Sulfenate Substitution as a Complement and Alternative to Sulfoxidation in the Diastereoselective Preparation of Chiral β‑Substituted β‑Amino Sulfoxides

Building from a previous communication, the reaction of sulfenate anions with chiral N-Boc-protected β-substituted β-amino iodides was evaluated as a conceptually different synthetic approach to chiral β-substituted β-amino sulfoxides. Using arenesulfenates, yields typically ranged from 71% to 92%,...

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Veröffentlicht in:	Journal of organic chemistry 2013-02, Vol.78 (4), p.1638-1649
Hauptverfasser:	Söderman, Stefan C, Schwan, Adrian L
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container_title	Journal of organic chemistry
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creator	Söderman, Stefan C Schwan, Adrian L
description	Building from a previous communication, the reaction of sulfenate anions with chiral N-Boc-protected β-substituted β-amino iodides was evaluated as a conceptually different synthetic approach to chiral β-substituted β-amino sulfoxides. Using arenesulfenates, yields typically ranged from 71% to 92%, and dr’s were often near 9:1. Alkanesulfenates proved less reactive, delivering lower yields and dr’s. 1-Alkenesulfenates demonstrated high reactivity, returning chemical yields of 60–86% and dr’s often close to 9:1 and as high as 95:5. (S)-β-Amino iodide electrophiles yielded (R S,S C)-β-amino sulfoxides, whereas (R)-amino iodides afford (S S,R C)-β-amino sulfoxides. The absolute configuration of the products makes the sulfenate protocol complementary to other existing preparations, including the commonly employed sulfoxidation of β-amino sulfides. The reactivity of N-Boc-protected 2-benzyl-2-aminoethyl iodide was found to be superior to the less sterically encumbered n-butyl iodide. A transition state model is proposed to account for the stereochemistry of the products and also for the high reactivity of the electrophile. Overall, the chemistry represents a new means of introducing sulfur stereogenicity in a molecule.
doi_str_mv	10.1021/jo302769b
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The reactivity of N-Boc-protected 2-benzyl-2-aminoethyl iodide was found to be superior to the less sterically encumbered n-butyl iodide. A transition state model is proposed to account for the stereochemistry of the products and also for the high reactivity of the electrophile. 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Org. Chem</addtitle><date>2013-02-15</date><risdate>2013</risdate><volume>78</volume><issue>4</issue><spage>1638</spage><epage>1649</epage><pages>1638-1649</pages><issn>0022-3263</issn><eissn>1520-6904</eissn><abstract>Building from a previous communication, the reaction of sulfenate anions with chiral N-Boc-protected β-substituted β-amino iodides was evaluated as a conceptually different synthetic approach to chiral β-substituted β-amino sulfoxides. Using arenesulfenates, yields typically ranged from 71% to 92%, and dr’s were often near 9:1. Alkanesulfenates proved less reactive, delivering lower yields and dr’s. 1-Alkenesulfenates demonstrated high reactivity, returning chemical yields of 60–86% and dr’s often close to 9:1 and as high as 95:5. (S)-β-Amino iodide electrophiles yielded (R S,S C)-β-amino sulfoxides, whereas (R)-amino iodides afford (S S,R C)-β-amino sulfoxides. 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title	Sulfenate Substitution as a Complement and Alternative to Sulfoxidation in the Diastereoselective Preparation of Chiral β‑Substituted β‑Amino Sulfoxides
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