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Related Experiment Video

Updated: Feb 8, 2026

Development and Functional Characterization of Murine Tolerogenic Dendritic Cells
09:51

Development and Functional Characterization of Murine Tolerogenic Dendritic Cells

Published on: May 18, 2018

11.2K

Triterpenoids.

Robert A Hill1, Joseph D Connolly

  • 1School of Chemistry, Glasgow University, Glasgow, UK G12 8QQ. bob.hill@glasgow.ac.uk.

Natural Product Reports
|July 12, 2018
PubMed
Summary
This summary is machine-generated.

This review details the isolation and structure elucidation of various triterpenoids identified in 2014. It covers diverse classes like lanostanes, cycloartanes, and saponins, citing 374 references for comprehensive coverage.

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Area of Science:

  • Natural Product Chemistry
  • Organic Chemistry
  • Phytochemistry

Background:

  • Triterpenoids are a diverse class of natural products with significant biological activities.
  • The continuous discovery of new triterpenoids necessitates regular reviews to track advancements.
  • Previous reviews in this series have provided comprehensive overviews of the field.

Purpose of the Study:

  • To comprehensively review the isolation and structure determination of triterpenoids reported in the scientific literature during 2014.
  • To categorize and present the diverse structural classes of newly identified triterpenoids.
  • To serve as a reference for researchers in natural product chemistry and related fields.

Main Methods:

  • Systematic literature search for publications reporting triterpenoids isolated in 2014.

Related Experiment Videos

Last Updated: Feb 8, 2026

Development and Functional Characterization of Murine Tolerogenic Dendritic Cells
09:51

Development and Functional Characterization of Murine Tolerogenic Dendritic Cells

Published on: May 18, 2018

11.2K
  • Analysis of spectroscopic data (NMR, MS, etc.) for structure elucidation.
  • Classification of isolated compounds based on their triterpenoid skeleton.
  • Main Results:

    • Detailed coverage of 374 cited references reporting new triterpenoids.
    • Inclusion of various triterpenoid subclasses such as squalene derivatives, lanostanes, holostanes, cycloartanes, cucurbitanes, dammaranes, euphanes, tirucallanes, tetranortriterpenoids, quassinoids, lupanes, oleananes, friedelanes, ursanes, hopanes, serratanes, and isomalabaricanes.
    • Identification and structural characterization of numerous novel triterpenoid compounds.

    Conclusions:

    • The year 2014 was highly productive in the discovery of new triterpenoids across a wide range of structural types.
    • This review consolidates the significant progress made in triterpenoid chemistry during the covered period.
    • The findings underscore the ongoing importance of triterpenoids as a source of novel chemical structures.