Oxa-Michael-Michael Reaction of MBH Alcohol and 2-Arylidene-1,3-indanedione: Regioselective Formal [4+2] Cycloaddition towards Tetrahydrospiropyran Scaffolds

[1]  Feng Sha,et al.  Catalytic asymmetric Tamura cycloaddition of homophthalic anhydrides with 2-arylidene-1,3-diones. , 2018, Organic & biomolecular chemistry.

[2]  D. Basavaiah,et al.  The Baylis–Hillman reaction: a new continent in organic chemistry – our philosophy, vision and over three decades of research , 2018 .

[3]  T. Gupta,et al.  Palladium-Catalyzed Reaction of MBH Acetates and Terminal Alkynes: Cascade Synthesis of Phenanthridine and 6-Arylethynylphenanthridine , 2018, European Journal of Organic Chemistry.

[4]  Raju Jannapu Reddy,et al.  An efficient synthesis of 4,5-disubstituted-2H-1,2,3-triazoles from nitroallylic derivatives via a cycloaddition–denitration process , 2018 .

[5]  Kwunmin Chen,et al.  Organocatalytic Synthesis of Spirocarbocycles , 2017, Mini-Reviews in Organic Chemistry.

[6]  Pengfei Li,et al.  A Catalyst‐Free Cycloaddition Reaction: Access to Spiro[chroman‐3,2’‐indene‐1’,3’‐dione] Scaffolds , 2017 .

[7]  D. Enders,et al.  Asymmetric organocatalytic methods for the synthesis of tetrahydropyrans and their application in total synthesis. , 2017, Chemical Society reviews.

[8]  Kwunmin Chen,et al.  Morita-Baylis-Hillman (MBH) Reaction Derived Nitroallylic Alcohols, Acetates and Amines as Synthons in Organocatalysis and Heterocycle Synthesis. , 2017, Chemical record.

[9]  S. Mukherjee,et al.  Catalytic enantioselective cascade Michael/cyclization reaction of 3-isothiocyanato oxindoles with exocyclic α,β-unsaturated ketones en route to 3,2'-pyrrolidinyl bispirooxindoles. , 2016, Organic & biomolecular chemistry.

[10]  Divya K. Nair,et al.  α-Functionalization of Nitroalkenes and Its Applications in Organic Synthesis , 2016, Synlett.

[11]  C. Sadasivan,et al.  Functionalised dihydroazo pyrimidine derivatives from Morita–Baylis–Hillman acetates: synthesis and studies against acetylcholinesterase as its inhibitors , 2016 .

[12]  D. Ramachary,et al.  Organocatalytic azomethine imine-olefin click reaction: high-yielding stereoselective synthesis of spiroindane-1,3-dione-pyrazolidinones. , 2016, Organic & biomolecular chemistry.

[13]  Ding-Yah Yang,et al.  Microwave-promoted, catalyst-free, multi-component reaction of proline, aldehyde, 1,3-diketone: one pot synthesis of pyrrolizidines and pyrrolizinones , 2016 .

[14]  S. Ramasastry,et al.  Morita-Baylis-Hillman Reaction of β,β-Disubstituted Enones: An Enantioselective Organocatalytic Approach for the Synthesis of Cyclopenta[b]annulated Arenes and Heteroarenes. , 2016, Angewandte Chemie.

[15]  Heinz Mehlhorn,et al.  Encyclopedia of Parasitology , 2016, Springer Berlin Heidelberg.

[16]  A. Devaraj,et al.  Synthesis of highly diversified 1,2,3-triazole derivatives via domino [3 + 2] azide cycloaddition and denitration reaction sequence , 2015 .

[17]  Kwunmin Chen,et al.  Organocatalytic synthesis of spirocyclohexane indane-1,3-diones via a chiral squaramide-catalyzed Michael/aldol cascade reaction of γ-nitro ketones and 2-arylideneindane-1,3-diones , 2015 .

[18]  A. Devaraj,et al.  Synthesis of benzoxepinopyrrolidines/spiropyrrolidines via oxa-Pictet–Spengler and [3+2] cycloaddition reactions , 2015 .

[19]  B. Sridhar,et al.  Domino Prins/pinacol reaction for the stereoselective synthesis of spiro[pyran-4,4'-quinoline]-2',3'-dione derivatives. , 2015, Organic & biomolecular chemistry.

