fbpx
Wikipedia

Strain (biology)

April 13, 2024

This article is about strains in biology. For strain in chemistry, see Strain (chemistry).

In biology, a strain is a genetic variant, a subtype or a culture within a biological species. Strains are often seen as inherently artificial concepts, characterized by a specific intent for genetic isolation.[1] This is most easily observed in microbiology where strains are derived from a single cell colony and are typically quarantined by the physical constraints of a Petri dish. Strains are also commonly referred to within virology, botany, and with rodents used in experimental studies.[citation needed]

Microbiology and virology edit

 
H1N1 viral strain, a priority target for pandemic research

It has been said that "there is no universally accepted definition for the terms 'strain', 'variant', and 'isolate' in the virology community, and most virologists simply copy the usage of terms from others".[2]

A strain is a genetic variant or subtype of a microorganism (e.g., a virus, bacterium or fungus). For example, a "flu strain" is a certain biological form of the influenza or "flu" virus. These flu strains are characterized by their differing isoforms of surface proteins. New viral strains can be created due to mutation or swapping of genetic components when two or more viruses infect the same cell in nature.[3] These phenomena are known respectively as antigenic drift and antigenic shift. Microbial strains can also be differentiated by their genetic makeup using metagenomic methods to maximize resolution within species.[4] This has become a valuable tool to analyze the microbiome. [citation needed]

Artificial constructs edit

Scientists have modified strains of viruses in order to study their behavior, as in the case of the H5N1 influenza virus. While funding for such research has aroused controversy at times due to safety concerns, leading to a temporary pause, it has subsequently proceeded.[5][6]

In biotechnology, microbial strains have been constructed to establish metabolic pathways suitable for treating a variety of applications.[7] Historically, a major effort of metabolic research has been devoted to the field of biofuel production.[8] Escherichia coli is most common species for prokaryotic strain engineering. Scientists have succeeded in establishing viable minimal genomes from which new strains can be developed.[9] These minimal strains provide a near guarantee that experiments on genes outside the minimal framework will not be effected by non-essential pathways. Optimized strains of E. coli are typically used for this application. E. coli are also often used as a chassis for the expression of simple proteins. These strains, such as BL21, are genetically modified to minimize protease activity, hence enabling potential for high efficiency industrial scale protein production.[10]

Strains of yeasts are the most common subjects of eukaryotic genetic modification, especially with respect to industrial fermentation.[11]

Plants edit

The term has no official ranking status in botany; the term refers to the collective descendants produced from a common ancestor that share a uniform morphological or physiological character.[12] A strain is a designated group of offspring that are either descended from a modified plant (produced by conventional breeding or by biotechnological means), or which result from genetic mutation. [citation needed]

As an example, some rice strains are made by inserting new genetic material into a rice plant,[13] all the descendants of the genetically modified rice plant are a strain with unique genetic information that is passed on to later generations; the strain designation, which is normally a number or a formal name, covers all the plants that descend from the originally modified plant. The rice plants in the strain can be bred to other rice strains or cultivars, and if desirable plants are produced, these are further bred to stabilize the desirable traits; the stabilized plants that can be propagated and "come true" (remain identical to the parent plant) are given a cultivar name and released into production to be used by farmers. [citation needed]

Rodents edit

 
The Wistar rat, which was the first developed rat model strain

A laboratory mouse or rat strain is a group of animals that is genetically uniform. Strains are used in laboratory experiments. Mouse strains can be inbred, mutated, or genetically modified, while rat strains are usually inbred. A given inbred rodent population is considered genetically identical after 20 generations of sibling-mating. Many rodent strains have been developed for a variety of disease models, and they are also often used to test drug toxicity.[14][15][16]

Insects edit

Main article: Drosophila melanogaster § Model organism in genetics

The common fruit fly (Drosophila melanogaster) was among the first organisms used for genetic analysis, has a simple genome, and is very well understood. It has remained a popular model organism for many other reasons, like the ease of its breeding and maintenance, and the speed and volume of its reproduction. Various specific strains have been developed, including a flightless version with stunted wings (also used in the pet trade as live food for small reptiles and amphibians).[citation needed]

