Survival of Diaporthe phaseolorum var. caulivora (causal agent of soybean stem canker) artificially inoculated in different crop residues

271-274Stem canker caused by Diaporthe phaseolorum var. caulivora is an important disease of soybean in Argentina. The objective of this study was to determine its survival ability in artificially infested straw under laboratory and field conditions. In laboratory, stem pieces of soybean, maize, sorghum, sunflower, potato and wheat were autoclaved, placed in petri dishes on Potato Dextrose Agar and Water Agar, and inoculated with a 7-day-old pathogen culture. All crop residues were colonized and produced perithecia. Debris artificially infested with D. phaseolorum var. caulivora were placed in plastic net bags and transferred to an un-cropped area in a field plot at the University of Buenos Aires. Straws were left on the ground from winter to spring season in both 2007 and 2008 years. After 6 months abundant perithecia were developed in all straws. However, a higher number of perithecia on soybean and sunflower compared to maize, sorghum and potato was determined. These findings suggest that other crops, besides soybean, could maintain alive the inoculum of Diaporthe phaseolorum var. caulivora from soybean for at least 6-7 months

Damping off on soybean (Glycine max) caused by Pythium aphanidermatum in Buenos Aires Province (Argentina)

Pythium aphanidermatum has a cosmopolitan distribution in the warmer parts of the world. The aim of this study was to identify the causal agent of damping off in soybean seedlings on late planting dates under hot conditions, from different locations in Buenos Aires province. The isolates induced different levels of plant and seedling death and growth rate at different incubation temperatures (15, 25 and 35ºC). In accordance with morphological, cultural and molecular characteristics, the pathogen was identified as P. aphanidermatum, and this is the first report of this oomycete causing soybean root and stem rot in Buenos Aires province, Argentina. Highlights Pythium aphanidermatum was recovered from commercial fields of different localities from northern Buenos Aires province and southern Entre Rios province. Temperatures of 35 ºC constitute predisposing conditions and caused the higher percentage of dead seedlings and at temperatures of 15 ºC P. aphanidermatum did not affect the seedlings, being almost not pathogenic at this temperature.Pythium aphanidermatum has a cosmopolitan distribution in the warmer parts of the world. The aim of this study was to identify the causal agent of damping off in soybean seedlings on late planting dates under hot conditions, from different locations in Buenos Aires province. The isolates induced different levels of plant and seedling death and growth rate at different incubation temperatures (15, 25 and 35ºC). In accordance with morphological, cultural and molecular characteristics, the pathogen was identified as P. aphanidermatum, and this is the first report of this oomycete causing soybean root and stem rot in Buenos Aires province, Argentina. Highlights Pythium aphanidermatum was recovered from commercial fields of different localities from northern Buenos Aires province and southern Entre Rios province. Temperatures of 35 ºC constitute predisposing conditions and caused the higher percentage of dead seedlings and at temperatures of 15 ºC P. aphanidermatum did not affect the seedlings, being almost not pathogenic at this temperature

Metal-based compounds containing selenium: An appealing approach towards novel therapeutic drugs with anticancer and antimicrobial effects

In recent years, both metal-based complexes and selenium-containing compounds have been widely explored for their therapeutic properties due to their roles in biological processes and modulation of diverse molecular tar- gets. However, despite their growing interest, there is no review to date that covers the potential use of the combination of these entities to design new therapeutic derivatives. This review highlights the latest achieve- ments in this particular field, with a focus on compounds with anticancer and/or antimicrobial properties. With this aim, the formation of coordination compounds including several metals bearing selenium either with direct interaction with the metal center or as part of the organic ligand elsewhere is covered. Besides, coordination compounds with a Se(IV) center have been assessed. The biological properties of several selenium-containing organometallic complexes have also been discussed, including metallocenes, half-sandwich complexes, and compounds with N-heterocyclic carbenes, CO, and π-ligands, and other σ-bonded entities. The information compiled in this review may be helpful to design and develop novel, more potent, and safer metal-based com- pounds for the treatment of several pathologies

Damping off en soja (Glycine max) causado por Pythium aphanidermatum en la provincia de Buenos Aires (Argentina)

Pythium aphanidermatum has a cosmopolitan distribution in the warmer parts of the world. The aim of this study was to identify the causal agent of damping off in soybean seedlings on late planting dates under hot conditions, from different locations in Buenos Aires province. The isolates induced different levels of plant and seedling death and growth rate at different incubation temperatures (15, 25 and 35°C). In accordance with morphological, cultural and molecular characteristics, the pathogen was identified as P. aphanidermatum, and this is the first report of this oomycete causing soybean root and stem rot in Buenos Aires province, Argentina.Pythium aphanidermatum presenta una distribución cosmopolita, principalmente en las regiones cálidas del mundo. El objetivo de este trabajo fue identificar el agente causal del damping off en plántulas de soja en fechas de siembra tardía bajo condiciones cálidas, en diferentes localidades de la provincia de Buenos Aires. Los aislamientos indujeron diferentes niveles de mortandad de plantas y plántulas y en la tasa de creci- miento a diferentes temperaturas de incubación (15, 25 and 35°C). De acuerdo con la morfología, las características culturales y moleculares, el patógeno fue identificado como P. aphanidermatum, y esta es la primera cita de este oomycete causando podre- dumbre de tallos y raíces en soja en la provincia de Buenos Aires, Argentina.Instituto de Botánica "Dr. Carlos Spegazzini

Small molecules containing chalcogen elements (S, Se, Te) as new warhead to fight neglected tropical diseases

