A holistic view of nitrogen acquisition in plants

Nitrogen (N) is the mineral nutrient required in the greatest amount and its availability is a major factor limiting growth and development of plants. As sessile organisms, plants have evolved different strategies to adapt to changes in the availability and distribution of N in soils. These strategies include mechanisms that act at different levels of biological organization from the molecular to the ecosystem level. At the molecular level, plants can adjust their capacity to acquire different forms of N in a range of concentrations by modulating the expression and function of genes in different N uptake systems. Modulation of plant growth and development, most notably changes in the root system architecture, can also greatly impact plant N acquisition in the soil. At the organism and ecosystem levels, plants establish associations with diverse microorganisms to ensure adequate nutrition and N supply. These different adaptive mechanisms have been traditionally discussed separately in the literature. To understand plant N nutrition in the environment, an integrated view of all pathways contributing to plant N acquisition is required. Towards this goal, in this review the different mechanisms that plants utilize to maintain an adequate N supply are summarized and integrated.     

Expression in yeast and purification of functional recombinant human poly(ADP-ribose)polymerase (PARP). Comparative pharmacological profile with that of the rat enzyme

Human poly(ADP-ribose)polymerase (PARP) was expressed in the yeast line JEL1 under the control of a GAL promoter. Proteins were extracted and human recombinant PARP purified to apparent homogeneity. The pharmacological profile of this human enzyme was characterised in terms of the effects of known inhibitors of PARP belonging to various chemical families and this was compared with that of the rat enzyme purified from rat testes, using the same purification protocol. The rat and the human enzymes appeared very similar in terms of their sensitivities to those selected inhibitors.     

Population analysis of a commercial Saccharomyces cerevisiae wine yeast in a batch culture by electric particle analysis, light diffraction and flow cytometry

Data from electric particle analysis, light diffraction and flow cytometry analysis provide information on changes in cell morphology. Here, we report analyses of Saccharomyces cerevisiae populations growing in a batch culture using these techniques. The size distributions were determined by electric particle analysis and by light diffraction in order to compare their outcomes. Flow cytometry parameters forward (related to cell size) and side (related to cell granularity) scatter were also determined to complement this information. These distributions of yeast properties were analysed statistically and by a complexity index. The cell size of Saccharomyces at the lag phase was smaller than that at the beginning of the exponential phase, whereas during the stationary phase, the cell size converged with the values observed during the lag phase. These experimental techniques, when used together, allow us to distinguish among and characterize the cell size, cell granularity and the structure of the yeast population through the three growth phases. Flow cytometry patterns are better than light diffraction and electric particle analysis in showing the existence of subpopulations during the different phases, especially during the stationary phase. The use of a complexity index in this context helped to differentiate these phases and confirmed the yeast cell heterogeneity.     

Detection of Helicobacter pylori DNA in human feces by PCR: DNA stability and removal of inhibitors

In this study, the stability of Helicobacter pylori DNA in human feces and the effect of a diet lacking in plant material, the suspected source of PCR inhibitors in human feces, were investigated. In addition, a method to remove these inhibitors was developed. Stools inoculated with H. pylori were used as a model. For this purpose, a H. pylori suspension (10(8) CFU/ml) was used to spike stool samples obtained from four healthy adults known to be H. pylori negative. The evaluation of the stability of H. pylori DNA in feces showed that DNA was degraded after 3 days of contact with fecal material at 37 degrees C. A 2-day diet completely free of plant material was sufficient to eliminate PCR inhibitors from human feces. However, inhibitors were detected 48 h after a normal diet was resumed. A new technique consisting of agarose blocks containing embedded DNA as a template for PCR amplification was used for removal of inhibitors, following DNA extraction by a modified QIAamp tissue method (Qiagen, Hilden, Germany). When this method was applied to inhibiting stool samples known to have an inhibitory effect and spiked with H. pylori (5.10(8) CFU/g), a positive PCR was obtained showing that inhibitors present in the original DNA samples were completely removed. The agarose embedded DNA block method is highly efficient and provides clean, high quality template DNA for PCR purposes avoiding long and fastidious conventional extraction methods. In conclusion, this study confirms that H. pylori DNA degrades with time in stools. A diet free of plant material or a special DNA preparation can be used to remove inhibitors and to allow the detection of H. pylori.     

