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Natural Products in Plant Protection
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Natural Products in Plant Protection

A special issue of Molecules (ISSN 1420-3049). This special issue belongs to the section "Natural Products Chemistry".

Deadline for manuscript submissions: closed (31 August 2019) | Viewed by 22097

Special Issue Editors

Dr. Martin C. Gruhlke

E-Mail Website
Guest Editor
Society for Natural Product and Drug Research, 52070 Aachen, Germany
Interests: natural products; active ingredient; molecular biology; biochemistry; apoptosis
Special Issues, Collections and Topics in MDPI journals
Prof. Dr. Alan J. Slusarenko

E-Mail Website
Guest Editor
Head of the Plant Physiology Department at RWTH Aachen University, Aachen, Germany
Interests: resistance mechanisms of Arabidopsis to infection; natural products in plant protection
Special Issues, Collections and Topics in MDPI journals

Special Issue Information

Dear Colleagues,

When plants are attacked by pathogens or pests, they often actively defend themselves by accumulating antimicrobial secondary metabolites called ‘phytoalexins’. Furthermore, many plants accumulate secondary metabolites as a matter of course during their development, and these preformed substances, or ‘phytoanticipins’, have a defence role which can be antimicrobial or antifeedant. In addition, many organisms produce ‘allelochemicals’, which are physiologically active against other species in their immediate environment and result in the phenomenon of ‘allelopathy’, helping them in the competition for survival.

Natural Products active in plant protection have been tried and tested in the course of evolution and can be very effective. However, their properties are often not suitable for large-scale industrial production, marketing, and agricultural application. Nevertheless, the emerging resistance to many current fungicides and increasing concerns about the environmental impact of synthetic chemicals mean that new effective treatments based on Natural Products as lead compounds are urgently needed.

We would like to encourage the submission of papers reporting on Natural Products in plant protection, either in a natural context (e.g., phytoanticipins or phytoalexins) or reports showing disease-reduction in a given pathosystem in a ‘nature-inspired’ plant protection strategy. Reports of novel antimicrobial, antifeedant, or other potentially protective properties, for named and characterized secondary products, against disease-causing agents and pests are also welcome. However, reports on activities of uncharacterized mixtures from plants or other organisms, without a chemically defined and identified active principle, will be rejected without being sent out for review.

Dr. Martin C. Gruhlke
Prof. Dr. Alan J. Slusarenko
Guest Editors

Manuscript Submission Information

Manuscripts should be submitted online at www.mdpi.com by registering and logging in to this website. Once you are registered, click here to go to the submission form. Manuscripts can be submitted until the deadline. All submissions that pass pre-check are peer-reviewed. Accepted papers will be published continuously in the journal (as soon as accepted) and will be listed together on the special issue website. Research articles, review articles as well as short communications are invited. For planned papers, a title and short abstract (about 100 words) can be sent to the Editorial Office for announcement on this website.

Submitted manuscripts should not have been published previously, nor be under consideration for publication elsewhere (except conference proceedings papers). All manuscripts are thoroughly refereed through a single-blind peer-review process. A guide for authors and other relevant information for submission of manuscripts is available on the Instructions for Authors page. Molecules is an international peer-reviewed open access semimonthly journal published by MDPI.

Please visit the Instructions for Authors page before submitting a manuscript. The Article Processing Charge (APC) for publication in this open access journal is 2700 CHF (Swiss Francs). Submitted papers should be well formatted and use good English. Authors may use MDPI's English editing service prior to publication or during author revisions.

Published Papers (5 papers)

