Carbon-centered

Formation of carbon centered radicals tin hydride reduction of... 

In peptide syntheses, where partial racemization of the chiral a-carbon centers is a serious problem, the application of 1-hydroxy-1 H-benzotriazole ( HBT") and DCC has been very successful in increasing yields and decreasing racemization (W. Kdnig, 1970 G.C. Windridge, 1971 H.R. Bosshard, 1973), l-(Acyloxy)-lif-benzotriazoles or l-acyl-17f-benzo-triazole 3-oxides are formed as reactive intermediates. If carboxylic or phosphoric esters are to be formed from the acids and alcohols using DCC, 4-(pyrrolidin-l -yl)pyridine ( PPY A. Hassner, 1978 K.M. Patel, 1979) and HBT are efficient catalysts even with tert-alkyl, choles-teryl, aryl, and other unreactive alcohols as well as with highly bulky or labile acids. 

The cyclization to form very congested quaternary carbon centers involving the intramolecular insertion of di-, tri-, and tetrasubstituted alkenes is particularly useful for natural products synthesis[l36-138], In the total synthesis of gelsemine, the cyclization of 166 has been carried out, in which very severe steric hindrance is e.xpected. Interestingly, one stereoisomer 167... 

The JcH coupling constants are very sensitive to the geometry of the molecule and to the nature of the atoms bonded to the carbon center. 

Akylsilanes undergo highly regioselective acylation to give P,y-unsaturated ketones (177). Acylation of y,y-dialkylallyltrialkylsilane provides a route to the constmction of difficulty accessible quaternary carbon centers. 

Carbon-centered radicals generally react very rapidly with oxygen to generate peroxy radicals (eq. 2). The peroxy radicals can abstract hydrogen from a hydrocarbon molecule to yield a hydroperoxide and a new radical (eq. 3). This new radical can participate in reaction 2 and continue the chain. Reactions 2 and 3 are the propagation steps. Except under oxygen starved conditions, reaction 3 is rate limiting. 

Cupric ion has a unique abitity to compete with oxygen for a carbon-centered free radical (compare reaction 2) ... 

Phosgene reacts with a multitude of nitrogen, oxygen, sulfur, and carbon centers. Reaction with primary alkyl and aryl amines yield carbamoyl chlorides which are readily dehydrohalogenated to isocyanates. Secondary amines also form carbamoyl chlorides. 

Other sulfonate derivatives are obtained by the use of trifluoromethanesulfonyl hypochlorite and hypobromite (CF3SO2OQ and CF3S020Br) in reactions with petfluoroalkyl halides and their derivatives [30. These reactions lead to the corresponding trifluoromethanesulfonate derivatives of alkanes (equation 28) (Table 11). The reaction proceeds with complete retention of stereochemistry at the carbon center [30]. 

This trend is also observed in the reactions with nitrogen- and carbon-centered nucleophiles (2001H425). Thus, the reaction of 109 with sodium indolyl in DMF affords methyl 2-(indol-l-yl)indole-3-carboxylate (188, 77%). In better yield, 2-(indol-l-yl)indole-3-carbaldehyde (189, 95%) is formed in the corresponding reaction (99H1157) of 115a (Scheme 28). Sodium imidazolyl reacts with 109 in DMF at 60°C to afford methyl 2-(imidazol-l-yl)indole-3-carboxylate (190,28%), methyl indole-3-carboxylate (191,11 %), and unreacted 109 (36%). In contrast, under the same conditions, 110 and 115a provide higher yields of methyl 2-(imidazol-... 

Cycloalkoxy radical intermediates are readily generated from a parent alcohol by various methods (e.g., nitrite ester photolysis, hypohalite thermolysis, lead tetraacetate oxidation) (83MI1). Once formed, reactive cycloalkoxy radicals undergo /3-scission to produce a carbonyl compound and a new carbon-centered radical. 

Conjugate addition [2] to Midiael acceptors is die most important and usefid reaction in orgatiocopper diemistiy, and die reaction is ofien used as die key step in die syndiesis of numerous natural and unnatural products. Perhaps one of die most efficient methods for die syndiesis of quaternary carbon centers is organo-copper-mediated conjugate addidon to /, / -disubstituted enones. 

