A novel glucuronosyltransferase has an unprecedented ability to catalyse continuous two‐step glucuronosylation of glycyrrhetinic acid to yield glycyrrhizin

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Summary

Glycyrrhizin is an important bioactive compound that is used clinically to treat chronic hepatitis and is also used as a sweetener world‐wide. However, the key UDP‐dependent glucuronosyltransferases (UGATs) involved in the biosynthesis of glycyrrhizin remain unknown.
To discover unknown UGATs, we fully annotated potential UGATs from Glycyrrhiza uralensis using deep transcriptome sequencing. The catalytic functions of candidate UGATs were determined by an in vitro enzyme assay.
Systematically screening 434 potential UGATs, we unexpectedly found one unique GuUGAT that was able to catalyse the glucuronosylation of glycyrrhetinic acid to directly yield glycyrrhizin via continuous two‐step glucuronosylation. Expression analysis further confirmed the key role of GuUGAT in the biosynthesis of glycyrrhizin. Site‐directed mutagenesis revealed that Gln‐352 may be important for the initial step of glucuronosylation, and His‐22, Trp‐370, Glu‐375 and Gln‐392 may be important residues for the second step of glucuronosylation. Notably, the ability of GuUGAT to catalyse a continuous two‐step glucuronosylation reaction was determined to be unprecedented among known glycosyltransferases of bioactive plant natural products.
Our findings increase the understanding of traditional glycosyltransferases and pave the way for the complete biosynthesis of glycyrrhizin.

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Most cited references 54

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Biological activities and distribution of plant saponins.

S Sparg, M E Light, J. Van Staden (2004)

Plant saponins are widely distributed amongst plants and have a wide range of biological properties. The more recent investigations and findings into their biological activities were summarized. Isolation studies of saponins were examined to determine which are the more commonly studied plant families and in which families saponins have been identified.

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Triterpene biosynthesis in plants.

Ramesha Thimmappa, Katrin Geisler, Thomas Louveau … (2014)

The triterpenes are one of the most numerous and diverse groups of plant natural products. They are complex molecules that are, for the most part, beyond the reach of chemical synthesis. Simple triterpenes are components of surface waxes and specialized membranes and may potentially act as signaling molecules, whereas complex glycosylated triterpenes (saponins) provide protection against pathogens and pests. Simple and conjugated triterpenes have a wide range of applications in the food, health, and industrial biotechnology sectors. Here, we review recent developments in the field of triterpene biosynthesis, give an overview of the genes and enzymes that have been identified to date, and discuss strategies for discovering new triterpene biosynthetic pathways.

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CAZymes Analysis Toolkit (CAT): web service for searching and analyzing carbohydrate-active enzymes in a newly sequenced organism using CAZy database.

Byung H. Park, Tatiana V. Karpinets, Mustafa Syed … (2010)

The Carbohydrate-Active Enzyme (CAZy) database provides a rich set of manually annotated enzymes that degrade, modify, or create glycosidic bonds. Despite rich and invaluable information stored in the database, software tools utilizing this information for annotation of newly sequenced genomes by CAZy families are limited. We have employed two annotation approaches to fill the gap between manually curated high-quality protein sequences collected in the CAZy database and the growing number of other protein sequences produced by genome or metagenome sequencing projects. The first approach is based on a similarity search against the entire nonredundant sequences of the CAZy database. The second approach performs annotation using links or correspondences between the CAZy families and protein family domains. The links were discovered using the association rule learning algorithm applied to sequences from the CAZy database. The approaches complement each other and in combination achieved high specificity and sensitivity when cross-evaluated with the manually curated genomes of Clostridium thermocellum ATCC 27405 and Saccharophagus degradans 2-40. The capability of the proposed framework to predict the function of unknown protein domains and of hypothetical proteins in the genome of Neurospora crassa is demonstrated. The framework is implemented as a Web service, the CAZymes Analysis Toolkit, and is available at http://cricket.ornl.gov/cgi-bin/cat.cgi.

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Author and article information

Journal

Journal ID (nlm-ta): New Phytol

Journal ID (iso-abbrev): New Phytol

Journal ID (doi): 10.1111/(ISSN)1469-8137

Journal ID (publisher-id): NPH

Title: The New Phytologist

Publisher: John Wiley and Sons Inc. (Hoboken )

ISSN (Print): 0028-646X

ISSN (Electronic): 1469-8137

Publication date (Electronic): 02 June 2016

Publication date (Print): October 2016

Volume: 212

Issue: 1 ( doiID: 10.1111/nph.2016.212.issue-1 )

Pages: 123-135

Affiliations

[ ¹ ] School of Chinese Material Medica Beijing University of Chinese Medicine Beijing 100102 China

[ ² ] School of Traditional Chinese Medicine Capital Medical University Beijing 100069 China

Author notes

[*] [* ] Authors for correspondence:

Chunsheng Liu

Tel: +86 010 84738624

Email: max_liucs@ 123456263.net

Wei Gao

Tel: +86 010 83911633

Email: weigao@ 123456ccmu.edu.cn

Article

Publisher ID: NPH14039 Other ID: 2016-21553

DOI: 10.1111/nph.14039

PMC ID: 7167757

PubMed ID: 27252088

SO-VID: a7febdd9-4fe8-42a9-b826-8681951667d4

License:

This article is being made freely available through PubMed Central as part of the COVID-19 public health emergency response. It can be used for unrestricted research re-use and analysis in any form or by any means with acknowledgement of the original source, for the duration of the public health emergency.

History

Date received : 03 March 2016

Date accepted : 28 April 2016

Page count

Pages: 13

Funding

Funded by: National Natural Science Foundation of China , open-funder-registry 10.13039/501100001809;

Award ID: 81373909

Award ID: 81422053

Custom metadata

source-schema-version-number 2.0

cover-date October 2016

details-of-publishers-convertor Converter:WILEY_ML3GV2_TO_JATSPMC version:5.8.0 mode:remove_FC converted:15.04.2020

ScienceOpen disciplines: Plant science & Botany

Keywords: biosynthesis,glucuronosylation,glucuronosyltransferase,glycosyltransferase,glycyrrhetinic acid,glycyrrhiza uralensis,glycyrrhizin

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ScienceOpen disciplines: Plant science & Botany

Keywords: biosynthesis, glucuronosylation, glucuronosyltransferase, glycosyltransferase, glycyrrhetinic acid, glycyrrhiza uralensis, glycyrrhizin

A novel glucuronosyltransferase has an unprecedented ability to catalyse continuous two‐step glucuronosylation of glycyrrhetinic acid to yield glycyrrhizin

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Plant MYBs

Most cited references 54

Biological activities and distribution of plant saponins.

Triterpene biosynthesis in plants.

CAZymes Analysis Toolkit (CAT): web service for searching and analyzing carbohydrate-active enzymes in a newly sequenced organism using CAZy database.

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