Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Product stereospecificity

The complete product stereospecificity (presumably retention ) observed in this case is in strong contrast to the complete nonstereospecificity observed in... [Pg.285]

Aldolases are enzymes that form aldol products, most commonly in the metabolism of carbohydrates or sugars. In contrast to the chemical reaction, aldolases generate just one product stereospecifically. Hence, they are sometimes used in organic synthesis for key transformations. [Pg.1061]

The resolution of tris(catecholato)chromate(III) has been achieved by crystallization with L-[Co(en)3] the diastereomeric salt isolated contained the L-[Cr(cat)3] ion7 Comparison of the properties of this anion with the chromium(III) enterobactin complex suggested that the natural product stereospecifically forms the L-cis complex with chromium(III) (190). The tris(catecholate) complex K3[Cr(Cat)3]-5H20 crystallizes in space group Cite with a =20.796, 6 = 15.847 and c = 12.273 A and jS = 91.84° the chelate rings are planar. Electrochemical and spectroscopic studies of this complex have also been undert en. Recent molecular orbital calculations on quinone complexes are consistent with the ligand-centred redox chemistry generally proposed for these systems. ... [Pg.2705]

The synthesis of pyrimidine nucleosides from glycosyl bromides having the 2-hydroxy group unsubstituted gave 1,2-trans products stereospecifically the mechanism of the reaction was discussed. [Pg.206]

Generates products stereospecifically with inversion of configuration... [Pg.248]

UDP-Glc is converted into UDP-Gal by a reaction catalyzed by UDP-Gal-4-epimerase. The enzyme is NAD dependent and the first reaction that it catalyzes is the oxidation of C-4 of UDP-Glc to give the 4-keto intermediate and NADH. The complex undergoes a conformational change and the NADH-product stereospecifically reduces the keto group to give the D-galactose structure [13-15] (see Fig. 10.6). [Pg.299]

This result suggested that a base abstracts a proton from the substrate, and the proton then undergoes exchange with labeled protons from the solvent before being added back to form the product stereospecifically. The existence of a c/i-enediol intermediate (shown below) would account for these observations, if the enzyme added the proton back to the same face of the enediol that it was abstracted from. [Pg.28]

The Pd-catalyzed hydrogenolysis of vinyloxiranes with formate affords homoallyl alcohols, rather than allylic alcohols regioselectively. The reaction is stereospecific and proceeds by inversion of the stereochemistry of the C—O bond[394,395]. The stereochemistry of the products is controlled by the geometry of the alkene group in vinyloxiranes. The stereoselective formation of stereoisomers of the syn hydroxy group in 630 and the ami in 632 from the ( )-epoxide 629 and the (Z)-epoxide 631 respectively is an example. [Pg.376]

Electron-deficient alkenes add stereospecifically to 4-hydroxy-THISs with formation of endo-cycloadducts. Only with methylvinyl-ketone considerable amounts of the exo isomer are produced (Scheme 8) (16). The adducts (6) may extrude hydrogen sulfide on heating with methoxide producing 2-pyridones. The base is unnecessary with fumaronitrile adducts. The alternative elimination of isocyanate Or sulfur may be controlled using 7 as the dipolarenOphile. The cycloaddition produces two products, 8a (R = H, R = COOMe) and 8b (R = COOMe, R =H) (Scheme 9) (17). Pyrolysis of 8b leads to extrusion of furan and isocyanate to give a thiophene. The alternative S-elimi-nation can be effected by oxidation of the adduct and subsequent pyrolysis. [Pg.5]

Bromine addition to alkenes is an example of a stereospecific reaction A stereospecific reaction is one m which stereoisomeric starting materials yield products... [Pg.308]

A common misconception is that a stereospecific reaction is simply one that is 100% stereoselective The two terms are not synonymous however A stereospecific reac tion IS one which when carried out with stereoisomeric starting materials gives a prod uct from one reactant that is a stereoisomer of the product from the other A stereo selective reaction is one m which a single starting material gives a predominance of a... [Pg.309]

Partial but not complete loss of optical activity m S l reactions probably results from the carbocation not being completely free when it is attacked by the nucleophile Ionization of the alkyl halide gives a carbocation-hahde ion pair as depicted m Figure 8 8 The halide ion shields one side of the carbocation and the nucleophile captures the carbocation faster from the opposite side More product of inverted configuration is formed than product of retained configuration In spite of the observation that the products of S l reactions are only partially racemic the fact that these reactions are not stereospecific is more consistent with a carbocation intermediate than a concerted bimolecular mechanism... [Pg.343]

Recall from Section 7 13 that a stereospecific reaction is one in which each stereoiso mer of a particular starting material yields a different stereoisomeric form of the reaction product In the ex amples shown the product from Diels-Alder cycloaddi tion of 1 3 butadiene to as cinnamic acid is a stereo isomer of the product from trans cinnamic acid Each product although chiral is formed as a racemic mixture... [Pg.410]

