Acanthamoeba polyphaga: Difference between revisions
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[[Image:introduction.jpg|thumb|300px|right|(Left)Acanthamoeba remains in the trophozoite form and divides mitotically under favorable conditions (Right) and while under harsh conditions, the amoeba transforms into a dormant cyst, highly resistant to harsh conditions. This photo was published in 2012. By Ruqaiyyah Siddiqui and Naveed Ahmed Khan. [2]]] | [[Image:introduction.jpg|thumb|300px|right|(Left)Acanthamoeba remains in the trophozoite form and divides mitotically under favorable conditions (Right) and while under harsh conditions, the amoeba transforms into a dormant cyst, highly resistant to harsh conditions. This photo was published in 2012. By Ruqaiyyah Siddiqui and Naveed Ahmed Khan. [2]]] | ||
Acanthamoeba polyphaga is a free-living amoeba found in many environments including soil, dust, air, seawater, tap water, and swimming pools. [1] | |||
A. polyphaga receives nutrition by consuming bacteria, algae, and yeast via phagocytosis. The amoeba ingests liquids through the process of pinocytosis. A. polyphaga acts as a secondary decomposer to remineralize soil with carbon, nitrogen, and phosphorous by consuming bacterial primary decomposers. Primary decomposers decompose organic material into minerals, but can not release these minerals from their own mass. After A. polyphaga digests the primary decomposers, the amoeba uses contractile vacuoles to release the environmentally useful bacterial nutrients from its food vacuole into the soil. [1] | |||
A. polyphaga, like the rest of the Acanthamoeba species, is divided into two lifecyles: the active trophozoite stage which reproduces via binary fission and the dormant, non-dividing cyst stage. Acanthamoeba polyphaga trophozoites contain one or more contractile vacuoles, lysosomes, digestive vacuoles, glycogen-containing vacuoles, a Golgi complex, smooth and rough endoplasmic reticulum, free ribosomes, microtubules, large numbers of mitochondria, and a single nucleus. [1, 2] The cysts of A. polyphaga contain durable double walls for protection in harsh conditions. The trophozoite turns into a cyst under adverse environmental conditions such as during food deprivation, desiccation, and changes in temperature and pH. [1] | |||
<br><br>Other examples: | <br><br>Other examples: |
Revision as of 02:19, 24 March 2013
Introduction
Acanthamoeba polyphaga is a free-living amoeba found in many environments including soil, dust, air, seawater, tap water, and swimming pools. [1]
A. polyphaga receives nutrition by consuming bacteria, algae, and yeast via phagocytosis. The amoeba ingests liquids through the process of pinocytosis. A. polyphaga acts as a secondary decomposer to remineralize soil with carbon, nitrogen, and phosphorous by consuming bacterial primary decomposers. Primary decomposers decompose organic material into minerals, but can not release these minerals from their own mass. After A. polyphaga digests the primary decomposers, the amoeba uses contractile vacuoles to release the environmentally useful bacterial nutrients from its food vacuole into the soil. [1]
A. polyphaga, like the rest of the Acanthamoeba species, is divided into two lifecyles: the active trophozoite stage which reproduces via binary fission and the dormant, non-dividing cyst stage. Acanthamoeba polyphaga trophozoites contain one or more contractile vacuoles, lysosomes, digestive vacuoles, glycogen-containing vacuoles, a Golgi complex, smooth and rough endoplasmic reticulum, free ribosomes, microtubules, large numbers of mitochondria, and a single nucleus. [1, 2] The cysts of A. polyphaga contain durable double walls for protection in harsh conditions. The trophozoite turns into a cyst under adverse environmental conditions such as during food deprivation, desiccation, and changes in temperature and pH. [1]
Other examples:
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Section 1
Include some current research in each topic, with at least one figure showing data.
Section 2
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Section 3
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Conclusion
Overall paper length should be 3,000 words, with at least 3 figures.
References
Edited by (your name here), a student of Nora Sullivan in BIOL187S (Microbial Life) in The Keck Science Department of the Claremont Colleges Spring 2013.