Synthesis of Pterocarpans

Daniel M. , Purkayastha R.P. (1995) Handbook of Phytoalexin Metabolism and Action. Marcel Dekker Inc., New York, pp 1–615.

Schoening A. , Friedrichsen W. (1989) The stereochemistry of pterocarpanoids. A theoretical study. Zeitschrift fur Naturforschung B: Journal of Chemical Sciences, 44, 975–982.

DeMartinis C. , Mackay M.F. , Poppleton B.J. (1978) The crystal and molecular structure of (-)-phaseollin. Tetrahedron, 34, 1849–1852.

Deng Y. , Jiang Y. , Xi C. , Wu S. , Wang H. (2004) Crystal structure of (6aR,11aR)-4,9-dimethoxy-3-hydroxypterocarpan. Huaxue Wuli Xuebao, 17, 454–458.

Ajees A.A. , Sekar K. , Parthasarathy S. , Balakrishna K. (2000) Crystal and molecular structure of desmodin. Crystal Research and Technology, 35, 1117–1123.

Jimenez-Gonzalez L. , Alvarez-Corral M. , Muñoz-Dorado M. , Rodriguez-Garcia I. (2007) Pterocarpans: interesting natural products with antifungal activity and other biological properties. Phytochemistry Reviews, 7, 125–154.

Davies K.M. , Schwinn K.E. (2006) Molecular Biology and Biotechnology of Flavonoid Biosynthesis. In Flavonoids: Chemistry, Biochemistry and Applications, Andersen O.M. , Markham K.R. (Ed). Taylor & Francis, Boca Raton, 143–218.

Guo L. , Dixon R.A. , Paiva N.L. (1994) Conversion of vestitone to medicarpin in alfalfa (Medicago sativa L.) is catalyzed by two independent enzymes. Identification, purification, and characterization of vestitone reductase and 7,2′-dihydroxy-4′-methoxyisoflavanol dehydratase. Journal of Biological Chemistry, 269, 22372–22378.

Tahara S. , Tanaka M. , Barz W. (1997) Fungal metabolism of prenylated flavonoids. Phytochemistry, 44, 1031–1036.

Soby S. , Caldera S. , Bates R. , VanEtten H. (1996) Detoxification of the phytoalexins maackiain and medicarpin by fungal pathogens of alfalfa. Phytochemistry, 41, 759–765.

Bandara B.M. , Kumar N.S. , Samaranayake K.M. (1989) An antifungal constituent from the stem bark of Butea monosperma. Journal of Ethnopharmacology, 25, 73–75.

Stevenson P.C. , Turner H.C. , Haware M.P. (1997) Phytoalexin accumulation in the roots of chickpea (Cicer arietinum L) seedlings associated with resistance to fusarium wilt (Fusarium oxysporum f.sp. ciceri). Physiological and Molecular Plant Pathology, 50, 167–178.

Durango D. , Quinones W. , Torres F. , Rosero Y. , Gil J. , Echeverri F. (2002) Phytoalexin accumulation in Colombian bean varieties and aminosugars as elicitors. Molecules, 7, 817–832.

Wanjala C.C.W. , Juma B.F. , Bojase G. , Gashe B.A. , Majinda R.R.T. (2002) Erythrinaline alkaloids and antimicrobial flavonoids from Erythrina latissima. Planta Medica, 68, 640–642.

Mukherjee N. , Gupta P.K. , Adityachaudhury N. (1974) Antifungal activity of some pterocarpans and coumestans. Science and Culture, 40, 198–201.

Harborne J.B. , Ingham J.L. (1978) Biochemical Aspects of Plant and Animal Coevolution. In Annual Proceedings of the Phytochemical Society of Europe, No. 15, Harborne J.B. (Ed). Academic Press, London, UK, 343–405.

Mitscher L.A. , Okwute S.K. , Gollapudi S.R. , Drake S. , Avona E. (1988) Antimicrobial pterocarpans of Nigerian Erythrina mildbraedii. Phytochemistry, 27, 3449–3452.