[20]  S. Mobin,et al.  A remarkable solvent effect on the reaction of 4-hydroxycoumarin with (E)-3-aryl-2-nitroprop-2-enol: Facile synthesis of highly substituted furo/pyrano[3,2-c]chromenes , 2015 .

[21]  Kwunmin Chen,et al.  Organocatalytic desymmetrization of cyclic meso-anhydrides through enantioselective alcoholysis with functionalized primary nitroallylic alcohols , 2014 .

[22]  Seyyed Emad Hooshmand,et al.  Part I: Nitroalkenes in the synthesis of heterocyclic compounds , 2014 .

[23]  K. Jørgensen,et al.  Organocatalytic cascade reactions: towards the diversification of hydroisochromenes and chromenes through two different activation modes. , 2014, Chemistry.

[24]  Kwunmin Chen,et al.  Organocatalytic synthesis of substituted spirocyclohexane carbaldehydes via [4 + 2] annulation strategy between 2-arylideneindane-1,3-diones and glutaraldehyde. , 2014, Organic letters.

[25]  R. Poole,et al.  Tofogliflozin: First Global Approval , 2014, Drugs.

[26]  D. Enders,et al.  Asymmetric Synthesis of Functionalized Dihydro- and Tetrahydropyrans via an Organocatalytic Domino Michael-Hemiacetalization Reaction. , 2014, Synthesis.

[27]  L. Ouyang,et al.  Organocatalytic tandem Morita-Baylis-Hillman-Michael reaction for asymmetric synthesis of a drug-like oxa-spirocyclic indanone scaffold. , 2013, Chemical communications.

[28]  S. Mobin,et al.  Regiospecific synthesis of arenofurans via cascade reactions of arenols with Morita–Baylis–Hillman acetates of nitroalkenes and total synthesis of isoparvifuran , 2013 .

[29]  Y. Huang,et al.  Phosphine-catalyzed [4 + 2] annulation of γ-substituent allenoates: facile access to functionalized spirocyclic skeletons. , 2013, Organic letters.

[30]  D. Ramachary,et al.  Asymmetric synthesis of druglike six-membered spirooxindoles through an amino enyne catalysis. , 2013, Organic letters.

[31]  Kwunmin Chen,et al.  Synthesis of fully substituted dispirocyclohexanes by organocatalytic [2 + 2 + 2] annulation strategy between 2-arylideneindane-1,3-diones and aldehydes. , 2013, Organic letters.

[32]  Gene-Hsiang Lee,et al.  Organocatalytic Enantioselective Michael–Henry Acetalization of Glutaraldehyde and 3‐Aryl‐2‐nitroprop‐2‐enols: A Facile Entry to 3‐Oxabicyclo[3.3.1]nonan‐2‐ones with Four Consecutive Stereogenic Centers , 2013 .

[33]  Wenwei Lin,et al.  An efficient organocatalytic enantioselective synthesis of spironitrocyclopropanes. , 2013, Organic & biomolecular chemistry.

[34]  Jian-Wu Xie,et al.  Asymmetric catalytic [4 + 1] annulations catalyzed by quinidine: enantioselective synthesis of multi-functionalized isoxazoline N-oxides. , 2012, Organic & biomolecular chemistry.

[35]  A. Parra,et al.  Asymmetrische Synthese von Cyclobutanen über eine formale, durch Dienaminkatalyse kontrollierte [2+2]‐Cycloaddition , 2012 .

[36]  J. Alemán,et al.  Asymmetric synthesis of cyclobutanes by a formal [2+2] cycloaddition controlled by dienamine catalysis. , 2012, Angewandte Chemie.

[37]  M. Shi,et al.  Enantioselective synthesis of spirocyclic cyclopentenes: asymmetric [3+2] annulation of 2-arylideneindane-1,3-diones with MBH carbonates derivatives catalyzed by multifunctional thiourea–phosphines , 2012 .

[38]  J. Vicario,et al.  Cooperative dienamine/hydrogen-bonding catalysis: enantioselective formal [2+2] cycloaddition of enals with nitroalkenes. , 2012, Angewandte Chemie.

[39]  L. Yadav,et al.  A new application of Baylis–Hillman alcohols to a diastereoselective synthesis of 3-nitrothietanes , 2012 .

