195 research outputs found
Bioleaching of gold, copper and nickel from waste cellular phone PCBs and computer goldfinger motherboards by two <italic>Aspergillus niger</italic>strains
Associated Production of Upsilon and Weak Gauge Bosons at the Tevatron
We calculate the rate of production of W+Upsilon and Z+Upsilon at the
Tevatron. We find the cross sections at a center-of-mass energy of 1.8 TeV to
be roughly 450 pb for W+Upsilon and 150 pb for Z+Upsilon. The dominant
production mechanism involves the binding of a color-octet b-bbar pair into a
P-wave bottomonium state which subsequently decays into Upsilon. The purely
leptonic decay modes of Upsilon, W, and Z provide signatures with small
backgrounds. In Run I of the Tevatron, the number of events in the purely
leptonic decay channels before allowing for detector acceptances and
efficiencies should be about 500 for W+Upsilon and about 60 for Z+Upsilon. We
conclude that W+Upsilon events may be observable in the Run I data.Comment: 8 pages, Latex, One figure included as eps file. Minor changes made.
Version to be publishe
CBX7 and miR-9 are part of an autoregulatory loop controlling p16(INK) (4a).
Polycomb repressive complexes (PRC1 and PRC2) are epigenetic regulators that act in coordination to influence multiple cellular processes including pluripotency, differentiation, cancer and senescence. The role of PRCs in senescence can be mostly explained by their ability to repress the INK4/ARF locus. CBX7 is one of five mammalian orthologues of Drosophila Polycomb that forms part of PRC1. Despite the relevance of CBX7 for regulating senescence and pluripotency, we have a limited understanding of how the expression of CBX7 is regulated. Here we report that the miR-9 family of microRNAs (miRNAS) downregulates the expression of CBX7. In turn, CBX7 represses miR-9-1 and miR-9-2 as part of a regulatory negative feedback loop. The miR-9/CBX7 feedback loop is a regulatory module contributing to induction of the cyclin-dependent kinase inhibitor (CDKI) p16(INK4a) during senescence. The ability of the miR-9 family to regulate senescence could have implications for understanding the role of miR-9 in cancer and aging
Enhanced Three-Body Decay of the Charged Higgs Boson
If the charged Higgs boson H+ exists with mh < mt + mb, the conventional
expectation is that it will decay dominantly into c s-bar and tau+ nu-tau.
However, the three-body decay mode H+ --> W+ b b-bar is also present and we
show that it becomes very important in the low tan(beta) region for mh >~ 140
GeV. We explore its phenomenological implications for the charged-Higgs-boson
search in top-quark decay.Comment: 11 pages, 2 figures, revtex and epsf require
Foliar water uptake: a common water acquisition strategy for plants of the redwood forest
Evaluations of plant water use in ecosystems around the world reveal a shared capacity by many different species to absorb rain, dew, or fog water directly into their leaves or plant crowns. This mode of water uptake provides an important water subsidy that relieves foliar water stress. Our study provides the first comparative evaluation of foliar uptake capacity among the dominant plant taxa from the coast redwood ecosystem of California where crown-wetting events by summertime fog frequently occur during an otherwise drought-prone season. Previous research demonstrated that the dominant overstory tree species, Sequoia sempervirens, takes up fog water by both its roots (via drip from the crown to the soil) and directly through its leaf surfaces. The present study adds to these early findings and shows that 80% of the dominant species from the redwood forest exhibit this foliar uptake water acquisition strategy. The plants studied include canopy trees, understory ferns, and shrubs. Our results also show that foliar uptake provides direct hydration to leaves, increasing leaf water content by 2–11%. In addition, 60% of redwood forest species investigated demonstrate nocturnal stomatal conductance to water vapor. Such findings indicate that even species unable to absorb water directly into their foliage may still receive indirect benefits from nocturnal leaf wetting through suppressed transpiration. For these species, leaf-wetting events enhance the efficacy of nighttime re-equilibration with available soil water and therefore also increase pre-dawn leaf water potentials
Astroglial cells derived from lateral and medial midbrain sectors differ in their synthesis and secretion of sulfated glycosaminoglycans
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Decadal climate variability and predictability: challenges and opportunities
The study of Decadal Climate Variability (DCV) and Predictability is the interdisciplinary endeavor to characterize, understand, attribute, simulate, and predict the slow, multi-year variations of climate at global (e.g. the recent slowdown of global mean temperature rise in the early 2000s) and regional scales (e.g. decadal modulation of hurricane activity in the Atlantic, ongoing drought in California or in the Sahel in the 1970s-1980s, etc.). This study remains very challenging in spite of decades of research, extensive progress in climate system modeling and improvements in the availability and coverage of a wide variety of observations. Considerable obstacles in applying this knowledge to actual predictions remain.
This short article is a succint review paper about DCV and predictability. Based on listed issues and priorities, it also proposes a unifying theme referred to as “drivers of teleconnectivity” as a backbone to address and structure the core DCV research challenge. This framework goes beyond a preoccupation with changes in the global mean temperature and directly addresses the regional impacts of external (natural and anthropogenic) climate forcing and internal climate interactions; it thus explicitly deals with the societal needs for region-specific climate information. Such a framework also enables the integration of efforts in a large international research community towards advancing the observation, characterization, understanding and prediction of DCV. Recommendations to make progress are provided as part of the contribution of the CLIVAR “DCVP Research Focus” group
Antioxidant enzyme profile and lipid peroxidation products in semen samples of testicular germ cell tumor patients submitted to orchiectomy
Prenatal Hypoxic-Ischemic Insult Changes the Distribution and Number of NADPH-Diaphorase Cells in the Cerebellum
Astrogliosis, oligodendroglial death and motor deficits have been observed in the offspring of female rats that had their uterine arteries clamped at the 18th gestational day. Since nitric oxide has important roles in several inflammatory and developmental events, here we evaluated NADPH-diaphorase (NADPH-d) distribution in the cerebellum of rats submitted to this hypoxia-ischemia (HI) model. At postnatal (P) day 9, Purkinje cells of SHAM and non-manipulated (NM) animals showed NADPH-d+ labeling both in the cell body and dendritic arborization in folia 1 to 8, while HI animals presented a weaker labeling in both cellular structures. NADPH-d+ labeling in the molecular (ML), and in both the external and internal granular layer, was unaffected by HI at this age. At P23, labeling in Purkinje cells was absent in all three groups. Ectopic NADPH-d+ cells in the ML of folia 1 to 4 and folium 10 were present exclusively in HI animals. This labeling pattern was maintained up to P90 in folium 10. In the cerebellar white matter (WM), at P9 and P23, microglial (ED1+) NADPH-d+ cells, were observed in all groups. At P23, only HI animals presented NADPH-d labeling in the cell body and processes of reactive astrocytes (GFAP+). At P9 and P23, the number of NADPH-d+ cells in the WM was higher in HI animals than in SHAM and NM ones. At P45 and at P90 no NADPH-d+ cells were observed in the WM of the three groups. Our results indicate that HI insults lead to long-lasting alterations in nitric oxide synthase expression in the cerebellum. Such alterations in cerebellar differentiation might explain, at least in part, the motor deficits that are commonly observed in this model
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