11.21-Hydrogen shift

The direct connection of rings A and D at C l cannot be achieved by enamine or sul> fide couplings. This reaction has been carried out in almost quantitative yield by electrocyclic reactions of A/D Secocorrinoid metal complexes and constitutes a magnificent application of the Woodward-Hoffmann rules. First an antarafacial hydrogen shift from C-19 to C-1 is induced by light (sigmatropic 18-electron rearrangement), and second, a conrotatory thermally allowed cyclization of the mesoionic 16 rc-electron intermediate occurs. Only the A -trans-isomer is formed (A. Eschenmoser, 1974 A. Pfaltz, 1977). 

Chemistry. Coal gasification iavolves the thermal decomposition of coal and the reaction of the carbon ia the coal, and other pyrolysis products with oxygen, water, and hydrogen to produce fuel gases such as methane by internal hydrogen shifts... 

The cyclohexylpyrazole (376) and the azlrlne (377) are formed by irradiation of 3-dlazo-4-methyl-5-phenylpyrazolenine (378) in cyclohexane (Scheme 35) (77JA633). The former is the result of carbene insertion into cyclohexane followed by a [1,5] hydrogen shift, whereas the latter arises by ring cleavage of nltrene (379) or by a concerted pathway. 

The evidence obtained clearly indicates that the above photorearrangements proceed by a mechanism involving a nitrile ylide intermediate since cycloadducts could be isolated when the irradiations were carried out in the presence of trapping agents. Intramolecular cycloaddition of the nitrile ylide followed by a 1,3-sigmatropic hydrogen shift of the initially formed five-membered ring readily accounts for the formation of the final product. 

Fig. 11.6. Classification of sigmatropic hydrogen shifts with respect to basis set orbitals.

These are suprafacial sigmatropic shifts of order [1,5] and should occur with retention of configuration at the migrating carbon. This stereochemical course has been established for the 1,5-alkyl shift that converts 16 to 17. The product which is isolated, 18, results from a subsequent 1,5-hydrogen shift, but this does not alter the stereochemistry at the migrating... 

The most efficient intramolecular secondary processes competing with the acyl-alkyl diradical recombination in five-membered and larger cyclic ketones are hydrogen shifts resulting in the disproportionation of the diradical to either ketenes or unsaturated aldehydes [cf. (5) (4) (6)]. 

Here is the input file for an optimization of the transition structure for the reaction H3CO —t H2COH (a simple 1,2 hydrogen shift reaction). We specify a UHF calculation (open shell) since the molecular system is a doublet ... 

In this exercise, we continue our study of 03115 potential energy surface begun in Example 4.2. Another sort of transformation that cis 1-fluoropropene can undergo is a 1,3 hydrogen shift, resulting in 3-fluoropropene (left) ... 

An initial hydrogen shift from the central carbon to the terminal carbon, forming a methyl group (I—>11) ... 

Let us finally consider two Z-matrices for optimization to transition structures, the Diels-Alder reaction of butadiene and ethylene, and the [l,5]-hydrogen shift in Z-1,3-pentadiene. To enforce the symmetries of the TSs (Cj in both cases) it is again advantageous to use dummy atoms. 

The [l,5]-hydrogen shift in Z-l,3-pentadiene is an example of a narcissistic reaction, with the reactant and product being identical. The TS is therefore located exactly at half-way, and has a symmetry different from either the reactant or product. By suitable constraints on the geometry the TS may therefore be located by a minimization within a symmetry consti ained geometry. 

Figure E.6 Atom numbering for the transition structure for the [l,5]-hydrogen shift in 1,3-pentadiene...

Tire only known example of 1,2,3-triazepine (32) behaves as a reactive cyclic triazene with a high degree of masked diazonium character [74JCS(P1)1248]. 277-1,2,4-Triazepine (33a) has been obtained from the 577-tautomer (33b) by a 1,5-hydrogen shift (74CC45,74TL2303), this being one of these rare cases that an antiaromatic tautomer 33a is more stable than the nonaromatic one 33b. But it must be noted that these 277-1,2,4-tri-... 

Phenyl-3,4-dimethylphosphole is characterized by the transfer of the phenyl group and a [l,5]-hydrogen shift at temperatures higher than 420 K [81JA4595 ... 

A likely pathway is also that in which the key stage is the addition of the second formamide molecule to the carbonyl group of the intermediate 157 to form the amide 159. The latter, with loss of water, closes the dihydropyrimidine ring 160, which undergoes aromatization to 4-metylpyrimidine via 1,4-hydrogen shift and decarbonylation. 

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