See also edit

References edit

  1. ^ DIJKSHOORN, L.; URSING, B.M.; URSING, J.B. (2000). "Strain, clone and species: comments on three basic concepts of bacteriology". Journal of Medical Microbiology. 49 (5): 397–401. doi:10.1099/0022-1317-49-5-397. PMID 10798550.
  2. ^ Kuhn, Jens H.; Bao, Yiming; Bavari, Sina; Becker, Stephan; Bradfute, Steven; Brister, J. Rodney; Bukreyev, Alexander A.; Chandran, Kartik; Davey, Robert A.; Dolnik, Olga; Dye, John M.; Enterlein, Sven; Hensley, Lisa E.; Honko, Anna N.; Jahrling, Peter B.; Johnson, Karl M.; Kobinger, Gary; Leroy, Eric M.; Lever, Mark S.; Mühlberger, Elke; Netesov, Sergey V.; Olinger, Gene G.; Palacios, Gustavo; Patterson, Jean L.; Paweska, Janusz T.; Pitt, Louise; Radoshitzky, Sheli R.; Saphire, Erica Ollmann; Smither, Sophie J.; Swanepoel, Robert; Towner, Jonathan S.; van der Groen, Guido; Volchkov, Viktor E.; Wahl-Jensen, Victoria; Warren, Travis K.; Weidmann, Manfred; Nichol, Stuart T. (2012). "Virus nomenclature below the species level: a standardized nomenclature for natural variants of viruses assigned to the family Filoviridae". Archives of Virology. 158 (1): 301–311. doi:10.1007/s00705-012-1454-0. ISSN 0304-8608. PMC 3535543. PMID 23001720.
  3. ^ Yong, Ed (2013). "Scientists create hybrid flu that can go airborne". Nature. doi:10.1038/nature.2013.12925. S2CID 181077199.
  4. ^ Marx, Vivien (2016-04-28). "Microbiology: the road to strain-level identification". Nature Methods. 13 (5): 401–404. doi:10.1038/nmeth.3837. PMID 27123815.
  5. ^ Butler, Declan (2012). "Scientists call for 60-day suspension of mutant flu research". Nature. doi:10.1038/nature.2012.9873. S2CID 84203734.
  6. ^ "Mutant flu". Nature News Special. Retrieved 21 April 2019.
  7. ^ Lee, Sang Yup (2012-11-16). "Metabolic altered and Synthetic Biology in Strain Development". ACS Synthetic Biology. 1 (11): 491–492. doi:10.1021/sb300109d. PMID 23656224.
  8. ^ Liu, Tiangang; Khosla, Chaitan (2010-11-03). "Genetic modification of Escherichia coli for Biofuel Production". Annual Review of Genetics. 44 (1): 53–69. doi:10.1146/annurev-genet-102209-163440. ISSN 0066-4197. PMID 20822440.
  9. ^ Sung, Bong Hyun; Choe, Donghui; Kim, Sun Chang; Cho, Byung-Kwan (2016-11-30). "Construction of a minimal genome as a chassis for synthetic biology". Essays in Biochemistry. 60 (4): 337–346. doi:10.1042/ebc20160024. ISSN 0071-1365. PMID 27903821.
  10. ^ Jeong, H; Kim, HJ; Lee, SJ (19 March 2015). "Complete Genome Sequence of Escherichia coli Strain BL21". Genome Announcements. 3 (2). doi:10.1128/genomeA.00134-15. PMC 4395058. PMID 25792055.
  11. ^ Steensels, Jan; Snoek, Tim; Meersman, Esther; Nicolino, Martina Picca; Voordeckers, Karin; Verstrepen, Kevin J. (2014-09-01). "Improving industrial yeast strains: exploiting natural and artificial diversity". FEMS Microbiology Reviews. 38 (5): 947–995. doi:10.1111/1574-6976.12073. ISSN 0168-6445. PMC 4293462. PMID 24724938.
  12. ^ Usher, George (1996), The Wordsworth Dictionary of Botany, Ware, Hertfordshire: Wordsworth Reference, p. 361, ISBN 978-1-85326-374-3
  13. ^ Maugh II, Thomas H. (18 February 2008). "Geneticist shaped hybrid rice strains - Los Angeles Times". Los Angeles Times.
  14. ^ Anderson, Mark S.; Bluestone, Jeffrey A. (2004-11-29). "THE NOD MOUSE: A Model of Immune Dysregulation". Annual Review of Immunology. 23 (1): 447–485. doi:10.1146/annurev.immunol.23.021704.115643. ISSN 0732-0582. PMID 15771578.
  15. ^ Cheon, Dong-Joo; Orsulic, Sandra (2011-01-24). "Mouse Models of Cancer". Annual Review of Pathology: Mechanisms of Disease. 6 (1): 95–119. doi:10.1146/annurev.pathol.3.121806.154244. ISSN 1553-4006. PMID 20936938.
  16. ^ Yang, Guang; Zhao, Lifen; Liu, Bing; Shan, Yujia; Li, Yang; Zhou, Huimin; Jia, Li (2018). "Nutritional support contributes to recuperation in a rat model of aplastic anemia by enhancing mitochondrial function". Nutrition. 46: 67–77. doi:10.1016/j.nut.2017.09.002. PMID 29290359.

