- Apicoplast
The apicoplast is a
relict , non-photosynthetic plastid found inApicomplexa , includingmalaria parasite s such as "Plasmodium falciparum ".It is proposed that it evolved via secondaryendosymbiosis . The apicoplast is surrounded by four membranes within the outermost part of the endomembrane system.ignificance
Apicoplasts are a relict, nonphotosynthetic
plastid found in allprotozoa n parasites belonging to thephylum Apicocomplexa.cite journal | quotes=no |author= Maréchal, E. et al |year=2001|url= http://www.sciencedirect.com/science?_ob=MImg&_imagekey=B6TD1-42WX3W5-V-9&_cdi=5185&_user=423519&_orig=search&_coverDate=05%2F01%2F2001&_sk=999939994&view=c&wchp=dGLbVzz-zSkWz&md5=0a972a2e963d33bf2de29a1692f6e5cf&ie=/sdarticle.pdf|title=The Apicoplast: a new member of the plastid family|journal=Biology of the Cell |volume=6(5) |pages=200–205] Among the most infamous Apicocomplexa parasites is "Plasmodium falciparum", a causative agent of severemalaria . Because apicoplasts are vital to parasite survival, they provide an enticing target for antimalarial drugs.cite journal | quotes=no |author= Ralph, S. et al |year=2001|url=http://homepage.mac.com/fad1/Mcfadden_Papers/2001/Ralph_et_al_DRU.pdf, |title=The apicoplast as an antimalarial drug target|journal=Drug Resistance Updates |volume=4 |pages=145–151 |doi=10.1054/drup.2001.0205 |format=Dead link|date=June 2008 – [http://scholar.google.co.uk/scholar?hl=en&lr=&q=author%3A+intitle%3AThe+apicoplast+as+an+antimalarial+drug+target&as_publication=%5B%5BDrug+Resistance+Updates+%28journal%29%7CDrug+Resistance+Updates%5D%5D&as_ylo=2001&as_yhi=2001&btnG=Search Scholar search] ] Specifically, apicoplasts' plant-like properties provide a target for herbicidal drugs. And, with the emergence of malarial strains resistant to current treatments it is paramount that novel therapies, like herbicides, are explored and understood. Furthermore, herbicides may be able to specifically target the parasite's plant-like apicoplast and without any noticeable effect on the mammalian host's cells.Evolutionary Origin
Evidence suggests that the apicoplast is a product of secondary
endosymbiosis ,cite journal | quotes=no |author= Ralph, S. et al |year=2004|url=http://mbe.oxfordjournals.org/cgi/reprint/21/12/2183, |title=Evolutionary Pressures on Apicoplast Transit Peptides |journal=Molecular Biology and Evolution |volume=21(12) |pages=2183–2191 |doi=10.1093/molbev/msh233] and that the apicoplast may be homologous to the secondary plastid of the closely relateddinoflagellate algae. An ancient cyanobacterium was first engulfed by a eukaryotic cell but was not digested. The bacterium escaped being digested because it formed a symbiotic relationship with the host eukaryotic cell; both the eukaryote and the bacterium mutually benefited from their novel shared existence. cite book| last =| first =| authorlink =| coauthors =| title =Essential Cell Biology, 2nd ed.| publisher =| date =| location ="The Eukaryotic Cell."| pages =| url =| doi =| id = ] The result of the primary endosymbiosis was a photosynthetic eukaryotic alga. A descendent of this eukaryotic alga was then itself engulfed by a heterotrophic eukaryote with which it formed its own symbiotic relationship and was preserved as a plastid.cite web| last =| first =| authorlink =| coauthors =| title =Endosymbiosis and The Origin of Eukaryotes| work =| publisher =| date = 2006-05-24| url =http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/E/Endosymbiosis.html| format =| doi = | accessdate =] The apicoplast plastid evolved in its new role to preserve only those functions and genes necessary to beneficially contribute to the host-organelle relationship. The ancestral genome of more than 150 kb was reduced through deletions and rearrangements to its present 35 kb size. During the reorganization of the plastid the apicoplast lost its nucleus and, most notably, its ability to photosynthesize. These losses of function are hypothesized to have occurred at an early evolutionary stage in order to have allowed sufficient time for the complete degradation of acknowledged photosynthetic relicts and the disappearance of a nucleomorph.Architecture and Distribution
Each
Apicocomplexa contains a single ovoid shaped apicoplast that is found at the anterior of the invading parasitic cell. Situated in close proximity to the cell's nucleus and always closely associated with a mitochondrion, the small plastid, only 0.15-1.5 μm in diameter, is surrounded by four membranes. The two inner membranes are called the outer (OEM) and inner envelope membrane (IEM) and are derived from the plastid envelope. Within the apicoplast's membrane is a 35 kb long circular DNA strand that codes for approximately 30 proteins,tRNA s and someRNA s. Particles suspected to be bacterialribosome s are present. The plastid, at least in thePlasmodium species, also contains "tubular whorls" of membrane that bear a striking resemblance to thethylakoids of theirchloroplast relatives.Function
The functions of apicoplasts have not been conclusively defined. However, it has been established that the apicoplast is a vital
organelle to the parasite's survival. Intriguingly, the destruction of the apicoplast does not immediately kill theparasite but instead prevents it from invading new host cells. This observation suggests that the apicoplast may be involved inlipid metabolism . If unable to synthesize sufficientfatty acid s the parasite is unable to form the parasitophorousvacuole (PV) that is imperative to a successful invasion of host cells. This conclusion is supported by the discovery of Type II Fatty Acid Synthesase (FAS) machinery in the apicoplast.The apicoplast has also been implicated with
heme synthesis andamino acid synthesis. It is also suggested to have a role in cell development. These functions, however, are merely postulations and are not yet conclusively supported by experimentation.References
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