The Diels-Alder reaction is stereospecific Substituents that are cis in the dienophile remain cis in the product substituents that are trans in the dienophile remain trans m the product... [Pg.410]

Section 10 12 Conjugate addition of an alkene (the dienophile) to a conjugated diene gives a cyclohexene derivative in a process called the Diels-Alder reaction It is concerted and stereospecific substituents that are cis to each other on the dienophile remain cis m the product... [Pg.418]

The reaction has been extended to include carbanions generated from phosphonates. This is often referred to as the Horner-Wittig or Homer-Emmons reaction. The Horner-Emmons reaction has a number of advantages over the conventional Wittig reaction. It occurs with a wider variety of aldehydes and ketones under relatively mild conditions as a result of the higher nucleophilicity of the phosphonate carbanions. The separation of the olefinic product is easier due to the aqueous solubility of the phosphate by-product, and the phosphonates are readily available from the Arbusov reaction. Furthermore, although the reaction itself is not stereospecific, the majority favor the formation of the trans olefin and many produce the trans isomer as the sole product. [Pg.471]

Catalysts. Iodine and its compounds ate very active catalysts for many reactions (133). The principal use is in the production of synthetic mbber via Ziegler-Natta catalysts systems. Also, iodine and certain iodides, eg, titanium tetraiodide [7720-83-4], are employed for producing stereospecific polymers, such as polybutadiene mbber (134) about 75% of the iodine consumed in catalysts is assumed to be used for polybutadiene and polyisoprene polymeri2a tion (66) (see RUBBER CHEMICALS). Hydrogen iodide is used as a catalyst in the manufacture of acetic acid from methanol (66). A 99% yield as acetic acid has been reported. In the heat stabiH2ation of nylon suitable for tire cordage, iodine is used in a system involving copper acetate or borate, and potassium iodide (66) (see Tire cords). [Pg.366]

Deamination, Transamination. Two kiads of deamination that have been observed are hydrolytic, eg, the conversion of L-tyrosiae to 4-hydroxyphenyUactic acid ia 90% yield (86), and oxidative (12,87,88), eg, isoguanine to xanthine and formycia A to formycia B. Transaminases have been developed as biocatalysts for the synthetic production of chiral amines and the resolution of racemic amines (89). The reaction possibiUties are illustrated for the stereospecific synthesis of (T)-a-phenylethylamine [98-84-0] (ee of 99%) (40) from (41) by an (5)-aminotransferase or by the resolution of the racemic amine (42) by an (R)-aminotransferase. [Pg.313]

In many cases only the racemic mixtures of a-amino acids can be obtained through chemical synthesis. Therefore, optical resolution (42) is indispensable to get the optically active L- or D-forms in the production of expensive or uncommon amino acids. The optical resolution of amino acids can be done in two general ways physical or chemical methods which apply the stereospecific properties of amino acids, and biological or enzymatic methods which are based on the characteristic behavior of amino acids in living cells in the presence of enzymes. [Pg.278]

In a first step, JS ocardia asteroides selectively oxidizes only (3)-pantolactone to ketopantolactone (19), whereas the (R)-pantolactone remains unaffected (47). The accumulated ketopantolactone is stereospecificaHy reduced to (R)-pantolactone in a second step with Candidaparapsilosis (product concentration 72 g/L, 90% molar yield and 100% ee) (48). Racemic pantolactone can also be converted to (R)-pantolactone by one single microbe, ie, Jiodococcus erythropolis by enantioselective oxidation to (3)-pantolactone and subsequent stereospecific reduction in 90% yield and 94% ee (product concentration 18 g/L) (40). [Pg.60]

Thermal decomposition of cis- and frans-3,6-dimethyl-3,4,5,6-tetrahydropyridazines affords propene, cis- and frans-l,2-dimethylcyclobutanes and 1-hexene. The stereochemistry of the products is consistent with the intermediacy of the 1,4-biradical 2,5-hexadienyl. The results indicate that thermal reactions of cyclic azo compounds and cyclobutanes of similar substitution proceed with similar stereospecificity when compared at similar temperatures 79JA2069). [Pg.40]


See other pages where Product stereospecificity is mentioned: [Pg.287]    [Pg.11]    [Pg.75]    [Pg.325]    [Pg.11]    [Pg.287]    [Pg.287]    [Pg.11]    [Pg.75]    [Pg.325]    [Pg.11]    [Pg.287]    [Pg.373]    [Pg.390]    [Pg.3]    [Pg.42]    [Pg.1294]    [Pg.312]    [Pg.19]    [Pg.320]    [Pg.227]    [Pg.157]    [Pg.15]    [Pg.283]    [Pg.259]    [Pg.69]    [Pg.184]    [Pg.468]    [Pg.530]    [Pg.389]    [Pg.36]    [Pg.54]    [Pg.55]    [Pg.74]    [Pg.75]    [Pg.75]   
See also in sourсe #XX -- [ Pg.6 ]




SEARCH



Stereospecific antibodies, production

© 2024 chempedia.info