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*[http://www.jbc.org/cgi/reprint/280/6/4329 Mitochondrial trans-2-Enoyl-CoA Reductase of Wax Ester Fermentation from Euglena gracilis Defines a New Family of Enzymes Involved in Lipid Synthesis]
*[http://www.jbc.org/cgi/reprint/280/6/4329 Mitochondrial trans-2-Enoyl-CoA Reductase of Wax Ester Fermentation from Euglena gracilis Defines a New Family of Enzymes Involved in Lipid Synthesis]
*[http://www.pubmedcentral.nih.gov/picrender.fcgi?artid=542089&blobtype=pdf Aliphatic Chains of Esterified Lipids in Isolated eyesptos of Euglena gracilis var. bacillaris1 '''(pdf)''']
*[http://www.pubmedcentral.nih.gov/picrender.fcgi?artid=542089&blobtype=pdf Aliphatic Chains of Esterified Lipids in Isolated eyesptos of Euglena gracilis var. bacillaris1 '''(pdf)''']
*[http://www.pubmedcentral.gov/picrender.fcgi?tool=pmcentrez&blobtype=pdf&artid=1270444 Nature, intracellular distribution and formation of terpenoid quinones in Euglena gracilis. '''(pdf)''']
*[http://www.pubmedcentral.gov/picrender.fcgi?tool=pmcentrez&bnhjhefewhiugherwiuhgiuerhgiuerhgiuerbgvjhebgeriughihgiurhjlobtype=pdf&artid=1270444 Nature, intracellular distribution and formation of terpenoid quinones in Euglena gracilis. '''(pdf)''']
*[http://www.pubmedcentral.gov/picrender.fcgi?tool=pmcentrez&blobtype=pdf&artid=247533 Tryptophan Synthetase in Euglena gracilis Strain G '''(pdf)''']
*[http://www.pubmedcentral.gov/picrender.fcgi?tool=pmcentrez&blobtype=pdf&artid=247533 Tryptophan Synthetase in Euglena gracilis Strain G '''(pdf)''']
*[http://www.pubmedcentral.gov/picrender.fcgi?tool=pmcentrez&blobtype=pdf&artid=396358 Lipid Metabolism of Manganese-deficient Algae: I. Effect of Manganese Deficiency on the Greening and the Lipid Composition of Euglena Gracilis Z. '''(pdf)''']
*[http://www.pubmedcentral.gov/picrender.fcgi?tool=pmcentrez&blobtype=pdf&artid=396358 Lipid Metabolism of Manganese-deficient Algae: I. Effect of Manganese Deficiency on the Greening and the Lipid Composition of Euglena Gracilis Z. '''(pdf)''']

Revision as of 17:45, 3 December 2010

Euglena
Scientific classification
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Euglena

Ehrenberg, 1830

Euglena is a genus of unicellular protists, of the class Euglenoidea of the phylum Euglenozoa (also known as Euglenophyta). They are single-celled organisms. Currently, over 1,000 species of Euglena have been described. There are many to be discovered. Marin et al. (2003) revised the genus to include several species without chloroplasts, formerly classified as Astasia and Khawkinea. Some Euglena are considered to have both plant and animal features. Due to these dual characteristics, much debate has arisen to how they have evolved, and into which clade they should be placed. In binomial nomenclature, according to the five-kingdom classification scheme, euglena have been accurately placed into Kingdom Protista, more specifically into Subkingdom Protozoa, and even more specifically into Phylum Mastigophora, which use flagellum as a method of locomotion.

Form and function

A diagram of Euglena.
A diagram of Euglena

Euglena is a protist that can both eat food as animals by heterotrophy; and can photosynthesize, like plants, by autotrophy. When acting as a heterotroph, the Euglena surrounds a particle of food and consumes it by phagocytosis. When acting as an autotroph, the Euglena utilizes chloroplasts, (hence green color) containing Chlorophyll a, Chlorophyll b, and some carotenoid pigments, to produce sugars by photosynthesis. Each chloroplast has three membranes, and exist in thylakoid stacks of three. The number and shape of chloroplasts within euglenozoa varies greatly due to environmental conditions and evolutionary history. Euglena are able to move through aquatic environments by using a large flagellum for locomotion. To observe its environment, the cell contains an eyespot, a primitive organelle that filters sunlight into the light-detecting, photo-sensitive structures at the base of the flagellum; allowing only certain wavelengths of light to hit it. This photo-sensitive area detects the light that is able to be transmitted through the eyespot. When such light is detected, the Euglena may accordingly adjust its position to enhance photosynthesis. The mobility of Euglena also allows for hunting capability, because of this adaptation, many Euglena are considered mixotrophs: autotrophs in sunlight and heterotrophs in the dark. Euglena also structurally lack cell walls, but have a pellicle instead. The pellicle is made of protein bands that spiral down the length of the Euglena and lie beneath the plasma membrane.

Euglena can survive in fresh and salt water. In low moisture conditions, a Euglena forms a protective wall around itself and lies dormant as a spore until environmental conditions improve. Euglena can also survive in the dark by storing paramylon granules in pyernoid bodies within the chloroplast.

Reproduction

Euglenas reproduce asexually by binary fission, and there has been no evidence of sexual reproduction. Reproduction includes transverse division and longitudinal division, which both occur in the active and encysted forms. Acidity and alkalinity have been known to affect reproduction and life spans of Euglenozoans. Life spans also greatly differ between each group of Euglenozoans.

References

"Phylogeny and taxonomic revision of plasmid-containing neophytes based on USU DNA sequence comparisons and signatures in the USU RNA secondary structure."

Berlin, Springer. 2005. Nutrition and reproduction in euglena. Biomedical and Life Sciences. 52: 367-383.

Campbell and Reece. (2008) Biology (Ed. 8, pp. 580-581).

Campbell, Neil A. and Reece, Jane B. 2008. Biology Eighth Edition. Pearson Benjamin-Cummings. San Francisco, CA.

Kiss, J.Z., E. M. Roberts, R. M. Brown Jr. and R. E. Triemer. 1988. X-ray and dissolution studies of paramylon storage granules from Euglena. Protoplasma. 146: 150-156.

Kusel-Fetzmann, lsa and Weidinge, Marieluise. 2008. Ultrastructure of five Euglena species positioned in the subdivision Serpentes. Protoplasma. 233: 209-222.

"Protozoa Exhibit a Wide Range of Sizes and Morphologies." Tulane University. 18 July 2009 <http://www.tulane.edu/~wiser/protozoology/notes/morph.html>.

Sommer, Joanchim R. 1965. The Ultrastructure of the Pellicle Complex of Euglena Gracilis. The Journal of Cell Biology. 24: 253-257.

Vliet, Kent A. 2008. A Lab Manual for Integrated Principles of Biology Part one- BSC2010L Fourth Edition. Pearson Custom. University of Florida.