External links edit

  • Coli Genetic Stock Center
  • EcoliWiki E. coli strain index
  • International Mouse Strain Resource (IMSR)
  • Rat strain index

April 13, 2024
strain, biology, this, article, about, strains, biology, strain, chemistry, strain, chemistry, biology, strain, genetic, variant, subtype, culture, within, biological, species, strains, often, seen, inherently, artificial, concepts, characterized, specific, in. This article is about strains in biology For strain in chemistry see Strain chemistry In biology a strain is a genetic variant a subtype or a culture within a biological species Strains are often seen as inherently artificial concepts characterized by a specific intent for genetic isolation 1 This is most easily observed in microbiology where strains are derived from a single cell colony and are typically quarantined by the physical constraints of a Petri dish Strains are also commonly referred to within virology botany and with rodents used in experimental studies citation needed Contents 1 Microbiology and virology 1 1 Artificial constructs 2 Plants 3 Rodents 4 Insects 5 See also 6 References 7 External linksMicrobiology and virology edit nbsp H1N1 viral strain a priority target for pandemic researchIt has been said that there is no universally accepted definition for the terms strain variant and isolate in the virology community and most virologists simply copy the usage of terms from others 2 A strain is a genetic variant or subtype of a microorganism e g a virus bacterium or fungus For example a flu strain is a certain biological form of the influenza or flu virus These flu strains are characterized by their differing isoforms of surface proteins New viral strains can be created due to mutation or swapping of genetic components when two or more viruses infect the same cell in nature 3 These phenomena are known respectively as antigenic drift and antigenic shift Microbial strains can also be differentiated by their genetic makeup using metagenomic methods to maximize resolution within species 4 This has become a valuable tool to analyze the microbiome citation needed Artificial constructs edit Scientists have modified strains of viruses in order to study their behavior as in the case of the H5N1 influenza virus While funding for such research has aroused controversy at times due to safety concerns leading to a temporary pause it has subsequently proceeded 5 6 In biotechnology microbial strains have been constructed to establish metabolic pathways suitable for treating a variety of applications 7 Historically a major effort of metabolic research has been devoted to the field of biofuel production 8 Escherichia coli is most common species for prokaryotic strain engineering Scientists have succeeded in establishing viable minimal genomes from which new strains can be developed 9 These minimal strains provide a near guarantee that experiments on genes outside the minimal framework will not be effected by non essential pathways Optimized strains of E coli are typically used for this application E coli are also often used as a chassis for the expression of simple proteins These strains such as BL21 are genetically modified to minimize protease activity hence enabling potential for high efficiency industrial scale protein production 10 Strains of yeasts are the most common subjects of eukaryotic genetic modification especially with respect to industrial fermentation 11 Plants editThe term has no official ranking status in botany the term refers to the collective descendants produced from a common ancestor that share a uniform morphological or physiological character 12 A strain is a designated group of offspring that are either descended from a modified plant produced by conventional breeding or by biotechnological means or which result from genetic mutation citation needed As an example some rice strains are made by inserting new genetic material into a rice plant 13 all the descendants of the genetically modified rice plant are a strain with unique genetic information that is passed on to later generations the strain designation which is normally a number or a formal name covers all the plants that descend from the originally modified plant The rice plants in the strain can be bred to other rice strains or cultivars and if desirable plants are produced these are further bred to stabilize the desirable traits the stabilized plants that can be propagated and come true remain identical to the parent plant are given a cultivar name and released into production to be used by farmers citation needed Rodents edit nbsp The Wistar rat which was the first developed rat model strainA laboratory mouse or rat strain is a group of animals that is genetically uniform Strains are used