Pseudonocardia sp.: Difference between revisions
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==Ecology | ==Ecology== | ||
Pseudonocardia sp. are generally found in a symbiotic relationship with Attine ants of the Atta and Acromyrmex families. These ants are known as leaf-cutting or fungus-growing ants due to their defining characteristic of growing fungi in large farms for consumption. The ants normally grow fungi of the leucoagaricus and leucoprinus families, which have evolved to rely of the ants for propagation. | |||
While the ants grow and harvest these fungi, their farms are susceptible to infection by another parasitic fungus called Escovopsis. Escovopsis is known to infect the farms in ant colonies and result in massive losses of fungal biomass. This results in a negative effect to the ants who need the farms for nutrition. | |||
In response to the pathogenesis of Escovopsis, the ants have formed a mutualistic relationship with specific strains of Pseudonocardia which grow on a special region on their cutucle as a biofilm. The ants provide the pseudonocardia with nutrition and protection while the pseudonocardia produce anti-fungal compounds that the ants use to protect their farms from escovopsis. | |||
==References== | ==References== |
Revision as of 18:52, 20 April 2022
Classification
Members of the Pseudonocardia genus are classified as such:
Domain Bacteria
Phylum Actinomycetota
Class Actinomycetia
Order Pseudonocardiales
Family Pseudonocardiaceae
Genus Pseudonocardia
Species
This page covers details about the general genus of Pseudonocardia sp. There are currently 53 members of the Pseudonocardia genus.
Description and Significance
Pseudonocardia are Gram-positive bacteria, meaning they have only one cell membrane and a very thick peptidoglycan cell wall. They are non-motile bacteria, meaning they are unable to move independently in their environments. They are also aerobic bacteria, meaning they use oxygen as a terminal electron acceptor in metabolic pathways. They are rod-shaped and often grow in a branching pattern.
Many specific Pseudonocardia species have been isolated from soils, trees, and plant roots from China and Australia, highlighting their importance as environmental bacteria. However, they can also be found in aquatic ecosystems. Pseudonardia are known as "free-living," meaning they are not dependent on another organism for survival. That being said, Pseudonocardia species often are part of very significant symbiotic relationships
Attine ants are fungus-growing, leaf-cutting ants. Such ants have their own symbiotic relationships with fungi. These ants grow fungi underground, which they can then eat. In turn, the fungus relies on the ants for its vertical transmission. These fungi are incapable of reproducing sexually using spores, and so ant queens take a piece of the fungal colony with them when they go to establish a new colony, thus propagating the fungus. However, this symbiotic relationship is susceptible to disruption via infection by other fungal species like Escovopsis. This fungus can be extremely pathogenic toward the fungus the ants grow. At the same time that this fungus was discovered, a bacterial symbiont was discovered in the ant that produces compounds that fight infection by organisms like Escovopsis. This bacterium is Pseudonocardia. Compounds naturally produced by Pseudonocardia are used to protect both the ants and their fungi from infection. These compounds have both antibiotic (bacteria-killing) and antifungal (fungus-killing) properties. Thus, ants having a symbiotic relationship with Pseudonocardia protects their own symbiotic relationship with the fungi from disruption by infection.
Genome Structure
Pseudonocardia sp. have one circular chromosome about six million base-pairs (~6,135 kbp, ~6.1 mbp) in length. Pseudonocardia sp. also often have two extrachromosomal plasmids, named pFRP1-1 and pFRP1-2. Both of these plasmids are circular as well. Both are significantly smaller than the genome; pFRP1-1 is about 297 kbp in length while pFRP1-2 is about half of that size, at 121 kbp in length. All in all, the genetic material housed by Pseudonocardia sp. cells code for 5,109 proteins and 63 RNAs. However, because these bacteria live in the soil, they are difficult to isolate and thus there are only about 20 genome sequences currently available for the entire genus, which houses 53 species.
pFRP1-1 specifically codes for biosynthetic enzymes to make the antifungal compound gerumycin, which selectively inhibits Escovopsis, the fungal pathogen of the fungal species symbiotic with Attine ants.
Cell Structure, Metabolism and Life Cycle
Interesting features of cell structure; how it gains energy; what important molecules it produces.
Ecology
Pseudonocardia sp. are generally found in a symbiotic relationship with Attine ants of the Atta and Acromyrmex families. These ants are known as leaf-cutting or fungus-growing ants due to their defining characteristic of growing fungi in large farms for consumption. The ants normally grow fungi of the leucoagaricus and leucoprinus families, which have evolved to rely of the ants for propagation. While the ants grow and harvest these fungi, their farms are susceptible to infection by another parasitic fungus called Escovopsis. Escovopsis is known to infect the farms in ant colonies and result in massive losses of fungal biomass. This results in a negative effect to the ants who need the farms for nutrition. In response to the pathogenesis of Escovopsis, the ants have formed a mutualistic relationship with specific strains of Pseudonocardia which grow on a special region on their cutucle as a biofilm. The ants provide the pseudonocardia with nutrition and protection while the pseudonocardia produce anti-fungal compounds that the ants use to protect their farms from escovopsis.
References
1. Pseudonocardia https://en.wikipedia.org/wiki/Pseudonocardia
2. Pseudonocardia acaciae https://en.wikipedia.org/wiki/Pseudonocardia_acaciae
3. Pseudonocardia Symbionts of Fungus-Growing Ants and the Evolution of Defensive Secondary Metabolism https://www.frontiersin.org/articles/10.3389/fmicb.2020.621041/full#B50
4. Pseudonocardia sp. EC080625-04 https://www.genome.jp/kegg-bin/show_organism?org=psee
5. Variable genetic architectures produce virtually identical molecules in bacterial symbionts of fungus-growing ants https://www.pnas.org/doi/10.1073/pnas.1515348112
6. Genome Analysis of Two Pseudonocardia Phylotypes Associated with Acromyrmex Leafcutter Ants Reveals Their Biosynthetic Potential https://www.frontiersin.org/articles/10.3389/fmicb.2016.02073/full
Author
Page authored by Caleb Hill, Sannnoong Hu, and Abby Jackson, students of Prof. Jay Lennon at Indiana University.