RebG- and RebM-catalyzed indolocarbazole diversification

Changsheng Zhang; Christoph Albermann; Xun Fu; Noel R. Peters; John D. Chisholm; Guisheng Zhang; Eric J. Gilbert; Peng George Wang; David L. Van Vranken; Jon S. Thorson

doi:10.1002/cbic.200500504

RebG- and RebM-catalyzed indolocarbazole diversification

Changsheng Zhang
, Christoph Albermann
, Xun Fu
, Noel R. Peters
, John D. Chisholm
, Guisheng Zhang
, Eric J. Gilbert
, Peng George Wang
, David L. Van Vranken
, Jon S. Thorson

Producción científica: Article › revisión exhaustiva

69 Citas (Scopus)

Resumen

Rebeccamycin and staurosporine represent two broad classes of indolocarbazole glycoside natural products with antitumor properties. Based upon previous sequence annotation and in vivo studies, rebG encodes for the rebeccamycin N-glucosyltransferase, and rebM for the requisite 4′-O-methyltransferase. In the current study, an efficient in vivo biotransformation system for RebG was established in both Streptomyces lividans and Escherichia coli. Bioconversion experiments revealed RebG to glucosylate a set of indolocarbazole surrogates, the products of which could be further modified by in vitro RebM-catalyzed 4′-O-methylation. Both RebG and RebM displayed substrate promiscuity, and evidence for a remarkable lack of RebG regioselectivity in the presence of asymmetric substrates is also provided. In the context of the created indolocarbazole analogues, cytotoxicity assays also highlight the importance of 4′-O-methylotion for their biological activity.

Idioma original	English
Páginas (desde-hasta)	795-804
Número de páginas	10
Publicación	ChemBioChem
Volumen	7
N.º	5
DOI	https://doi.org/10.1002/cbic.200500504
Estado	Published - may 2006

Financiación

Financiadores	Número del financiador
National Childhood Cancer Registry – National Cancer Institute	R01CA084374

ASJC Scopus subject areas

Biochemistry
Molecular Medicine
Molecular Biology
Organic Chemistry

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title = "RebG- and RebM-catalyzed indolocarbazole diversification",

abstract = "Rebeccamycin and staurosporine represent two broad classes of indolocarbazole glycoside natural products with antitumor properties. Based upon previous sequence annotation and in vivo studies, rebG encodes for the rebeccamycin N-glucosyltransferase, and rebM for the requisite 4′-O-methyltransferase. In the current study, an efficient in vivo biotransformation system for RebG was established in both Streptomyces lividans and Escherichia coli. Bioconversion experiments revealed RebG to glucosylate a set of indolocarbazole surrogates, the products of which could be further modified by in vitro RebM-catalyzed 4′-O-methylation. Both RebG and RebM displayed substrate promiscuity, and evidence for a remarkable lack of RebG regioselectivity in the presence of asymmetric substrates is also provided. In the context of the created indolocarbazole analogues, cytotoxicity assays also highlight the importance of 4′-O-methylotion for their biological activity.",

keywords = "Biosynthesis, Glycosylation, Methylation, Rebeccamycin",

author = "Changsheng Zhang and Christoph Albermann and Xun Fu and Peters, \{Noel R.\} and Chisholm, \{John D.\} and Guisheng Zhang and Gilbert, \{Eric J.\} and Wang, \{Peng George\} and \{Van Vranken\}, \{David L.\} and Thorson, \{Jon S.\}",

year = "2006",

month = may,

doi = "10.1002/cbic.200500504",

language = "English",

volume = "7",

pages = "795--804",

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TY - JOUR

T1 - RebG- and RebM-catalyzed indolocarbazole diversification

AU - Zhang, Changsheng

AU - Albermann, Christoph

AU - Fu, Xun

AU - Peters, Noel R.

AU - Chisholm, John D.

AU - Zhang, Guisheng

AU - Gilbert, Eric J.

AU - Wang, Peng George

AU - Van Vranken, David L.

AU - Thorson, Jon S.

PY - 2006/5

Y1 - 2006/5

N2 - Rebeccamycin and staurosporine represent two broad classes of indolocarbazole glycoside natural products with antitumor properties. Based upon previous sequence annotation and in vivo studies, rebG encodes for the rebeccamycin N-glucosyltransferase, and rebM for the requisite 4′-O-methyltransferase. In the current study, an efficient in vivo biotransformation system for RebG was established in both Streptomyces lividans and Escherichia coli. Bioconversion experiments revealed RebG to glucosylate a set of indolocarbazole surrogates, the products of which could be further modified by in vitro RebM-catalyzed 4′-O-methylation. Both RebG and RebM displayed substrate promiscuity, and evidence for a remarkable lack of RebG regioselectivity in the presence of asymmetric substrates is also provided. In the context of the created indolocarbazole analogues, cytotoxicity assays also highlight the importance of 4′-O-methylotion for their biological activity.

AB - Rebeccamycin and staurosporine represent two broad classes of indolocarbazole glycoside natural products with antitumor properties. Based upon previous sequence annotation and in vivo studies, rebG encodes for the rebeccamycin N-glucosyltransferase, and rebM for the requisite 4′-O-methyltransferase. In the current study, an efficient in vivo biotransformation system for RebG was established in both Streptomyces lividans and Escherichia coli. Bioconversion experiments revealed RebG to glucosylate a set of indolocarbazole surrogates, the products of which could be further modified by in vitro RebM-catalyzed 4′-O-methylation. Both RebG and RebM displayed substrate promiscuity, and evidence for a remarkable lack of RebG regioselectivity in the presence of asymmetric substrates is also provided. In the context of the created indolocarbazole analogues, cytotoxicity assays also highlight the importance of 4′-O-methylotion for their biological activity.

KW - Biosynthesis

KW - Glycosylation

KW - Methylation

KW - Rebeccamycin

UR - https://www.scopus.com/pages/publications/33646804530

UR - https://www.scopus.com/pages/publications/33646804530#tab=citedBy

U2 - 10.1002/cbic.200500504

DO - 10.1002/cbic.200500504

M3 - Article

C2 - 16575939

AN - SCOPUS:33646804530

SN - 1439-4227

VL - 7

SP - 795

EP - 804

JO - ChemBioChem

JF - ChemBioChem

IS - 5

ER -

RebG- and RebM-catalyzed indolocarbazole diversification

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