9 results
Search Results
2. Unusual cyclic terpenoids with terminal pendant prenyl moieties: from occurrence to synthesis.
- Author
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Kulcitki V, Harghel P, and Ungur N
- Subjects
- Animals, Biosynthetic Pathways, Diterpenes chemical synthesis, Diterpenes chemistry, Hepatophyta chemistry, Humans, Laurencia, Molecular Structure, Plants, Porifera, Sesquiterpenes chemical synthesis, Sesquiterpenes chemistry, Sesquiterpenes pharmacology, Terpenes chemical synthesis, Terpenes chemistry, Terpenes pharmacology
- Abstract
The paper reviews the known examples of cyclic terpenoids produced from open chain polyenic precursors by an "unusual" biosynthetic pathway, involving selective electrophilic attack on an internal double bond followed by cyclization. The resulting compounds possess cyclic backbones with pendant terminal prenyl groups. Synthetic approaches applied for the synthesis of such specifically functionalized compounds are also discussed, as well as biological activity of reported representatives.
- Published
- 2014
- Full Text
- View/download PDF
3. The incredible story of ophiobolin A and sphaeropsidin A: two fungal terpenes from wilt-inducing phytotoxins to promising anticancer compounds.
- Author
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Evidente, Antonio
- Subjects
PHYTOTOXINS ,TERPENES ,CANKER (Plant disease) ,STRUCTURE-activity relationships ,ANTINEOPLASTIC agents ,HOST plants ,SALVINORIN A - Abstract
Covering: 2000 to 2023 This review presents the exceptional story of ophiobolin A (OphA) and sphaeropsidin A (SphA), a sesterterpene and a diterpene, respectively, which were initially isolated as fungal phytotoxins and subsequently shown to possess other interesting biological activities, including promising anticancer activities. Ophiobolin A is a phytotoxin produced by different fungal pathogens, all belonging to the Bipolaris genus. Initially, it was only known as a very dangerous phytotoxin produced by fungi attacking essential cereals, such as rice and barley. However, extensive and interesting studies were carried out to define its original carbon skeleton, which is characterized by a typical 5 : 8 : 5 ring system and shared with fusicoccins and cotylenins, and its phytotoxic activity on host and non-host plants. The biosynthesis of OphA was also defined by describing the different steps starting from mevalonate and through the rearrangement of the acyclic C-25 precursor lead the toxin is obtained. OphA was also produced as a bioherbicide from Drechslera gigantea and proposed for the biocontrol of the widespread and dangerous weed Digitaria sanguinaria. To date, more than sixty ophiobolins have been isolated from different fungi and their biological activities and structure–activity relationship investigated, which were also described using their hemisynthetic derivatives. In the last two decades, thorough studies have been performed on the potential anticancer activity of OphA and its original mode of action, attracting great interest from scientists. Sphaeropsidin A has a similar story. It was isolated as the main phytotoxin from Diplodia cupressi, the causal agent of Italian cypress canker disease, resulting in the loss of millions of plants in a few years in the Mediterranean basin. The damage to the forest, environment and ornamental heritage are noteworthy and economic losses are also suffered by tree nurseries and the wood industry. Six natural analogues of SphA were isolated and several interesting hemisynthetic derivatives were prepared to study its structure–activity relationship. Surprisingly, sphaeropsidin A showed other interesting biological activities, including antibiotic, antifungal, and antiviral. In the last decade, extensive studies have focused on the anticancer activity and original mode of action of SphA. Furthermore, specific hemisynthetic studies enable the preparation of derivatives of SphA, preserving its chromophore, which showed a noteworthy increase in anticancer activity. It has been demonstrated that ophiobolin A and sphaeropsidin A are promising natural products showing potent activity against some malignant cancers, such as brain glioblastoma and different melanomas. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
4. Class II terpene cyclases: structures, mechanisms, and engineering.
- Author
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Pan, Xingming, Rudolf, Jeffrey D., and Dong, Liao-Bin
- Subjects
CYCLASES ,TERPENES ,STRUCTURAL engineering ,NATURAL products ,ENGINEERING ,GIBBERELLINS ,DITERPENES - Abstract
Covering: up to July 2023 Terpene cyclases (TCs) catalyze some of the most complicated reactions in nature and are responsible for creating the skeletons of more than 95 000 terpenoid natural products. The canonical TCs are divided into two classes according to their structures, functions, and mechanisms. The class II TCs mediate acid–base-initiated cyclization reactions of isoprenoid diphosphates, terpenes without diphosphates (e.g., squalene or oxidosqualene), and prenyl moieties on meroterpenes. The past twenty years witnessed the emergence of many class II TCs, their reactions and their roles in biosynthesis. Class II TCs often act as one of the first steps in the biosynthesis of biologically active natural products including the gibberellin family of phytohormones and fungal meroterpenoids. Due to their mechanisms and biocatalytic potential, TCs elicit fervent attention in the biosynthetic and organic communities and provide great enthusiasm for enzyme engineering to construct novel and bioactive molecules. To engineer and expand the structural diversities of terpenoids, it is imperative to fully understand how these enzymes generate, precisely control, and quench the reactive carbocation intermediates. In this review, we summarize class II TCs from nature, including sesquiterpene, diterpene, triterpene, and meroterpenoid cyclases as well as noncanonical class II TCs and inspect their sequences, structures, mechanisms, and structure-guided engineering studies. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