Mitscher L.A. , Okwute S.K. , Gollapudi S.R. , Keshavarz-Shokri A. (1988) Antimicrobial agents from higher plants. The isolation and structural characterization of two additional pterocarpan antimicrobial agents from Nigerian Erythrina mildbraedii. Heterocycles, 27, 2517–2522.

Koysomboon S. , Van Altena I. , Kato S. , Chantrapromma K. (2006) Antimycobacterial flavonoids from Derris indica. Phytochemistry, 67, 1034–1040.

Chaudhuri S.K. , Huang L. , Fullas F. , Brown D.M. , Wani M.C. , Wall M.E. , Tucker J.C. , Beecher C.W.W. , Kinghorn A.D. (1995) Isolation and structure identification of an active DNA strand scission agent, (+)-3,4-dihydroxy-8,9-methylenedioxypterocarpan. Journal of Natural Products, 58, 1966–1969.

Maurich T. , Iorio M. , Chimenti D. , Turchi G. (2006) Erybraedin C and bitucarpin A, two structurally related pterocarpans purified from Bituminaria bituminosa, induced apoptosis in human colon adenocarcinoma cell lines MMR- and p53-proficient and - deficient in a dose-, time-, and structure-dependent fashion. Chemico-Biological Interactions, 159, 104–116.

Militao G.C.G. , Dantas I.N.F. , Pessoa C. , Falcao M.J. , Silveira E.R. , Lima M.A. , Curi R. , Lima T. , Moraes M.O. , Costa-Lotufo L.V. (2006) Induction of apoptosis by pterocarpans from Platymiscium floribundum in HL-60 human leukemia cells. Life Sciences, 78, 2409–2417.

Joseph C.C. , Ndoile M.M. , Malima R.C. , Nkunya M.H.H. (2004) Larvicidal and mosquitocidal extracts, a coumarin, isoflavonoids and pterocarpans from Neorautanenia mitis. Transactions of the Royal Society of Tropical Medicine and Hygiene, 98, 451–455.

Morimoto M. , Fukumto H. , Hiratani M. , Chavasiri W. , Komai K. (2006) Insect antifeedants, pterocarpans and pterocarpol, in heartwood of Pterocarpus macrocarpus Kruz. Bioscience Biotechnology and Biochemistry, 70, 1864–1868.

Engler T.A. , Lynch K.O. Jr. , Reddy J.P. , Gregory G.S. (1993) Synthetic pterocarpans with anti-HIV activity. Bioorganic and Medicinal Chemistry Letters, 3, 1229–1232.

Engler T.A. , LaTessa K.O. , Iyengar R. , Chai W. , Agrios K. (1996) Stereoselective syntheses of substituted pterocarpans with anti-HIV activity, and 5-aza-/5-thia-pterocarpan and 2-aryl-2,3-dihydrobenzofuran analogs. Bioorganic and Medicinal Chemistry, 4, 1755–1769.

Chanphen R. , Thebtaranonth Y. , Wanauppathamkul S. , Yuthavong Y. (1998) Antimalarial Principles from Artemisia indica. Journal of Natural Products, 61, 1146–1147.

Nakagawa M. , Nakanishi K. , Darko L.L. , Vick J.A. (1982) Structures of cabenegrins A-I and A-II, potent anti-snake venoms. Tetrahedron Letters, 23, 3855–3858.

Reyes-Chilpa R. , Gomez-Garibay F. , Quijano L. , Magos-Guerrero G.A. , Rios T. (1994) Preliminary results on the protective effect of (–)–edunol, a pterocarpan from Brongniartia podalyrioides (Leguminosae), against Bothrops atrox venom in mice. Journal of Ethnopharmacology, 42, 199–203.

Reyes-Chilpa R. , Jimenez-Estrada M. (1995) Chemistry of Antidotal Plants. Interciencia, 20, 257–263.

