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Aldose Synthesis

Figure 10.25 Inverted approach for aldose synthesis using FruA catalysis, and application ofthe strategy for deoxysugar synthesis based on a phosphorothioate analog synthesis of 1-deoxysugars by FSA catalyzed addition of hydroxyacetone. Figure 10.25 Inverted approach for aldose synthesis using FruA catalysis, and application ofthe strategy for deoxysugar synthesis based on a phosphorothioate analog synthesis of 1-deoxysugars by FSA catalyzed addition of hydroxyacetone.
N-acylglycosamines 15, 236 aldoses, synthesis with addition of 1 C-atom 13, 266... [Pg.307]

The reaction is used for the chain extension of aldoses in the synthesis of new or unusual sugars In this case the starting material l arabinose is an abundant natural product and possesses the correct configurations at its three chirality centers for elaboration to the relatively rare l enantiomers of glucose and mannose After cyanohydrin formation the cyano groups are converted to aldehyde functions by hydrogenation m aqueous solution Under these conditions —C=N is reduced to —CH=NH and hydrolyzes rapidly to —CH=0 Use of a poisoned palladium on barium sulfate catalyst prevents further reduction to the alditols... [Pg.1056]

The Kiliani-Fischer synthesis pro ceeds by nucleophilic addition of HCN to an aldose followed by con version of the cyano group to an al dehyde A mixture of stereoisomers results the two aldoses are epi meric at C 2 Section 25 20 de scribes the modern version of the Kiliani-Fischer synthesis The example at the right illus trates the classical version... [Pg.1063]

Ketose (Section 25 1) A carbohydrate that contains a ketone carbonyl group in its open chain form Kiliam-Fischer synthesis (Section 25 20) A synthetic method for carbohydrate chain extension The new carbon-carbon bond IS formed by converting an aldose to its cyanohydnn Reduction of the cyano group to an aldehyde function com pletes the synthesis... [Pg.1287]

Tiansketolases (TK) aie widely used in oiganic synthesis to extend the chain of an acceptor aldose by two carbon units. [Pg.346]

The parallel synthesis of furans from a-hydroxycarbonyl compounds is frequently conducted using aldoses or ketoses as readily available sources of this functional grouping, especially as the resulting polyhydroxyalkyl side-chain can be removed easily by oxidative degradation (Schemes 67d and 67e) 56MI30300). [Pg.126]

Fischer s original method for conversion of the nitrile into an aldehyde involved hydrolysis to a carboxylic acid, ring closure to a cyclic ester (lactone), and subsequent reduction. A modern improvement is to reduce the nitrile over a palladium catalyst, yielding an imine intermediate that is hydrolyzed to an aldehyde. Note that the cyanohydrin is formed as a mixture of stereoisomers at the new chirality center, so two new aldoses, differing only in their stereochemistry at C2, Tesult from Kiliani-Fischer synthesis. Chain extension of D-arabinose, for example, yields a mixture of D-glucose and o-mannose. [Pg.994]

Just as the Kiliani-Fischer synthesis lengthens an aldose chain by one carbon, the Wohl degradation shortens an aldose chain by one carbon. The Wohl degradation is almost the exact opposite of the Kiliani-Fischer sequence. That is, the aldose aldehyde carbonyl group is first converted into a nitrile, and the resulting cyanohydrin loses HCN under basic conditions—the reverse of a nucleophilic addition reaction. [Pg.995]

Kiliani-Fischer synthesis (Section 25.6) A method for lengthening the chain of an aldose sugar. [Pg.1244]

Three types of synthases catalyze the addition of phosphoenolpyruvate (PEP) to aldoses or the corresponding terminal phosphate esters. By concurrent release of inorganic phosphate from the preformed enolate nucleophile, the additions are essentially irreversible. None of the enzymes are yet commercially available and little data are available oil the individual specificities for the aldehydic substrates. A bacterial NeuAc synthase (EC 4.1.3.19) has been used for the microscale synthesis of A -acetylncuraminic acid from Af-acetyl-D-mannosamine31 and its 9-azido analog from 2-acetamido-6-azido-2,6-dideoxy-D-mannose32. [Pg.593]

