Mycosynthesis of silver nanoparticles using psychrotrophic strains of Tulasnella albida Bourdot & Galzin from the South Orkney Islands (Antarctica).

This study is the first report on mycosynthesis of silver nanoparticles (NPs) using psychrotrophic Antarctic filamentous fungi, and the first report regarding Tulasnella (Basidiomycota). In this work, the ability to synthesize silver NPs from cell free filtrates of strains of Tulasnella albida isolated from Antarctica was assessed. All fungal filtrates were capable of synthesizing silver NPs with the addition of AgNO3. UV-vis spectroscopy, TEM and SEM microscopy analyses were performed to characterize the synthesized NPs. ATR-FTIR and Micro Raman spectroscopy analyses were conducted to find functional groups responsible for the reduction of AgNO3 and to detect the presence of silver oxide on the AgNPs. Theoretical calculations of optical absorption based on core-shell Ag-Ag2O were used to characterize the experimental absorption spectra of silver NPs colloids. Spherically shaped silver NPs, typically 2-3nm in diameter, were obtained. The largest ones showed a capping shell around them, which could be associated with the formation of small silver NPs. Functional groups corresponding to amides and alcohols were detected, confirming the presence of proteins as possible intermediates in the synthesis of AgNPs. On the other hand, the Micro Raman analysis confirms the presence of silver oxide on the surface of the AgNPs. This work presents a simple procedure for the synthesis of silver NPs using a psychrotrophic organism that could be interesting for the industry.

Influence of strong bases on the synthesis of silver nanoparticles (AgNPs) using the ligninolytic fungi Trametes trogii.

Silver nanoparticles (AgNPs) were biosynthesized using fungal extract of Trametes trogii, a white rot basidiomycete involved in wood decay worldwide, which produces several ligninolytic enzymes. According to previous studies using fungi, enzymes are involved in nanoparticles synthesis, through the so-called green synthesis process, acting as reducing and capping agents. Understanding which factors could modify nanoparticles' shape, size and production efficiency is relevant. The results showed that under the protocol used in this work, this strain of Trametes trogii is able to synthesize silver nanoparticles with the addition of silver nitrate (AgNO3) to the fungal extract obtained with an optimal incubation time of 72 h and pH 13, using NaOH to adjust pH. The progress of the reaction was monitored using UV-visible spectroscopy and synthesized AgNPs was characterized by scanning electron microscope (SEM), through in-lens and QBDS detectors, and energy-dispersive X-ray spectroscopy (EDX). Additionally, SPR absorption was modeled using Mie theory and simple nanoparticles and core-shell configurations were studied, to understand the morphology and environment of the nanoparticles. This protocol represents a simple and cheap synthesis in the absence of toxic reagents and under an environmentally friendly condition.

[Toxic fungi in Buenos Aires City and surroundings]. / Hongos tóxicos en la Ciudad de Buenos Aires y alrededores.

In Facultad de Ciencias Exactas y Naturales,Universidad de Buenos Aires there is a service called Servicio de Identificación de Hongos Tóxicos, directed by researchers of the Program of Medicinal Plants and Fungi Involved in Biological Degradation (PROPLAME-PRHIDEB, CONICET) that assist hospitals and other health establishments, identifying the different samples of fungi and providing information about their toxicity, so that patients can receive the correct treatment. The objective of the present study was to analyze all the cases received from 1985 to 2012. This analysis permitted the confection of a table identifying the most common toxic species. The information gathered revealed that 47% of the patients were under 18 years of age and had eaten basidiomes; the remaining 53% were adults who insisted that they were able to distinguish edible from toxic mushrooms. Chlorophyllum molybdites turned out to be the main cause of fungal intoxication in Buenos Aires, which is commonly confused with Macrolepiota procera, an edible mushroom. In the second place Amanita phalloides was registered, an agaric known to cause severe symptoms after a long period of latency (6-10 hours), and which can lead to hepatic failure even requiring a transplant to prevent severe internal injuries or even death, is not early and correctly treated.