Mors W.B. , Do Nascimento M.C. , Parente J.P. , Da Silva M.H. , Melo P.A. , Suarez-Kurtz G. (1989) Neutralization of lethal and myotoxic activities of South American rattlesnake venom by extracts and constituents of the plant Eclipta prostrata (Asteraceae). Toxicon, 27, 1003–1009.

Cornia M. , Merlini L. (1975) Possible chemical analogy for pterocarpan biosynthesis. Journal of the Chemical Society, Chemical Communications, 428–429.

Breytenbach J.C. , Van Zyl J.J. , Van der Merwe P.J. , Rall G.J.H. , Roux D.G. (1981) Some photochemical and oxidative conversions of pterocarpans and isoflavans: functional requirements for cyclization of isoflavans to pterocarpans. Journal of the Chemical Society, Perkin Transactions 1, 2684–2691.

Ingham J.L. , Dewick P.M. (1979) A new isoflavan phytoalexin from leaflets of Lotus hispidus. Phytochemistry, 18, 1711–1714.

Horie T. , Shibata K. , Yamashita K. , Fujii K. , Tsukayama M. , Ohtsuru Y. (1998) Studies of the selective O-alkylation and dealkylation of flavonoids. XXIV. A convenient method for synthesizing 6- and 8-methoxylated 5,7-dihydroxyisoflavones. Chemical and Pharmaceutical Bulletin, 46, 222–230.

Farkas L. , Gottsegen A. , Nogradi M. , Antus S. (1974) Synthesis of sophorol, violanone, lonchocarpan, claussequinone, philenopteran, leiocalycin, and other natural isoflavonoids by the oxidative rearrangement of chalcones with thallium(III) nitrate. Journal of the Chemical Society, Perkin Transactions 1, 305–312.

Dewick P.M. (1975) Pterocarpan biosynthesis. Chalcone and isoflavone precursors of demethylhomopterocarpin and maackiain in Trifolium pratense. Phytochemistry, 14, 979–983.

Suesse M. , Johne S. , Hesse M. (1992) Synthesis and reactions of 2′-substituted isoflavones. Helvetica Chimica Acta, 75, 457–470.

Major A. , Nogradi M. , Vermes B. , Kajtar-Peredy M. (1988) Synthesis of the natural isoflav-3-enes haginin A, B, and D. Liebigs Annalen der Chemie, 555–558.

Ingham J.L. , Dewick P.M. (1980) Sparticarpin: a pterocarpan phytoalexin from Spartium junceum. Zeitschrift fur Naturforschung C: Journal of Biosciences, 35C, 197–200.

Nagy Z. , Nogradi M. , Suranyi M. , Szabo B. (1984) Synthesis of the pterocarpan constituents of Swartzia laevicarpa. Liebigs Annalen der Chemie, 127–132.

Antus S. , Gottsegen A. , Kolonits P. , Nagy Z. , Nogradi M. , Vermes B. (1982) Synthesis of some pterocarpenes obtained from Brya ebenus. Journal of the Chemical Society, Perkin Transactions 1, 1389–1394.

Dewick P.M. (1977) Biosynthesis of pterocarpan phytoalexins in Trifolium pratense. Phytochemistry, 16, 93–97.

Suginome H. , Iwadare T. (1960) The synthesis of the pterocarpin ring system. Bulletin of the Chemical Society of Japan, 33, 567–568.

Fukui K. , Nakayama M. , Harano T. (1969) Syntheses of pterocarpans. III. Synthetic analogs of neodulin. Bulletin of the Chemical Society of Japan, 42, 1693–1697.

Fukui K. , Nakayama M. , Harano T. (1969) Synthesis of 3-hydroxy-8,9-dimethoxypterocarpan. Bulletin of the Chemical Society of Japan, 42, 233–236.

Uchiyama M. , Matsui M. (1967) A new approach to the synthesis of isoflavones, 2-hydroxyisoflavones and an alternative synthesis of (±)-pterocarpin. Agricultural and Biological Chemistry, 31, 1490–1498.

Cocker W. , McMurry T.B.H. , Stanilad P.A. (1965) A synthesis of demethylhomopterocarpin. Journal of the Chemical Society, 1034–1037.

