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Mevalonates pathway

The terpenoid precursor isopentenyl diphosphate, formerly called isopentenyl pyrophosphate and abbreviated IPP, is biosynthesized by two different pathways depending on the organism and the structure of the final product. In animals and higher plants, sesquiterpenoids and triterpenoids arise primarily from the mevalonate pathway, whereas monoterpenoids, diterpenoids, and tetraterpenoids are biosynthesized by the 1-deoxyxylulose 5-phosphate (DXP) pathway. In bacteria,... [Pg.1071]

As summarized in Figure 27.7, the mevalonate pathway begins with the conversion of acetate to acetyl CoA, followed by Claisen condensation to yield acetoacety) CoA. A second carbonyl condensation reaction with a third molecule of acetyl CoA, this one an aldol-like process, then yields the six-carbon compound 3-hydroxy-3-methylglutaryl CoA, which is reduced to give mevalonate. Phosphorylation, followed by loss of C02 and phosphate ion, completes the process. [Pg.1072]

The mevalonate pathway for the biosynthesis of isopentenyl diphosphate from three molecules of acetyl CoA. Individual steps are explained in the text. [Pg.1073]

Eicosanoids and terpenoids are still other classes of lipids. Eicosanoids, of which prostaglandins are the most abundant kind, are derived biosynthetically from arachidonic acid, are found in all body tissues, and have a wide range of physiological activity. Terpenoids are often isolated from the essential oils of plants, have an immense diversity of structure, and are produced biosynthetically from the five-carbon precursor isopentenyl diphosphate (IPP). lsopentenyl diphosphate is itself biosynthesized from 3 equivalents of acetate in the mevalonate pathway. [Pg.1091]

Assume that acetyl CoA containing a l4C isotopic label in the carboxy carbon atom is used as starting material and that the mevalonate pathway i followed. Identify the positions in a-cadinol where the label would appear. [Pg.1095]

Bone Metabolism. Figure 4 The mevalonate pathway. Interferences by statins and N-containing bisphosphonates are shown. [Pg.281]

Statins lower plasma cholesterol levels by inhibiting HMG-CoA reductase in the mevalonate pathway (Fig. 4). Some research has shown that certain statins (but not all) stimulate BMP-2 expression in osteoblasts, increase bone formation and mimic N-BP in that they inhibit bone resorption. The use of statins in osteoporosis is presently being investigated. [Pg.282]

In plant plastids, GGPP is formed from products of glycolysis and is eight enzymatic steps away from central glucose metabolism. The MEP pathway (reviewed in recent literature - ) operates in plastids in plants and is a preferred source (non-mevalonate) of phosphate-activated prenyl units (IPPs) for plastid iso-prenoid accumulation, such as the phytol tail of chlorophyll, the backbones of carotenoids, and the cores of monoterpenes such as menthol, hnalool, and iridoids, diterpenes such as taxadiene, and the side chains of bioactive prenylated terpenophe-nolics such as humulone, lupulone, and xanthohumol. The mevalonic pathway to IPP that operates in the cytoplasm is the source of the carbon chains in isoprenes such as the polyisoprene, rubber, and the sesquiterpenes such as caryophyllene. [Pg.360]

The late cannabinoid pathway starts with the alkylation of ohvetolic acid (3.2 in Fig. 4) as polyketide by geranyl diphosphate (3.1) as the terpenoid unit. Terpenoids can be found in all organisms, and in plants two terpenoid pathways are known, the so called mevalonate (MEV) and non-mevalonate (DXP) pathway as described by Eisenrich, lichtenthaler and Rohdich [23,24,29,30]. The mevalonate pathway is located in the cytoplasm of the plant cells [30], whereas the DXP pathway as major pathway is located in the plastids of the plant cells [29] and delivers geranyl diphosphate as one important precursor in the biosynthesis. [Pg.10]

Figure 12.3 (a) The mevalonate pathway (AAS, acetoacetyl-CoA synthase HMGS, HMG-CoA... [Pg.275]

Rohmer, M., Seemann, M., Horbach, S. et al. (1996) Glyceraldehyde 3-phosphate and pyruvate as precursors of isoprenic units in an alternative non-mevalonate pathway for terpenoid biosynthesis. Journal of the American... [Pg.284]

Pitera, D.J., Paddon, C.J., Newman, J.D. and Keasling, J.D. (2007) Balancing a heterologous mevalonate pathway for improved isoprenoid production in Escherichia coli. Metabolic Engineering, 9, 193-207. [Pg.284]

The biosynthesis of monoterpenes, the major components of peppermint essential oils, can be divided into four stages (Fig. 9.4). Stage 1 includes the formation of isopentenyl diphosphate (IPP) and dimethylallyl alcohol (DMAPP). In plants, two separate pathways are utilized for the synthesis of these universal C5 intermediates, with the cytosolic mevalonate pathway being responsible for the formation of sterols and certain sesquiterpenes, and the plastidial mevalonate-independent pathway being involved in the biosynthesis of isoprene, monoterpenes, certain sesquiterpenes, diterpenes, tetraterpenes, as well as the side chains of chlorophyll and plastoquinone.16 In peppermint oil gland secretory cells, however, the mevalonate pathway is blocked and the biosynthesis of monoterpenoid essential... [Pg.149]

