Antibiosis

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Antibiosis, also referred to as antagonism, a process of biological interaction between two or more organisms that is detrimental to at least one of them; it can also be an antagonistic association between an organism and the metabolic substances produced by another. [1] Antibiosis can occur through a variety of mechanisms, with "injury, death, reduced longevity, or reduced reproduction of the pest" [2] being common. The process of antibiosis is either reversible or irreversible, and is caused by the production of volatile organic compounds by plant-growth-promoting rhizobacterium (PGPR) [3] . Antibiosis is one of two forms of amensalism, the other form being competition. Primary examples of antibiosis include "antibacterial activity against bacteria, fungus, nematodes, insects, and occasionally against plants and algae" [3] .

Contents

Examples of Antibiosis

Antibiosis in biotech and medical treatment

The study of antibiosis and its role in antibiotics has led to the expansion of knowledge in the field of microbiology. Molecular processes such cell wall synthesis and recycling, for example, have become better understood through the study of how antibiotics affect beta-lactam development through the antibiosis relationship and interaction of the particular drugs with the bacteria subjected to the compound. [4] For example, the Penicillium fungi responds to bacterial infections by producing penicillin, which is toxic to bacteria and is commonly used in medical settings as an effective treatment for bacterial infections [5] . Penicillin belongs to the beta-lactam antibiotic class.

Host plant resistance through antibiosis

Antibiosis is typically studied in host plant populations and extends to the insects which feed upon them. Antibiosis can be seen in certain vegetables, as antibiosis mechanisms have been found in Brassica species to protect against cabbage whitefly. [6]

"Antibiosis resistance affects the biology of the insect so pest abundance and subsequent damage is reduced compared to that which would have occurred if the insect was on a susceptible crop variety. Antibiosis resistance often results in increased mortality or reduced longevity and reproduction of the insect." [7]

During a study of antibiosis, it was determined that the key to achieving effective antibiosis relies on the organism being sessile. "When you give antibiotic-producing bacteria a structured medium, they affix to substrate, grow clonally, and produce a 'no man's land,' absent competitors, where the antibiotics diffuse outward." [8] Antibiosis is most effective when resources are neither plentiful nor sparse. Antibiosis should be considered as the median on the scale of resource, due to its ideal performance.

Other examples

The black walnut, Juglans nigra , produces a secretion called juglone, which is toxic to a variety of flowers, herbaceous plants, and field crops. This toxic secretion creates an area surrounding the black walnut tree that is uninhabitable to most species.

In many environments, antibiosis can promote mutualisms and/or competition between species in an ecosystem. Attine ants provide an example of a more complex antibiosis mechanism. Attine ants maintain cultivations of Leucocoprinus fungi as their primary source of consumption, however, a parasitic fungal genus, Escovopsis , feeds on Leucocoprinus and disrupts the food system of the ants. In response to this, attine ants encourage growth of the Pseudonocardia actinomycete, as it produces an antimicrobial compound that suppresses the parasitic Escovopsis. The attine ants, Leucocoprinus fungi and Pseudonocardia actinomycete all benefit in this interaction, however it is detrimental to the Escovopsis fungi.

See also

Related Research Articles

<span class="mw-page-title-main">Beta-lactamase</span> Class of enzymes

Beta-lactamases (β-lactamases) are enzymes produced by bacteria that provide multi-resistance to beta-lactam antibiotics such as penicillins, cephalosporins, cephamycins, monobactams and carbapenems (ertapenem), although carbapenems are relatively resistant to beta-lactamase. Beta-lactamase provides antibiotic resistance by breaking the antibiotics' structure. These antibiotics all have a common element in their molecular structure: a four-atom ring known as a beta-lactam (β-lactam) ring. Through hydrolysis, the enzyme lactamase breaks the β-lactam ring open, deactivating the molecule's antibacterial properties.

<span class="mw-page-title-main">Penicillin</span> Group of antibiotics derived from Penicillium fungi

Penicillins are a group of β-lactam antibiotics originally obtained from Penicillium moulds, principally P. chrysogenum and P. rubens. Most penicillins in clinical use are synthesised by P. chrysogenum using deep tank fermentation and then purified. A number of natural penicillins have been discovered, but only two purified compounds are in clinical use: penicillin G and penicillin V. Penicillins were among the first medications to be effective against many bacterial infections caused by staphylococci and streptococci. They are still widely used today for different bacterial infections, though many types of bacteria have developed resistance following extensive use.