Kalra V.K. , Kukla A.S. , Seshadri T.R. (1967) Synthesis of new types of pterocarpans. Indian Journal of Chemistry, 5, 607–609.

Kalra V.K. , Kukla A.S. , Seshadri T.R. (1967) Syntheses of (±)-7,8,4′-trimethoxypterocarpan and (±)-7-hydroxy-8,4′-dimethoxypterocarpan. Tetrahedron, 23, 3221–3225.

Toth E. , Dinya Z. , Szilagyi L. , Antus S. (2001) Synthesis of deuterium labeled pterocarpans. Heterocyclic Communications, 7, 257–262.

Prasad A.V.K. , Kapil R.S. , Popli S.P. (1986) Synthesis of (±)-isomedicarpin, (±)-homopterocarpin and tuberostan: a novel entry of hydrogenative cyclization into pterocarpans. Journal of the Chemical Society, Perkin Transactions 1, 1561–1563.

Miki Y. , Kobayashi S. , Ogawa N. , Hachiken H. (1994) Reaction of chalcone with phenyliodine (III) bis(trifluoracetate) (PIFA): synthesis of (±)-homopterocarpin. Synlett, 1001–1002.

Miki Y. , Fujita R. , Matsushita Ki . (1998) Oxidative rearrangement of pentaalkoxychalcones with phenyliodine(III) bis(trifluoroacetate) (PIFA): synthesis of (±)-10-bromopterocarpin and (±)-pterocarpin. Journal of the Chemical Society, Perkin Transactions 1, 2533–2536.

Skouta R. , Li C.J. (2007) Rapid syntheses of (±)-pterocarpans and isoflavones via the gold-catalyzed annulation of aldehydes and alkynes. Tetrahedron Letters, 48, 8343–8346.

Skouta R. , Li C. (2007) Gold(I)-catalyzed annulation of salicylaldehydes and aryl acetylenes as an expedient route to isoflavanones. Angewandte Chemie International Edition, 46, 1117–1119.

Cook J.T. , Ollis W.D. , Sutherland I.O. , Gottlieb O.R. (1978) Isoflavonoid constituents of Dalbergia and Machaerium species. Part 5. Pterocarpans from Dalbergia spruceana. Phytochemistry, 17, 1419–1422.

Mori K. , Kisida H. (1988) Synthesis of pterocarpans. I. Synthesis of both the enantiomers of pterocarpin. Liebigs Annalen der Chemie, 721–723.

Mori K. , Kisida H. (1989) Syntheses of pterocarpans. II. Synthesis of both the enantiomers of pisatin. Liebigs Annalen der Chemie, 35–39.

Antus S. , Bauer R. , Gottsegen A. , Wagner H. (1990) Enantiomeric separation of racemic pterocarpans by high-performance liquid chromatography on (+)-poly(triphenylmethyl methacrylate)-coated silica gel. Journal of Chromatography, 508, 212–216.

Ozaki Y. , Mochida K. , Kim S.W. (1987) Aromatic annelation with α-phenylsulfinyl-γ-butyrolactones. A novel route to 4-(2-hydroxyalkyl)-1,3-benzenediols. Chemical and Pharmaceutical Bulletin, 35, 1790–1795.

Ozaki Y. , Mochida K. , Kim S.W. (1988) Aromatic ring formation by 1,3-Michael-Claisen annulation. Total synthesis of sophorapterocarpan A, maackianin, and anhydropisatin. Journal of the Chemical Society, Chemical Communications, 374–375.

Ozaki Y. , Mochida K. , Kim S.W. (1989) Total synthesis of sophorapterocarpan A, maackiain, and anhydropisatin: application of a 1.3- Michael-Claisen annulation to aromatic synthesis. Journal of the Chemical Society, Perkin Transactions 1, 1219–1224.

Horino H. , Inoue N. (1976) A new route to chromanocoumarans. Synthesis of (±)-pterocarpin. Journal of the Chemical Society, Chemical Communications, 500–501.

