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The glyoxylate cycle, a variation of the tricarboxylic acid cycle, is an anabolic pathway occurring in plants, bacteria, protists, and fungi. The glyoxylate cycle centers on the conversion of acetyl-CoA to succinate for the synthesis of carbohydrates . [ 1 ]
Isocitrate lyase (EC 4.1.3.1), or ICL, is an enzyme in the glyoxylate cycle that catalyzes the cleavage of isocitrate to succinate and glyoxylate. [2] [3] Together with malate synthase, it bypasses the two decarboxylation steps of the tricarboxylic acid cycle (TCA cycle) and is used by bacteria, fungi, and plants.
The glyoxylate cycle is also important for induction of plant defense mechanisms in response to fungi. [15] The glyoxylate cycle is initiated through the activity of isocitrate lyase, which converts isocitrate into glyoxylate and succinate. Research is being done to co-opt the pathway for a variety of uses such as the biosynthesis of succinate ...
The Plant Journal 44 pp 25–36. Ian A Graham, Katherine J Denby and Christopher J Leaver (1994) Carbon catabolite repression regulates glyoxylate cycle gene expression in cucumber. The Plant Cell 6 pp 761–772.
Glyoxylate is an important component of the glyoxylate cycle, a variant of the citric acid cycle, whereby acetyl-CoA is converted to succinate and then other carbohydrates in plants, bacteria, protists, and fungi. Studies have been conducted to trace the genes for the glyoxylate cycle enzymes to animals.
In plants, the glyoxylate cycle takes place in glyoxysomes. [8] In this cycle, isocitrate lyase and malate synthase skip over the decarboxylation steps of the citric acid cycle. In other words, malate synthase works together with isocitrate lyase in the glyoxylate cycle to bypass two oxidative steps of Krebs cycle and permit carbon ...
Glyoxylate and dicarboxylate metabolism describes a variety of reactions involving glyoxylate or dicarboxylates.Glyoxylate is the conjugate base of glyoxylic acid, and within a buffered environment of known pH such as the cell cytoplasm these terms can be used almost interchangeably, as the gain or loss of a hydrogen ion is all that distinguishes them, and this can occur in the aqueous ...
Glucose regulation and product use are the primary categories in which these pathways differ between organisms. [2] In some tissues and organisms, glycolysis is the sole method of energy production. [2] This pathway is common to both anaerobic and aerobic respiration. [1] Glycolysis consists of ten steps, split into two phases. [2]