Pseudonocardia

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Pseudonocardia
Pseudonocardia pini NRRL B-65534 (Type Strain).jpg
Pseudonocardia pini on agar plate
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Bacteria
Phylum: Actinomycetota
Class: Actinomycetia
Order: Pseudonocardiales
Family: Pseudonocardiaceae
Genus: Pseudonocardia
Henssen 1957 (Approved Lists 1980) [1]
Type species
Pseudonocardia thermophila
Henssen 1957 (Approved Lists 1980)
Species

See text.

Synonyms
  • ActinobisporaJiang et al. 1991 [2]
  • AmycolataLechevalier et al. 1986
  • PseudoamycolataAkimov et al. 1989

Pseudonocardia is a genus of the bacteria family Pseudonocardiaceae. Members of this genus have been found living mutualistically on the cuticle of the leafcutter ants [3] because the bacteria has antibiotic properties that protect the fungus grown by the ants. [4] When they are grooming, their legs are passed over their mouth gland (metapleural gland) that produces the antibiotic and then their legs touch the fungi while they are walking around. The ants have metapleural glands that produce the antimicrobial components to eliminate the Escovopsis fungi. The bacteria may also be found in crypts on the propleural plate. Pseudonocardia is found to have antibiotic properties provided to the leaf-cutter ant to inhibit the growth of Escovopsis, which is a black yeast that parasitizes the leaf-cutter ant. [5] Pseudonocardia can be found in both aquatic (including marine) and terrestrial ecosystems. Pseudonocardia belongs to the phylum Actinobacteria. Most Actinobacteria grow in soils that are of a neutral pH. Actinobacteria are also important in plant-associated microbial communities are referred to as "free-living." [6] This means that they are not dependent on another organism to live. For example: A non-free-living organism would be a parasite that depends on a host as a food source and a place for shelter. "Free-living" also allows these organisms to require less energy and food for survival. Bacteria from the Pseudonocardia genus are catalase-positive, non-motile, aerobic, non-acid-fast and produce a gram positive reaction. Under the microscope they exhibit branching, rod-shaped organisms. [7]
There are many different strains of Pseudonocardia and a good portion of these strains have been found in China, in soils of the forest, and in Eucalyptus trees of Australia.

Contents

Species

Pseudonocardia comprises the following species: [8]

Pseudonocardia saturnea on agar plate Pseudonocardia saturnea NRRL B-16172 (Type Strain).jpg
Pseudonocardia saturnea on agar plate

Related Research Articles

<span class="mw-page-title-main">Actinomycetota</span> Phylum of bacteria

The Actinomycetota are a diverse phylum of Gram-positive bacteria with high G+C content. They can be terrestrial or aquatic. They are of great economic importance to humans because agriculture and forests depend on their contributions to soil systems. In soil they help to decompose the organic matter of dead organisms so the molecules can be taken up anew by plants. While this role is also played by fungi, Actinomycetota are much smaller and likely do not occupy the same ecological niche. In this role the colonies often grow extensive mycelia, like a fungus would, and the name of an important order of the phylum, Actinomycetales, reflects that they were long believed to be fungi. Some soil actinomycetota live symbiotically with the plants whose roots pervade the soil, fixing nitrogen for the plants in exchange for access to some of the plant's saccharides. Other species, such as many members of the genus Mycobacterium, are important pathogens.

<i>Mycoplasma</i> Genus of bacteria

Mycoplasma is a genus of bacteria that, like the other members of the class Mollicutes, lack a cell wall around their cell membranes. Peptidoglycan (murein) is absent. This characteristic makes them naturally resistant to antibiotics that target cell wall synthesis. They can be parasitic or saprotrophic. Several species are pathogenic in humans, including M. pneumoniae, which is an important cause of "walking" pneumonia and other respiratory disorders, and M. genitalium, which is believed to be involved in pelvic inflammatory diseases. Mycoplasma species are among the smallest organisms yet discovered, can survive without oxygen, and come in various shapes. For example, M. genitalium is flask-shaped, while M. pneumoniae is more elongated, many Mycoplasma species are coccoid. Hundreds of Mycoplasma species infect animals.

