Relationships between the stereochemistry and biological activity of fungal phytotoxins

Evidente, Antonio; Andolfi, Anna; Cimmino, Alessio

doi:10.1002/chir.20966

Cited by 43 publications

(37 citation statements)

References 188 publications

(302 reference statements)

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“…[114][115][116] Furthermore, for pimarane diterpenes, the assignment of AC is even more important because these tricyclic diterpenes are classified on the basis of the different stereogenic centers into 4 types. [114][115][116] Furthermore, for pimarane diterpenes, the assignment of AC is even more important because these tricyclic diterpenes are classified on the basis of the different stereogenic centers into 4 types.…”

Section: Stereochemical Assigment Of Pimarane Diterpenesmentioning

confidence: 99%

Pimarane diterpenes: Natural source, stereochemical configuration, and biological activity

et al. 2018

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Plants and fungi are seemingly inexhaustible sources of interesting natural products with remarkable structural and biological diversity. One of the most important groups is the terpenes, ubiquitous natural products that are generated by 2 now well-established biosynthetic pathways: the older mevalonate and the more recently discovered 1-deoxyxylulose-5-phosphate. Among the diterpenes, the pimarane diterpenes are a very representative subgroup with several and interesting biological activities resulting from different functional group modifications. In this review, we outline the method of their structure determination, mainly spectroscopic results, their absolute configuration, and structure-activity relationships, were reported, as well as the mode of action for selected examples from plants, marine organisms, and fungi. The pimarane, isopimarane, and ent-pimarane diterpenes covered in this review have a wide range of biological activities including antimicrobial, antifungal, antiviral, phytotoxic, phytoalexin, cytotoxicity, and antispasmodic and relaxant effects.

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Section: Stereochemical Assigment Of Pimarane Diterpenesmentioning

confidence: 99%

Pimarane diterpenes: Natural source, stereochemical configuration, and biological activity

et al. 2018

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“…This activity was also preserved by inuloxin C as well as inuloxins A and D . As the relation between absolute configuration (AC) and the biological activity and mode of action of natural compounds, including bio‐pesticides was extensively reported, the ACs of inuloxins A‐C were previously studied by chiroptical methods …”

Section: Introductionmentioning

confidence: 99%

“…3 Inula viscosa was chosen among other 10 allelopathic Mediterranean plants as its organic extract inhibited both broomrapes and dodders, in particular Orobanche crenata and Cuscuta campestris. 4 This activity was also preserved by inuloxin C as well as inuloxins A and D. 1 As the relation between absolute configuration (AC) and the biological activity and mode of action of natural compounds, including bio-pesticides 5,6 was extensively reported, 7,8 the ACs of inuloxins A-C were previously studied by chiroptical methods. 9,10 When relative configuration of a chiral compound with multiple stereogenic centers is known with a high degree of certainty, chiroptical spectroscopic analysis is considerably simplified because quantum chemical (QC) calculations of chiroptical properties can then be restricted to only one diastereomer.…”

Section: Introductionmentioning

confidence: 99%

Absolute configurations of chiral molecules with multiple stereogenic centers without prior knowledge of the relative configurations: A case study of inuloxin C

et al. 2018

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Electronic circular dichroism (ECD) and discrete wavelength resolved specific optical rotations, referred to as optical rotatory dispersion (ORD), have been remeasured for inuloxin C and analysed with corresponding quantum chemical (QC) predicted data for all diastereomers of inuloxin C. The QC‐predicted sign of ORD and of a major ECD band are found to match the experimental observations for more than one diastereomer. However, these ECD and ORD analyses combined with electronic dissymmetry factor analyses narrowed the choices of absolute configuration (AC) of inuloxin C to (5R,7S,8R,10R) and (5S,7S,8S,10S). Supplementing these analyses with corresponding analyses for acetylated inuloxin C resulted in a unique choice for the AC of inuloxin C as (5S,7S,8S,10S). This result is independent of NMR analysis. Furthermore, this AC is in full agreement with previously determined relative configuration by NMR and the AC derived therefrom using ECD and ORD. Therefore, the present study identifies a pathway for determining the ACs of chiral molecules with multiple stereogenic centers when relative configurations are not known, or when it is desired to deduce ACs independent of the known relative configurations.

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“…On the other hand, the use of chemical pesticides differing widely in respect to spectrum, unit activity, crop safety, toxicology, and environmental effects has increased herbicidal resistance and environmental and toxicological concerns raise a question mark over their large scale use. 15 Also, strategic approaches for discovering fungal phytotoxins, 14,16,17 their modes of action, 13,18,19 and the relationships between the stereochemistry and biological activity 20,21 were recently reviewed. [5][6][7] Fungal phytotoxins are secondary metabolites that play an important role in the induction of disease symptoms in agrarian and forest plants and weeds.…”

Section: Introductionmentioning

confidence: 99%

Fungal phytotoxins with potential herbicidal activity: chemical and biological characterization

Cimmino¹,

Masi²,

Evidente³

et al. 2015

Nat. Prod. Rep.

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Covering: 2007 to 2015 Fungal phytotoxins are secondary metabolites playing an important role in the induction of disease symptoms interfering with host plant physiological processes. Although fungal pathogens represent a heavy constraint for agrarian production and for forest and environmental heritage, they can also represent an ecofriendly alternative to manage weeds. Indeed, the phytotoxins produced by weed pathogenic fungi are an efficient tool to design natural, safe bioherbicides. Their use could avoid that of synthetic pesticides causing resistance in the host plants and the long term impact of residues in agricultural products with a risk to human and animal health. The isolation and structural and biological characterization of phytotoxins produced by pathogenic fungi for weeds, including parasitic plants, are described. Structure activity relationships and mode of action studies for some phytotoxins are also reported to elucidate the herbicide potential of these promising fungal metabolites.

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Relationships between the stereochemistry and biological activity of fungal phytotoxins

Cited by 43 publications

References 188 publications

Pimarane diterpenes: Natural source, stereochemical configuration, and biological activity

Pimarane diterpenes: Natural source, stereochemical configuration, and biological activity

Absolute configurations of chiral molecules with multiple stereogenic centers without prior knowledge of the relative configurations: A case study of inuloxin C

Fungal phytotoxins with potential herbicidal activity: chemical and biological characterization

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