Breytenbach J.C. , Rall G.J.H. (1980) Structure and synthesis of isoflavonoid analogs from Neorautanenia amboensis Schinz. Journal of the Chemical Society, Perkin Transactions 1, 1804–1809.

Ishiguro M. , Tatsuoka T. , Nakatsuka N. (1982) Synthesis of (±)-cabenegrins A-I and A-II. Tetrahedron Letters, 23, 3859–3862.

Tokés A.L. , Litkei G. , Gulacsi K. , Antus S. , Baitz-Gacs E. , Szantay C. , Darko L.L. (1999) Absolute configuration and total synthesis of (–)–cabenegrin A-I. Tetrahedron, 55, 9283–9296.

Antus S. , Gulacsi K. , Juhasz L. , Kiss L. , Kurtan T. (2004) Synthesis of naturally occurring o-heterocyclic compounds of biological activity. Pure and Applied Chemistry, 76, 1025–1032.

da Silva A.J.M. , Melo P.A. , Silva N.M.V. , Brito F.V. , Buarque C.D. , de Souza D.V. , Rodrigues V.P. , Pocas E.S.C. , Noel F. , Albuquerque E.X. , Costa P.R.R. (2001) Synthesis and preliminary pharmacological evaluation of coumestans with different patterns of oxygenation. Bioorganic and Medicinal Chemistry Letters, 11, 283–286.

Netto C.D. , Santos E.S.J. , Castro C.P. , da Silva A.J.M. , Rumjanek V.M. , Costa P.R.R. (2009) (±)-3,4-Dihydroxy-8,9-methylenedioxypterocarpan and derivatives: Cytotoxic effect on human leukemia cell lines. European Journal of Medicinal Chemistry, 44, 920–925.

Coelho A.L. , Vasconcellos MLAA , Simas A.B.C. , Rabi J.A. , Costa P.R.R. (1992) A convenient synthesis of (±)-4-prenylpterocarpin. Synthesis, 914–916.

da Silva A.J.M. , Coelho A.L. , Simas A.B.C. , Moraes R.A.M. , Pinheiro D.A. , Fernandes F.F.A. , Arruda E.Z. , Costa P.R.R. , Melo P.A. (2004) Synthesis and pharmacological evaluation of prenylated and benzylated pterocarpans against snake venom. Bioorganic and Medicinal Chemistry Letters, 14, 431–435.

da Silva A.J.M. , Netto C.D. , Costa P.R.R. (2004) The first synthesis of (±)-3,4-dihydroxy-8,9-methylenedioxypterocarpan, an antitumoral agent and its coumestan derivative. Journal of the Brazilian Chemical Society, 15, 979–981.

Narkhede D.D. , Iyer P.R. , Iyer C.S.R. (1989) Synthesis of (±)-neorautane. Journal of Natural Products, 52, 502–505.

Subburaj K. , Katoch R. , Murugesh M.G. , Trivedi G.K. (1997) Regioselective total synthesis of (±)-neorautane, (±)-neorautanin and their analogs. Microwave mediated synthesis of 2H-chromenes from propargyl phenyl ethers. Tetrahedron, 53, 12621–12628.

Lichtenfels R.A. , Coelho A.L. , Costa P.R.R. (1995) Total synthesis of pterocarpan: (±)-neorautenane. Journal of the Chemical Society, Perkin Transactions 1, 949–951.

Narkhede D.D. , Iyer P.R. , Iyer C.S.R. (1990) Total synthesis of (±)-leiocarpin and (±)-isohemileiocarpin. Tetrahedron, 46, 2031–2034.

da Silva A.J.M. , Buarque C.D. , Brito F.V. , Aurelian L. , Macedo L.F. , Malkas L.H. , Hickey R.J. , Lopes D.V.S. , Noel F. , Murakami Y.L.B. , Silva N.M.V. , Melo P.A. , Caruso R.R.B. , Castro N.G. , Costa P.R.R. (2002) Synthesis and preliminary pharmacological evaluation of new (±) 1.4- naphthoquinones structurally related to lapachol. Bioorganic and Medicinal Chemistry, 10, 2731–2738.

da Silva A.J.M. , Netto C.D. , Pacienza-Lima W. , Torres-Santos E.C. , Rossi-Bergmann B. , Maurel S. , Valentin A. , Costa P.R.R. (2009) Antitumoral, antileishmanial and antimalarial activity of pentacyclic 1,4-naphthoquinone derivatives. Journal of the Brazilian Chemical Society, 20, 176–182.

