Acidification in corn monocultures favor fungi, ammonia oxidizing bacteria, and nirK-denitrifier groups

Agricultural practices of no-till and crop rotations are critical to counteract the detrimental effects of monocultures and tillage operations on ecosystem services related to soil health such as microbial N cycling. The present study explored the main steps of the microbial N cycle, using targeted gene abundance as a proxy, and concerning soil properties, following 19 and 20 years of crop monocultures and rotations of corn (Zea mays L.), and soybean [Glycine max (L.) Merr.], either under no-till or chisel tillage. Real-time quantitative polymerase chain reaction (qPCR) was implemented to estimate phylogenetic groups and functional genes related to the microbial N cycle: nifH (N2 fixation), amoA (nitrification) and nirK, nirS, and nosZ (denitrification). Our results indicate that long-term crop rotation and tillage decisions affect soil health as it relates to soil properties and microbial parameters. No-till management increased soil organic matter (SOM), decreased soil pH, and increased copy numbers of AOB (ammonia oxidizing bacteria). Crop rotations with more corn increased SOM, reduced soil pH, reduced AOA (ammonia oxidizing archaea) copy numbers, and increased AOB and fungal ITS copy numbers. NirK denitrifier groups were also enhanced under continuous corn. Altogether, the more corn years included in a crop rotation multiplies the amount of N needed to sustain yield levels, thereby intensifying the N cycle in these systems, potentially leading to acidification, enhanced bacterial nitrification, and creating an environment primed for N losses and increased N2O emissions.Fil: Behnke, G. D.. University of Illinois; Estados UnidosFil: Zabaloy, Maria Celina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Bahía Blanca. Centro de Recursos Naturales Renovables de la Zona Semiárida. Universidad Nacional del Sur. Centro de Recursos Naturales Renovables de la Zona Semiárida; ArgentinaFil: Riggins, C. W.. University of Illinois; Estados UnidosFil: Rodríguez-Zas, S.. University of Illinois; Estados UnidosFil: Huang, L.. University of Illinois; Estados UnidosFil: Villamil, Maria Bonita. University of Illinois; Estados Unidos. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentin

Urvillea chacoënsis Hunz.

Valle de Catamarca, Ruta Nº 62, entre Banda de Varella y el Dique Las Pirquitas, inmediaciones de Capilla del Rosario entre Polcos y La TercenapublishedVersio

El virus de la D.V.B. como agente contaminante en cultivo de tejidos animales

The Hovine Viral Diarrhoea Virus (BWV)belongs to the genus Pestisvirus. It is the cause or reproductive disorders in catlle and is widespread in the conuntry. There are noncytophatogenic strains of the BVDV very difficult to detect inthe primary tissue culture and cell lines, ordinarilly used in diagnostic test or research activities. Foetal calf serum (FCS) is the common source of contamulation for the animal tissue culture, because of the poor quality controll during its collection and markenting under local conditions. It is possibly to fmd two kind of situations related to BVDV and the presence of viral particles; in each case is possible to have problems with the laboratory procedures. In order to avoid BWV tissue culture contamination, in our laboratory it has been used an indirect inmunofluorescense tedinique for the detectionofthe Wusinfoetalcaüserumandtissue cultures, havingresults asfoilows: 28.5%positives from 32 FCS samples from differnt sources and 42.8% from tissue cuitures from different animal origen and several research centres. Come recomdations are made for the prevention and control ot this problem at diagnostic and researchlaboratorylevelliietheuse of BI, indirect peroxidase techniques, or inmunopresitation for the detection of the Wus, and the use of a few number of fwtuses for each lot of FCS in order to reduce the risk of contamination from this source.El Pestisvirus que produce la Diarrea Viral Bovina (V.D.V.B.), ocasiona problemas reproductivos en el ganado vacuno y se encuentra ampliamente difundido en el país. La presencia de cepas no citopatogénicas del mismo, las cuales normalmente no se evidencian en los cultivos celulares contaminados con éste virus, han constituido un Iimitante para el establecimiento y mantenimiento de cultivos primarios y líneas celulares libres del V.D.V.B., para uso rutinario en actividades diagnósticas o investigativas. El suero fetal bovino (SFB) es la fuente usual de contaminación para los cultivos de tejidos animales, dadas las escasas previsiones para el control de su calidad, ya que la recolección y mercadeo del SFB se realiza con criterios artesanales y sin los debidos controles de calidad. Específicamente en el caso del V.D.V.B., se pueden presentar dos situaciones con el SFB: que contenga partículas virales o que posea niveles de anticuerpos contra el virus; en ambos casos se darán problemas en los procedimientos realizados con dichos sueros. Con el fin de controlar las contaminaciones de los cultivos celulares con el VDVB, en el Postgrado de la Facultad de Medicina Veterinaria de la Universidad Nacional, se ha empleado la técnica de Inmunofluorescencia Indirecta (IFl) para detectarlas tanto, en el SFB como en diferentes cultivos celulares, obteniéndose para el SFB el 25.8% de positivos de un total de 32 muestras de diferentes orígenes y para los cultivos celulares el 42.8% de positivos de 28 lotes, procedentes de diferente origen animal y centros de investigación, resultados que son comparables con los obtenidos por otros laboratorios internacionales como el National Animal Diseases Laboratory (NADL) del Departamento de Agricultura de USA. Dentro de las recomendaciones para la prevención y control del problema en laboratorios de diagnóstico e investigación médica y veterinaria, que empleen tecnologías relacionadas con manejo y mantenimiento de cultivos celulares, están las de implementar técnicas para la detección del virus como la IFI, la peroxidasa o la Inmunoprecipitación, al igual que el manejo de un bajo número de fetos en la conformación de lotes de SFB

Testing the Distraction Hypothesis:do extrafloral nectaries reduce ant-pollinator conflict?

