Cyanide, addition

Alkenes in (alkene)dicarbonyl(T -cyclopentadienyl)iron(l+) cations react with carbon nucleophiles to form new C —C bonds (M. Rosenblum, 1974 A.J. Pearson, 1987). Tricarbon-yi(ri -cycIohexadienyI)iron(l-h) cations, prepared from the T] -l,3-cyclohexadiene complexes by hydride abstraction with tritylium cations, react similarly to give 5-substituted 1,3-cyclo-hexadienes, and neutral tricarbonyl(n -l,3-cyciohexadiene)iron complexes can be coupled with olefins by hydrogen transfer at > 140°C. These reactions proceed regio- and stereospecifically in the successive cyanide addition and spirocyclization at an optically pure N-allyl-N-phenyl-1,3-cyclohexadiene-l-carboxamide iron complex (A.J. Pearson, 1989). 

The presence of an aldehyde function m their open chain forms makes aldoses reactive toward nucleophilic addition of hydrogen cyanide Addition yields a mixture of diastereo meric cyanohydrins... 

Racemic pantolactone is prepared easily by reacting isobutyraldehyde (15) with formaldehyde ia the presence of a base to yield the iatermediate hydroxyaldehyde (16). Hydrogen cyanide addition affords the hydroxy cyanohydria (17). Acid-cataly2ed hydrolysis and cyclization of the cyanohydria (17) gives (R,3)-pantolactone (18) ia 90% yield (18). 

Finally, examine transition states for cyanide addition cyanide+formaldehyde, cyanide+acetone, cyanide+ benzophenone) What relationship, if any, is there between the length of the forming CC bond and the various carbonyl properties determined above Try to rationalize what you find, and see if there are other structural variations that can be correlated with carbonyl reactivity. 

The only notable success to date in the use of (salen)metal systems in catalysis of asymmetric cyanide addition to epoxides was achieved by Pietrusiewicz, who reported the aluminium-catalyzed desymmetrization of phospholene meso-epoxide (Scheme 7.23) in moderate ee [47]. Despite these significant efforts, a truly prac-... 

Other routes you might have suggested include cyanide addition to enones, e.g. (3i), alkane... 

Tin and HCl reduce out the ben/.ylic OH from (43) in high yield.The Mannich base (45) decomposes to (41) simply on heating. Cyanide addition gives (46) which can be hydrolysed to (40), but a short cut is to hydrolyse to amide (47) and reduce out the carbonyl group by the Clemmensen method (Table T 24.1). Under these conditions the amide is hydrolysed to the acid. Cyclisation to (38) occurs with strong acid, acid anhydrides, or by AlClg-catalysed reaction of the acid chloride. 

Cyanide addition has also been done under Lewis acid catalysis. Triethylaluminum-hydrogen cyanide and diethylaluminum cyanide are useful reagents for conjugate... 

Arenes, on complexation with Cr, Fe, Mn, and so forth, acquire strongly electrophilic character such complexes in reactions with nucleophiles behave as electrophilic nitroarenes.71 Synthesis of aromatic nitriles via the temporary complexation of nitroarenes to the cationic cyclopentadienyliron moiety, cyanide addition, and oxidative demetalation with DDQ has been reported (Eq. 9.43).72... 

Cyanide Addition of ascorbic acid, then render alkaline to pH 11-12 with sodium hydroxide This determinand must be preserved immediately. Need for separate container. Any residual chlorine must be removed with ascorbic acid. 

Maruoka and co-workers recently reported an example of a Zr-catalyzed cyanide addition to an aldehyde [64]. As is also illustrated in Scheme 6.20, the reaction does not proceed at all if 4 A molecular sieves are omitted from the reaction mixture. It has been proposed that the catalytic addition proceeds through a Meerwein—Ponndorf—Verley-type process (cf. the transition structure drawn) and that the crucial role of molecular sieves is related to facilitating the exchange of the product cyanohydrin oxygen with that of a reagent acetone cyanohydrin. The example shown is the only catalytic example reported to date the other reported transformations require stoichiometric amounts of the chiral ligand and Zr alkoxide. 