SCHWENDER, J., SEEMANN, M LICHTENTHALER, H.K., ROHMER, M., Biosynthesis of isoprenoids (carotenoids, sterols, prenyl side-chains of chlorophylls and plastoquinone) via a novel pyruvate/glyceraldehyde 3-phosphate non-mevalonate pathway in the green alga Scenedesmus obliquus, Biochem. J., 1996, 316, 73-80. [Pg.161]

The CPPase substrate DMAPP (15) is formed from isopentenyl pyrophosphate (IPP) (14) via the IPP isomerase reaction. It had been assumed that IPP was generated only via mevalonic acid (12) (Fig. 2), but Rohmer discovered another route, 2-C-methyl-D-erythritol 4-phosphate (13) (MEP) pathway (Fig. 2) [22, 23]. A key step in the MEP pathway is the reaction catalyzed by 1-deoxy-D-xylulose 5-phosphate synthase (DXS), which combines hydroxyethyl thiamine pyrophosphate (hydroxyethyl TPP) generated from pyruvic acid (17) and TPP with glyceral-dehyde 3-phosphate (18) to yield 1-deoxy-D-xylulose 5-phosphate (19) containing five carbons. The mevalonate pathway operates in the cytosol of plants and animals, whereas the MEP pathway is present in the plastid of plants or in eubacteria [24-27]. [Pg.75]

Previously, the 14C-labeled mevalonic acid (12) was shown to be incorporated into the acid moiety [28, 29]. However, monoterpenes are generally biosynthesized via the MEP but not the mevalonate pathway. Hence, the author employed [1-13C] D-glucose (Fig. 2) as the precursor to examine whether the acid moiety is produced... [Pg.75]

Dubey VS, Bhalla R, Luthra R (2003) An overview of the non-mevalonate pathway for terpenoid biosynthesis in plants. J Biosci 28 637-646... [Pg.82]

Eisenreich W, Bacher A, Arigoni D et al (2004) Biosynthesis of isoprenoids via the non-mevalonate pathway. Cell Mol Life Sci 61 1401-1426... [Pg.82]

More than half of the reported secondary metabolites from macroalgae are isoprenoids. Terpenes, steroids, carotenoids, prenylated quinines, and hydroqui-nones make up the isoprenoid class, which is understood to derive from either the classical mevalonate pathway, or the mevalonate-independent pathway (Stratmann et al. 1992). Melavonic acid (MVA) (Fig. 1.2) is the first committed metabolite of the terpene pathway. Dimethylallyl (dl meth al lal) pyrophosphate (DMAPP) (Fig. 1.3) and its isomer isopentenyl pyrophosphate (IPP, Fig. 1.3) are intermediates of the MVA pathway and exist in nearly all life forms (Humphrey and Beale 2006). Geranyl (ja ran al) (C10) and famesyl (C15) units are generated by head-to-tail (Fig. 1.3) condensation of two (for C10) or three (for C15) 5-carbon DMA-like isoprene units, identifiable in final products by the characteristic fish-tail repeating units, as traced over the structure of a sesquiterpene in Fig. 1.3 (Humphrey and Beale 2006). Additional IPP condensation with famesyl pyrophosphate (FPP)... [Pg.9]

Fisher JE, Rodan GA, Reszka AA. In vivo effects of bisphosphonates on the osteoclast mevalonate pathway. Endocrinol 2000 141 4793-4796. [Pg.205]

Martin VJJ, Pitera DJ, Withers ST, Newman JD, Keasling JD. (2003) Engineering a mevalonate pathway in Escherichia coli for production of terpenoids. Nature Biotechnol 21 796-802. [Pg.268]

Fig. 1 Relationship of posttranslational protein isoprenylation pathways to the mevalonate pathway of cholesterol biosynthesis... Fig. 1 Relationship of posttranslational protein isoprenylation pathways to the mevalonate pathway of cholesterol biosynthesis...
FTase catalyzes the covalent attachment of a farnesyl moiety via a thioether Unkage to the proteins bearing a C-terminal amino acid sequence known as the CAAX motif (Fig. 2) [12,21]. The farnesyl moiety is derived from farnesyl pyrophosphate (FPP), a 15-carbon isoprenyl intermediate in the mevalonate pathway of cholesterol biosynthesis. The binding of FPP to the enzyme has relatively high affinity (K = 1-lOnM), and FPP binding must precede the binding of the peptide substrate for successful catalysis [22,23]. [Pg.136]


See other pages where Mevalonates pathway is mentioned: [Pg.1072]    [Pg.1072]    [Pg.281]    [Pg.104]    [Pg.276]    [Pg.282]    [Pg.509]    [Pg.151]    [Pg.76]    [Pg.106]    [Pg.163]    [Pg.45]    [Pg.195]    [Pg.198]    [Pg.17]    [Pg.247]    [Pg.249]    [Pg.135]    [Pg.112]    [Pg.64]    [Pg.67]   
See also in sourсe #XX -- [ Pg.149 ]




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Acetate/mevalonate pathway

Biosynthetic pathways Mevalonic acid

Cytosolic mevalonate pathway, products

Escherichia coli mevalonate pathway

Glycolytic pathway, mevalonate

Isoprenoid mevalonic acid pathway

Mevalonate biosynthetic pathway

Mevalonate pathway

Mevalonate pathway

Mevalonate pathway, terpenoid

Mevalonate-independent pathway

Mevalonate/mevalonic acid pathway

Mevalonates

Mevalonic

Mevalonic acid early pathway

Mevalonic acid pathway

Mevalonic acid pathway from

Terpenoid mevalonate biosynthetic pathway

The mevalonic acid pathway

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