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Weeds cause significant agricultural losses worldwide, and herbicides have traditionally been the main solution to this problem. However, the extensive use of herbicides has led to multiple cases of weed resistance, which could generate an increase in the application concentration and consequently a higher persistence in the environment, hindering natural degradation processes. Consequently, more environmentally friendly alternatives, such as microbial bioherbicides, have been sought. Although these bioherbicides are promising, their efficacy remains a challenge, as evidenced by their limited commercial and industrial production. This article reviews the current status of microbial-based bioherbicides and highlights the potential of cell-free metabolites to improve their efficacy and commercial attractiveness. Stirred tank bioreactors are identified as the most widely used for production-scale submerged fermentation. In addition, the use of alternative carbon and nitrogen sources, such as industrial waste, supports the circular economy. Furthermore, this article discusses the optimization of downstream processes using bioprospecting and in silico technologies to identify target metabolites, which leads to more precise and efficient production strategies. Bacterial bioherbicides, particularly those derived from Pseudomonas and Xanthomonas, and fungal bioherbicides from genera such as Alternaria, Colletotrichum, Trichoderma and Phoma, show significant potential. Nevertheless, limitations such as their restricted range of action, their persistence in the environment, and regulatory issues restrict their commercial availability. The utilization of cell-free microbial metabolites is proposed as a promising solution due to their simpler handling and application. In addition, modern technologies, including encapsulation and integrated management with chemical herbicides, are investigated to enhance the efficacy and sustainability of bioherbicides.

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Exposure to phytotoxins that are present in imported ornamental or native plants is an important cause of animal disease. Factors such as animal behaviors (especially indoor pets), climate change, and an increase in the global market for household and ornamental plants led to the appearance of new, previously unreported plant poisonings in Europe. This has resulted in an increase in the incidence of rarely reported intoxications. This review presents some of the emerging and well-established plant species that are responsible for poisoning episodes in companion animals and livestock in Europe. The main plant species are described, and the mechanism of action of the primary active agents and their clinical effects are presented. Data reflecting the real incidence of emerging poisoning cases from plant toxins are scarce to nonexistent in most European countries due to a lack of a centralized reporting/poison control system. The diversity of plant species and phytotoxins, as well as the emerging nature of certain plant poisonings, warrant a continuous update of knowledge by veterinarians and animal owners. The taxonomy and active agents present in these plants should be communicated to ensure awareness of the risks these toxins pose for domestic animals.

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Leucaena leucocephala is a worldwide plant used as forage; however, its use in animal production has been limited because of the presence of a toxic nonprotein amino acid, L-mimosine. L-mimosine exhibits negative effects not only in ruminants but also in monogastric animals; however, there is little information available on the effect of this amino acid in monogastric species. Thus, this study aimed to evaluate the general toxicity of L-mimosine in rats, as well as its effects on the endocrine and reproductive systems. L-mimosine was extracted from seeds of L. leucocephala that were administered orally by gavage to adult Wistar rats at different doses of 25, 40 and 60 mg/kg body weight/day for 28 days. The following parameters were evaluated: weight gain, feed intake, serum enzymes, histopathology (liver, kidney, thyroid, thymus, and spleen), serum hormones (testosterone, corticosterone, T3 and T4) and sexual behavior. No clinical signs of toxicity were observed in animals, but histopathology revealed consistent lesions in the thyroids. Additionally, rats exposed to L-mimosine presented low serum levels of testosterone, decreased mount numbers and increased mount intervals. Therefore, our study reinforces the assumption that L-mimosine has goitrogenic potential and causes impairment in male reproductive performance.

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Two Streptomyces spp. strains responsible for potato common scab infections in Uruguay which do not produce diketopiperazines were identified through whole-genome sequencing, and the virulence factor produced by one of them was isolated and characterized. Phylogenetic analysis showed that both pathogenic strains can be identified as S. niveiscabiei, and the structure of the phytotoxin was elucidated as that of the polyketide desmethylmensacarcin using MS and NMR methods. The metabolite is produced in yields of ∼200 mg/L of culture media, induces deep necrotic lesions on potato tubers, stuns root and shoot growth in radish seedlings, and is comparatively more aggressive than thaxtomin A. This is the first time that desmethylmensacarcin, a member of a class of compounds known for their antitumor and antibiotic activity, is associated with phytotoxicity. More importantly, it represents the discovery of a new virulence factor related to potato common scab, an economically-important disease affecting potato production worldwide.

