Solid-Phase Organic Synthesis of Polyisoprenoid Alcohols with Traceless Sulfone Linker | Zendy

YiFan Chang | Zendy; Chen-Yu Liu | Zendy; ChihWei Guo | Zendy; Yen-Chih Wang | Zendy; JimMin Fang | Zendy; WeiChieh Cheng | Zendy

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Solid-Phase Organic Synthesis of Polyisoprenoid Alcohols with Traceless Sulfone Linker

Author(s) -

YiFan Chang,

Chen-Yu Liu,

ChihWei Guo,

Yen-Chih Wang,

JimMin Fang,

WeiChieh Cheng

Publication year - 2008

Publication title -

the journal of organic chemistry

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.2

H-Index - 228

eISSN - 1520-6904

pISSN - 0022-3263

DOI - 10.1021/jo8010182

Subject(s) - chemistry , linker , sulfone , carbanion , solid phase synthesis , phase (matter) , combinatorial chemistry , polymer , organic synthesis , palladium , sulfonyl , alkylation , organic chemistry , polymer chemistry , catalysis , peptide , biochemistry , alkyl , computer science , operating system

Solid-phase organic synthesis of polyprenols with a traceless sulfone linker is described. The polymer-bound benezenesulfinate is first linked with the "tail" building blocks of isoprenyl chlorides via S-alkylation. With use of dimsyl anion as an appropriate base, the polymer-bound alpha-sulfonyl carbanion is generated and coupled with other "body" building blocks in an efficient manner. After repeated processes and a global palladium-catalyzed desulfonation with LiEt 3BH as the reducing agent, the desired polyprenols with various chain lengths and geometrical configurations are obtained in 32-59% overall yields. The solid-phase synthesis offers the advantage in facile isolation of polyprenols without tedious operation or time-consuming purification.

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