in laboratory experiments Mouse strains can be inbred mutated or genetically modified while rat strains are usually inbred A given inbred rodent population is considered genetically identical after 20 generations of sibling mating Many rodent strains have been developed for a variety of disease models and they are also often used to test drug toxicity 14 15 16 Insects editMain article Drosophila melanogaster Model organism in genetics The common fruit fly Drosophila melanogaster was among the first organisms used for genetic analysis has a simple genome and is very well understood It has remained a popular model organism for many other reasons like the ease of its breeding and maintenance and the speed and volume of its reproduction Various specific strains have been developed including a flightless version with stunted wings also used in the pet trade as live food for small reptiles and amphibians citation needed See also edit nbsp Biology portalGenetic isolate Clone cell biology Race biology Variant biology References edit DIJKSHOORN L URSING B M URSING J B 2000 Strain clone and species comments on three basic concepts of bacteriology Journal of Medical Microbiology 49 5 397 401 doi 10 1099 0022 1317 49 5 397 PMID 10798550 Kuhn Jens H Bao Yiming Bavari Sina Becker Stephan Bradfute Steven Brister J Rodney Bukreyev Alexander A Chandran Kartik Davey Robert A Dolnik Olga Dye John M Enterlein Sven Hensley Lisa E Honko Anna N Jahrling Peter B Johnson Karl M Kobinger Gary Leroy Eric M Lever Mark S Muhlberger Elke Netesov Sergey V Olinger Gene G Palacios Gustavo Patterson Jean L Paweska Janusz T Pitt Louise Radoshitzky Sheli R Saphire Erica Ollmann Smither Sophie J Swanepoel Robert Towner Jonathan S van der Groen Guido Volchkov Viktor E Wahl Jensen Victoria Warren Travis K Weidmann Manfred Nichol Stuart T 2012 Virus nomenclature below the species level a standardized nomenclature for natural variants of viruses assigned to the family Filoviridae Archives of Virology 158 1 301 311 doi 10 1007 s00705 012 1454 0 ISSN 0304 8608 PMC 3535543 PMID 23001720 Yong Ed 2013 Scientists create hybrid flu that can go airborne Nature doi 10 1038 nature 2013 12925 S2CID 181077199 Marx Vivien 2016 04 28 Microbiology the road to strain level identification Nature Methods 13 5 401 404 doi 10 1038 nmeth 3837 PMID 27123815 Butler Declan 2012 Scientists call for 60 day suspension of mutant flu research Nature doi 10 1038 nature 2012 9873 S2CID 84203734 Mutant flu Nature News Special Retrieved 21 April 2019 Lee Sang Yup 2012 11 16 Metabolic altered and Synthetic Biology in Strain Development ACS Synthetic Biology 1 11 491 492 doi 10 1021 sb300109d PMID 23656224 Liu Tiangang Khosla Chaitan 2010 11 03 Genetic modification of Escherichia coli for Biofuel Production Annual Review of Genetics 44 1 53 69 doi 10 1146 annurev genet 102209 163440 ISSN 0066 4197 PMID 20822440 Sung Bong Hyun Choe Donghui Kim Sun Chang Cho Byung Kwan 2016 11 30 Construction of a minimal genome as a chassis for synthetic biology Essays in Biochemistry 60 4 337 346 doi 10 1042 ebc20160024 ISSN 0071 1365 PMID 27903821 Jeong H Kim HJ Lee SJ 19 March 2015 Complete Genome Sequence of Escherichia coli Strain BL21 Genome Announcements 3 2 doi 10 1128 genomeA 00134 15 PMC 4395058 PMID 25792055 Steensels Jan Snoek Tim Meersman Esther Nicolino Martina Picca Voordeckers Karin Verstrepen Kevin J 2014 09 01 Improving industrial yeast strains exploiting natural and artificial diversity FEMS Microbiology Reviews 38 5 947 995 doi 10 1111 1574 6976 12073 ISSN 0168 6445 PMC 4293462 PMID 24724938 Usher George 1996 The Wordsworth Dictionary of Botany Ware Hertfordshire Wordsworth Reference p 361 ISBN 978 1 85326 374 3 Maugh II Thomas H 18 February 2008 Geneticist shaped hybrid rice strains Los Angeles Times Los Angeles Times Anderson Mark S Bluestone Jeffrey A 2004 11 29 THE NOD MOUSE A Model of Immune Dysregulation Annual Review of Immunology 23 1 447 485 doi 10 1146 annurev immunol 23 021704 115643 ISSN 0732 0582 PMID 15771578 Cheon Dong Joo Orsulic Sandra 2011 01 24 Mouse Models of Cancer Annual Review of Pathology Mechanisms of Disease 6 1 95 119 doi 10 1146 annurev pathol 3 121806 154244 ISSN 1553 4006 PMID 20936938 Yang Guang Zhao Lifen Liu Bing Shan Yujia Li Yang Zhou Huimin Jia Li 2018 Nutritional support contributes to recuperation in a rat model of aplastic anemia by enhancing mitochondrial function Nutrition 46 67 77 doi 10 1016 j nut 2017 09 002 PMID 29290359 External links editColi Genetic Stock Center EcoliWiki E coli strain index International Mouse Strain Resource IMSR Rat strain index Retrieved from https en wikipedia org w index php title Strain biology amp oldid 1197674307 Microbiology and virology, 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.