Phytase: Difference between revisions

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Phytase can be purified from [[transgenic]] [[microbes]]. Phytase has been produced recently in transgenic [[canola]], [[alfalfa]] and [[rice]] plants. Phytase can also be massively produced through [[cellulosic biomass fermentation]] using [[genetically modified]] (GM) [[yeast]].
Phytase can be purified from [[transgenic]] [[microbes]]. Phytase has been produced recently in transgenic [[canola]], [[alfalfa]] and [[rice]] plants. Phytase can also be massively produced through [[cellulosic biomass fermentation]] using [[genetically modified]] (GM) [[yeast]].


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[[Category:Biology Workgroup]]
[[Category:Enzymes]]
 
[[de:Phytase]]

Revision as of 07:45, 12 April 2007

Phytase is an enzyme that can break down the undigestible phytic acid (phytate) part that is found in grains and oil seeds and thus release digestible phosphorus and calcium.

Phytase plays a significant role in human nutrition because it releases minerals in bread and grains, allowing assimilation in the human digestive system. Phytate molecules are too large to pass across the stomach lining and into the bloodstream. The molecules are also unaffected by digestive juices and colonic bacteria, so are lost in the excreta.

A loaf of bread made using a home bread machine or the Chorleywood Bread Process was not allowed time for the phytase enzyme to break the phytic acid bonding with mineral constituents in the grain. Traditional bread making produces a mix that spends 8-12 hours or more in the form of a dough, before baking. This time is required for the phytase enzymes to release the mineral constituents in the flour. (All grains are similar, so this applies to rye, wheat or corn bread, etc.)

Phytase is used as an animal feed supplement to enhance the nutritive value of plant material by liberation of inorganic phosphate from phytic acid (myo-inositol hexakisphosphate) and, thereby, to reduce environmental phosphorus pollution.

Phytase can be purified from transgenic microbes. Phytase has been produced recently in transgenic canola, alfalfa and rice plants. Phytase can also be massively produced through cellulosic biomass fermentation using genetically modified (GM) yeast.