Malonyl acyl carrier protein

This enzyme [EC 2.3.1.41], also known as 3-oxoacyl-[acyl-carrier protein] synthase, catalyzes the reaction of an acyl-[acyl-carrier protein] with malonyl-[acyl-carrier protein] to produce a 3-oxoacyl-[acyl-carrier protein], carbon dioxide, and the [acyl-carrier protein]. See also Fatty Acid Synthetase... 

MALATE DEHYDROGENASE Malonyl-[acyl-carrier-protein],... 

Fig. 2. Formation of acetyl- and malonyl-acyl carrier protein (ACP).

In plants, FA are synthesized in the stroma of the plastids (Lynen, 1961 Ohlrogge Browse, 1995 Voelker Kinney, 2001 Sasaki Nagano, 2004), where 2-carbon units from malonyl-acyl carrier protein (ACP) are incorporated into the growing acyl-ACP chain. Malonyl-CoA is synthesized from acetyl-CoA and CO by acetyl-CoA carboxylase. Malonyl-CoA ACP acyltransacylase produces malonyl-ACP from ACP and malonyl-CoA (Ohlrogge Browse, 1995) (Fig. 7.5). 

Acetyl and malonyl acyl carrier proteins are formed by acyl transfer to the polypeptide acyl carrier protein. 

Formation of malonyl coenzyme A is followed by a nucleophilic acyl substitution which transfers the malonyl group to the acyl carrier protein as a thioester... 

When both building block units are m place on the acyl carrier protein carbon-carbon bond formation occurs between the a carbon atom of the malonyl group and the carbonyl carbon of the acetyl group This is shown m step 1 of Figure 26 3 Carbon-carbon bond formation is accompanied by decarboxylation and produces a four carbon acetoacetyl (3 oxobutanoyl) group bound to acyl earner protein... 

FIGURE 25.7 The pathway of palmhate synthesis from acetyl-CoA and malonyl-CoA. Acetyl and malonyl building blocks are introduced as acyl carrier protein conjugates. Decarboxylation drives the /3-ketoacyl-ACP synthase and results in the addition of two-carbon units to the growing chain. Concentrations of free fatty acids are extremely low in most cells, and newly synthesized fatty acids exist primarily as acyl-CoA esters. 

Malonyl-CoA Acyl carrier protein transacylase (MCAT or FabD) catalyzes the transfer of a malonyl group between coenzyme A and acyl carrier proteins that are the privileged transporters of the FASH system. Although essential, this enzyme is present in excess and does not have a regulatory role in the FASH pathway, which might explain the relative paucity of reported inhibitors [1],... 

Fatty add synthase is a large multienzyme complex in the cytoplasm that is rapidly induced in the liver after a meal by high carbohydrate and the concomitant rise in insulin levels. It contains an acyl carrier protein (AGP) that requires the vitamin pantothenic add. Althoi malonyl CoA is the substrate used by fetty acid synthase, only the carbons from the acetyl CoA portion are actually incorporated into the fatty acid produced. Therefore, the fetty add is derived entirely from acetyl CoA. 

Figure 11.4 Condensation, dehydration and reduction reactions in fatty add synthesis. These reactions constitute the major components of the pathway of fatty acid synthesis and are all catalysed by fatty acid synthase. The reduction reactions, indicated by addition of 2H in the diagram, involve the conversion of NADPH to NADP . (The re-conversion of NADP back to NADPH occurs in the pentose phosphate pathway.) The condensation reaction results in an increase in size of acyl-ACP by two carbon units in each step. The two carbons for each extension are each provided by malonyl-CoA. ACP - acyl carrier protein.

The fatty acid synthase protein is known to contain an acyl carrier protein (ACP) binding site, and also an active-site cysteine residue in the P-ketoacyl synthase domain. Acetyl and malonyl gronps are successively transferred from coenzyme A esters and attached to the thiol groups of Cys and ACP. 

ACP acyl carrier protein DH dehydratase ER enoylreductase KR P-ketoacylreductase KS P-ketoacylsynthase MAT malonyl/acetyltransferase TE thioesterase... 

MALONYL-CoA ACP-TRANSACYASE Acyl carrier protein synthase,... 

The sex pheromone is interesting from a biosynthetic perspective (see Fig. 4.3) because it is closely connected with primary metabohsm. That is, the monomer 4 is an intermediate in fatty acid biosynthesis. Condensation of acetyl-ACP (8 ACP, acyl carrier protein) with malonyl-CoA (9 CoA, coenzyme A) yields acetoacyl-ACP (10). Enantioselective reduction with NADPH leads to (R)-3-hydroxybutyryl-ACP (11). Two units of this precursor could then be condensed to form the pheromone 5, which then degrades to 4 and 6 as described above. Alternatively, 4 can also be formed by direct hydrolysis of intermediate 11. 

In non-ruminants, the malonyl CoA is combined with an acyl carrier protein (ACP) which is part of a six-enzyme complex (molecular weight c. 500 kDa) located in the cytoplasm. All subsequent steps in fatty acid synthesis occur attached to this complex through a series of steps and repeated cycles, the fatty acid is elongated by two carbon units per cycle (Figure 3.8, see also Lehninger, Nelson and Cox, 1993). 

Figure 3.8 One complete cycle and the first step in the next cycle of the events during the synthesis of fatty acids. ACP = acyl carrier protein, a complex of six enzymes i.e. acetyl CoA-ACP transacetylase (AT) malonyl CoA-ACP transferase (MT) /3-keto-ACP synthase (KS) /J-ketoacyl-ACP reductase (KR) / - hydroxyacyl-ACP-dehydrase (HD) enoyl-ACP reductase (ER).

The core of the E. coli fatty acid synthase system consists of seven separate polypeptides (Table 21-1), and at least three others act at some stage of the process. The proteins act together to catalyze the formation of fatty acids from acetyl-CoA and malonyl-CoA. Throughout the process, the intermediates remain covalently attached as thioesters to one of two thiol groups of the synthase complex. One point of attachment is the —SH group of a Cys residue in one of the seven synthase proteins (j3-ketoacyl-ACP synthase) the other is the —SH group of acyl carrier protein. 

FIGURE 21-4 Acyl carrier protein (ACP). The prosthetic group is 4 -phosphopantetheine, which is covalently attached to the hydroxyl group of a Ser residue in ACP. Phosphopantetheine contains the B vitamin pantothenic acid, also found in the coenzyme A molecule. Its —SH group is the site of entry of malonyl groups during fatty acid synthesis. 

Both bacteria and plants have separate enzymes that catalyze the individual steps in the biosynthetic sequence (Fig. 17-12). The fatty acyl group grows while attached to the small acyl carrier protein (ACP).54 58 Control of the process is provided, in part, by the existence of isoenzyme forms. For example, in E. coli there are three different P-oxoacyl-ACP synthases. They carry out the transfer of any acyl primer from ACP to the enzyme, decarboxylate malonyl-ACP, and carry out the Claisen condensation (steps b, e, and/in Eq. 17-12)58a e One of the isoenzymes is specialized for the initial elongation of acetyl-ACP and also provides feedback regulation.58c The other two function specifically in synthesis of unsaturated fatty acids. 

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