Polyketide decarboxylative chain termination preceded by O-sulfonation in curacin A biosynthesis

Liangcai Gu; Bo Wang; Amol Kulkarni; Jennifer J. Gehret; Kayla R. Lloyd; Lena Gerwick; William H. Gerwick; Peter Wipf; Kristina Håkansson; Janet L. Smith; David H. Sherman

doi:10.1021/ja9071578

Polyketide decarboxylative chain termination preceded by O-sulfonation in curacin A biosynthesis

Liangcai Gu, Bo Wang, Amol Kulkarni, Jennifer J. Gehret, Kayla R. Lloyd, Lena Gerwick, William H. Gerwick, Peter Wipf, Kristina Håkansson, Janet L. Smith, David H. Sherman

科研成果: 期刊稿件 › 文章 › 同行评审

77 引用（Scopus）

摘要

(Figure Presented) Biosynthetic innovation in natural product systems is driven by the recruitment of new genes and enzymes into these complex pathways. Here, an unprecedented decarboxylative chain termination mechanism is described for the polyketide synthase of curacin A, an anticancer lead compound isolated from the marine cyanobacterium Lyngbya majuscula. The unusual chain termination module containing adjacent sulfotransferase (ST) and thioesterase (TE) catalytic domains embedded in CurM was biochemically characterized. The TE was proved to catalyze a hydrolytic chain release of the polyketide chain elongation intermediate. Moreover, a selective ST-mediated sulfonation of the (R)-β-hydroxyl group was found to precede TE-mediated hydrolysis, triggering a successive decarboxylative elimination and resulting in the formation of a rare terminal olefin in the final metabolite.

源语言	英语
页（从-至）	16033-16035
页数	3
期刊	Journal of the American Chemical Society
卷	131
期	44
DOI	https://doi.org/10.1021/ja9071578
出版状态	已出版 - 2009
已对外发布	是

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title = "Polyketide decarboxylative chain termination preceded by O-sulfonation in curacin A biosynthesis",

abstract = "(Figure Presented) Biosynthetic innovation in natural product systems is driven by the recruitment of new genes and enzymes into these complex pathways. Here, an unprecedented decarboxylative chain termination mechanism is described for the polyketide synthase of curacin A, an anticancer lead compound isolated from the marine cyanobacterium Lyngbya majuscula. The unusual chain termination module containing adjacent sulfotransferase (ST) and thioesterase (TE) catalytic domains embedded in CurM was biochemically characterized. The TE was proved to catalyze a hydrolytic chain release of the polyketide chain elongation intermediate. Moreover, a selective ST-mediated sulfonation of the (R)-β-hydroxyl group was found to precede TE-mediated hydrolysis, triggering a successive decarboxylative elimination and resulting in the formation of a rare terminal olefin in the final metabolite.",

author = "Liangcai Gu and Bo Wang and Amol Kulkarni and Gehret, {Jennifer J.} and Lloyd, {Kayla R.} and Lena Gerwick and Gerwick, {William H.} and Peter Wipf and Kristina H{\aa}kansson and Smith, {Janet L.} and Sherman, {David H.}",

year = "2009",

doi = "10.1021/ja9071578",

language = "English",

volume = "131",

pages = "16033--16035",

journal = "Journal of the American Chemical Society",

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TY - JOUR

T1 - Polyketide decarboxylative chain termination preceded by O-sulfonation in curacin A biosynthesis

AU - Gu, Liangcai

AU - Wang, Bo

AU - Kulkarni, Amol

AU - Gehret, Jennifer J.

AU - Lloyd, Kayla R.

AU - Gerwick, Lena

AU - Gerwick, William H.

AU - Wipf, Peter

AU - Håkansson, Kristina

AU - Smith, Janet L.

AU - Sherman, David H.

PY - 2009

Y1 - 2009

N2 - (Figure Presented) Biosynthetic innovation in natural product systems is driven by the recruitment of new genes and enzymes into these complex pathways. Here, an unprecedented decarboxylative chain termination mechanism is described for the polyketide synthase of curacin A, an anticancer lead compound isolated from the marine cyanobacterium Lyngbya majuscula. The unusual chain termination module containing adjacent sulfotransferase (ST) and thioesterase (TE) catalytic domains embedded in CurM was biochemically characterized. The TE was proved to catalyze a hydrolytic chain release of the polyketide chain elongation intermediate. Moreover, a selective ST-mediated sulfonation of the (R)-β-hydroxyl group was found to precede TE-mediated hydrolysis, triggering a successive decarboxylative elimination and resulting in the formation of a rare terminal olefin in the final metabolite.

AB - (Figure Presented) Biosynthetic innovation in natural product systems is driven by the recruitment of new genes and enzymes into these complex pathways. Here, an unprecedented decarboxylative chain termination mechanism is described for the polyketide synthase of curacin A, an anticancer lead compound isolated from the marine cyanobacterium Lyngbya majuscula. The unusual chain termination module containing adjacent sulfotransferase (ST) and thioesterase (TE) catalytic domains embedded in CurM was biochemically characterized. The TE was proved to catalyze a hydrolytic chain release of the polyketide chain elongation intermediate. Moreover, a selective ST-mediated sulfonation of the (R)-β-hydroxyl group was found to precede TE-mediated hydrolysis, triggering a successive decarboxylative elimination and resulting in the formation of a rare terminal olefin in the final metabolite.

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U2 - 10.1021/ja9071578

DO - 10.1021/ja9071578

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AN - SCOPUS:70450195870

SN - 0002-7863

VL - 131

SP - 16033

EP - 16035

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 44

ER -

Polyketide decarboxylative chain termination preceded by O-sulfonation in curacin A biosynthesis

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