Lewis Acid Catalyzed Friedel–Crafts Alkylation of Indoles and Other­ Electron-Rich Aromatic Compounds with Ethyl 2-(Diethoxyphosphoryl)acrylate and Tetraethyl Ethene-1,1-diylbis(phosphonate)

Elena A. Tarasenko; Irina P. Beletskaya

doi:10.1055/s-0036-1588660

RSS-Feed abonnieren

Bitte kopieren Sie die angezeigte URL und fügen sie dann in Ihren RSS-Reader ein.

https://www.thieme-connect.de/rss/thieme/de/10.1055-s-00000084.xml

Teilen / Bookmarken

Facebook Linkedin Weibo

PDF herunterladen

Synthesis 2017; 49(07): 1689-1701
DOI: 10.1055/s-0036-1588660

paper

Lewis Acid Catalyzed Friedel–Crafts Alkylation of Indoles and Other Electron-Rich Aromatic Compounds with Ethyl 2-(Diethoxyphosphoryl)acrylate and Tetraethyl Ethene-1,1-diylbis(phosphonate)

Elena A. Tarasenko

Department of Chemistry, M. V. Lomonosov Moscow State University, Leninskie Gory, GSP-1, Moscow 119991, Russian Federation eMail: beletska@org.chem.msu.ru

,

Irina P. Beletskaya*

Department of Chemistry, M. V. Lomonosov Moscow State University, Leninskie Gory, GSP-1, Moscow 119991, Russian Federation eMail: beletska@org.chem.msu.ru

› Institutsangaben

Weitere Informationen

Publikationsverlauf

Received: 19. September 2016

Accepted after revision: 27. Oktober 2016

Publikationsdatum:
01. Dezember 2016 (online)

Abstract
Volltext
Referenzen
Zusatzmaterial

Lizenzen und Reprints Alle Artikel dieser Rubrik

Abstract

Friedel–Crafts alkylation of indoles and other electron-rich aromatic compounds with ethyl 2-(diethoxyphosphoryl)acrylate and tetraethyl ethene-1,1-diylbis(phosphonate) was carried out in the presence of 5 mol% Cu(ClO₄)₂·6H₂O/2,2′-Bipy complex as a catalyst in acetonitrile at room temperature to afford a broad series of heteroaryl- and aryl-substituted 2-(diethoxyphosphoryl)propionates and ethyl-1,1-diylbis(phosphonates) in 58–96% yield.

Key words

Friedel–Crafts alkylation - Lewis acids - phosphonocarboxylates - bisphosphonates - indoles - heterocycles - aromatic compounds

Supporting Information

Supporting Information

References
1 Savignac P, Iorga B. Modern Phosphonate Chemistry . CRC Press; Boca Raton: 2003: 530

MissingFormLabel
Crossref Suche in Google Scholar

2a Wadsworth WS, Emmons WD. J. Am. Chem. Soc. 1961; 83: 1733

MissingFormLabel
Crossref Suche in Google Scholar
2b Bisceglia JA, Orelli LR. Curr. Org. Chem. 2015; 19: 744

MissingFormLabel
Crossref Suche in Google Scholar
2c Blakemore PR In Comprehensive Organic Synthesis . 2nd ed.; Vol. 1. Molander GA, Knochel P. Elsevier; Oxford: 2014: 516

MissingFormLabel
Crossref Suche in Google Scholar
2d Gu Y, Tian S.-K. Top. Curr. Chem. 2012; 327: 197

MissingFormLabel
PubMed Suche in Google Scholar
2e Korotchenko VN, Nenajdenko VG, Balenkova ES, Shastin AV. Russ. Chem. Rev. 2004; 73: 957

MissingFormLabel
Crossref Suche in Google Scholar

3 Bisceglia JA, Orelli LR. Curr. Org. Chem. 2012; 16: 2206

MissingFormLabel
Crossref Suche in Google Scholar

4a Chmielewska E, Kafarski P. Open Pharm. Sci. J. 2016; 3: 56

MissingFormLabel
Suche in Google Scholar
4b Demkowicz S, Rachon J, Daśko M, Kozak W. RSC Adv. 2016; 6: 7101

MissingFormLabel
Crossref Suche in Google Scholar
4c Galezowska J, Gumienna-Kontecka E. Coord. Chem. Rev. 2012; 256: 105

MissingFormLabel
Crossref Suche in Google Scholar
4d Lejczak B, Kafarski P. Top. Heterocycl. Chem. 2009; 20: 31

MissingFormLabel
Suche in Google Scholar

5a The Duration and Safety of Osteoporosis Treatment. Anabolic and Antiresorptive Therapy . Silverman SL, Abrahamsen B. Springer International Publishing; Switzerland: 2016

MissingFormLabel
Suche in Google Scholar
5b Russell RG. G. Bone (N. Y., NY, U. S.) 2011; 49: 2

MissingFormLabel
Crossref Suche in Google Scholar
5c Ebetino FH, Hogan A.-ML, Sun S, Tsoumpra MK, Duan X, Triffitt JT, Kwaasi AA, Dunford JE, Barnett BL, Oppermann U, Lundy MW, Boyde A, Kashemirov BA, McKenna CE, Russell RG. G. Bone (N. Y., NY, U. S.) 2011; 49: 20