<i>Pseudomonas</i> Genus of Gram-negative bacteria

Pseudomonas is a genus of Gram-negative bacteria belonging to the family Pseudomonadaceae in the class Gammaproteobacteria. The 313 members of the genus demonstrate a great deal of metabolic diversity and consequently are able to colonize a wide range of niches. Their ease of culture in vitro and availability of an increasing number of Pseudomonas strain genome sequences has made the genus an excellent focus for scientific research; the best studied species include P. aeruginosa in its role as an opportunistic human pathogen, the plant pathogen P. syringae, the soil bacterium P. putida, and the plant growth-promoting P. fluorescens, P. lini, P. migulae, and P. graminis.

<span class="mw-page-title-main">Leafcutter ant</span> Any of 47 species of leaf-chewing ants

Leafcutter ants, a non-generic name, are any of 47 species of leaf-chewing ants belonging to the two genera Atta and Acromyrmex. These species of tropical, fungus-growing ants are all endemic to South and Central America, Mexico, and parts of the southern United States. Leafcutter ants can carry twenty times their body weight and cut and process fresh vegetation to serve as the nutritional substrate for their fungal cultivates.

<i>Micromonospora</i> Genus of bacteria

Micromonospora is a genus of bacteria of the family Micromonosporaceae. The genus name was first proposed in 1923 by Danish physician Jeppe Ørskov in an attempt to classify what at the time was considered "ray fungi" based on morphology. Members of this genus are found throughout natural soil and sediment environments, as well as in association with roots of plants of various species. The genus is well known for its ability to produce a variety of medically relevant products.

<span class="mw-page-title-main">Micromonosporaceae</span> Family of bacteria

Micromonosporaceae is a family of bacteria of the class Actinomycetia. They are gram-positive, spore-forming soil organisms that form a true mycelium.

<i>Nocardia</i> Genus of bacteria

Nocardia is a genus of weakly staining Gram-positive, catalase-positive, rod-shaped bacteria. It forms partially acid-fast beaded branching filaments. It contains a total of 85 species. Some species are nonpathogenic, while others are responsible for nocardiosis. Nocardia species are found worldwide in soil rich in organic matter. In addition, they are oral microflora found in healthy gingiva, as well as periodontal pockets. Most Nocardia infections are acquired by inhalation of the bacteria or through traumatic introduction.

<span class="mw-page-title-main">Ant–fungus mutualism</span> Symbiotic relationship

The ant–fungus mutualism is a symbiosis seen between certain ant and fungal species, in which ants actively cultivate fungus much like humans farm crops as a food source. There is only evidence of two instances in which this form of agriculture evolved in ants resulting in a dependence on fungi for food. These instances were the attine ants and some ants that are part of the Megalomyrmex genus. In some species, the ants and fungi are dependent on each other for survival. This type of codependency is prevalent among herbivores who rely on plant material for nutrition. The fungus’ ability to convert the plant material into a food source accessible to their host makes them the ideal partner. The leafcutter ant is a well-known example of this symbiosis. Leafcutter ants species can be found in southern South America up to the United States. However, ants are not the only ground-dwelling arthropods which have developed symbioses with fungi. A similar mutualism with fungi is also noted in termites within the subfamily Macrotermitinae which are widely distributed throughout the Old World tropics with the highest diversity in Africa.

Cheating is a term used in behavioral ecology and ethology to describe behavior whereby organisms receive a benefit at the cost of other organisms. Cheating is common in many mutualistic and altruistic relationships. A cheater is an individual who does not cooperate but can potentially gain the benefit from others cooperating. Cheaters are also those who selfishly use common resources to maximize their individual fitness at the expense of a group. Natural selection favors cheating, but there are mechanisms to regulate it. The stress gradient hypothesis states that facilitation, cooperation or mutualism should be more common in stressful environments, while cheating, competition or parasitism are common in benign environments.

<i>Amycolatopsis</i> Genus of bacteria

Amycolatopsis is a genus of high GC-content bacteria within the family Pseudonocardiaceae. The genus is known for producing many types of antibiotics, including

<span class="mw-page-title-main">Microbacteriaceae</span> Family of bacteria

Microbacteriaceae is a family of bacteria of the order Actinomycetales. They are Gram-positive soil organisms.

