Literature DB >> 20151644

Bifunctional asymmetric catalysis: amplification of Brønsted basicity can orthogonally increase the reactivity of a chiral Brønsted acid.

Tyler A Davis1, Jeremy C Wilt, Jeffrey N Johnston.   

Abstract

The reactivity of a series of symmetrical chiral Brønsted acids (polar ionic hydrogen-bond donors) follows the counterintuitive trend wherein the more Brønsted basic member is a more effective catalyst for the aza-Henry (nitro-Mannich) reaction. This new design element leads to a substantially more reactive catalyst for the aza-Henry reaction, one that can promote the addition of a secondary nitroalkane. Additionally, when an achiral Brønsted acid (TfOH) is used in slight excess of the neutral, chiral bisamidine ligand, diastereoselection can be optimized to levels generally greater than 15:1 while the enantioselection remains unchanged at generally >90% ee.

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Year:  2010        PMID: 20151644      PMCID: PMC2838452          DOI: 10.1021/ja908814h

Source DB:  PubMed          Journal:  J Am Chem Soc        ISSN: 0002-7863            Impact factor:   15.419


  37 in total

1.  In search of peptide-based catalysts for asymmetric organic synthesis.

Authors:  Scott J Miller
Journal:  Acc Chem Res       Date:  2004-08       Impact factor: 22.384

2.  Highly enantioselective thiourea-catalyzed nitro-Mannich reactions.

Authors:  Tehshik P Yoon; Eric N Jacobsen
Journal:  Angew Chem Int Ed Engl       Date:  2005-01-07       Impact factor: 15.336

Review 3.  A case study in biomimetic total synthesis: polyolefin carbocyclizations to terpenes and steroids.

Authors:  Ryan A Yoder; Jeffrey N Johnston
Journal:  Chem Rev       Date:  2005-12       Impact factor: 60.622

4.  Enantioselective aza-Henry reaction with an N-sulfinyl urea organocatalyst.

Authors:  MaryAnn T Robak; Monica Trincado; Jonathan A Ellman
Journal:  J Am Chem Soc       Date:  2007-11-16       Impact factor: 15.419

Review 5.  Chiral dialkylaminopyridine catalysts in asymmetric synthesis.

Authors:  Ryan P Wurz
Journal:  Chem Rev       Date:  2007-12       Impact factor: 60.622

6.  A Novel Bis-Thiourea Organocatalyst for the Asymmetric Aza-Henry Reaction.

Authors:  Constantinos Rampalakos; William D Wulff
Journal:  Adv Synth Catal       Date:  2008-08-04       Impact factor: 5.837

7.  The First Catalytic Asymmetric Nitro-Mannich-Type Reaction Promoted by a New Heterobimetallic Complex.

Authors: 
Journal:  Angew Chem Int Ed Engl       Date:  1999-12-03       Impact factor: 15.336

8.  Asymmetric catalytic aza-Henry reactions leading to 1,2-diamines and 1,2-diaminocarboxylic acids.

Authors:  Bernhard Westermann
Journal:  Angew Chem Int Ed Engl       Date:  2003-01-13       Impact factor: 15.336

9.  Asymmetric aza-Henry reaction under phase transfer catalysis: an experimental and theoretical study.

Authors:  Enrique Gomez-Bengoa; Anthony Linden; Rosa López; Idoia Múgica-Mendiola; Mikel Oiarbide; Claudio Palomo
Journal:  J Am Chem Soc       Date:  2008-05-30       Impact factor: 15.419

10.  Enantioselective aza-Henry reaction catalyzed by a bifunctional organocatalyst.

Authors:  Tomotaka Okino; Satoru Nakamura; Tomihiro Furukawa; Yoshiji Takemoto
Journal:  Org Lett       Date:  2004-02-19       Impact factor: 6.005
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  22 in total

1.  Chiral Brønsted base-promoted nitroalkane alkylation: enantioselective synthesis of sec-alkyl-3-substituted indoles.

Authors:  Mark C Dobish; Jeffrey N Johnston
Journal:  Org Lett       Date:  2010-11-19       Impact factor: 6.005

2.  Preparation of (-)-Nutlin-3 using enantioselective organocatalysis at decagram scale.

Authors:  Tyler A Davis; Anna E Vilgelm; Ann Richmond; Jeffrey N Johnston
Journal:  J Org Chem       Date:  2013-10-15       Impact factor: 4.354

3.  Enantioselective small molecule synthesis by carbon dioxide fixation using a dual Brønsted acid/base organocatalyst.

Authors:  Brandon A Vara; Thomas J Struble; Weiwei Wang; Mark C Dobish; Jeffrey N Johnston
Journal:  J Am Chem Soc       Date:  2015-06-03       Impact factor: 15.419

4.  Catalytic, Enantioselective Synthesis of Cyclic Carbamates from Dialkyl Amines by CO2-Capture: Discovery, Development, and Mechanism.

Authors:  Roozbeh Yousefi; Thomas J Struble; Jenna L Payne; Mahesh Vishe; Nathan D Schley; Jeffrey N Johnston
Journal:  J Am Chem Soc       Date:  2018-12-24       Impact factor: 15.419

5.  Catalytic, Enantioselective Synthesis of Stilbene cis-Diamines: A Concise Preparation of (-)-Nutlin-3, a Potent p53/MDM2 Inhibitor.

Authors:  Tyler A Davis; Jeffrey N Johnston
Journal:  Chem Sci       Date:  2011-03-25       Impact factor: 9.825

6.  Achiral counterion control of enantioselectivity in a Brønsted acid-catalyzed iodolactonization.

Authors:  Mark C Dobish; Jeffrey N Johnston
Journal:  J Am Chem Soc       Date:  2012-03-30       Impact factor: 15.419

7.  Chiral proton catalysis of secondary nitroalkane additions to azomethine: synthesis of a potent GlyT1 inhibitor.

Authors:  Tyler A Davis; Michael W Danneman; Jeffrey N Johnston
Journal:  Chem Commun (Camb)       Date:  2012-04-30       Impact factor: 6.222

8.  Organocatalytic, enantioselective synthesis of VNI: a robust therapeutic development platform for Chagas, a neglected tropical disease.

Authors:  Mark C Dobish; Fernando Villalta; Michael R Waterman; Galina I Lepesheva; Jeffrey N Johnston
Journal:  Org Lett       Date:  2012-12-07       Impact factor: 6.005

9.  Development of an Intermittent-Flow Enantioselective Aza-Henry Reaction Using an Arylnitromethane and Homogeneous Brønsted Acid-Base Catalyst with Recycle.

Authors:  Sergey V Tsukanov; Martin D Johnson; Scott A May; Morgan Rosemeyer; Michael A Watkins; Stanley P Kolis; Matthew H Yates; Jeffrey N Johnston
Journal:  Org Process Res Dev       Date:  2016-02-01       Impact factor: 3.317

10.  Enantioselective Synthesis of anti-1,2-Diamines by Cu-Catalyzed Reductive Couplings of Azadienes with Aldimines and Ketimines.

Authors:  Xinxin Shao; Kangnan Li; Steven J Malcolmson
Journal:  J Am Chem Soc       Date:  2018-05-30       Impact factor: 15.419
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