MissingFormLabel
Crossref PubMed Suche in Google Scholar

6 Catterall JB, Cawston TE. Arthritis Res. Ther. 2003; 5: 12

MissingFormLabel
PubMed Suche in Google Scholar
7 Pazianas M, Abrahamsen B. Bone (N. Y., NY, U. S.) 2011; 49: 103

MissingFormLabel
Crossref PubMed Suche in Google Scholar

8a Joachimiak L, Janczewski L, Ciekot J, Boratynski J, Blazewska K. Org. Biomol. Chem. 2015; 13: 6844

MissingFormLabel
Crossref PubMed Suche in Google Scholar
8b Zhou X, Born EJ, Allen C, Holstein SA, Wiemer DF. Bioorg. Med. Chem. Lett. 2015; 25: 2331

MissingFormLabel
Crossref Suche in Google Scholar
8c Coxon FP, Joachimiak Ł, Najumudeen AK, Breen G, Gmach J, Oetken-Lindholm C, Way R, Dunford JE, Abankwa D, Błażewska KM. Eur. J. Med. Chem. 2014; 84: 77

MissingFormLabel
Crossref PubMed Suche in Google Scholar
8d Coxon FP, Taylor A, Stewart CA, Baron R, Seabra MC, Ebetino FH, Rogers MJ. Bone (N. Y., NY, U. S.) 2011; 49: 111

MissingFormLabel
Crossref PubMed Suche in Google Scholar
8e McKenna CE, Kashemirov BA, Błażewska KM, Mallard-Favier I, Stewart CA, Rojas J, Lundy MW, Ebetino FH, Baron RA, Dunford JE, Kirsten ML, Seabra MC, Bala JL, Marma MS, Rogers MJ, Coxon FP. J. Med. Chem. 2010; 53: 3454

MissingFormLabel
Crossref PubMed Suche in Google Scholar
8f Baron RA, Tavare R, Figueiredo AC, Blazewska KM, Kashemirov BA, McKenna CE, Ebetino FH, Taylor A, Rogers MJ, Coxon FP, Seabra MC. J. Biol. Chem. 2009; 284: 6861

MissingFormLabel
Crossref PubMed Suche in Google Scholar
8g Marma MS, Xia Z, Stewart C, Coxon F, Dunford JE, Baron R, Kashemirov BA, Ebetino FH, Triffitt JT, Russell RG. G, McKenna CE. J. Med. Chem. 2007; 50: 5967

MissingFormLabel
Crossref PubMed Suche in Google Scholar

9 Kiyama T, Tsuchiya M, Okada S, Oizumi T, Yamaguchi K, Sasaki K, Sugawara S, Endo Y. Biol. Pharm. Bull. 2016; 39: 712

MissingFormLabel
Crossref PubMed Suche in Google Scholar

10a Palmerini CA, Tartacca F, Mazzoni M, Granieri L, Goracci L, Scrascia A, Lepri S. Eur. J. Med. Chem. 2015; 102: 403

MissingFormLabel
Crossref PubMed Suche in Google Scholar
10b Gritzalis D, Park J, Chiu W, Cho H, Lin Y.-S, De Schutter JW, Lacbay CM, Zielinski M, Berghuis AM, Tsantrizos YS. Bioorg. Med. Chem. Lett. 2015; 25: 1117

MissingFormLabel
Crossref Suche in Google Scholar

11a Sravanthi TV, Manju SL. Eur. J. Pharm. Sci. 2016; 91: 1

MissingFormLabel
Crossref PubMed Suche in Google Scholar
11b Sharma V, Kumar P, Pathak D. J. Heterocycl. Chem. 2010; 47: 491

MissingFormLabel
Suche in Google Scholar

12a Beletskaya IP, Averin AD. Curr. Organocatal. 2016; 3: 60

MissingFormLabel
Suche in Google Scholar
12b Garcia JM, Oiarbide M, Palomo C In Catalytic Asymmetric Friedel–Crafts Alkylations . Bandini M, Umani-Ronchi A. Wiley-VCH; Weinheim: 2009: 17

MissingFormLabel
Crossref Suche in Google Scholar

13 Couthon-Gourvès H, Simon G, Haelters J.-P, Corbel B. Synthesis 2006; 81

MissingFormLabel
Thieme Connect
14 Krawczyk H, Sliwinski M. Synthesis 2002; 1351

MissingFormLabel
Thieme Connect
15 Tasgin DI, Unaleroglu C. Synthesis 2013; 45: 193

MissingFormLabel
Crossref PubMed Suche in Google Scholar
16 Faita G, Mella M, Toscanini M, Desimoni G. Tetrahedron 2010; 66: 3024

MissingFormLabel
Crossref Suche in Google Scholar
17 Chiminazzo A, Sperni L, Damuzzo M, Strukul G, Scarso A. ChemCatChem 2014; 6: 2712

MissingFormLabel
Crossref Suche in Google Scholar
18 Johnson JW, Evanoff DP, Savard ME, Lange G, Ramadhar TR, Assoud A, Taylor NJ, Dmitrienko GI. J. Org. Chem. 2008; 73: 6970

MissingFormLabel
Crossref PubMed Suche in Google Scholar
19 Degenhardt CR, Burdsall DC. J. Org. Chem. 1986; 51: 3488

MissingFormLabel
Crossref Suche in Google Scholar

Zusatzmaterial

Supporting Information