Acid‐Induced and Reductive Transfor­mations of Enantiopure 3,6‐Dihydro‐2<i>H</i>‐1,2‐oxazines – Synthesis of Dideoxyamino Carbohydrate Derivatives

Bressel, B.; Egart, Boris; Al‐Harrasi, Ahmed; Pulz, Robert; Reißig, Hans‐Ulrich; Brüdgam, Irene

doi:10.1002/ejoc.200700792

Cited by 26 publications

(23 citation statements)

References 32 publications

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“…Because of the presence of the acetonide moieties in their side chains, 1,2‐oxazines such as syn ‐ 5 or anti ‐ 2 should be ideal candidates for Brønsted‐acid‐mediated transformations. This stereoselective approach to aminosugar derivatives had been explored earlier by our group 2b,14. By the general protocol, with p ‐toluenesulfonyl chloride in methanol as a source of hydrogen chloride, transformation of syn ‐ 5 ( dr = 90:10) furnished bicyclic compound 12 as the only isolated product in an excellent 86 % yield (Scheme ).…”

Section: Resultsmentioning

confidence: 99%

Application of L‐Erythrose‐Derived Nitrones in the Synthesis of Polyhydroxylated Compounds via 3,6‐Dihydro‐2H‐1,2‐oxazine Derivatives

Jasiński¹,

Lentz²,

Moreno‐Clavijo³

et al. 2012

Eur J Org Chem

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Enantiopure 3,6‐dihydro‐2H‐1,2‐oxazines were prepared by [3+3] cyclisations starting from lithiated methoxyallene and the L‐erythrose‐derived nitrones 1′ and 3. The role of the side‐chain protective group, which steers the highly selective formation of either anti‐ or syn‐configured products, was demonstrated. A hydroboration/oxidation protocol smoothly converted 1,2‐oxazine derivative syn‐5 into secondary alcohol 6. After deprotection, polyhydroxylated tetrahydro‐2H‐1,2‐oxazine 11, which can be regarded as an azasugar, was isolated. Analogous treatment of 1,2‐oxazine anti‐5 with the borane not only provided the expected secondary alcohol 7, but it also induced reduction of the C=C bond and ring opening. Treatment of syn‐5 and anti‐2 with hydrochloric acid in methanol induced deprotections and cyclisations leading to bicyclic tetrahydro‐2H‐1,2‐oxazine derivatives. The second ring can be either a furan or a pyran ring. In the syn series, furan derivative 12 was formed exclusively, and its hydrogenolysis led to enantiopure aminofuran derivative 14. Acid‐promoted rearrangement of unprotected anti‐2 led to a mixture of bicyclic compounds with furan or pyran rings fused to the 1,2‐oxazine core. However, when TBDPS‐protected compound 20 was used it cleanly led to 1,2‐oxazine 21 with a fused furan ring and then to aminofuran 22. Alternatively, the N–O bond in unprotected anti‐2 was chemoselectively reduced with samarium diiodide, efficiently generating highly functionalized allylic alcohol 23. Acid‐promoted cyclisation and deprotection furnished furan derivative 24. Mechanistic suggestions to explain the different outcomes of the acid‐induced transformations are provided. Overall, it is demonstrated that the stereodivergent addition of lithiated alkoxyallenes to L‐erythrose‐derived nitrones allow flexible access to a series of enantiopure amino polyols, including aminofuran derivatives.

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Section: Resultsmentioning

confidence: 99%

Application of L‐Erythrose‐Derived Nitrones in the Synthesis of Polyhydroxylated Compounds via 3,6‐Dihydro‐2H‐1,2‐oxazine Derivatives

Jasiński¹,

Lentz²,

Moreno‐Clavijo³

et al. 2012

Eur J Org Chem

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“…The configuration of 5 aa was confirmed by the single-crystal X-ray diffraction analysis. [14] Surprisingly, other commonly used metal catalysts such as Sc(OTf) 3 , Sn(OTf) 2 , Cu(OTf) 2 , Yb(OTf) 3 , Y(OTf) 3 , In-(OTf) 3 , and Ni(ClO 4 ) 2 ·6 H 2 O showed almost no catalytic activity, even at elevated reaction temperatures (40 8C). AgOTf and AuCl 3 also catalyzed this transformation but gave lower product yields.…”

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confidence: 97%

“…The configuration of the cycloadducts derived from acyclic ketones 1 d-i, which may be different from cyclic ketones, was also confirmed by the X-ray crystallographic analysis of 5 da. [14] Notably, the catalyst loading could be reduced to 0.2 mol % without any loss in the yield and diastereoselectivity on a 5 mmol scale reaction (Scheme 2). For example, the reactions of 2 a (5.5 mmol) with 1 a (5.15 mmol) or 1 d (5.0 mmol) was complete within 20 minutes to yield 1.97 grams of 5 aa (97 % yield upon isolation; turnover number is about 500) or 2.01 grams of 5 da (91 % yield upon isolation), respectively.…”

