451 research outputs found
Paleomagnetic dating of non-sulfide Zn-Pb ores in SW Sardinia (Italy): a first attempt
A first paleomagnetic investigation aimed at constraining the age of the non-sulfide Zn-Pb ore deposits in the
Iglesiente district (SW Sardinia, Italy) was carried out. In these ores, the oxidation of primary sulfides, hosted
in Cambrian carbonate rocks, was related to several paleoweathering episodes spanning from the Mesozoic onward.
Paleomagnetic analyses were performed on 43 cores from 4 different localities, containing: a) non-oxidized
primary sulfides and host rock, b) oxidized Fe-rich hydrothermal dolomites and (c) supergene oxidation
ore («Calamine»). Reliable data were obtained from 18 samples; the others show uninterpretable results due to
low magnetic intensity or to scattered demagnetization trajectories. Three of them show a scattered Characteristic
Remanent Magnetization (ChRM), likely carried by the original (i.e. Paleozoic) magnetic iron sulfides. The
remaining 15 samples show a well defined and coherent ChRM, carried by high-coercivity minerals, acquired
after the last phase of counterclockwise rotation of Sardinia (that is after 16 Myr), in a time interval long enough
to span at least one reversal of the geomagnetic field. Hematite is the main magnetic carrier in the limestone,
whereas weathered hydrothermal dolomite contains goethite or a mixture of both. The results suggest that paleomagnetism
can be used to constrain the timing of oxidation in supergene-enriched ores
Engineered Proteins in Materials Research
Peptides and proteins have attracted scientific and technological interest largely because
of their intriguing properties as catalysts, receptors, signalling molecules, and
therapeutic agents. In attempts to understand and exploit these properties, protein engineering
has been used primarily to obtain precious proteins in increased quantities,
or to explore systematic alterations in protein sequence through site-directed mutagenesis.
Design of protein structures de novo ("from scratch") has attracted less attention,
and has been directed in the main toward studies of protein folding (Kamtekar et
al., 1993). Such studies represent a key element in the current vigorous investigation
of the connections between amino acid sequence and the three-dimensional structures
of isolated protein chains in aqueous solution. This chapter describes protein engineering
of quite another sort, in which the proteinacious nature of the product is less
important than its macromolecular character
Environmental Predictors of Human West Nile Virus Infections, Colorado
To determine whether environmental surveillance of West Nile virus–positive dead birds, mosquito pools, equines, and sentinel chickens helped predict human cases in metropolitan Denver, Colorado, during 2003, we analyzed human surveillance data and environmental data. Birds successfully predicted the highest proportion of human cases, followed by mosquito pools, and equines
Infection and Transmission of Rift Valley Fever Viruses Lacking the NSs and/or NSm Genes in Mosquitoes: Potential Role for NSm in Mosquito Infection
Rift Valley fever virus is transmitted mainly by mosquitoes and causes disease in humans and animals throughout Africa and the Arabian Peninsula. The impact of disease is large in terms of human illness and mortality, and economic impact on the livestock industry. For these reasons, and because there is a risk of this virus spreading to Europe and North America, it is important to develop a vaccine that is stable, safe and effective in preventing infection. Potential vaccine viruses have been developed through deletion of two genes (NSs and NSm) affecting virus virulence. Because this virus is normally transmitted by mosquitoes we must determine the effects of the deletions in these vaccine viruses on their ability to infect and be transmitted by mosquitoes. An optimal vaccine virus would not infect or be transmitted. The viruses were tested in two mosquito species: Aedes aegypti and Culex quinquefasciatus. Deletion of the NSm gene reduced infection of Ae. aegypti mosquitoes indicating a role for the NSm protein in mosquito infection. The virus with deletion of both NSs and NSm genes was the best vaccine candidate since it did not infect Ae. aegypti and showed reduced infection and transmission rates in Cx. quinquefasciatus
Isolation and genomic characterization of Chaoyang virus strain ROK144 from \u3ci\u3eAedes vexansnipponii\u3c/i\u3e from the Republic of Korea
During June 2003, mosquito surveillance was conducted at a US Army installation and a US Military training site 2 km south of the demilitarized zone, Republic of Korea. Mosquitoes were collected using Mosquito MagnetsTM, sorted to species, and assayed for the presence of arboviruses. From the 3,149 mosquitoes that were sorted into126 pools, one Aedes vexan snipponii pool (out of 73 pools) tested positive for flavivirus RNA by reverse transcription-PCR. After isolation from C6/36 cell culture supernatant, the viral genome was sequenced and found to be 98.9% related to Chaoyang virus, a potential arthropod-specific flavivirus. This report details the first identification of Chaoyang virus in the Republic of Korea and highlights its relationship to other flaviviruses
Isolation and genomic characterization of Chaoyang virus strain ROK144 from \u3ci\u3eAedes vexansnipponii\u3c/i\u3e from the Republic of Korea
During June 2003, mosquito surveillance was conducted at a US Army installation and a US Military training site 2 km south of the demilitarized zone, Republic of Korea. Mosquitoes were collected using Mosquito MagnetsTM, sorted to species, and assayed for the presence of arboviruses. From the 3,149 mosquitoes that were sorted into126 pools, one Aedes vexan snipponii pool (out of 73 pools) tested positive for flavivirus RNA by reverse transcription-PCR. After isolation from C6/36 cell culture supernatant, the viral genome was sequenced and found to be 98.9% related to Chaoyang virus, a potential arthropod-specific flavivirus. This report details the first identification of Chaoyang virus in the Republic of Korea and highlights its relationship to other flaviviruses
A hierarchical network approach for modeling Rift Valley fever epidemics with applications in North America
Rift Valley fever is a vector-borne zoonotic disease which causes high
morbidity and mortality in livestock. In the event Rift Valley fever virus is
introduced to the United States or other non-endemic areas, understanding the
potential patterns of spread and the areas at risk based on disease vectors and
hosts will be vital for developing mitigation strategies. Presented here is a
general network-based mathematical model of Rift Valley fever. Given a lack of
empirical data on disease vector species and their vector competence, this
discrete time epidemic model uses stochastic parameters following several PERT
distributions to model the dynamic interactions between hosts and likely North
American mosquito vectors in dispersed geographic areas. Spatial effects and
climate factors are also addressed in the model. The model is applied to a
large directed asymmetric network of 3,621 nodes based on actual farms to
examine a hypothetical introduction to some counties of Texas, an important
ranching area in the United States of America (U.S.A.). The nodes of the
networks represent livestock farms, livestock markets, and feedlots, and the
links represent cattle movements and mosquito diffusion between different
nodes. Cattle and mosquito (Aedes and Culex) populations are treated with
different contact networks to assess virus propagation. Rift Valley fever virus
spread is assessed under various initial infection conditions (infected
mosquito eggs, adults or cattle). A surprising trend is fewer initial
infectious organisms result in a longer delay before a larger and more
prolonged outbreak. The delay is likely caused by a lack of herd immunity while
the infections expands geographically before becoming an epidemic involving
many dispersed farms and animals almost simultaneously
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