Hongos tóxicos en la Ciudad de Buenos Aires y alrededores / Toxic fungi in Buenos Aires City and surroundings

En la Facultad de Ciencias Exactas y Naturales de la Universidad de Buenos Aires (FCEN-UBA) funciona el Servicio de Identificación de Hongos Tóxicos. Lo integran los investigadores del Programa de Plantas Medicinales y Programa de Hongos que Intervienen en la Degradación Biológica (PROPLAME-PRHIDEB, CONICET) y colabora con servicios médicos, estatales y privados, identificando los materiales remitidos en casos de intoxicaciones con hongos, permitiendo, en muchos casos, realizar el tratamiento adecuado. El presente trabajo da a conocer los casos atendidos por el servicio desde 1985 hasta 2012 inclusive, además de una tabla para reconocer las especies tóxicas más comunes de la región. Según esta información, el 47% de las consultas que se recibieron correspondieron a pacientes menores de 18 años de edad que ingirieron materiales fúngicos de forma accidental (o al menos se sospechaba que lo hubieran hecho). El 53% restante correspondió a adultos que afirmaron ser capaces de distinguir hongos comestibles de tóxicos. Se determinó que Chlorophyllum molybdites fue la principal especie causante de intoxicaciones, la cual es comúnmente confundida con el hongo comestible Macrolepiota procera. En segundo lugar Amanita phalloides, un hongo altamente tóxico, que se caracteriza por presentar inicio de síntomas en forma tardía (latencia de 6-10 horas), evolucionando a falla hepática con el consiguiente requerimiento de trasplante o la muerte, si no se realiza el tratamiento adecuado en forma oportuna.

In Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires there is a service called Servicio de Identificación de Hongos Tóxicos, directed by researchers of the Program of Medicinal Plants and Fungi Involved in Biological Degradation (PROPLAME-PRHIDEB, CONICET) that assist hospitals and other health establishments, identifying the different samples of fungi and providing information about their toxicity, so that patients can receive the correct treatment. The objective of the present study was to analyze all the cases received from 1985 to 2012. This analysis permitted the confection of a table identifying the most common toxic species. The information gathered revealed that 47% of the patients were under 18 years of age and had eaten basidiomes; the remaining 53% were adults who insisted that they were able to distinguish edible from toxic mushrooms. Chlorophyllum molybdites turned out to be the main cause of fungal intoxication in Buenos Aires, which is commonly confused with Macrolepiota procera, an edible mushroom. In the second place Amanita phalloides was registered, an agaric known to cause severe symptoms after a long period of latency (6-10 hours), and which can lead to hepatic failure even requiring a transplant to prevent severe internal injuries or even death, is not early and correctly treated.

Hongos tóxicos en la Ciudad de Buenos Aires y alrededores / Toxic fungi in Buenos Aires City and surroundings

En la Facultad de Ciencias Exactas y Naturales de la Universidad de Buenos Aires (FCEN-UBA) funciona el Servicio de Identificación de Hongos Tóxicos. Lo integran los investigadores del Programa de Plantas Medicinales y Programa de Hongos que Intervienen en la Degradación Biológica (PROPLAME-PRHIDEB, CONICET) y colabora con servicios médicos, estatales y privados, identificando los materiales remitidos en casos de intoxicaciones con hongos, permitiendo, en muchos casos, realizar el tratamiento adecuado. El presente trabajo da a conocer los casos atendidos por el servicio desde 1985 hasta 2012 inclusive, además de una tabla para reconocer las especies tóxicas más comunes de la región. Según esta información, el 47% de las consultas que se recibieron correspondieron a pacientes menores de 18 años de edad que ingirieron materiales fúngicos de forma accidental (o al menos se sospechaba que lo hubieran hecho). El 53% restante correspondió a adultos que afirmaron ser capaces de distinguir hongos comestibles de tóxicos. Se determinó que Chlorophyllum molybdites fue la principal especie causante de intoxicaciones, la cual es comúnmente confundida con el hongo comestible Macrolepiota procera. En segundo lugar Amanita phalloides, un hongo altamente tóxico, que se caracteriza por presentar inicio de síntomas en forma tardía (latencia de 6-10 horas), evolucionando a falla hepática con el consiguiente requerimiento de trasplante o la muerte, si no se realiza el tratamiento adecuado en forma oportuna.(AU)

In Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires there is a service called Servicio de Identificación de Hongos Tóxicos, directed by researchers of the Program of Medicinal Plants and Fungi Involved in Biological Degradation (PROPLAME-PRHIDEB, CONICET) that assist hospitals and other health establishments, identifying the different samples of fungi and providing information about their toxicity, so that patients can receive the correct treatment. The objective of the present study was to analyze all the cases received from 1985 to 2012. This analysis permitted the confection of a table identifying the most common toxic species. The information gathered revealed that 47% of the patients were under 18 years of age and had eaten basidiomes; the remaining 53% were adults who insisted that they were able to distinguish edible from toxic mushrooms. Chlorophyllum molybdites turned out to be the main cause of fungal intoxication in Buenos Aires, which is commonly confused with Macrolepiota procera, an edible mushroom. In the second place Amanita phalloides was registered, an agaric known to cause severe symptoms after a long period of latency (6-10 hours), and which can lead to hepatic failure even requiring a transplant to prevent severe internal injuries or even death, is not early and correctly treated.(AU)

Autofluorescence and ultrastructure in the Myxomycete Diachea leucopodia (Physarales).

Autofluorescence is reported for the first time in Myxomycete fruiting bodies. Ultrastructure of stalked sporangia of Diachea leucopodia (Didymiaceae, Physarales) was studied using scanning and transmission electron microscopy, energy-dispersive X-ray microanalysis, and fluorescence microscopy. External and internal properties of the peridium that surround the spores and capillitium exhibit autofluorescence. The stalk is composed of calcareous granules and energy-dispersive X-ray microanalysis demonstrates that the elemental composition of the peridium, capillitium, and stalk has varying concentrations of calcium.

Hongos tóxicos en la Ciudad de Buenos Aires y alrededores. / [Toxic fungi in Buenos Aires City and surroundings].

In Facultad de Ciencias Exactas y Naturales,Universidad de Buenos Aires there is a service called Servicio de Identificación de Hongos Tóxicos, directed by researchers of the Program of Medicinal Plants and Fungi Involved in Biological Degradation (PROPLAME-PRHIDEB, CONICET) that assist hospitals and other health establishments, identifying the different samples of fungi and providing information about their toxicity, so that patients can receive the correct treatment. The objective of the present study was to analyze all the cases received from 1985 to 2012. This analysis permitted the confection of a table identifying the most common toxic species. The information gathered revealed that 47

of the patients were under 18 years of age and had eaten basidiomes; the remaining 53

were adults who insisted that they were able to distinguish edible from toxic mushrooms. Chlorophyllum molybdites turned out to be the main cause of fungal intoxication in Buenos Aires, which is commonly confused with Macrolepiota procera, an edible mushroom. In the second place Amanita phalloides was registered, an agaric known to cause severe symptoms after a long period of latency (6-10 hours), and which can lead to hepatic failure even requiring a transplant to prevent severe internal injuries or even death, is not early and correctly treated.

Photonic simulation method applied to the study of structural color in Myxomycetes.

We present a novel simulation method to investigate the multicolored effect of the Diachea leucopoda (Physarales order, Myxomycetes class), which is a microorganism that has a characteristic pointillistic iridescent appearance. It was shown that this appearance is of structural origin, and is produced within the peridium -protective layer that encloses the mass of spores-, which is basically a corrugated sheet of a transparent material. The main characteristics of the observed color were explained in terms of interference effects using a simple model of homogeneous planar slab. In this paper we apply a novel simulation method to investigate the electromagnetic response of such structure in more detail, i.e., taking into account the inhomogeneities of the biological material within the peridium and its curvature. We show that both features, which could not be considered within the simplified model, affect the observed color. The proposed method is of great potential for the study of biological structures, which present a high degree of complexity in the geometrical shapes as well as in the materials involved.

Structural color in Myxomycetes.

In this paper we report evidence of structural color in Myxomycetes, a group of eukaryotic microorganisms with an uncertain taxonomic position. We investigated the Diachea leucopoda, which belongs to the Physarales order, Myxomycetes class, and found that its peridium -protective layer that encloses the mass of spores- is basically a corrugated layer of a transparent material, which produces a multicolored pointillistic effect, characteristic of this species. Scanning (SEM) and transmission (TEM) electron microscopy techniques have been employed to characterize the samples. A simple optical model of a planar slab is proposed to calculate the reflectance. The chromaticity coordinates are obtained, and the results confirm that the color observed is a result of an interference effect.