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MAIN CONCLUSION: The phytotoxin botrydial triggers PA production in tomato cell suspensions via PLD and PLC/DGK activation. PLC/DGK-derived PA is partially required for botrydial-induced ROS generation. Phosphatidic acid (PA) is a phospholipid second messenger involved in the induction of plant defense responses. It is generated via two distinct enzymatic pathways, either via phospholipase D (PLD) or by the sequential action of phospholipase C and diacylglycerol kinase (PLC/DGK). Botrydial is a phytotoxic sesquiterpene generated by the necrotrophic fungus Botrytis cinerea that induces diverse plant defense responses, such as the production of reactive oxygen species (ROS). Here, we analyzed PA and ROS production and their interplay upon botrydial treatments, employing tomato (Solanum lycopersicum) cell suspensions as a model system. Botrydial induces PA production within minutes via PLD and PLC/DGK. Either inhibition of PLC or DGK diminishes ROS generation triggered by botrydial. This indicates that PLC/DGK is upstream of ROS production. In tomato, PLC is encoded by a multigene family constituted by SlPLC1-SlPLC6 and the pseudogene SlPLC7. We have shown that SlPLC2-silenced plants have reduced susceptibility to B. cinerea. In this work, we studied the role of SlPLC2 on botrydial-induced PA production by silencing the expression of SlPLC2 via a specific artificial microRNA. Upon botrydial treatments, SlPLC2-silenced-cell suspensions produce PA levels similar to wild-type cells. It can be concluded that PA is a novel component of the plant responses triggered by botrydial.

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Plants constitute a source of novel phytotoxic compounds to be explored in searching for effective and environmentally safe herbicides. From a previous screening of plant extracts for their phytotoxicity, a dichloromethane extract of Ammi visnaga (L.) Lam. was selected for further study. Phytotoxicity-guided fractionation of this extract yielded two furanochromones, khellin and visnagin, for which herbicidal activity had not been described before. Khellin and visnagin were phytotoxic to model species lettuce (Lactuca sativa) and duckweed (Lemna paucicostata), with IC50 values ranging from 110 to 175 µM. These compounds also inhibited the growth and germination of a diverse group of weeds at 0.5 and 1 mM. These weeds included five grasses [ryegrass (Lolium multiflorum), barnyardgrass (Echinocloa crus-galli), crabgrass (Digitaria sanguinalis), foxtail (Setaria italica), and millet (Panicum sp.)] and two broadleaf species [morningglory (Ipomea sp.) and velvetleaf (Abutilon theophrasti)]. During greenhouse studies visnagin was the most active and showed significant contact postemergence herbicidal activity on velvetleaf and crabgrass at 2 kg active ingredient (ai) ha-1. Moreover, its effect at 4 kg ai ha-1 was comparable to the bioherbicide pelargonic acid at the same rate. The mode of action of khellin and visnagin was not a light-dependent process. Both compounds caused membrane destabilization, photosynthetic efficiency reduction, inhibition of cell division, and cell death. These results support the potential of visnagin and, possibly, khellin as bioherbicides or lead molecules for the development of new herbicides.

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To contribute for the development of environmental friendly methods for weed control, a selection of rhizobacteria able to produce phytotoxic substances was carried out. Initially, 35 strains previously isolated from plants in the south of Minas Gerais State (Brazil) were grown in tryptic soy broth. After removal of bacterial cells, the resulting liquids were freeze-dried and extracted with methanol/ethyl acetate (1:1). The extracts were concentrated under vacuum and dissolved in water to be submitted to a lettuce (Lactuca sativa L.) seed assay. Metabolites produced by five strains reduced the number of normal seedlings to values statistically bellow the one observed for the negative control, being the most expressive results obtained with Bacillus cereus Frankland and Frankland, isolated from Ricinus communis L., which was able to cause rotted rootlets to 82.4 percent of seedlings. The bacterium metabolites also avoided germination of 52 percent Brachiaria decumbens Stapf seeds and the remaining 48 percent resulted in abnormal seedlings. Metabolites from B. cereus were submitted to a purification process guided by the lettuce seed assay. As a consequence, one substance causing rotted rootlets to all lettuce seedlings during the seed assay at 0.057 g/L was isolated and will be identified in future studies.

