11894-015-0436-2. PMID 25786900. S2CID 3098136.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  10. ^ Martin, F. (2014). The Ecological Genomics of Fungi (1st ed.). USA: John Wiley & Sons, Inc.
  11. ^ a b Kurtzman, C., Fell, J. W., and Boekhout, T. (2011). The yeasts: a taxonomic study (5th ed.). Amsterdam, Netherlands: Elsevier.{{cite book}}: CS1 maint: multiple names: authors list (link)
  12. ^ von Arx, J.A., and van der Walt, J.P. (1987). Ophiostomatales and endomycetales. In: de Hoog GS, Smith MT, Weijman ACM (eds) The expanding realm of yeast-like fungi. Amsterdam, Netherlands: Elsevier.{{cite book}}: CS1 maint: multiple names: authors list (link)
  13. ^ Kirk, P.M., Cannon, P.F., Minter, D.W., Stalpers, J.A. (2008). Ainsworth & Bisby's dictionary of the fungi (10th ed.). Wallingford: CAB International.{{cite book}}: CS1 maint: multiple names: authors list (link)
  14. ^ Vega, F.E., and Blackwell, M. (2005). Insect–fungal associations: ecology and evolution. Oxford, UK: Oxford University Press.{{cite book}}: CS1 maint: multiple names: authors list (link)
  15. ^ Mortimer, R., and Polsinelli, M. (1999). "On the origins of wine yeast". Res Microbiol. 150 (3): 199–204. doi:10.1016/s0923-2508(99)80036-9. PMID 10229949.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  16. ^ de Koning, W., and Harder, W. (1992). Methanol-utilizing yeasts. In: Murell JC, Dalton H (eds) Methane and methanol utilizers. New York, USA: Plenum. pp. 207–244.{{cite book}}: CS1 maint: multiple names: authors list (link)
  17. ^ McNeill, J.; et al. (2012). "International Code of Nomenclature for algae, fungi and plants". Regnum Vegetabile. 154.
  18. ^ a b Hawksworth, D. L. (2011). "A new dawn for the naming of fungi: impacts of decisions made in Melbourne in July 2011 on the future publication and regulation of fungal names". IMA Fungus. 2 (2): 155–162. doi:10.5598/imafungus.2011.02.02.06. PMC 3359813. PMID 22679600.

External links edit

  • Tree of Life: Saccharomycetales

February 15, 2024
saccharomycotina, subdivision, subphylum, division, phylum, ascomycota, kingdom, fungi, comprises, most, ascomycete, yeasts, members, reproduce, budding, they, produce, ascocarps, fruiting, bodies, candida, albicansscientific, classificationdomain, eukaryotaki. Saccharomycotina is a subdivision subphylum of the division phylum Ascomycota in the kingdom Fungi 2 3 It comprises most of the ascomycete yeasts The members of Saccharomycotina reproduce by budding and they do not produce ascocarps fruiting bodies 2 4 SaccharomycotinaCandida albicansScientific classificationDomain EukaryotaKingdom FungiDivision Ascomycota unranked SaccharomycetaSubdivision SaccharomycotinaO E Erikss amp Winka 1997 1 Orders FamiliesSaccharomycetales Ascoideaceae Cephaloascaceae Debaryomycetaceae Dipodascaceae Endomycetaceae Lipomycetaceae Metschnikowiaceae Phaffomycetaceae Pichiaceae Saccharomycetaceae Saccharomycodaceae Saccharomycopsidaceae TrichomonascaceaeThe subdivision includes a single class Saccharomycetes which again contains a single order Saccharomycetales 2 3 Notable members of Saccharomycotina are the baker s yeast Saccharomyces cerevisiae and the genus Candida that includes several human pathogens Contents 1 Etymology 2 History and economic importance 3 Morphology 4 Reproduction 4 1 Asexual reproduction 4 2 Sexual reproduction 5 Distribution and ecology 6 Taxonomy 7 See also 8 References 9 External linksEtymology editThe name comes from the Greek word sakxaron sakkharon meaning sugar and mykhs mukes meaning fungus History and economic importance editHistorical records from ancient Egypt and China describe the processes of brewing and baking from 10 000 to 8 000 years ago and the production of fermented beverages and foods seems to have paralleled the beginning of agriculture 5 In the 1850s Louis Pasteur demonstrated that yeasts are responsible for the fermentation of grape juice to wine 6 7 Saccharomycotina include some of the economically most important fungi known Members include species of industrial and agricultural importance e g brewing baking fermentation of food products production of citric acid production of recombinant proteins biofuel production biological pest control of crops Other species cause economic losses worldwide plant pathogens contaminants of foods and beverages Yet others are animal and human pathogens 8 9 Morphology editSaccharomycete yeasts usually grow as single cells Their cellular morphology