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Research

10 pages, 1574 KiB  
Article
Structural Elucidation of Three Novel Kaempferol O-tri-Glycosides that Are Involved in the Defense Response of Hybrid Ornithogalum to Pectobacterium carotovorum
by Iris Yedidia, Keren Schultz, Avner Golan, Hugo E. Gottlieb and Zohar Kerem
Molecules 2019, 24(16), 2910; https://0-doi-org.brum.beds.ac.uk/10.3390/molecules24162910 - 10 Aug 2019
Cited by 6 | Viewed by 2750
Abstract
Ornithogalum is an ornamental flowering species that grows from a bulb and is highly susceptible to soft-rot disease caused by Pectobacterium carotovorum (Pc). Interspecific hybridization between O. thyrsoides and O. dubium yielded hybrids with enhanced resistance to that pathogen. The hybrids displayed distinct [...] Read more.
Ornithogalum is an ornamental flowering species that grows from a bulb and is highly susceptible to soft-rot disease caused by Pectobacterium carotovorum (Pc). Interspecific hybridization between O. thyrsoides and O. dubium yielded hybrids with enhanced resistance to that pathogen. The hybrids displayed distinct phenolic-compound profiles with several peaks that were specifically heightened following Pc infection. Three of these compounds were isolated and identified as novel kaempferol O-tri-glycosides. The structures of these compounds were elucidated using reversed phase high-performance liquid chromatography (RP-LC), RP-LC coupled to high-resolution mass spectrometry (RP-LC-MS), and nuclear magnetic resonance (NMR) (1D 1H and 13C, DEPT, HMQC, HMBC, COSY, and NOE), in order to achieve pure and defined compounds data. The new compounds were finally identified as kaempferol 3-O-[4-O-α-l-(3-O-acetic)-rhamnopyranosyl-6-O-β-d-xylopyranosyl]-β-d-glucopyranoside, kaempferol 3-O-[4-O-α-l-(2-O-acetic)-rhamnopyranosyl-6-O-β-d-xylopyranosyl]-β-d-glucopyranoside and kaempferol 3-O-[4-O-α-l-(2,3-O-diacetic)-rhamnopyranosyl-6-O-β-d-xylopyranosyl]-β-d-glucopyranoside. Full article
(This article belongs to the Special Issue Natural Products in Plant Protection)
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18 pages, 2136 KiB  
Article
Cordycepin Isolated from Cordyceps militaris: Its Newly Discovered Herbicidal Property and Potential Plant-Based Novel Alternative to Glyphosate
by Tran Ngoc Quy, Tran Dang Xuan, Yusuf Andriana, Hoang-Dung Tran, Tran Dang Khanh and Rolf Teschke
Molecules 2019, 24(16), 2901; https://0-doi-org.brum.beds.ac.uk/10.3390/molecules24162901 - 09 Aug 2019
Cited by 26 | Viewed by 7660
Abstract
There is currently much interest in finding new phytochemicals among plants and fungi as nature-based alternatives to replace problematic herbicides such as glyphosate, which are preferentially used in agricultural production. We discovered striking herbicidal potency in Cordyceps militaris (L.) and identified cordycepin as [...] Read more.
There is currently much interest in finding new phytochemicals among plants and fungi as nature-based alternatives to replace problematic herbicides such as glyphosate, which are preferentially used in agricultural production. We discovered striking herbicidal potency in Cordyceps militaris (L.) and identified cordycepin as its principal plant growth inhibitor. Cordycepin obtained as an ethyl acetate extract was subjected to column chromatography and evaluated for its bioassay-guided phytotoxic capacity against Raphanus sativus (radish), showing a maximum inhibition on germination and growth of radish (IC50 = 0.052–0.078 mg/mL). Gas chromatography-mass spectrometry (GC-MS) (m/z: 251.2) and liquid chromatography-electrospray ionization-mass spectrometry (LC-ESI-MS) ([M + Na]+ m/z: 274.1; [M + H]+ m/z: 252.1) analyses confirmed cordycepin as the major component of the tested column fraction (55.38%). At 0.04 mg/mL, cordycepin showed 3.8–5.9- and 3.3–3.7-fold greater inhibition of the germination and growth of radish than benzoic acid (BA) and glyphosate, respectively. Compared with BA, isolated cordycepin reduced plant chlorophyll and carotenoid contents (2.0–9.5 -fold), while proline, total phenolic and total flavonoid contents were increased 1.2–1.8-fold. Finally, cordycepin promoted electrolyte leakage and malondialdehyde accumulation in radish aerial parts. Thus, cordycepin successfully isolated from Cordyceps militaris is a highly potent plant growth inhibitor with pending worldwide patent and may become a potential plant-based novel alternative to the disputed glyphosate. Full article
(This article belongs to the Special Issue Natural Products in Plant Protection)
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10 pages, 599 KiB  
Article
Facile and Efficient Syntheses of (11Z,13Z)-Hexadecadienal and Its Derivatives: Key Sex Pheromone and Attractant Components of Notodontidae
by Fu Liu, Xiangbo Kong, Sufang Zhang and Zhen Zhang
Molecules 2019, 24(9), 1781; https://0-doi-org.brum.beds.ac.uk/10.3390/molecules24091781 - 08 May 2019
Cited by 4 | Viewed by 3222
Abstract
Syntheses of (11Z,13Z)-hexadecadienal (1), (11Z,13Z)-hexadecadienol (2), (11Z,13Z)-hexadecadien-1-yl acetate (3), and (Z)-13-hexadecen-11-ynal (4) from commercially available starting material 10-bromo-1-decanol are reported. These (Z [...] Read more.