Larock R.C. (1998) Synthesis of substituted pterocarpans. US Patent 57213717.

Kiss L. , Antus S. (2000) A convenient synthesis of pterocarpans. Heterocyclic Communications, 6, 309–314.

Kiss L. , Papp G. , Joo F. , Antus S. (2001) Efficient synthesis of pterocarpans by Heck-oxyarylation in ionic liquids. Heterocyclic Communications, 7, 417–420.

Kiss L. , Kurtan T. , Antus S. , Benyei A. (2003) Chiroptical properties and synthesis of enantiopure cis and trans pterocarpan skeleton. Chirality, 15, 558–563.

Netto C.D. , da Silva A.J.M. , Salustiano E.J.S. , Bacelar T.S. , Rica I.G. , Cavalcante M.C.M. , Rumjanek V.M. , Costa P.R.R. (2010) New pterocarpanquinones: Synthesis, antineoplastic activity on cultured human malignant cell lines and TNF-α modulation in human PBMC cells. Bioorganic and Medicinal Chemistry, 18, 1610–1616.

Gopalsamy A. , Balasubramanian K.K. (1988) Radical cyclization of 4-(o-bromophenoxy)-2H-1-benzopyrans; an efficient synthesis of pterocarpans. Journal of the Chemical Society, Chemical Communications, 28–29.

Santhosh K.C. , Gopalsamy A. , Balasubramanian K.K. (2001) Synthesis of pterocarpans by means of a “disfavored” 5-endo-trig radical cyclization reaction. European Journal of Organic Chemistry, 3461–3466.

Engler T.A. , Combrink K.D. , Ray J.E. (1988) Stereoselective 3 + 2 and stereospecific 2 + 2 cycloaddition reactions of alkenes and quinones. Journal of the American Chemical Society, 110, 7931–7933.

Engler T.A. , Combrink K.D. , Reddy J.P. (1989) A new regioselective synthesis of pterocarpans. Journal of the Chemical Society, Chemical Communications, 454–455.

Engler T.A. , Reddy J.P. , Combrink K.D. , Vander Velde D. (1990) Formal 2 + 2 and 3 + 2 cycloaddition reactions of 2H-chromenes with 2-alkoxy-1,4-benzoquinones: regioselective synthesis of substituted pterocarpans. Journal of Organic Chemistry, 55, 1248–1254.

Engler T.A. (1995) Stereo- and enantiospecific reactions of 1,4-benzoquinones with styrenyl systems: stereoselective syntheses of neolignans, pterocarpans and several naturally occurring 2-aryl-2,3-dihydrobenzofuran systems. In Studies in Natural Products Chemistry: Stereoselective Synthesis, Atta-ur-Rahman (Ed). Elsevier, Amsterdam, 547–569.

Engler T.A. , Letavic M.A. , Reddy J.P. (1991) Asymmetric induction in reactions of styrenes with 1,4-benzoquinones utilizing chiral titanium(IV) complexes. Journal of the American Chemical Society, 113, 5068–5070.

Engler T.A. , Letavic M.A. , Iyengar R. , LaTessa K.O. , Reddy J.P. (1999) Asymmetric reactions of 2-methoxy-1,4-benzoquinones with styrenyl systems: Enantioselective syntheses of 8-aryl-3-methoxybicyclo[4.2.0]oct-3-ene-2,5-diones, 7-Aryl-3-hydroxybicyclo[3.2.1]oct-3-ene-2,8-diones, 2-aryl-6-methoxy-2,3-dihydrobenzofuran-5-ols, and pterocarpans. Journal of Organic Chemistry, 64, 2391–2405.