is fairly simple although their growth form is highly adapted Asci are naked and ascospores can have several forms No species produce ascocarps fruiting bodies Saccharomycete genomes are often smaller than those of filamentous fungi 2 10 11 4 Some species e g Metschnikowia species tend to form chains of budding cells that are termed pseudohyphae 2 Yet other species are able to produce true septate hyphae 4 Such species e g Candida albicans are termed dimorphic which means they can propagate both as budding yeasts and as filamentous hyphae Reproduction editAsexual reproduction edit Asexual reproduction occurs mainly vegetatively by mitosis and budding Saccharomycotina is characterized by holoblastic budding 12 which means all layers of the parent cell wall are involved in the budding event This leaves a scar through which no further budding occurs Asexual cells may vary in shape 13 The shape of the cell may be informative in terms of detecting mode of reproduction or taxonomic placement to genera or species Although not commonly known some species form endospores e g Candida species 2 These are asexual spores that are formed within their mother cell hyphal or single cell Strains of Candida and Metschnikowia may also form asexual resting spores called chlamydospores 2 Sexual reproduction edit Sexual reproduction is not known for all species of Saccharomycotina but may happen in certain species if environmental conditions favour it e g deficiency in nitrogen and carbohydrate 2 Sexual reproduction is well known in Saccharomyces cerevisiae Here the life cycle involves alternation between a haploid and a diploid phase The life cycle proceeds as follows Two cells of different mating type fuse and the nuclei undergo karyogamy This results in a daughter cell with a diploid nucleus functioning as an ascus where meiosis occurs to produce haploid ascospores When ascospores germinate the haploid phase is established and is maintained by further mitosis and budding In most natural populations this phase is fairly short since ascospores fuse almost immediately after meiosis has occurred This results in most yeast populations being diploid for most part of their life cycle 4 In Saccharomycotina there are two mating types present The mating types specify peptide hormones called pheromones and corresponding receptors for each type These pheromones organize the mating The pheromones do not affect the same mating type or diploids but bind to receptors of different mating type Interaction between pheromone and receptor results in altered metabolism to allow for fusion between cells of different mating type 4 2 Distribution and ecology editSaccharomycete yeasts are found in nearly all regions of the world including hot deserts polar areas in freshwater in salt water and in the atmosphere 2 Their growth is mainly saprotrophic but some members are important pathogens of plants and animals including humans They are often found in specialized habitats e g small volumes of organic carbon rich liquid e g flower nectar 4 Examples of ecological modes in Saccharomycotina Associations with insects 14 Associations with plants including Saccharomyces cerevisiae with grapes 15 Plant parasitism e g cotton boll rot by Eremothecium ashbyi Eremothecium gossypii as pathogen on coffee soybean and other crops 2 Saprotrophism on leaves and decaying wood e g Ogataea 16 Human pathogens e g species of Candida and Meyerozyma 8 9 Although yeasts are commonly isolated from soil few are believed to have soil as a primary habitat 2 Accurate identification of species is important for understanding yeast ecology something that is now possible with the increased use of DNA based methods Before molecular methods were available identification was mainly based on morphology something that resulted in misclassifications and further prevented reliable results of ecological research Taxonomy editSaccharomycotina is a subdivision subphylum of the division phylum Ascomycota It is a sister group to Pezizomycotina 2 3 Yeasts were traditionally classified as a separate group of the fungal kingdom but in recent years when DNA based methods have changed the understanding of phylogenetic relationships among fungi Yeasts are considered to be a polyphyletic group 2 11 consisting of members of Basidiomycota Taphrinomycotina as well as Saccharomycotina This realization has led to major changes in the phylogeny and taxonomy of Saccharomycotina 2 In