The assembly of individual chaplin peptides from Streptomyces coelicolor into functional amyloid fibrils

The self-association of proteins into amyloid fibrils offers an alternative to the natively folded state of many polypeptides. Although commonly associated with disease, amyloid fibrils represent the natural functional state of some proteins, such as the chaplins from the soil-dwelling bacterium Streptomyces coelicolor, which coat the aerial mycelium and spores rendering them hydrophobic. We have undertaken a biophysical characterisation of the five short chaplin peptides ChpD-H to probe the mechanism by which these peptides self-assemble in solution to form fibrils. Each of the five chaplin peptides produced synthetically or isolated from the cell wall is individually surface-active and capable of forming fibrils under a range of solution conditions in vitro. These fibrils contain a highly similar cross-β core structure and a secondary structure that resembles fibrils formed in vivo on the spore and mycelium surface. They can also restore the growth of aerial hyphae to a chaplin mutant strain. We show that cysteine residues are not required for fibril formation in vitro and propose a role for the cysteine residues conserved in four of the five short chaplin peptides.     

Multilayered microspheres for the controlled release of growth factors in tissue engineering

Tissue regeneration may be stimulated by growth factors but to be effective, this delivery must be sustained and requires delivery vehicles that overcome the short half-life of these molecules in vivo. One promising approach is to couple growth factors to the biomaterial surface so that they are readily bioavailable. Here the layer-by-layer process was used to construct a multilayered polyelectrolyte delivery system on the surface of poly(lactic-co-glycolic) acid constructs. The system was first optimized on a planar surface before translation to a 3D microsphere system. The layers incorporated heparin to facilitate the loading of basic fibroblast growth factor and increase growth factor stability. Cross-linked capping layers also reduced any burst release. The model growth factor was released in a sustained manner and stimulated significantly higher cell proliferation in vitro on release compared with the addition of the growth factor heparin complex free in solution, demonstrating the promise of this approach.     

Mouse Protocadherin-1 Gene Expression Is Regulated by Cigarette Smoke Exposure In Vivo

Protocadherin-1 (PCDH1) is a novel susceptibility gene for airway hyperresponsiveness, first identified in families exposed to cigarette smoke and is expressed in bronchial epithelial cells. Here, we asked how mouse Pcdh1 expression is regulated in lung structural cells in vivo under physiological conditions, and in both short-term cigarette smoke exposure models characterized by airway inflammation and hyperresponsiveness and chronic cigarette smoke exposure models. Pcdh1 gene-structure was investigated by Rapid Amplification of cDNA Ends. Pcdh1 mRNA and protein expression was investigated by qRT-PCR, western blotting using isoform-specific antibodies. We observed 87% conservation of the Pcdh1 nucleotide sequence, and 96% conservation of the Pcdh1 protein sequence between men and mice. We identified a novel Pcdh1 isoform encoding only the intracellular signalling motifs. Cigarette smoke exposure for 4 consecutive days markedly reduced Pcdh1 mRNA expression in lung tissue (3 to 4-fold), while neutrophilia and airway hyperresponsiveness was induced. Moreover, Pcdh1 mRNA expression in lung tissue was reduced already 6 hours after an acute cigarette-smoke exposure in mice. Chronic exposure to cigarette smoke induced loss of Pcdh1 protein in lung tissue after 2 months, while Pcdh1 protein levels were no longer reduced after 9 months of cigarette smoke exposure. We conclude that Pcdh1 is highly homologous to human PCDH1, encodes two transmembrane proteins and one intracellular protein, and is regulated by cigarette smoke exposure in vivo.     

Effect of L-adrenaline on extracellular space in rabbit aorta and pulmonary artery]

Adrenaline causes an increase of extra-cellular fluid space in aorta and pulmonary artery of the rabbit. The effect is parallel in both tissues and the relative increase is about 20% of the normal value. The results confirm the oedematous reaction of the arterial wall to adrenaline; this action of adrenaline appears to be very long.     

Conditions for greater survival of neonatally thymectomized Swiss mice (author's transl)]

A total of 385 albino Swiss mice, of both sexes, between 24 and 30 hours of age are neonatally thymectomized, by means of a suction pump method. One batch is operated under ether anesthesia, another with sodium pentobarbital, and a third one with Cryoanesthesia. The last batch is subdivided into 2. In one of these the mother is anesthetized with sodium pentobarbital intraperitoneally, during the postoperative recovery of the litter, and in the other the mother is left without treatment. The mothers of the first two batches of thymectomized animals are anesthetized with the same products as their offspring. The percentage of survival of thymectomized breeding mice in greatest in the batch operated under Cryoanesthesia and whose mothers received the above mentioned treatment. Statistically the differences are very significant and they might be accounted to the fact that the mothers are anesthetized while their offspring normalize their physiological constants with better recovery in feeding, hydration, shelter and rest.