The Detosylation of Chiral 1,2-Bis(tosylamides)

Abstract: The deprotection of chiral 1,2-bis(tosylamides) to their corresponding 1,2-diamines is mostly unsuccessful under standard conditions. In a new methodology, the use of Mg/MeOH with sufficient steric additions allows the facile synthesis of 1,2-diamines in 78−98% yields. These results are rationalized using density functional theory and the examination of inner and outer-sphere reduction mechanisms.Note pubs.acs.org/joc

“…The Dolby group reduced three substates to the corresponding Birch-type products in 45% to quantitative yield using lithium, ethylenediamine, n -propylamine, and t -butanol ( 4 ). This method was moderately successful in one instance ( 21 ) and was not effective in the N -detosylation of a challenging substrate ( 22 ). Donohoe and House reported the reduction of electron-deficient arenes and heterocycles using di- tert -butylbiphenyl ($1000/mol; Sigma-Aldrich) and lithium at −78°C (Fig.…”

“…More broadly, the structure-reactivity relationship indicates the potential for (reverse) chemoselective reduction in synthesis. To control the selectivity, inner- and outer-sphere electron transfer processes may be considered ( 22 , 24 ). Our work also suggests a broader role for the alcohol than previously considered, including the product selectivity with naphthalene and indole systems.…”

Scalable Birch reduction with lithium and ethylenediamine in tetrahydrofuran

“…The Dolby group reduced three substates to the corresponding Birch-type products in 45% to quantitative yield using lithium, ethylenediamine, n -propylamine, and t -butanol ( 4 ). This method was moderately successful in one instance ( 21 ) and was not effective in the N -detosylation of a challenging substrate ( 22 ). Donohoe and House reported the reduction of electron-deficient arenes and heterocycles using di- tert -butylbiphenyl ($1000/mol; Sigma-Aldrich) and lithium at −78°C (Fig.…”

“…More broadly, the structure-reactivity relationship indicates the potential for (reverse) chemoselective reduction in synthesis. To control the selectivity, inner- and outer-sphere electron transfer processes may be considered ( 22 , 24 ). Our work also suggests a broader role for the alcohol than previously considered, including the product selectivity with naphthalene and indole systems.…”

Scalable Birch reduction with lithium and ethylenediamine in tetrahydrofuran

“…Product 2aa can be reduced by LiAlH 4 to give monobenzenesulfonyl 13. In a solution of NaH, 13 was further reacted with iodomethane to produce the corresponding amine dimethylation product 14, and then by treatment with magnesium in methanol, [48][49][50] 1,3-diamine product 15 was successfully obtained (Scheme 4).…”

C(sp³)–H 1,3-diamination of cumene derivatives catalyzed by a dirhodium(ii) catalyst

“…Although alcohols are occasionally used to remove tosyl groups from amines under Birch reduction conditions, they are generally not required for the Birch reduction of electron-deficient arenes . A tosyl amide was also cleaved in the presence of lithium, n -propylamine, and ethylenediamine . However, the method was inefficient (30% yield), perhaps because neither THF nor t -butanol was used.…”

“…However, the method was inefficient (30% yield), perhaps because neither THF nor t -butanol was used. The underlying reason for our efficient detosylation method (and for reductive detosylation in general ,− ) is not yet understood, but the new method may find other applications in complex amine synthesis.…”

Improved Synthesis of the Amine Fragment of FR901464 and Thailanstatins through the Development of a Convenient N-Detosylation Method