Murugesh M.G. , Subburaj K. , Trivedi G.K. (1996) Regioselective synthesis of substituted pterocarpans and pterocarpenes. Lewis acid Ti(IV) promoted formal (3+2) cycloaddition reactions. Tetrahedron, 52, 2217–2228.

Subburaj K. , Murugesh M.G. , Trivedi G.K. (1996) ZnCl₂ promoted formal (3+2) cycloaddition reactions of 2-alkoxy-1,4-benzoquinones with 2H-chromenes. Synthetic Communications, 26, 2881–2893.

Evangelista E.A. , Couri M.R.C. , Raslan D.S. , Alves R.B. (2006) Synthesis of new pterocarpans and rapid O-alkylation under microwave irradiation. Heteroatom Chemistry, 17, 239–244.

Subburaj K. , Murugesh M.G. , Trivedi G.K. (1997) Regioselective total synthesis of edulane and its angular analog. Journal of the Chemical Society, Perkin Transactions 1, 1875–1878.

Ventura C.P. , Maira dO V. , Ferreira E.A.E. , de Freitas R.P. , Alves R.B. (2010) Fast [3+2] cycloaddition in synthesis of (±)-pterocarpans under microwave irradiation. Letters in Organic Chemistry, 7, 348–352.

Engler T.A. , Lynch K.O. Jr. , Chai W. , Meduna S.P. (1995) Cycloaddition reactions of 1,4-benzoquinone mono- and bisimides with styrenyl systems: new syntheses of nitrogen substituted azapterocarpans, pterocarpans, 2-aryl-2,3-dihydroindoles and - dihydrobenzofurans. Tetrahedron Letters, 36, 2713–2716.

Engler T.A. , Chai W. , Lynch K.O. Jr. . (1995) Switchable regioselectivity in Lewis acid-promoted reactions of 1,4-benzoquinone monoimides with styrenyl systems: selective syntheses of either 2-aryl-2,3-dihydrobenzofurans or 2-aryl-2,3-dihydroindoles. Tetrahedron Letters, 36, 7003–7006.

Engler T.A. , Chai W. , LaTessa K.O. (1996) Lewis acid-controlled regioselectivity in reactions of styrenyl systems with benzoquinone monoimides: New regioselective syntheses of substituted 2-sryl-2,3-dihydrobenzofurans, 2-aryl-2,3-dihydroindoles, and 2-arylindoles. Journal of Organic Chemistry, 61, 9297–9308.

Engler T.A. , Meduna S.P. , LaTessa K.O. , Chai W. (1996) Lewis acid-promoted reactions of styrenyl systems with benzoquinone bisimines: New regioselective syntheses of substituted 2-aryl-2,3-dihydroindoles and 2-arylindoles. Journal of Organic Chemistry, 61, 8598–8603.

Engler T.A. , Scheibe C.M. (1998) Lewis acid-promoted reactions of 3-methoxy-N-(benzenesulfonyl)-1,4-benzoquinone monoimine with propenylbenzenes. Journal of Organic Chemistry, 63, 6247–6253.

Mohr A.L. , Lombardo V.M. , Arisco T.M. , Morrow G.W. (2009) Synthesis of pterocarpan-type heterocycles via oxidative cycloadditions of phenols and electron-rich arenes. Synthetic Communications, 39, 3845–3855.

Jimenez-Gonzalez L. , Alvarez-Corral M. , Muñoz-Dorado M. , Rodriguez-Garcia I. (2005) A concise and diastereoselective total synthesis of cis and trans-pterocarpans. Chemical Communications, 2689–2691.

Jimenez-Gonzalez L. , Garcia-Muñoz S. , Alvarez-Corral M. , Muñoz-Dorado M. , Rodriguez-Garcia I. (2007) Diastereoselective synthesis of 2-aryl-3-vinyl-2,3-dihydrobenzo[b]furans through a Sakurai reaction: a mechanistic proposal. Chemistry A European Journal, 13, 557–568.