Com vistas a contribuir para o desenvolvimento de métodos não agressivos ao meio ambiente, para o controle de plantas invasoras, buscou-se selecionar rizobactérias produtoras de substâncias fitotóxicas. Inicialmente, 35 culturas previamente isoladas de plantas da região sul do Estado de Minas Gerais (Brasil) foram cultivadas em caldo soja tripticaseína. Após remoção das células bacterianas, os líquidos resultantes foram liofilizados e extraídos com metanol/acetato de etila (1:1). Os extratos foram concentrados sob vácuo e submetidos a testes com sementes de alface (Lactuca sativa L.). Os metabólitos produzidos por cinco isolados bacterianos reduziram o número de plântulas normais para valores estatisticamente inferiores aos observados para o controle negativo, sendo os mais expressivos resultados obtidos com Bacillus cereus Frankland and Frankland, isolado de Ricinus communis L., que causou necroses nas radículas de 82,4 por cento das plântulas. Os metabólitos dessa bactéria também impediram a germinação de 52 por cento das sementes de Brachiaria decumbens Stapf e fizeram com que as 48 por cento restantes dessem origem a plântulas anormais. Os metabólitos de B. cereus foram submetidos a processos de purificação direcionados por testes com sementes de alface. Em decorrência, isolou-se uma substância, que será identificada em estudos futuros. Na concentração de 0,057 g/L, causou necrose nas radículas de todas as plântulas de alface provenientes do teste com sementes.

RESUMEN

To contribute for the development of environmental friendly methods for weed control, a selection of rhizobacteria able to produce phytotoxic substances was carried out. Initially, 35 strains previously isolated from plants in the south of Minas Gerais State (Brazil) were grown in tryptic soy broth. After removal of bacterial cells, the resulting liquids were freeze-dried and extracted with methanol/ethyl acetate (1:1). The extracts were concentrated under vacuum and dissolved in water to be submitted to a lettuce (Lactuca sativa L.) seed assay. Metabolites produced by five strains reduced the number of normal seedlings to values statistically bellow the one observed for the negative control, being the most expressive results obtained with Bacillus cereus Frankland and Frankland, isolated from Ricinus communis L., which was able to cause rotted rootlets to 82.4% of seedlings. The bacterium metabolites also avoided germination of 52% Brachiaria decumbens Stapf seeds and the remaining 48% resulted in abnormal seedlings. Metabolites from B. cereus were submitted to a purification process guided by the lettuce seed assay. As a consequence, one substance causing rotted rootlets to all lettuce seedlings during the seed assay at 0.057 g/L was isolated and will be identified in future studies.

Com vistas a contribuir para o desenvolvimento de métodos não agressivos ao meio ambiente, para o controle de plantas invasoras, buscou-se selecionar rizobactérias produtoras de substâncias fitotóxicas. Inicialmente, 35 culturas previamente isoladas de plantas da região sul do Estado de Minas Gerais (Brasil) foram cultivadas em caldo soja tripticaseína. Após remoção das células bacterianas, os líquidos resultantes foram liofilizados e extraídos com metanol/acetato de etila (1:1). Os extratos foram concentrados sob vácuo e submetidos a testes com sementes de alface (Lactuca sativa L.). Os metabólitos produzidos por cinco isolados bacterianos reduziram o número de plântulas normais para valores estatisticamente inferiores aos observados para o controle negativo, sendo os mais expressivos resultados obtidos com Bacillus cereus Frankland and Frankland, isolado de Ricinus communis L., que causou necroses nas radículas de 82,4% das plântulas. Os metabólitos dessa bactéria também impediram a germinação de 52% das sementes de Brachiaria decumbens Stapf e fizeram com que as 48% restantes dessem origem a plântulas anormais. Os metabólitos de B. cereus foram submetidos a processos de purificação direcionados por testes com sementes de alface. Em decorrência, isolou-se uma substância, que será identificada em estudos futuros. Na concentração de 0,057 g/L, causou necrose nas radículas de todas as plântulas de alface provenientes do teste com sementes.