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Minicell

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In microbiology, minicells are bacterial cells that are smaller than usual . The first minicells reported were from a strain of Escherichia coli that had a mutation in the Min System that lead to mis-localization of the septum during cell division and the production of cells of random sizes.[1][2]

Generation of minicells

The first report of minicells in the scientific literature dates to 1930.[3], but the first use of the name "minicell" dates to 1967[2]

Minicells of a variety of gram negative[4] and gram positive[5][6] bacteria, including Escherichia coli[7] and Salmonella enterica[8], have been reported, but in principle, minicells could be generated for any bacterial species that can be genetically edited. Minicells can not reproduce because they do not contain a full copy of the genome[9].

Normal role of minicells in bacteriology

Scientists hypothesize that minicells are produced by normal bacteria in times of stress so that damaged areas of the cell can be expelled[9].

Applications of minicells

Minicells have been extensively used to study ultrastructure of bacteria using electron cryotomography (cryoET).[10][11][12] Minicells are ideal for cryoET because they are small enough for the electron beam to penetrate in transmission electron microscopy.

Bacterial minicells are being developed as a drug delivery system by the companyVaxiion Therapeutics[13], and by academic scientists[14]. Minicells could be used to deliver genetic material to eukaryotic cells for gene editing[15]. They are also being investigated for vaccine development.[16]

Further reading

References

  1. ^ de Boer, Piet A.J.; Crossley, Robin E.; Rothfield, Lawrence I. (February 1989). "A division inhibitor and a topological specificity factor coded for by the minicell locus determine proper placement of the division septum in E. coli". Cell. 56 (4): 641–649. doi:10.1016/0092-8674(89)90586-2.
  2. ^ a b Adler, H. I.; Fisher, W. D.; Cohen, A.; Hardigree, A. A. (1967-02-01). "MINIATURE escherichia coli CELLS DEFICIENT IN DNA". Proceedings of the National Academy of Sciences. 57 (2): 321–326. doi:10.1073/pnas.57.2.321. ISSN 0027-8424. PMC 335508. PMID 16591472.
  3. ^ Frazer, Anne Cornish; Curtiss, Roy (1975), Arber, W.; Henle, W.; Hofschneider, P. H.; Humphrey, J. H. (eds.), "Production, Properties and Utility of Bacterial Minicells", Current Topics in Microbiology and Immunology, vol. 69, Springer Berlin Heidelberg, pp. 1–84, doi:10.1007/978-3-642-50112-8_1, ISBN 978-3-642-50114-2, retrieved 2020-03-19
  4. ^ Treuner-Lange, Anke; Aguiluz, Kryssia; van der Does, Chris; Gómez-Santos, Nuria; Harms, Andrea; Schumacher, Dominik; Lenz, Peter; Hoppert, Michael; Kahnt, Jörg; Muñoz-Dorado, José; Søgaard-Andersen, Lotte (January 2013). "PomZ, a ParA-like protein, regulates Z-ring formation and cell division in Myxococcus xanthus: Regulation of cell division in M. xanthus". Molecular Microbiology. 87 (2): 235–253. doi:10.1111/mmi.12094.
  5. ^ Lee, Jin-Young; Choy, Hyon E.; Lee, Jin-Ho; Kim, Geun-Joong (2015-04-28). "Generation of Minicells from an Endotoxin-Free Gram-Positive Strain Corynebacterium glutamicum". Journal of Microbiology and Biotechnology. 25 (4): 554–558. doi:10.4014/jmb.1408.08037. ISSN 1017-7825.
  6. ^ Reeve, John N.; Mendelson, Neil H.; Coyne, Sheila I.; Hallock, Linda L. (1973-05-01). "Minicells of Bacillus subtilis". Journal of Bacteriology. 114 (2): 860–873. ISSN 0021-9193. PMID 4196259.
  7. ^ Ward, John E.; Lutkenhaus, Joe (October 1985). "Overproduction of FtsZ induces minicell formation in E. coli". Cell. 42 (3): 941–949. doi:10.1016/0092-8674(85)90290-9.
  8. ^ Kawamoto, Akihiro; Morimoto, Yusuke V.; Miyata, Tomoko; Minamino, Tohru; Hughes, Kelly T.; Kato, Takayuki; Namba, Keiichi (December 2013). "Common and distinct structural features of Salmonella injectisome and flagellar basal body". Scientific Reports. 3 (1): 3369. doi:10.1038/srep03369. ISSN 2045-2322. PMC 3842551. PMID 24284544.
  9. ^ a b Rang, Camilla U.; Proenca, Audrey; Buetz, Christen; Shi, Chao; Chao, Lin (2018-09-19). Bowman, Grant R. (ed.). "Minicells as a Damage Disposal Mechanism in Escherichia coli". mSphere. 3 (5): e00428–18, /msphere/3/5/mSphere428–18.atom. doi:10.1128/mSphere.00428-18. ISSN 2379-5042. PMC 6147132. PMID 30232168.
  10. ^ Farley, Madeline M.; Hu, Bo; Margolin, William; Liu, Jun (2016-04-15). de Boer, P. (ed.). "Minicells, Back in Fashion". Journal of Bacteriology. 198 (8): 1186–1195. doi:10.1128/JB.00901-15. ISSN 0021-9193. PMC 4859596. PMID 26833418.
  11. ^ Liu, Jun; Chen, Cheng-Yen; Shiomi, Daisuke; Niki, Hironori; Margolin, William (September 2011). "Visualization of bacteriophage P1 infection by cryo-electron tomography of tiny Escherichia coli". Virology. 417 (2): 304–311. doi:10.1016/j.virol.2011.06.005. PMC 3163801. PMID 21745674.
  12. ^ Briegel, A.; Li, X.; Bilwes, A. M.; Hughes, K. T.; Jensen, G. J.; Crane, B. R. (2012-03-06). "Bacterial chemoreceptor arrays are hexagonally packed trimers of receptor dimers networked by rings of kinase and coupling proteins". Proceedings of the National Academy of Sciences. 109 (10): 3766–3771. doi:10.1073/pnas.1115719109. ISSN 0027-8424. PMC 3309718. PMID 22355139.
  13. ^ "Recombinant Bacterial Minicells (rBMCs)". Vaxiion Therapeutics. Retrieved 2020-03-19.
  14. ^ MacDiarmid, Jennifer A.; Mugridge, Nancy B.; Weiss, Jocelyn C.; Phillips, Leo; Burn, Adam L.; Paulin, Richard P.; Haasdyk, Joel E.; Dickson, Kristie-Ann; Brahmbhatt, Vatsala N.; Pattison, Scott T.; James, Alexander C. (May 2007). "Bacterially Derived 400 nm Particles for Encapsulation and Cancer Cell Targeting of Chemotherapeutics". Cancer Cell. 11 (5): 431–445. doi:10.1016/j.ccr.2007.03.012.
  15. ^ Giacalone, Matthew J.; Gentile, Angela M.; Lovitt, Brian T.; Xu, Tong; Surber, Mark W.; Sabbadini, Roger A. (October 2006). "The use of bacterial minicells to transfer plasmid DNA to eukaryotic cells". Cellular Microbiology. 8 (10): 1624–1633. doi:10.1111/j.1462-5822.2006.00737.x. ISSN 1462-5814.
  16. ^ Carleton, Heather A.; Lara-Tejero, María; Liu, Xiaoyun; Galán, Jorge E. (June 2013). "Engineering the type III secretion system in non-replicating bacterial minicells for antigen delivery". Nature Communications. 4 (1): 1590. doi:10.1038/ncomms2594. ISSN 2041-1723. PMC 3693737. PMID 23481398.
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