- Structure 1
- Peroxisomes 2.1
- Glyoxysomes 2.2
- History 3
- Notes 4
- References 5
A microbody is usually a vesicle with a spherical shape, ranging from 0.2-1.5 micrometers in diameter. Microbodies are found in the cytoplasm of a cell, but they are only visible with the use of an electron microscope. They are surrounded by a single phospholipid bilayer membrane and they contain a matrix of intracellular material including enzymes and other proteins, but they do not seem to contain any genetic material to allow them to self-replicate.
Microbodies contain enzymes that participate in the preparatory or intermediate stages of biochemical reactions within the cell. This facilitates the breakdown of fats, alcohols and amino acids. Generally microbodies are involved in detoxification of peroxides and in photo respiration in plants. Different types of microbodies have different functions:
A peroxisome is a type of microbody that functions to help the body break down large molecules and detoxify hazardous substances. It contains enzymes like oxidase, which can create hydrogen peroxide as a byproduct of its enzymatic reactions. Within the peroxisome, hydrogen peroxide can then be converted to water by enzymes like catalase and peroxidase.
Glyoxysomes are specialized peroxisomes found in plants and mold, which help to convert stored lipids into carbohydrates so they can be used for plant growth. In glyoxysomes the fatty acids are hydrolyzed to acetyl-CoA by peroxisomal β-oxidation enzymes. Besides peroxisomal functions, glyoxysomes also possess the key enzymes of the Glyoxylate cycle.
Microbodies were first discovered and named in 1954 by Rhodin. Two years later in 1956, Rouiller and Bernhard presented the first worldwide accepted images of microbodies in liver cells. Then in 1965, Christian de Duve and coworkers isolated microbodies from the liver of a rat. De Duve also believed that the name Microbody was too general and chose the name of Peroxisome because of its relationship with hydrogen peroxide. In 1967, Breidenbach and Beevers were the first to isolate microbodies from plants, which they named Glyoxysomes because they were found to contain enzymes of the Glyoxylate cycle.
- "Microbodies." Molecular Biology of Plant Cells. Ed. H. Smith. N.p.: University of California, 1978. 136-54. Print.
- de Duve C and Baudhuin P (1966). "Peroxisomes (Microbodies and Related Particles)" (PDF). Physiological Reviews 46: 303.
- de Duve C (1969). "The peroxisome: a new cytoplasmic organelle". Proc. R. Soc. Lond., B, Biol. Sci. 173 (30): 71–83.
1.Smith, S.E., and Bronwyn Harris. WiseGeek. Conjecture, n.d. Web. 01 Apr. 2013.
2.Wayne, Randy O. "Chapter 5 Peroxisomes." Plant Cell Biology: From Astronomy to Zoology. N.p.: n.p., n.d. 75-84. Print.