Intramolecular reactions efficiency

During nearly forty years of study, the photocycloaddition of 2-pyri-dones has consistently exhibited versatile and reliable [4+4] reactivity. When dimerization is not desired, intramolecular reactions efficiently steer two pyridones to react. Alternatively, intermolecular cross reaction with an excess of another four-electron reactant can be extended to other heterocycles and to simple 1,3-dienes. It is perhaps surprising how few photoreactions of 2-pyridone fail to yield [4+4] products. Failure of the [4+4] reaction can result from a tethering unit that prevents the normal head-to-tail reactivity and introduces strain (Figures 14 and 22) or from steric hindrance caused by excessive substitution at the reacting carbons (Figure 23). A 4-alkoxy substrate shuts down the normally dominant photodimerization reaction and provides opportunities for other [4+-2] or [4+4] reactions (Figures 6 and 7). 

The isocoumarin 151 is prepared by the intramolecular reaction of 2-(2-propenyDbenzoic acid (149) with one equivalent of PdCbjMeCN) . However, the (Z)-phthalide 150 is obtained from the same acid with a catalytic amount of PdjOAc) under 1 atm of Oi in DMSO, alone is remarkably efficient in reoxidizing Pd(0) in DMSO. The isocoumarin 151 is obtained by the reaction of 2-(l-propenyl)benzoic acid (152) under the same conditions[4], 2-Vinylbenzoic acid (153) is also converted into the isocoumarin 154, but not to the five-membered lactone) 167,170],... 

An efficient carboannulation proceeds by the reaction of vinylcyclopropane (135) or vinylcyclobutane with aryl halides. The multi-step reaction is explained by insertion of alkene, ring opening, diene formation, formation of the TT-allylpalladium 136 by the readdition of H—Pd—I, and its intramolecular reaction with the nucleophile to give the cyclized product 137[I08]. 

The mechanisms available to intramolecular reactions are the same as those of intermolecular reactions. The same problems of kinetic equivalence of rate terms may arise, and Table 6-3 shows some kinetically equivalent mechanisms for intramolecular reactions of the acyl function. The efficiency of intramolecular reactivity may be difficult to assess. One technique, described above as a method for the detection of an intramolecular reaction, is to make a comparison with an analog incapable of the intramolecular process. Thus p-nitrophenyl 5-nitrosalicylate, 17, hydrolyzes about 2500 times faster than p-nitrophenyl 2-methoxy-5-nitrobenzoate, 18. 

Photolysis of chromium alkoxycarbene complexes with aldehydes in the presence of Lewis acids produced /J-lactones [83]. Intermolecular reactions were slow, low-yielding, and nonstereoselective, while intramolecular reactions were more efficient (Eqs. 19 and 20). Subsequent studies showed that amines, particularly DMAP, could also catalyze this process (Table 13) [84], resulting in reasonable yields and diastereoselectivity in intermolecular cases. 

Owing to the low barriers to bond formation, reactant conformation often plays a decisive role in the outcome of these reactions. Carbocations, carbene, and radicals frequently undergo very efficient intramolecular reactions that depend on the proximity of the reaction centers. Conversely, because of the short lifetimes of the intermediates, reactions through unfavorable conformations are unusual. Mechanistic analyses and synthetic designs that involve carbocations, carbenes, and radicals must pay particularly close attention to conformational factors. 

Il ichev YV, Kuhnle W, Zachariasse KA (1998) Intramolecular charge transfer in dual fluorescent 4-(dialkylamino) benzonitriles. Reaction efficiency enhancement by increasing the size of the amino and benzonitrile subunits by alkyl substituents. J Phys Chem A 102(28) 5670-5680... 

The intramolecular reaction between carbenoids and amides is clearly emerging as a powerful tool for the synthesis of saturated oxazolo[3,2-tf]pyridine derivatives as shown by the cyclization of simple to extremely functionalized substrates 379 <2003CC440> and 381 <20050L47> (Scheme 100) trapping the intermediate isomtinchnone 1,3-dipoles by external (MeOH) or internal (indole) nucleophiles results in new heterocyclic fused systems with especially high efficiency. 

For these more efficient reactions the rate of the intermolecular reaction (acetate-catalysed detritiation) is too slow relative to that of the intramolecular reaction to be measured accurately. These EM s are therefore based on estimated upper limits for the rates of the reference reactions Harper and Bender, 1965. The reference intermolecular reaction is the benzoate-catalysed enolization of PhCOCHMe2... 