[40]  X. Yao,et al.  Houttuynoids A-E, anti-herpes simplex virus active flavonoids with novel skeletons from Houttuynia cordata. , 2012, Organic letters.

[41]  R. Rios Enantioselective methodologies for the synthesis of spiro compounds. , 2012, Chemical Society reviews.

[42]  C. Tedesco,et al.  Synthesis of Activated Cyclopropanes by an MIRC Strategy: An Enantioselective Organocatalytic Approach to Spirocyclopropanes , 2011 .

[43]  I. Namboothiri,et al.  Regioselective synthesis of sulfonylpyrazoles via base mediated reaction of diazosulfones with nitroalkenes and a facile entry into Withasomnine. , 2011, Organic letters.

[44]  Xuejun Jiang,et al.  Virgatolides A-C, benzannulated spiroketals from the plant endophytic fungus Pestalotiopsis virgatula. , 2011, Organic letters.

[45]  D. Ma,et al.  Organocatalytic approach to polysubstituted piperidines and tetrahydropyrans. , 2011, Organic letters.

[46]  Y. Wang,et al.  Thiophosphoramide catalyzed asymmetric Michael addition of acetone to functionalized nitrostyrenes: a convenient approach to optically active tetrahydropyrans , 2010 .

[47]  D. Basavaiah,et al.  Recent contributions from the Baylis-Hillman reaction to organic chemistry. , 2010, Chemical reviews.

[48]  I. Namboothiri,et al.  Phosphonylpyrazoles from Bestmann-Ohira reagent and nitroalkenes: synthesis and dynamic NMR studies. , 2010, The Journal of organic chemistry.

[49]  M. Recanatini,et al.  Identification of biphenyl-based hybrid molecules able to decrease the intracellular level of Bcl-2 protein in Bcl-2 overexpressing leukemia cells. , 2009, Journal of medicinal chemistry.

[50]  S. Chandrasekhar,et al.  Enantiopure cycloalkane fused tetrahydropyrans through domino Michael-ketalizations with organocatalysis. , 2009, Chemical communications.

[51]  S. Batra,et al.  Advances in the Baylis–Hillman reaction-assisted synthesis of cyclic frameworks , 2008 .

[52]  Ashutosh Pratap Singh,et al.  Zinc mediated propenylation of Baylis-Hillman acetates , 2007 .

[53]  C. Shearer,et al.  Ophiocerins A-D and ophioceric acid: tetrahydropyran derivatives and an africane sesquiterpenoid from the freshwater aquatic fungus Ophioceras venezuelense. , 2005, Journal of natural products.

[54]  C. Barbas,et al.  Direct organocatalytic asymmetric heterodomino reactions: the Knoevenagel/Diels-Alder/epimerization sequence for the highly diastereoselective synthesis of symmetrical and nonsymmetrical synthons of benzoannelated centropolyquinanes. , 2004, The Journal of organic chemistry.

[55]  C. Yoakim,et al.  Discovery of the first series of inhibitors of human papillomavirus type 11: inhibition of the assembly of the E1-E2-Origin DNA complex. , 2003, Bioorganic & medicinal chemistry letters.

[56]  D. Basavaiah,et al.  Recent advances in the Baylis-Hillman reaction and applications. , 2003, Chemical reviews.

[57]  F. Vicente,et al.  Isolation and structure elucidation of coleophomones A and B, novel inhibitors of bacterial cell wall transglycosylase , 2000 .

[58]  YamadaKaoru,et al.  Isolation and structures of attenols A and B. novel bicyclic triols from the Chinese bivalve Pinna attenuata , 1999 .

[59]  M. Okuhara,et al.  New antitumor substances, FR901463, FR901464 and FR901465. II. Activities against experimental tumors in mice and mechanism of action. , 1996, The Journal of antibiotics.

[60]  Q. Mckellar,et al.  Avermectins and milbemycins. , 1996, Journal of veterinary pharmacology and therapeutics.

[61]  S. Esumi,et al.  Salinomycin, a new polyether antibiotic. , 1974, The Journal of antibiotics.

[62]  K. Morita,et al.  A Tertiary Phosphine-catalyzed Reaction of Acrylic Compounds with Aldehydes , 1968 .