Neglected tropical diseases (NTDs) encompass a group of infectious diseases with a protozoan etiology, high incidence, and prevalence in developing countries. As a result, economic factors constitute one of the main obstacles to their management. Endemic countries have high levels of poverty, deprivation and marginalization which affect patients and limit their access to proper medical care. As a matter of fact, statistics remain un- collected in some affected areas due to non-reporting cases. World Health Organization and other organizations proposed a plan for the eradication and control of the vector, although many of these plans were halted by the COVID-19 pandemic. Despite of the available drugs to treat these pathologies, it exists a lack of effectiveness against several parasite strains. Treatment protocols for diseases such as American trypanosomiasis (Chagas disease), leishmaniasis, and human African trypanosomiasis (HAT) have not achieved the desired results. Un- fortunately, these drugs present limitations such as side effects, toxicity, teratogenicity, renal, and hepatic impairment, as well as high costs that have hindered the control and eradication of these diseases. This review focuses on the analysis of a collection of scientific shreds of evidence with the aim of identifying novel chalcogen- derived molecules with biological activity against Chagas disease, leishmaniasis and HAT. Compounds illustrated in each figure share the distinction of containing at least one chalcogen element. Sulfur (S), selenium (Se), and tellurium (Te) have been grouped and analyzed in accordance with their design strategy, chemical synthesis process and biological activity. After an exhaustive revision of the related literature on S, Se, and Te compounds, 183 compounds presenting excellent biological performance were gathered against the different causative agents of CD, leishmaniasis and HAT

Phytophthora nicotianae causando podridão de raiz e caule em Dieffenbachia picta em Buenos Aires, Argentina

327-331Dieffenbachia picta is a worldwide appreciated crop due to its ornamental value. In Argentina it is cultivated in warm provinces and in the outskirts of Buenos Aires city, where in spring 2007 a great amount of plants were lost in commercial greenhouses. Symptoms such as wilting and soaked lesions in the basal leaves began in four- to six-month-old plants causing plants to wilt due to basal stem and root rot processes. A Peronosporomycete was consistently isolated from diseased tissues. The pathogen was identified as Phytophthora nicotianae based on cultural characteristics, morphology of vegetative and reproductive structures, and on the analysis of the sequence of the nuclear ribosomal internal transcribed spacer (ITS) region. Pathogenicity tests were carried out and Koch's postulates were fulfilled. In complementary studies, the dieffenbachia varieties Alex, Compact, Camilla and Marianne were susceptible to the infection caused by P. nicotianae, whereas Tropic snow (D. amonea) was resistant. This is the first report of P. nicotianae causing stem and root rot of D. picta in Argentina and in the Americas

Novel methylselenoesters induce programed cell death via entosis in pancreatic cancer cells

Redox active selenium (Se) compounds have gained substantial attention in the last decade as potential cancer therapeutic agents. Several Se compounds have shown high selectivity and sensitivity against malignant cells. The cytotoxic effects are exerted by their biologically active metabolites, with methylselenol (CH3SeH) being one of the key executors. In search of novel CH3SeH precursors, we previously synthesized a series of methylselenoesters that were active (GI50 < 10 µM at 72 h) against a panel of cancer cell lines. Herein, we refined the mechanism of action of the two lead compounds with the additional synthesis of new analogs (ethyl, pentyl, and benzyl derivatives). A novel mechanism for the programmed cell death mechanism for Se-compounds was identified. Both methylseleninic acid and the novel CH3SeH precursors induced entosis by cell detachment through downregulation of cell division control protein 42 homolog (CDC42) and its downstream effector β1-integrin (CD29). To our knowledge, this is the first time that Se compounds have been reported to induce this type of cell death and is of importance in the characterization of the anticancerogenic properties of these compounds

Design, synthesis and anticancer evaluation of novel Se-NSAID hybrid molecules: Identification of a Se-indomethacin analog as a potential therapeutic for breast cancer

A total of twenty-five novel carboxylic acid, methylester, methylamide or cyano nonsteroidal anti-inflammatory drug (NSAID) derivatives incorporating Se in the chemical form of selenoester were reported. Twenty Se-NSAID analogs exhibited an increase in cytotoxic potency compared with parent NSAID scaffolds (aspirin, salicylic acid, naproxen, indomethacin and ketoprofen). Top five analogs were selected to further study their cytotoxicity in a larger panel of cancer cells and were also submitted to the DTP program of the NCI’s panel of 60 cancer cell lines. Compounds 4a and 4d stood out with IC50 values below 10 μM in several cancer cells along with a selectivity index higher than 5 in breast cancer cells. Remarkably, analog 4d was found to inhibit cell growth notably in two breast cancer cell lines by inducing apoptosis, and to be metabolized to release the parent NSAID along with the Se fragment. Taken together, our results show that Se-NSAID analog 4d could be a potential chemotherapeutic drug for breast cancer

Podredumbre basal de plantas adultas de tomate causada por pythium aphanidermatum (Oomycota)

11-15In roots of adult tomato plants a wet and brown lesion, extending 2-4 cm above the soil was observed. Diseased plants withered and died. The objective of this paper was to isolate and to identify the causal organism of these symptoms. General and selective culture media were used. After 24 hours colonies with white cottony mycelium were developed. The morphology of the colony and the production, morphology and size of reproductive structures were evaluated. The rDNA extraction was made from mycelium of pure cultures 7-10 days old grown in agarized media. The ITS region was amplified using ITS4 and ITS5 primers, sequenced and compared in gene bank - NCBI BLAST server to verify their sequence similarity to the type or holotype available. Coenocytic mycelium, spherical-globular sporangium and aplerotic oospores, characteristic of the genus Pythium were observed in microscopic slides. Pathogenicity tests were conducted with positive results; a microorganism identical to the original was re-isolated. The characterization achieved by traditional techniques, molecular studies and the results of the pathogenicity tests support the conclusion that Pythium aphanidermatum is the causal agent of basal rot on mature plants of tomato