<span class="mw-page-title-main">Beta-lactam antibiotics</span> Class of broad-spectrum antibiotics

β-lactam antibiotics are antibiotics that contain a beta-lactam ring in their chemical structure. This includes penicillin derivatives (penams), cephalosporins and cephamycins (cephems), monobactams, carbapenems and carbacephems. Most β-lactam antibiotics work by inhibiting cell wall biosynthesis in the bacterial organism and are the most widely used group of antibiotics. Until 2003, when measured by sales, more than half of all commercially available antibiotics in use were β-lactam compounds. The first β-lactam antibiotic discovered, penicillin, was isolated from a strain of Penicillium rubens.

<span class="mw-page-title-main">Drug resistance</span> Pathogen resistance to medications

Drug resistance is the reduction in effectiveness of a medication such as an antimicrobial or an antineoplastic in treating a disease or condition. The term is used in the context of resistance that pathogens or cancers have "acquired", that is, resistance has evolved. Antimicrobial resistance and antineoplastic resistance challenge clinical care and drive research. When an organism is resistant to more than one drug, it is said to be multidrug-resistant.

<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, within the tribe Attini. 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.

<span class="mw-page-title-main">Methicillin</span> Antibiotic medication

Methicillin (USAN), also known as meticillin (INN), is a narrow-spectrum β-lactam antibiotic of the penicillin class.

<span class="mw-page-title-main">Fungus-growing ants</span> Tribe of ants

Fungus-growing ants comprise all the known fungus-growing ant species participating in ant–fungus mutualism. They are known for cutting grasses and leaves, carrying them to their colonies' nests, and using them to grow fungus on which they later feed.

<span class="mw-page-title-main">Cephem</span> Class of beta-lactam antibiotic

Cephems are a sub-group of β-lactam antibiotics including cephalosporins and cephamycins. It is one of the most common 4-membered ring heterocycle. Produced by actinomycetes, cephamycins were found to display antibacterial activity against a wide range of bacteria, including those resistant to penicillin and cephalosporins. The antimicrobial properties of Cephem include the attachment to certain penicillin-binding proteins that are involved in the production of cell walls of bacteria.

<span class="mw-page-title-main">Piperacillin</span> Antibiotic medication

Piperacillin is a broad-spectrum β-lactam antibiotic of the ureidopenicillin class. The chemical structure of piperacillin and other ureidopenicillins incorporates a polar side chain that enhances penetration into Gram-negative bacteria and reduces susceptibility to cleavage by Gram-negative beta lactamase enzymes. These properties confer activity against the important hospital pathogen Pseudomonas aeruginosa. Thus piperacillin is sometimes referred to as an "anti-pseudomonal penicillin".

<span class="mw-page-title-main">Flucloxacillin</span> Penicillin

Flucloxacillin, also known as floxacillin, is an antibiotic used to treat skin infections, external ear infections, infections of leg ulcers, diabetic foot infections, and infection of bone. It may be used together with other medications to treat pneumonia, and endocarditis. It may also be used prior to surgery to prevent Staphylococcus infections. It is not effective against methicillin-resistant Staphylococcus aureus (MRSA). It is taken by mouth or given by injection into a vein or muscle.

<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.

<span class="mw-page-title-main">Dicloxacillin</span> Chemical compound

Dicloxacillin is a narrow-spectrum β-lactam antibiotic of the penicillin class. It is used to treat infections caused by susceptible (non-resistant) Gram-positive bacteria. It is active against beta-lactamase-producing organisms such as Staphylococcus aureus, which would otherwise be resistant to most penicillins. Dicloxacillin is available under a variety of trade names including Diclocil (BMS).

In phytopathology, antagonism refers to the action of any organism that suppresses or interferes with the normal growth and activity of a plant pathogen, such as the main parts of bacteria or fungi.

<span class="mw-page-title-main">Monobactam</span> Monocyclic β-lactam antibiotics

Monobactams are bacterially-produced monocyclic β-lactam antibiotics. The β-lactam ring is not fused to another ring, in contrast to most other β-lactams.