Scheme 6.20. Zr-catalyzed cyanide addition to an aldehyde is facilitated by the presence of 4 A molecular sieves.

Zr-Catalyzed Enantioselective Cyanide Additions to Imines (Strecker Reactions)... 

Catalytic asymmetric cyanide addition to imines constitutes an important C—C bondforming reaction, as the product amino nitriles may be converted to non-proteogenic a-amino acids. Kobayashi and co-workers have developed two different versions of the Zr-catalyzed amino nitrile synthesis [73]. The first variant is summarized in Scheme 6.22. The bimetallic complex 65, formed from two molecules of 6-Br-binol and one molecule of 2-Br-binol in the presence of two molecules of Zr(OtBu)4 and N-methylimidazole, was proposed as the active catalytic species. This hypothesis was based on various NMR studies more rigorous kinetic data are not as yet available. Nonetheless, as depicted in Scheme 6.22, reaction of o-hydroxyl imine 66 with 5 mol% 65 and 1—1.5 equiv. Bu3SnCN (CH2C12, —45 °C) leads to the formation of amino nitrile 67 with 91 % ee and in 92 % isolated yield. As is also shown in Scheme 6.22, electron-withdrawing (— 68) and electron-rich (—> 69), as well as more sterically hindered aryl substituents (— 70) readily undergo asymmetric cyanide addition. 

Scheme 6.22. Zr-catalyzed enantioselective cyanide addition to imines in the presence of Bu3SnCN.

To enhance the efficiency of the cyanide addition, these workers subsequently reported a three-component asymmetric synthesis of amino nitriles that avoids the use of the previously mentioned undesirable stannane [74], Thus, as illustrated in Scheme 6.23, treatment of the requisite aniline and aldehyde with HCN (toxic but cheap and suitable for industrial use) at —45°C in the presence of 2.5 mol% 65 leads to the formation of 67 with 86 % ee and in 80 % yield. As was mentioned above in the context of catalytic asymmetric three-component alkylations of imines (see Scheme 6.18), the in situ procedure is particularly useful for the less stable aliphatic substrates (cf. 71—73, Scheme 6.23). The introduction of the o-Me group on the aniline is reported to lead to higher levels of asymmetric induction, perhaps because with the sterically less demanding aliphatic systems, the imine can exist as a mixture of interconverting cis and trans isomers. 

In addition to Evans CuflD-catalyzed and Carreira s Ti-catalyzed asymmetric aldol reactions, there is omit Shibasaki s La-catalyzed protocol1141 A recent total synthesis of one of the more celebrated targets of the nineties, epothilone A, utilizes both an enan-tioseledive Al-catalyzed cyanide addition to an aldehyde (75 —> 77) and a La-catalyzed enantioseled-... 

Optically active a-amino acids are prepared by a cyanide addition to imines, known as the Strecker reaction. Several organobase catalysts and metal complex catalysts have been successfully applied to the asymmetric catalytic Strecker amino... 

In 1903, Lapworth described his findings of the action of potassium cyanide on benzaldehyde [28], He postulated that cyanide adds to benzaldehyde to form V, followed by proton transfer of the a-labile hyd rogen, forming intermediate VI which is now referred to as an acyl anion equivalent. Addition to another molecule of benzaldehyde occurs to form VII (Scheme 1). The unstable cyanohydrin of benzoin VII then collapses to form benzoin and potassium cyanide. Additionally, Lapworth tested the reversibility of the addition of cyanide to benzaldehyde by first forming hydroxybenzyl cyanide (protonated variant of V) and subjecting it to benzaldehyde and base, in which benzoin was recovered. 

Homogenization in NaOAc buffer and Na cyanide addition of enzyme amylase and pepsin (for total vitamin) incubation at 32°C for 30 min (or 37°C for 3h) immuno-affinity column... 

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