addition the recent when changes in the International Code of Nomenclature for algae fungi and plants 17 18 have had a major impact on the classification of fungi including Saccharomycotina The changes imply that a fungus can only bear one correct name i e separate names for anamorphs and teleomorphs are no longer allowed This involves major changes in Saccharomycotina taxonomy as many species are currently described from both anamorphic and teleomorphic stages 18 The genus Candida is an example of a genus that is undergoing large scale revisions Molecular identification methods are important tools for discovery of new species and subsequently give better understanding of biodiversity in this group Much of the future classification of Saccharomycotina will rest on phylogenetic analysis of DNA sequences rather than on the morphological and developmental characters citation needed See also editYeast in winemaking Saccharomyces Genome DatabaseReferences edit Eriksson O E amp K Winka 1997 Supraordinal taxa of Ascomycota Myconet 1 1 16 a b c d e f g h i j k l m n o Kurtzman C P and Sugiyama J 2015 9 Subcellular Structure and Biochemical Characters in Fungal Phylogeny Systematics and Evolution 2nd ed Berlin Germany Springer pp 3 27 doi 10 1007 978 3 662 46011 5 9 ISBN 978 3 662 46010 8 a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link a b c Eriksson O E and Winka K 1997 Supraordinal taxa of Ascomycota Myconet a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link a b c d e f Moore D Robson G D and Trinci A P J 2011 21st Century Guidebook to Fungi 2nd ed Cambridge UK Cambridge University Press pp 200 202 a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link John P Arnold 2005 1911 Origin and History of Beer and Brewing From Prehistoric Times to the Beginning of Brewing Science and Technology Cleveland Ohio BeerBooks p 34 ISBN 978 0 9662084 1 2 OCLC 71834130 Pasteur L 1858 Nouveaux faits concernant l histoire de la fermentation alcoolique Annales de Chimie et de Physique 3 404 414 Manchester K L 2007 Louis Pasteur fermentation and a rival South African Journal of Science 103 9 10 377 380 a b Martins N Ferreira I C Barros L Silva S Henriques M June 2014 Candidiasis predisposing factors prevention diagnosis and alternative treatment Mycopathologia 177 5 6 223 240 doi 10 1007 s11046 014 9749 1 hdl 1822 31482 PMID 24789109 S2CID 795450 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link a b Erdogan A and Rao S S April 2015 Small intestinal fungal overgrowth Curr Gastroenterol Rep 17 4 16 doi 10 1007 s11894 015 0436 2 PMID 25786900 S2CID 3098136 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Martin F 2014 The Ecological Genomics of Fungi 1st ed USA John Wiley amp Sons Inc a b Kurtzman C Fell J W and Boekhout T 2011 The yeasts a taxonomic study 5th ed Amsterdam Netherlands Elsevier a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link von Arx J A and van der Walt J P 1987 Ophiostomatales and endomycetales In de Hoog GS Smith MT Weijman ACM eds The expanding realm of yeast like fungi Amsterdam Netherlands Elsevier a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link Kirk P M Cannon P F Minter D W Stalpers J A 2008 Ainsworth amp Bisby s dictionary of the fungi 10th ed Wallingford CAB International a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link Vega F E and Blackwell M 2005 Insect fungal associations ecology and evolution Oxford UK Oxford University Press a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link Mortimer R and Polsinelli M 1999 On the origins of wine yeast Res Microbiol 150 3 199 204 doi 10 1016 s0923 2508 99 80036 9 PMID 10229949 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link de Koning W and Harder W 1992 Methanol utilizing yeasts In Murell JC Dalton H eds Methane and methanol utilizers New York USA Plenum pp 207 244 a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link McNeill J et al 2012 International Code of Nomenclature for algae fungi and plants Regnum Vegetabile 154 a b Hawksworth D L 2011 A new dawn for the naming of fungi impacts of decisions made in Melbourne in July 2011 on the future publication and regulation of fungal names IMA Fungus 2 2 155 162 doi 10 5598 imafungus 2011 02 02 06 PMC 3359813 PMID 22679600 External links editTree of Life Saccharomycetales Retrieved from https en wikipedia org w index php title Saccharomycotina amp oldid 1203574735, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.