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confidence: 99%

“…The compounds cis-5 aa and cis-5 da were converted into functionalized tetrasubstituted amino alcohol containing furans 6 and 8, respectively, by SmI 2 -mediated reductive cleavage of the NÀO bond. [15] Alternatively, the functionalized 1,2-oxazines 7 and 9 were obtained in moderate yields by treatment of cis-5 aa and cis-5 da, respectively, with cerium(IV) ammonium nitrate (CAN). [16] A plausible stepwise reaction pathway for this gold(I)-catalyzed transformation is depicted in Scheme 5.…”

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Highly Substituted Furo[3,4‐d][1,2]oxazines: Gold‐Catalyzed Regiospecific and Diastereoselective 1,3‐Dipolar Cycloaddition of 2‐(1‐Alkynyl)‐2‐alken‐1‐ones with Nitrones

2009

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“…The synthetic utility of diverse 1,2-oxazine derivatives leading to polyfunctionalized compounds of potentially biological significance is well documented. [25] For that reason, cycloadduct 30 was treated with an excess of SmI 2 to give unsaturated amino alcohol 31 in 72 % yield. [26] A surprising resistance of the 3,6-dihydro-1,2-oxazine 30 to undergo exhaustive hydrogenation was observed employing palladium on charcoal as a catalyst.…”

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confidence: 99%

Reactions of Cycloaliphatic Thioketones and Their Oxo Analogues with Lithiated Methoxyallene: A New Approach to Vinylthiiranes

Jasiński

Mlostoń

Stolarski

et al. 2014

Chemistry An Asian Journal

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Admantanethione smoothly reacted with lithiated methoxyallene at low temperatures yielding the expected allenyl-substituted thiolate, which upon aqueous work-up underwent spontaneous 1,3-cyclization to afford a hitherto unknown methoxy-substituted vinylthiirane derivative. The analogous reaction with adamantanone led to the corresponding allenyl alcohol that can be isolated and--depending on the conditions applied--either be converted into the corresponding vinyloxirane or into the 2,5-dihydrofuran derivative. Sterically more crowded thioketones were also combined with lithiated methoxyallene, but in these cases competitive 1,5-cyclization leading to isomeric dihydrothiophene derivatives was observed. DFT calculations of model intermediates and products show distinct energy differences of the sulfur and the corresponding oxygen compounds. Desulfurization of the adamantanethione-derived vinylthiirane yielded a methoxy-substituted 1,3-diene that was studied in cycloadditions with electron-deficient dienophiles. Whereas in the case of tetracyanoethylene the corresponding cyclobutane derivative was formed, the reaction with nitrosobenzene provided the expected 1,2-oxazine derivative. By reductive cleavage of the N-O bond this heterocycle was converted into an unsaturated amino alcohol bearing an adamantane moiety.

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Acid‐Induced and Reductive Transformations of Enantiopure 3,6‐Dihydro‐2H‐1,2‐oxazines – Synthesis of Dideoxyamino Carbohydrate Derivatives

Cited by 26 publications

References 32 publications

Application of L‐Erythrose‐Derived Nitrones in the Synthesis of Polyhydroxylated Compounds via 3,6‐Dihydro‐2H‐1,2‐oxazine Derivatives

Application of L‐Erythrose‐Derived Nitrones in the Synthesis of Polyhydroxylated Compounds via 3,6‐Dihydro‐2H‐1,2‐oxazine Derivatives

Highly Substituted Furo[3,4‐d][1,2]oxazines: Gold‐Catalyzed Regiospecific and Diastereoselective 1,3‐Dipolar Cycloaddition of 2‐(1‐Alkynyl)‐2‐alken‐1‐ones with Nitrones

Reactions of Cycloaliphatic Thioketones and Their Oxo Analogues with Lithiated Methoxyallene: A New Approach to Vinylthiiranes

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Acid‐Induced and Reductive Transfor­mations of Enantiopure 3,6‐Dihydro‐2H‐1,2‐oxazines – Synthesis of Dideoxyamino Carbohydrate Derivatives

Cited by 26 publications

References 32 publications

Application of L‐Erythrose‐Derived Nitrones in the Synthesis of Polyhydroxylated Compounds via 3,6‐Dihydro‐2H‐1,2‐oxazine Derivatives

Application of L‐Erythrose‐Derived Nitrones in the Synthesis of Polyhydroxylated Compounds via 3,6‐Dihydro‐2H‐1,2‐oxazine Derivatives

Highly Substituted Furo[3,4‐d][1,2]oxazines: Gold‐Catalyzed Regiospecific and Diastereoselective 1,3‐Dipolar Cycloaddition of 2‐(1‐Alkynyl)‐2‐alken‐1‐ones with Nitrones

Reactions of Cycloaliphatic Thioketones and Their Oxo Analogues with Lithiated Methoxyallene: A New Approach to Vinylthiiranes

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Acid‐Induced and Reductive Transformations of Enantiopure 3,6‐Dihydro‐2H‐1,2‐oxazines – Synthesis of Dideoxyamino Carbohydrate Derivatives