STD-11 UNIT-3 CHA-8
CELL : STRUCTURE AND FUNCTIONS
Microbodies (Rhodin)
- They are small cell organelles bounded by single membrane which absorb molecular oxygen and take part in oxidations other than those involved in respiration.
- Microbodies are of two types- peroxisomes and glyoxysomes.
- They are microbodies which contain enzymes for peroxide biosynthesis.
- Peroxisomes were discovered by De Duve et al (1965) with the help of fractionation technique.
- The term was coined by De Duve in 1969.
- Peroxisomes are found in both plant and animal cells,generally in close association with endoplasmic reticulum, mitochondria and chloroplasts.
- Despite absence of DNA, peroxisomes are believed to be able to replicate like mitochondria and plastids (Waterham and Craig , 1997).
- They are believed to vestige of an ancient organelle present in protocucaryotes which performed all oxidation reactions prior to evolution of mitochondria.
- They contain special docking proteins called peroxins for obtain ing materials from eytosol and endoplasmic reticulum.
- Peroxisomes occur in all eucaryotic cells.
- They are quite abundant in liver and kidney cells.
- A photosynthetic cell may have 70 100 peroxisomes.
- Peroxisomes are believed to develop from endoplasmic reticulum.
- Their size and shape are variable.
- Commonly the peroxisomes have a diameter of 0.5-10 pm.
- They are covered over by a single membrane.
- The interior contains a matrix which may be granular or have fibrils arranged variously.
- In some cases the matrix has a central dense, crystalline or fibrous care which is called nucleoid.
- The peroxisomes contain oxidative enzymes like urate oxidase, D - amino acid oxidase, a hydroxy acid oxidase and B - hydroxy acid oxidase.
- Molecular oxygen is required.
- The reactions produce hydrogen peroxide which is immediately metabolised by another enzyme called catalase.
- In animal cells , peroxisomes metabolise in number of toxic substances like nitrite , phenols , formaldehyde , formic acid , methanol , ethanol etc. 25 % of alcohol consumed by a person is detoxified by peroxisomes inside liver cells.
- Unusual substances or xenobiotics ( e.g. , D - aminoacids , alkanes ) which cannot be metabolised by normal enzymes are broken down inside peroxisomes
- Urate produced during catabolism of nucleic acids and some proteins is changed into allantoin inside peroxisomes.
- Long chain ( e.g .. prostaglandins ) and branched chain fatty acids are initially broken down by peroxisomes.
- In root nodules , they convert fixed nitrogen into ureids for transport ( Atkins , 1991)
- Plant peroxisomes found in photosynthetic cells , perform photorespiration . For this , they are associated with chloroplasts and mitochondria . Peroxisomes pick up glycolate from chloroplasts . The same is oxidised with the help of oxygen to produce glyoxylate . Hydrogen peroxide is formed as byproduct . Glyoxylate is changed to amino acid glycine . The glycine condenses to produce amino acid serine and carbon dioxide
- Glyoxysomes are microbodies which contain enzymes for B - oxidation of fatty acids and glyoxylate pathway.
- They are considered to be special peroxisomes.
- The microbodies appear transiently in germinating oil seeds and the cells of some fungi till the stored fat is con sumed.
- Like other microbodies, glyoxysomes have a single covering membrane and an enzyme rich matrix with a crystalloid core.
- B - oxidation of fatty acids pro duces acetyl CoA.
- The latter is metabolised in glyoxylate cycle to produce carbohydrates
- After completion of their function, glyoxysomes are believed to be changed into peroxisomes.
- They reappear in senescent plant tissues for degradation of lipids and mobilisation of degradation products.
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