Intramolecular reactions often differ from their intermolecular counterparts in the exceptionally high rates that are observed and some reactions can occur intramolecularly that are impossible between separate molecules. Because of the importance of intramolecular catalysis, the subject has been reviewed frequently, particularly with reference to its connection with enzymic catalysis (Page, 1973, 1984 Fife, 1975 Jencks, 1975 Kirby, 1980 Fersht, 1985 Menger, 1985). The present coverage is limited to examples of intramolecular catalysis that owe some of their efficiency to intramolecular hydrogen bonding. The role that hydrogen bonds play in enzymic reactions is discussed in Section 5. 

Kassou, M. Castillon, S., Ring Contraction Vs Fragmentation in the Intramolecular Reactions of 3-0-(Trifluoromethanesulfonyl) Pyranosides - Efficient Synthesis of Branched-Chain Furanosides. J. Org. Chem. 1995,60, 4353-4358. 

The Ir-MeDUPHOS catalyst also functioned efficiently in an intramolecular reaction, where triynes, which possessed ortho-substituted aryl groups on their termini, were transformed into ortho-diarylbenzene derivatives, which have adjacent two axial chiralities (Scheme 11.14) [22]. 

Part of the great efficiency of the intramolecular reactions of [26] and [27] is undoubtedly due to the correct alignment of the rigidly held nucleophile and carbonyl group. Molecular models show that in one of the conformations of [27] in which steric interactions are minimized, the phenoxide ion is immediately adjacent to the carbonyl group and in an excellent position for perpendicular attack (Bender, 1960) but other factors must also be important. Correct orientation would not explain why anionic nucleophiles are superior to neutral nucleophiles. Extensive studies have not been carried out with nitrogen nucleophiles in carbamate ester hydrolysis, but Hegarty and Frost (1972) found that carbamate [29] underwent elimination to an isocyanate. This can be contrasted with the... 

A useful extension of Friedel-Crafts acylation is an intramolecular reaction leading to cyclic products. Thus, five- and six-membered rings are readily and efficiently created by use of an appropriate aryl acyl chloride, as shown below. 

Rhodium complexes are able to transform various enynes 1 into the corresponding bi-cyclopentenones 2 with equal efficiency to that found with cobalt, and facilitate previously formidable PK reactions. The scope of the substituents on the alkyne for the intramolecular reaction is broad alkyl la/b and aryl-substituted substrates Ic provide the desired products in excellent yield with both [RhCl(CO)2]2 and [RhCl(CO)dppp]2 (Tab. 11.3). 

Benzopiperazinones 200 were prepared by Erb et al. via the Ugi four-component reaction followed by palladium-catalyzed intramolecular Al-arylation [61]. XPhos was used as a supporting ligand to afford the 3,4-dihydroquinoxalin-3-ones 200 (Scheme 36). Microwave irradiation was found to be determinant on the reaction efficiency. 

However, from the outset of this field, the limitations as well as the potentials of this cycloaddition were also apparent. For instance, the efficiency of this cycloaddition in an intermolecular manner was typically low unless strained olefins were used. Moreover, the use of unsymmetrical alkenes led to a mixture of the cyclopentenone regioisomers. Synthetic utility of this reaction is considerably expanded by the emergency of the intramolecular reaction. Schore introduced the first intramolecular version forming several rings simultaneously, which is now the most popular synthetic strategy in natural product synthesis because of its conceptual and operational simplicity. Additionally, the regiochemistry is no longer the problem in this variation. 

The reaction described above can also be carried out at higher concentration whereby the probability of intramolecular reaction (cyclization) vanishes. So called chain extension processes result from the stoichiometric reaction of a "living" bifunctional precursors with an efficient bifunctional electrophilic deactivator. This polycondensation reaction induces a very large increase of the molecular weight, but is also results in an enhanced polydispersity. - Fractionation is necessary if well defined substances are required. However the average distance between successive hinges along the chain fluctuates only very little. 

The Wittig reaction efficiently olefinates aldehydes and ketones, but not esters or amides. Several early-transition-metal approaches have been taken to this problem. Recently, Takeshi Takeda of the Tokyo University of Agriculture and Technology reported (Tetrahedron Lett. 44 5571,2003) that the titanocene reagent can effect the condensation of an amide 10 with a thioacetal 11 to give the enamine 12. On hydrolysis, 12 is converted into the ketone 13. When the reaction is intramolecular, reduction proceeds all the way, to give the pyrrolidine IS. 

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