1. Ant guards protect plants from herbivores, but can also hinder pollination by damaging reproductive structures and/or repelling pollinators. Natural selection should favour the evolution of plant traits that deter ants from visiting flowers during anthesis, without waiving their defensive services. The Distraction Hypothesis posits that rewarding ants with extrafloral nectar could reduce their visitation of flowers, reducing ant-pollinator conflict while retaining protection of other structures. 2. We characterised the proportion of flowers occupied by ants and the number of ants per flower in a Mexican ant-plant, Turnera velutina. We clogged extrafloral nectaries on field plants and observed the effects on patrolling ants, pollinators and ants inside flowers, and quantified the effects on plant fitness. Based on the Distraction Hypothesis we predicted that preventing extrafloral nectar secretion should result in fewer ants active at extrafloral nectaries, more ants inside flowers and a higher proportion of flowers occupied by ants, leading to ant-pollinator conflict, with reduced pollinator visitation and reduced plant fitness. 3. Overall ant activity inside flowers was low. Preventing extrafloral nectar secretion through clogging reduced the number of ants patrolling extrafloral nectaries, significantly increased the proportion of flowers occupied by ants from 6.1% to 9.7%, and reduced plant reproductive output through a 12% increase in the probability of fruit abortion. No change in the numbers of ants or pollinators inside flowers was observed. This is the first support for the Distraction Hypothesis obtained under field conditions, showing ecological and plant fitness benefits of the distracting function of extrafloral nectar during anthesis. 4. Synthesis: Our study provides the first field experimental support for the Distraction Hypothesis, suggesting that extrafloral nectaries located close to flowers may bribe ants away from reproductive structures during the crucial pollination period, reducing the probability of ant-occupation of flowers, reducing ant-pollinator conflict, and increasing plant reproductive success

Desenvolvimento do perfil sensorial para cultivares de arroz brasileiro.

Avaliação dos produtos. Desenvolvimento da terminologia sensorial. Treinamento dos provadores. Avaliação do desempenho da equipe. Análise dos resultados.bitstream/item/65466/1/CTAA-DOCUMENTOS-21-DESENVOLVIMENTO-DO-PERFIL-SENSORIAL-PARA-CULTIVARES-DE-ARROZ-BRASILEIRO-FL-021.pd

Synthesis of a Novel Boronic Acid Transition State Inhibitor, MB076: A Heterocyclic Triazole Effectively Inhibits Acinetobacter-Derived Cephalosporinase Variants with an Expanded-Substrate Spectrum

Class C Acinetobacter-derived cephalosporinases(ADCs) represent an important target for inhibition in the multidrug-resistantpathogen Acinetobacter baumannii. ManyADC variants have emerged, and characterization of their structuraland functional differences is essential. Equally as important is thedevelopment of compounds that inhibit all prevalent ADCs despite thesedifferences. The boronic acid transition state inhibitor, MB076, a novel heterocyclic triazole with improved plasma stability, wassynthesized and inhibits seven different ADC & beta;-lactamase variantswith K (i) values MB076 acted synergistically in combination with multiple cephalosporinsto restore susceptibility. ADC variants containing an alanine duplicationin the & omega;-loop, specifically ADC-33, exhibited increased activityfor larger cephalosporins, such as ceftazidime, cefiderocol, and ceftolozane.X-ray crystal structures of ADC variants in this study provide a structuralcontext for substrate profile differences and show that the inhibitoradopts a similar conformation in all ADC variants, despite small changesnear their active sites

Extracellular proteolytic cascade in tomato activates immune protease Rcr3

Proteolytic cascades regulate immunity and development in animals, but these cascades in plants have not yet been reported. Here we report that the extracellular immune protease Rcr3 of tomato is activated by P69B and other subtilases (SBTs), revealing a proteolytic cascade regulating extracellular immunity in solanaceous plants. Rcr3 is a secreted papain-like Cys protease (PLCP) of tomato that acts both in basal resistance against late blight disease (Phytophthora infestans) and in gene-for-gene resistance against the fungal pathogen Cladosporium fulvum (syn. Passalora fulva) Despite the prevalent model that Rcr3-like proteases can activate themselves at low pH, we found that catalytically inactive proRcr3 mutant precursors are still processed into mature mRcr3 isoforms. ProRcr3 is processed by secreted P69B and other Asp-selective SBTs in solanaceous plants, providing robust immunity through SBT redundancy. The apoplastic effector EPI1 of P. infestans can block Rcr3 activation by inhibiting SBTs, suggesting that this effector promotes virulence indirectly by preventing the activation of Rcr3(-like) immune proteases. Rcr3 activation in Nicotiana benthamiana requires a SBT from a different subfamily, indicating that extracellular proteolytic cascades have evolved convergently in solanaceous plants or are very ancient in the plant kingdom. The frequent incidence of Asp residues in the cleavage region of Rcr3-like proteases in solanaceous plants indicates that activation of immune proteases by SBTs is a general mechanism, illuminating a proteolytic cascade that provides robust apoplastic immunity