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Literature DB >> 21915778

Indole prenylation in alkaloid synthesis.

Thomas Lindel¹, Nils Marsch, Santosh Kumar Adla.

Abstract

Important biologically active indole alkaloids are decorated with prenyl (3,3-dimethylallyl) and tert-prenyl (1,1-dimethylallyl) groups. Covering the literature until the end of 2010, this review article comprehensively summarises and discusses the currently available technologies of prenylation and tert-prenylation of indoles, which have been applied in natural products total syntheses or could be applied there in the near future. We focus on those procedures which introduce the C(5) units in one step, organised according to the indole position to be functionalised. Key strategies include electrophilic and nucleophilic prenylation and tert-prenylation, prenyl and tert-prenyl rearrangements, transition metal-mediated reactions and enzymatic methods.

Entities: Chemical

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Year: 2012 PMID： 21915778 DOI： 10.1007/128_2011_204

Source DB: PubMed Journal: Top Curr Chem ISSN： 0340-1022

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Cited

13 in total

1. Site-directed mutagenesis switching a dimethylallyl tryptophan synthase to a specific tyrosine C3-prenylating enzyme.

Authors: Aili Fan; Georg Zocher; Edyta Stec; Thilo Stehle; Shu-Ming Li
Journal: J Biol Chem Date: 2014-12-04 Impact factor: 5.157

2. Mechanistic studies on CymD: a tryptophan reverse N-prenyltransferase.

Authors: Qi Qian; Andrew W Schultz; Bradley S Moore; Martin E Tanner
Journal: Biochemistry Date: 2012-09-19 Impact factor: 3.162

3. Friedel-Crafts Alkylation of Indoles with Trichloroacetimidates.

Authors: Tamie Suzuki; John D Chisholm
Journal: Tetrahedron Lett Date: 2019-04-03 Impact factor: 2.415

4. Palladium-catalyzed completely linear-selective Negishi cross-coupling of allylzinc halides with aryl and vinyl electrophiles.

Authors: Yang Yang; Thomas J L Mustard; Paul Ha-Yeon Cheong; Stephen L Buchwald
Journal: Angew Chem Int Ed Engl Date: 2013-11-08 Impact factor: 15.336

5. Ligand-controlled palladium-catalyzed regiodivergent Suzuki-Miyaura cross-coupling of allylboronates and aryl halides.

Authors: Yang Yang; Stephen L Buchwald
Journal: J Am Chem Soc Date: 2013-07-12 Impact factor: 15.419

6. Biochemical characterization of indole prenyltransferases: filling the last gap of prenylation positions by a 5-dimethylallyltryptophan synthase from Aspergillus clavatus.

Authors: Xia Yu; Yan Liu; Xiulan Xie; Xiao-Dong Zheng; Shu-Ming Li
Journal: J Biol Chem Date: 2011-11-28 Impact factor: 5.157

Indole prenylation in alkaloid synthesis.

1. Site-directed mutagenesis switching a dimethylallyl tryptophan synthase to a specific tyrosine C3-prenylating enzyme.

2. Mechanistic studies on CymD: a tryptophan reverse N-prenyltransferase.

3. Friedel-Crafts Alkylation of Indoles with Trichloroacetimidates.

4. Palladium-catalyzed completely linear-selective Negishi cross-coupling of allylzinc halides with aryl and vinyl electrophiles.

5. Ligand-controlled palladium-catalyzed regiodivergent Suzuki-Miyaura cross-coupling of allylboronates and aryl halides.

6. Biochemical characterization of indole prenyltransferases: filling the last gap of prenylation positions by a 5-dimethylallyltryptophan synthase from Aspergillus clavatus.

7. Alkyne Hydroheteroarylation: Enantioselective Coupling of Indoles and Alkynes via Rh-Hydride Catalysis.

8. Palladium-catalyzed synthesis of N-tert-prenylindoles.

9. Direct Assembly of Prenylated Heteroarenes through a Cascade Minisci Reaction/Dehydration Sequence.

10. SmI2-mediated dimerization of indolylbutenones and synthesis of the myxobacterial natural product indiacen B.