Jimenez-Gonzalez L. , Garcia-Muñoz S. , Alvarez-Corral M. , Muñoz-Dorado M. , Rodriguez-Garcia I. (2006) Silver-catalyzed asymmetric synthesis of 2,3-dihydrobenzofurans: a new chiral synthesis of pterocarpans. Chemistry A European Journal, 12, 8762–8769.

Alvarez-Corral M. , Lopez-Sanchez C. , Jimenez-Gonzalez L. , Rosales A. , Muñoz-Dorado M. , Rodriguez-Garcia I. (2007) Reaction of benzoxasilocines with aromatic aldehydes: synthesis of homopterocarpans. Beilstein Journal of Organic Chemistry, 3.

van Aardt T.G. , van Heerden P.S. , Ferreira D. (1998) The first direct synthesis of pterocarpans via aldol condensation of phenylacetates with benzaldehydes. Tetrahedron Letters, 39, 3881–3884.

van Aardt T.G. , van Rensburg H. , Ferreira D. (1999) Direct synthesis of pterocarpans via aldol condensation of phenylacetates with benzaldehydes. Tetrahedron, 55, 11773–11786.

van Aardt T.G. , van Rensburg H. , Ferreira D. (2001) Synthesis of isoflavonoids. Enantiopure cis- and trans-6a-hydroxypterocarpans and a racemic trans-pterocarpan. Tetrahedron, 57, 7113–7126.

Fukui K. , Nakayama M. , Tsuge H. , Tsuzuki K. (1968) The synthesis of (±)-maackiain. Experientia, 24, 536–537.

Fukui K. , Nakayama M. , Tsuzuri K. (1969) The synthesis of (±)-4-methoxypterocarpin. Experientia, 25, 122–123.

Fukui K. , Nakayama M. (1966) Total synthesis of (±)-pterocarpin and (±)-pisatin. Tetrahedron Letters, 7, 1805–1808.

Fukui K. , Nakayama M. (1969) Syntheses of pterocarpans. II. Synthesis of (±)-pterocarpin. Bulletin of the Chemical Society of Japan, 42, 1408–1411.

Fukui K. , Nakayama M. , Tsuzuki K. (1969) Syntheses of pterocarpans. IV. New synthesis of 3,8,9-trimethoxypterocarpan. Bulletin of the Chemical Society of Japan, 42, 2395–2396.

Wanzlick H.W. , Gritzky R. , Heidepriem H. (1963) The synthesis of wedelolactone. Chemische Berichte, 96, 305–307.

Bouwer D. , Brink CVd , Engelbrecht J.P. , Rall G.J.H. (1968) Neorautanenia isoflavanoids. III. 4-Methoxypterocarpin, a new pterocarpan from Neorautanenia ficifolia. Journal of the South African Chemical Institute, 21, 159–163.

Fürstner A. , Davies P.W. (2005) Heterocycles by PtCl₂-catalyzed intramolecular carboalkoxylation or carboamination of alkynes. Journal of the American Chemical Society, 127, 15024–15025.

Bevan C.W.L. , Birch A.J. , Moore B. , Mukerjee S.K. (1964) A partial synthesis of (±)-pisatin. Some remarks on the structure and reactions of pterocarpin. Journal of the Chemical Society, 5991–5995.

Pinard E. , Gaudry M. , Henot F. , Thellend A. (1998) Asymmetric total synthesis (+)-pisatin, a phytoalexin from garden peas (Pisum sativum L.). Tetrahedron Letters, 39, 2739–2742.

Kiss L. , Szilagyi L. , Antus S. (2002) A simple conversion of 2′-benzyloxyflavanone to pterocarpan. Zeitschrift fur Naturforschung B: Journal of Chemical Sciences, 57, 1165–1168.

Kraus G.A. , Wei J. (2005) Phytochemical medicinal agents. A quinone-based route to pterocarpins. Tetrahedron Letters, 46, 7511–7513.