Syntheses of (11Z,13Z)-hexadecadienal (1), (11Z,13Z)-hexadecadienol (2), (11Z,13Z)-hexadecadien-1-yl acetate (3), and (Z)-13-hexadecen-11-ynal (4) from commercially available starting material 10-bromo-1-decanol are reported. These (Z,Z)-dienes and conjugated en-yne moieties are common in sex pheromone and attractant components for many Notodontide insect pests. The synthetic scheme, using the C10 + C3 + C3 strategy, was mainly based on three key steps: alkylation of lithium alkyne under a low temperature, cis-Wittig olefination of the aldehyde with propylidentriphenylphosphorane, and hydroboration-protonolysis of alkyne. This synthetic route provided (11Z,13Z)-hexadecadienal (1) in a 23.0% total yield via an eight-step sequence, alcohol (2) in a 21.9% total yield, acetate (3) in a 21.4% total yield, and (Z)-13-hexadecen-11-ynal (4) in a 34.7% total yield. This simple strategy provides a new way to achieve syntheses of the key sex pheromones of Notodontide insect pests. Full article
(This article belongs to the Special Issue Natural Products in Plant Protection)
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14 pages, 4424 KiB  
Article
Spermidine Enhances Heat Tolerance of Rice Seeds by Modulating Endogenous Starch and Polyamine Metabolism
by Yuying Fu, Qingqing Gu, Qian Dong, Zhihao Zhang, Cheng Lin, Weimin Hu, Ronghui Pan, Yajing Guan and Jin Hu
Molecules 2019, 24(7), 1395; https://0-doi-org.brum.beds.ac.uk/10.3390/molecules24071395 - 09 Apr 2019
Cited by 50 | Viewed by 4116
Abstract
Polyamines have been reported to be involved in grain filling and they might contribute to the construction of heat resistance of some cereals. In this study, the hybrid rice ‘YLY 689’ was used to explore the possible effects of exogenous spermidine (Spd) on [...] Read more.
Polyamines have been reported to be involved in grain filling and they might contribute to the construction of heat resistance of some cereals. In this study, the hybrid rice ‘YLY 689’ was used to explore the possible effects of exogenous spermidine (Spd) on seed quality under high temperature during the filling stage. Rice spikes were treated with Spd or its synthesis inhibitor cyclohexylamine (CHA) after pollination, and then the rice plants were transferred to 40 °C for 5-day heat treatment. The results showed that, compared with the control under high temperature, Spd pretreatment significantly improved the germination percentage, germination index, vigor index, seedling shoot height, and dry weight of seeds harvested at 35 days after pollination, while the CHA significantly decreased the seed germination and seedling growth. Meanwhile, Spd significantly increased the peroxidase (POD) activity and decreased the malondialdehyde (MDA) content in seeds. In addition, after spraying with Spd, the endogenous content of spermidine and spermine and the expression of their synthetic genes, spermidine synthase (SPDSYN) and spermine synthase (SPMS1 and SPMS2), significantly increased, whereas the accumulation of amylose and total starch and the expression of their related synthase genes, soluble starch synthase II-3 (SS II-3) and granules bound starch synthase I (GBSSI), also increased to some extent. The data suggests that exogenous Spd pretreatment could alleviate the negative impacts of high temperature stress on rice seed grain filling and improve the rice seed quality to some extent, which might be partly caused by up-regulating endogenous polyamines and starch metabolism. Full article
(This article belongs to the Special Issue Natural Products in Plant Protection)
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11 pages, 2027 KiB  
Article
Purification and Structural Analysis of the Effective Anti-TMV Compound ε-Poly-l-lysine Produced by Streptomyces ahygroscopicus
by Jianguang Chen, He Liu, Zihao Xia, Xiuxiang Zhao, Yuanhua Wu and Mengnan An
Molecules 2019, 24(6), 1156; https://0-doi-org.brum.beds.ac.uk/10.3390/molecules24061156 - 23 Mar 2019
Cited by 27 | Viewed by 3938
Abstract
Microbial secondary metabolites produced by actinomycetes are important natural products widely applied to control plant diseases. A variety of actinomycetes were isolated from soil samples collected from Tianzhu Mountain in Shenyang, China. A Streptomyces strain Shenyang Tianzhu (STZ) exhibits effective antiviral activity against [...] Read more.
Microbial secondary metabolites produced by actinomycetes are important natural products widely applied to control plant diseases. A variety of actinomycetes were isolated from soil samples collected from Tianzhu Mountain in Shenyang, China. A Streptomyces strain Shenyang Tianzhu (STZ) exhibits effective antiviral activity against Tobacco mosaic virus (TMV). The isolate was identified as Streptomyces ahygroscopicus based on its cultural, morphological, physiological, biochemical characteristics as well as the phylogenetic analysis using 16S rRNA sequences. To obtain the pure anti-TMV compound from Streptomyces STZ, the culture broth was subjected to Amberlite IRC-50 ion-exchange resin, SX-8 macroporous adsorption resin and Sephadex G-25 gel column chromatography. The purified active compound was confirmed to be ε-poly-l-lysine (ε-PL), with molecular mass in the range of 3454–4352 Da by structural analysis with infrared (IR), matrix-assisted laser desorption ionization-time-of-flight MS (MALDI-TOF), thin-layer chromatography (TLC) and high-resolution magic angle spinning nuclear magnetic resonance (HR-MAS NMR). The protective and curative effects of the purified compound ε-PL were tested and the results showed that the compound exhibited significant protective and curative activity against TMV. The potential application of ε-PL as an efficient anti-plant virus agent was expected. Full article
(This article belongs to the Special Issue Natural Products in Plant Protection)
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