<span class="mw-page-title-main">Pseudonocardiaceae</span> Family of bacteria

The Pseudonocardiaceae are a family of bacteria in the order Actinomycetales and the only member of the suborder Pseudonocardineae.

<i>Acromyrmex</i> Genus of ants

Acromyrmex is a genus of New World ants of the subfamily Myrmicinae. This genus is found in South America and parts of Central America and the Caribbean Islands, and contains 33 known species. Commonly known as "leafcutter ants" they comprise one of the two genera of advanced attines within the tribe Attini, along with Atta.

Gordonia is a genus of gram-positive, aerobic, catalase-positive bacterium in the Actinomycetota, closely related to the Rhodococcus, Mycobacterium, Skermania, and Nocardia genera. Gordonia bacteria are aerobic,non-motile, and non-sporulating. Gordonia is from the same lineage that includes Mycobacterium tuberculosis. The genus was discovered by Tsukamura in 1971 and named after American bacteriologist Ruth Gordon. Many species are often found in the soil, while other species have been isolated from aquatic environments. Gordonia species are rarely known to cause infections in humans.

<i>Escovopsis</i> Genus of fungi

Escovopsis is a genus of seven formally acknowledged parasitic microfungus species that rely on other fungi to be their hosts. This genus formally circumscribed with a single identified species in 1990; in 2013 three other species were added.

Escovopsis aspergilloides is a species of fungus that was rediscovered in 1995 by mycologists Keith A. Seifert, Robert A. Samson and Ignacio Chapela. Escovopsis aspergilloides co-exist in a symbiotic relationship with attini ants - fungus-growing ants. The highly evolved, ancient ant-fungus mutualism has become a model system in the study of symbiosis. In spite of this, the genus Escovopsis was not proposed until 1990 and the first two species were not formally described until the 1990s: E. weberi by Muchovej and Della Lucia in 1990 E. aspergilloides by Seifert, Samson and Chapela in 1995.

Pseudonocardia tropica is a bacterium from the genus of Pseudonocardia which has been isolated from the stem of the tree Maytenus austroyunnanensis in Xishuangbanna in China.

Sphaerisporangium is a Gram-positive genus of bacteria from the family of Streptosporangiaceae.

Okibacterium is a Gram-positive and non-spore-forming genus of bacteria from the family of Microbacteriaceae.

References

  1. Henssen A. (1957). "Beiträge zur Morphologie und Systematik der thermophilen Actinomyceten" [Contributions to the morphology and systematics of the thermophilic Actinomycetes]. Archiv für Mikrobiologie. 26 (4): 373–414. doi:10.1007/BF00407588. PMID   13435805. S2CID   37269963.
  2. Huang Y, Wang L, Lu Z, Hong L, Liu Z, Tan GY, Goodfellow M (2002). "Proposal to combine the genera Actinobispora and Pseudonocardia in an emended genus Pseudonocardia, and description of Pseudonocardia zijingensis sp. nov". Int. J. Syst. Evol. Microbiol. 52 (Pt 3): 977–982. doi:10.1099/00207713-52-3-977. PMID   12054266.
  3. Symbiont recognition of mutualistic bacteria by Acromyrmex leaf-cutting ants, Zhang, M.M., Poulsen, M. and Currie, C.R. (2007), International Society for Microbial Ecology, 1:313–320
  4. Fungus-growing ants use antibiotic-producing bacteria to control garden parasites, Currie, C.R., Scott S.A., Summerbell R.C., and David M. (1999), Nature, 398:701–704
  5. Hoy, Marjorie. "Symbiosis in Attine Fugus-Growing Ants".{{cite journal}}: Cite journal requires |journal= (help)
  6. Barka, Essaid Ait. "Taxonomy, Physiology, and Natural Products of Actinobacteria". The American Society for Microbiology. Retrieved 15 June 2019.
  7. Huang, Ying (2015). "Pseudonocardia". Bergey's Manual of Systematics of Archaea and Bacteria. pp. 1–32. doi:10.1002/9781118960608.gbm00184. ISBN   9781118960608.
  8. Euzéby JP, Parte AC. "Pseudonocardia". List of Prokaryotic names with Standing in Nomenclature (LPSN). Retrieved September 13, 2022.


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