In a lolal syntliesis of cdc25.A ptolein phosphatase inbibdot dysidiolide i46) [37], substilulion on an sp- carbon center by vinyl cuprate was used lo accom-... 

A similar reaction patliway was found for tlie S u2 substitution of an epoxide witli a litliiuni aiprate duster [ 124]. tn contrast to tliat in tlie MeBr reaction, tlie ste-reodieniistry of tlie dectropb dic carbon center is already inverted in tlie transition state, providing tlie reason for tlie prefetLed "rrons-diaxial epoxide-opetiing" widely observed in syntlietic studies. Hie TS for tlie S 2 reaction of cydobexene oxide is shown in Eq. 10.12. 

An alkene activated by an electron-withdrawing group—often an acrylic ester 2 is used—can react with an aldehyde or ketone 1 in the presence of catalytic amounts of a tertiary amine, to yield an a-hydroxyalkylated product. This reaction, known as the Baylis-Hillman reaction, leads to the formation of useful multifunctional products, e.g. o -methylene-/3-hydroxy carbonyl compounds 3 with a chiral carbon center and various options for consecutive reactions. 

The reaction starts with the nucleophilic addition of a tertiary amine 4 to the alkene 2 bearing an electron-withdrawing group. The zwitterionic intermediate 5 thus formed, has an activated carbon center a to the carbonyl group, as represented by the resonance structure 5a. The activated a-carbon acts as a nucleophilic center in a reaction with the electrophilic carbonyl carbon of the aldehyde or ketone 1 ... 

The negative charge of the cyclohexadienyl anion 5 is delocalized over several carbon centers, as is illustrated by the following resonance structures ... 

For the Birch reduction of mono-substituted aromatic substrates the substituents generally influence the course of the reduction process. Electron-donating substituents (e.g. alkyl or alkoxyl groups) lead to products with the substituent located at a double bond carbon center. The reduction of methoxybenzene (anisole) 7 yields 1-methoxycyclohexa-1,4-diene 8 ... 

An electron-withdrawing substituent leads to a product where it is bound to a saturated carbon center. Benzoic acid 9 is reduced to the cyclohexa-2,5-diene carboxylic acid 10 ... 

Naphthol 1 is initially protonated at a carbon center of high electron density (C-2 or C-4). The cationic species 3 thus formed is stabilized by resonance it can add a bisulfite anion at C-3. The addition product can tautomerize to give the more stable tetralone sulfonate 4 the tetralone carbonyl group is then attacked by a nucleophilic amine (e.g. ammonia). Subsequent dehydration leads to the cation... 

The versatility of the Diels-Alder reaction becomes especially obvious, when considering the hetero-variants. One or more of the carbon centers involved can be replaced by hetero atoms like nitrogen, oxygen and sulfur. An illustrating example is the formation of the bicyclic compound 31, by an intramolecular hetero-Diels-Alder reaction ... 

For the formation of the new double bond, the general rules for eliminations do apply. Following Bredt s rule, no double bond to a bridgehead carbon atom will be formed. If the elimination can lead to a conjugated system of unsaturated groups, this pathway will be favored. Otherwise the Hofmann rule will be followed, which favors an elimination towards the less substituted carbon center. 

The A-phthalimidomalonic ester 8 can be further alkylated at the malonic carbon center with most alkyl halides, or with an o ,/3-unsaturated carbonyl compound thus offering a general route to a-amino acids 9. 

The regioselectivity of the addition of complex 4 to a substituted alkene is mainly influenced by steric factors. The substitution of hydrogen occurs preferentially at the carbon center which has the larger number of hydrogens. The Heck reaction... 

In the next step, one of the borane-hydrogens is transferred to a sp -carbon center of the alkene and a carbon-boron bond is formed, via a four-membered cyclic transition state 6. A mono-alkyIborane R-BH2 molecule thus formed can react the same way with two other alkene molecules, to yield a trialkylborane R3B. In case of tri- and tctra-substituted alkenes—e.g. 2-methylbut-2-ene 7 and 2,3-dimethylbut-2-ene 9—which lead to sterically demanding alkyl-substituents at the boron center, borane will react with only two or even only one equivalent of alkene, to yield a alkylborane or mono alky Iborane respectively ... 

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