β-Lactamase inhibitor Family of enzymes

Beta-lactamases are a family of enzymes involved in bacterial resistance to beta-lactam antibiotics. In bacterial resistance to beta-lactam antibiotics, the bacteria have beta-lactamase which degrade the beta-lactam rings, rendering the antibiotic ineffective. However, with beta-lactamase inhibitors, these enzymes on the bacteria are inhibited, thus allowing the antibiotic to take effect. Strategies for combating this form of resistance have included the development of new beta-lactam antibiotics that are more resistant to cleavage and the development of the class of enzyme inhibitors called beta-lactamase inhibitors. Although β-lactamase inhibitors have little antibiotic activity of their own, they prevent bacterial degradation of beta-lactam antibiotics and thus extend the range of bacteria the drugs are effective against.

<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.

<i>Pseudonocardia</i> Genus of bacteria

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 because the bacteria has antibiotic properties that protect the fungus grown by the ants. When they are grooming, their legs are passed over their mouth 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. Pseudonocardia can be found in both aquatic 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." 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.
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.

Cephalosporins are a broad class of bactericidal antibiotics that include the β-lactam ring and share a structural similarity and mechanism of action with other β-lactam antibiotics. The cephalosporins have the ability to kill bacteria by inhibiting essential steps in the bacterial cell wall synthesis which in the end results in osmotic lysis and death of the bacterial cell. Cephalosporins are widely used antibiotics because of their clinical efficiency and desirable safety profile.

<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.

<i>Leucoagaricus gongylophorus</i> Species of fungus

Leucoagaricus gongylophorus is a fungus in the family Agaricaceae which is cultivated by certain leafcutter ants. Like other species of fungi cultivated by ants, L. gongylophorus produces gongylidia, nutrient-rich hyphal swellings upon which the ants feed. Production of mushrooms occurs only once ants abandon the nest. L. gongylophorus is farmed by leaf cutter ant species belonging to the genera Atta and Acromyrmex, amongst others.

References

  1. "antibiosis". The Free Dictionary.
  2. "Host Plant Resistance | Wisconsin Vegetable Entomology". vegento.russell.wisc.edu. Retrieved 2024-05-03.
  3. 1 2 Kumar, Devendra; T. s., Archana; Kumar, Vipul; Singh, Shivam; Sawant, Kartik; Hussain, Rafakat; Kumar, Gagan (2023-01-01), Parray, Javid A.; Shameem, Nowsheen; Egamberdieva, Dilfuza; Sayyed, R. Z. (eds.), "Chapter 4 - Role of rhizobacterial volatile compounds in increasing plant tolerance to biotic and abiotic stresses", Rhizobiome, Microbiome Research in Plants and Soil, Academic Press, pp. 61–79, doi:10.1016/b978-0-443-16030-1.00002-x, ISBN   978-0-443-16030-1 , retrieved 2024-05-03
  4. Kong KF, Schneper L, Mathee K (January 2010). "Beta-lactam antibiotics: from antibiosis to resistance and bacteriology". APMIS. 118 (1): 1–36. doi:10.1111/j.1600-0463.2009.02563.x. PMC   2894812 . PMID   20041868.
  5. Yip, Derek W.; Gerriets, Valerie (2024), "Penicillin", StatPearls, Treasure Island (FL): StatPearls Publishing, PMID   32119447 , retrieved 2024-05-03
  6. Hondelmann, Peter; Paul, Christina; Schreiner, Monika; Meyhöfer, Rainer (2020-01-17). "Importance of Antixenosis and Antibiosis Resistance to the Cabbage Whitefly (Aleyrodes proletella) in Brussels Sprout Cultivars". Insects. 11 (1): 56. doi: 10.3390/insects11010056 . ISSN   2075-4450. PMC   7022423 . PMID   31963455.
  7. Teetes GL. "Plant Resistance to Insects: A Fundamental Component of IPM". Radcliffe's IPM World Textbook. University of Minnesota. Archived from the original on 2012-03-24. Retrieved 2011-11-07.
  8. Kaspari M, Stevenson B (December 2008). "Evolutionary ecology, antibiosis, and all that rot". Proceedings of the National Academy of Sciences of the United States of America. 105 (49): 19027–8. Bibcode:2008PNAS..10519027K. doi: 10.1073/pnas.0810507105 . PMC   2614706 . PMID   19057009.

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