5. Hot off the press.
- Author
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Hill, Robert A. and Sutherland, Andrew
- Subjects
- *
X-ray crystallography , *CHEMICAL structure , *GLYCOSIDE synthesis , *PENICILLIUM , *TERPENES - Abstract
A personal selection of 32 recent papers is presented covering various aspects of current developments in bioorganic chemistry and novel natural products such as macrophilone A from Macrorhynchia philippina. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
6. Structure, synthesis, biosynthesis, and activity of the characteristic compounds from Ginkgo biloba L.
- Author
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Liu, Xin-Guang, Lu, Xu, Gao, Wen, Li, Ping, and Yang, Hua
- Subjects
GINKGO ,FLAVONOL glycosides ,BIOSYNTHESIS ,HERBAL medicine ,ALKYLPHENOLS ,TERPENES - Abstract
Covering: 1928–2021 Ginkgo biloba L. is one of the most distinctive plants to have emerged on earth and has no close living relatives. Owing to its phylogenetic divergence from other plants, G. biloba contains many compounds with unique structures that have served to broaden the chemical diversity of herbal medicine. Examples of such compounds include terpene trilactones (ginkgolides), acylated flavonol glycosides (ginkgoghrelins), biflavones (ginkgetin), ginkgotides and ginkgolic acids. The extract of G. biloba leaf is used to prevent and/or treat cardiovascular diseases, while many ginkgo-derived compounds are currently at various stages of preclinical and clinical trials worldwide. The global annual sales of G. biloba products are estimated to total US$10 billion. However, the content and purity of the active compounds isolated by traditional methods are usually low and subject to varying environmental factors, making it difficult to meet the huge demand of the international market. This highlights the need to develop new strategies for the preparation of these characteristic compounds from G. biloba. In this review, we provide a detailed description of the structures and bioactivities of these compounds and summarize the recent research on the development of strategies for the synthesis, biosynthesis, and biotechnological production of the characteristic terpenoids, flavonoids, and alkylphenols/alkylphenolic acids of G. biloba. Our aim is to provide an important point of reference for all scientists who research ginkgo-related compounds for medicinal or other purposes. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
7. Making natural products from renewable feedstocks: back to the roots?
- Author
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Kühlborn, Jonas, Groß, Jonathan, and Opatz, Till
- Subjects
NATURAL products ,FATS & oils ,LIGNINS ,TERPENES ,CELLULOSE - Abstract
Covering: up to mid-2019 This review highlights the utilization of biomass-derived building blocks in the total synthesis of natural products. An overview over several renewable feedstock classes, namely wood/lignin, cellulose, chitin and chitosan, fats and oils, as well as terpenes, is given, covering the time span from the initial beginning of natural product synthesis until today. The focus is put on the origin of the employed carbon atoms and on the nature of the complex structures that were assembled therefrom. The emerging trend of turning away from petrochemically derived starting materials back to bio-based resources, just as seen in the early days of total synthesis, shall be demonstrated. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
8. Bacterial terpene cyclases.
- Author
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Dickschat, Jeroen S.
- Subjects
CYCLASES ,ENZYMES ,TERPENES ,CATALYSTS ,MANUFACTURED products - Abstract
Covering: up to 2015 This review summarises the accumulated knowledge about characterised bacterial terpene cyclases. The structures of identified products and of crystallised enzymes are included, and the obtained insights into enzyme mechanisms are discussed. After a summary of mono-, sesqui- and diterpene cyclases the special cases of the geosmin and 2-methylisoborneol synthases that are both particularly widespread in bacteria will be presented. A total number of 63 enzymes that have been characterised so far is presented, with 132 cited references. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
9. Biological activity of natural sesquiterpenoids containing a gem-dimethylcyclopropane unit.
- Author
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Durán-Peña, María Jesás, Botubol Ares, José Manuel, Hanson, James R., Collado, Isidro G., and Hernández-Galán, Rosario
- Subjects
SESQUITERPENES ,TERPENES ,PROPANE ,ANTIVIRAL agents ,ANTI-infective agents ,PHARMACEUTICAL chemistry - Abstract
Covering: 1963 up to the end of 2014 The biological activities of aristolane, aromadendrane, ent-1,10-secoaromadendrane, 2,3-secoaromadendrane, ent-5,10-cycloaromadendrane, bicyclogermacrene, lepidozane, and maaliane terpenoids which contain the gem-dimethylcyclopropyl unit are described. Particular attention is given to their anti-viral, anti-microbial and cytotoxic activities. In the main text there are 119 references covering the literature from 1963–2014. The ESI contains tables listing 332 of these terpenoids, their occurrence and biological activity together with the related references. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
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