NeuA, has broad substrate specificity for aldoses while pyruvate was found to be irreplaceable. As a notable distinction, KdoA was also active on smaller acceptors such as glyceraldehyde. Preparative applications, for example, for the synthesis of KDO (enf-6) and its homologs or analogs (16)/(17), suffer from an unfavorable equilibrium constant of 13 in direction of synthesis [34]. The stereochemical course of aldol additions generally seems to adhere to a re-face attack on the aldehyde carbonyl, which is complementary to the stereoselectivity of NeuA. On the basis of the results published so far, it may be concluded that a (31 )-configuration is necessary (but not sufficient), and that stereochemical requirements at C-2 are less stringent [71]. [Pg.282]

A more general access to biologically important and structurally more diverse aldose isomers makes use of ketol isomerases for the enzymatic interconversion of ketoses to aldoses. For a full realization of the concept of enzymatic stereodivergent carbohydrate synthesis, the stereochemically complementary i-rhamnose (Rhal EC 5.3.1.14) and i-fucose isomerases (Fuel EC 5.3.1.3) from E. coli have been shown to display a relaxed substrate tolerance [16,99,113,131]. Both enzymes convert sugars and their derivatives that have a common (3 J )-OH configuration, but may deviate in... [Pg.294]

Iwata Y, Arisawa M, Hamada R, Kita Y, Mizutani MY, Tomioka N, Itai A, Miyamoto S. Discovery of novel aldose reductase inhibitors using a protein structure-based approach 3D-database search followed by design and synthesis. J Med Chem 2001 44 1718-28. [Pg.421]

In 1991, Whitesides etal. reported the first application of aqueous medium Barbier-Grignard reaction to carbohydrate synthesis through the use of tin in an aqueous/organic solvent mixture (Eq. 8.48).106 These adducts were converted to higher carbon aldoses by ozonolysis of the deprotected polyols followed by suitable derivatization. The reaction showed a higher diastereoselectivity when there was a hydroxyl group present at C-2. However, no reaction was observed under the reaction conditions when there was an /V-acctyl group present at the C-2 position. [Pg.235]

Kayser, M.M., Drolet, M. and Stewart, J.D. (2005) Application of newly available bio-reducing agents to the synthesis of chiral hydroxy-beta-lactams model for aldose reductase selectivity. Tetrahedron Asymmetry, 16 (24), 4004-4009. [Pg.163]

The exact nature of levansucrase activity08 is not clear. It differs in certain respects from invertase, polymerase, fructosaccharase, and phosphorylase. Possibly the aldoside part of the substrate molecule is replaced by an enzyme-linked group, and partial decomposition of this levan precursor to aldose and ketose may furnish the energy necessary for levan synthesis. [Pg.247]

A review is available of the synthesis of polyhydroxyalkyl substituted heterocycles, including furans, by condensations of aldose and ketose sugars with / -dicarbonyl compounds.Ih... [Pg.169]

SCHEME 34. Synthesis of l,3-oxazin-2-ones and 1,3-0xazin-2-thiones from unprotected aldoses... [Pg.80]

See other pages where Aldose Synthesis is mentioned: [Pg.361]    [Pg.200]    [Pg.291]    [Pg.315]    [Pg.706]    [Pg.361]    [Pg.200]    [Pg.291]    [Pg.315]    [Pg.706]    [Pg.47]    [Pg.88]    [Pg.188]    [Pg.994]    [Pg.1283]    [Pg.1316]    [Pg.590]    [Pg.294]    [Pg.295]    [Pg.323]    [Pg.215]    [Pg.277]    [Pg.146]    [Pg.374]    [Pg.69]    [Pg.186]   
See also in sourсe #XX -- [ Pg.9 , Pg.24 , Pg.39 , Pg.111 , Pg.112 , Pg.147 , Pg.265 ]



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