Effect of inhibition of synthesis of inducible nitric oxide synthase-derived nitric oxide by aminoguanidine on the in vitro maturation of oocyte-cumulus complexes of cattle

The aim of the present study was to investigate the effects of inhibition of the enzyme inducible nitric oxide synthase (iNOS) by aminoguanidine (AG) on the in vitro maturation of oocyte-cumulus cell complex(es) (COC) of cattle. COC were cultured with different concentrations of AG (0, 1, 10, and 100mM) for 24h. In Experiment 1, the extent of cumulus complex expansion, nuclear maturation status and plasma membrane integrity of oocytes and cumulus cells from each treatment were assessed. Nitrate/nitrite (NO(3)(-)/NO(2)(-)) concentrations were determined in culture medium by the Griess method. Addition of different concentrations of AG to maturation medium promoted a dose-response inhibitory effect on cumulus expansion (P<0.05). Addition of 1 and 10mM AG to IVM medium did not affect plasma membrane integrity of oocytes or nuclear maturation rates (P>0.05), but it did reduce plasma membrane integrity in cumulus cells. One hundred millimolar inhibited pre-metaphase I (pre-MI) to metaphase II (MII) transition, promoted plasma membrane damage in oocytes (P<0.05), and increased NO(3)(-)/NO(2)(-) concentration when compared to controls (P<0.05). To evaluate if this effect was reversible, 10(-5)M sodium nitroprusside (SNP, NO donor) was added, only in the treatment with 100mM AG that inhibited the nuclear maturation. However, association of 10(-5)M SNP to 100mM AG did not reverse the effects of AG, but increased NO(3)(-)/NO(2)(-)concentration (P<0.05). In Experiment 2, the effect of different AG concentrations on cytoplasmic maturation in vitro was assessed based on cortical granule migration, and embryonic development. There was a dose effect on cortical granule migration rate, in which 1mM AG (83.9+/-6.2%) did not differ from control oocytes (83.6+/-8.2%; P>0.05), but 10mM partially inhibited migration (3.8+/-6.4%) and 100mM totally inhibited migration (P<0.05). SNP (10(-5)M) did not revert this inhibitory effect on cortical granules migration in oocytes treated with 100mM AG. Only those concentrations that did not inhibit IVM were used to assess cleavage and blastocyst development. Addition of 10mM AG to IVM medium reduced (73.0+/-8.1%, 15.0+/-8.9%; P<0.05) cleavage and blastocyst development, respectively when compared with controls (89.1+/-3.4%, 37.6+/-7.3%, respectively), but did not differ, (P>0.05), from the group treated with 1mM AG (80.9+/-8.4%, 41.5+/-10.5%, respectively). The results from the present study demonstrate that NO derived from iNOS affects the in vitro maturation of bovine COC, modulating the viability of cumulus cells and of oocyte, the progression of meiosis after GVBD, the migration of cortical granules, and cleavage and blastocyst development.     

Molecular aspects of leaf senescence

Senescence is the last stage of leaf development and one type of programmed cell death that occurs in plants. The relationships among senescence programs that are induced by a variety of factors have been addressed at a molecular level in recent studies. Furthermore, an overlap between the pathogen-response and senescence programs is beginning to be characterized. The complexity of the senescence program is also evident in studies of senescence-specific gene regulation and the role of photosynthesis and plant hormones in senescence regulation. New molecular-genetic approaches are expected to be useful in unraveling the molecular mechanisms of the leaf senescence program.     

A comparison of the expression patterns of several senescence-associated genes in response to stress and hormone treatment

The expression of several Arabidopsis thaliana senescence-associated genes (SAGs) in attached and/or detached leaves was compared in response to age, dehydration, darkness, abscisic acid, cytokinin, and ethylene treatments. Most of the SAGs responded to most of the treatments in a similar fashion. Detachment in darkness and ethylene were the strongest inducers of both SAGs and visible yellowing. Detachment in light was also a strong inducer of SAGs, but not of visible yellowing. The other treatments varied more in their effects on individual SAGs. Responses were examined in both older and younger leaves, and generally were much stronger in the older ones. Individual SAGs differed from the norms in different ways, however, suggesting that their gene products play a role in overlapping but not identical circumstances. Some SAGs responded quickly to treatments, which may indicate a direct response. Others responded more slowly, which may indicate an indirect response via treatment-induced senescence. Four new SAGs were isolated as part of this work, one of which shows strong similarity to late embryogenesis-abundant (Lea) genes.     

Room temperature synthesis and binding studies of solution‐processable histamine‐imprinted microspheres

Accurate quantification of histamine levels in food and in biological samples is important for monitoring the quality of food products and for the detection of pathophysiological conditions. In this study, solution processable histamine‐imprinted microspheres were synthesized at 30°C via dilute free radical phototochemical polymerization technique using ethylene glycol dimethacrylate (EGDMA) as the crosslinker and methacrylic acid (MAA) as the monomer. The processability of the resulting polymer is dictated by the monomer feed concentration (eg, 4 wt% 80:20 EGDMA:MAA formulation) and solvent (acetonitrile). Whereas, the particle size is influenced by the monomer feed concentration, the presence of template molecule, and independent of the crosslinker content. Evaluation of the binding performance of the photochemically imprinted polymers (PCP) with different crosslinker content (80 and 90 wt%) indicated that the selective binding capacity was notably higher in PCP‐80 (N= 16.0 μmol/g) compared to PCP‐90 (N= 10.1 μmol/g) when analyzed via frontal analysis capillary electrophoresis (FACE) using Freundlich isotherm. In addition, PCP‐80 microspheres are more selective toward histamine than conventional thermal polymers (CTP‐80) prepared at 60°C in the presence of structural analogs such as histidine, imidazole, and tryptamine under cross‐rebinding and competitive conditions. These results demonstrated that histamine‐selective imprinted polymers can be obtained readily using room temperature photochemical polymerization where these materials can be subsequently used as recognition element for optical‐based histamine sensing.     

Diversity of soil fungal communities of Cerrado and its closely surrounding agriculture fields

Cerrado is a savanna-like region that covers a large area of Brazil. Despite its biological importance, the Cerrado has been the focus of few microbial diversity studies. A molecular approach was chosen to characterize the soil fungal communities in four areas of the Cerrado biome: a native Cerrado, a riverbank forest, an area converted to a soybean plantation, and an area converted to pasture. Global diversity of fungal communities in each area was assessed through Ribosomal intergenic spacer analysis which revealed remarkable differences among the areas studied. Sequencing of approximately 200 clones containing 18S rDNA sequences from each library was performed and, according to the genetic distance between sequences, these were assigned to operational taxonomic units (OTUs). A total of 75, 85, 85, and 70 OTUs were identified for the native Cerrado, riverbank forest, pasture, and soybean plantation, respectively. Analysis of sequences using a similarity cutoff value of 1% showed that the number of OTUs for the native Cerrado area was reduced by 35%; for the soybean plantation, a reduction by more than 50% was observed, indicating a reduction in fungal biodiversity associated with anthropogenic activity. This is the first study demonstrating the anthropogenic impact on Cerrado soil fungal diversity.