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981.
Endothelial cells in vivo are constantly exposed to shear associated with blood flow and altered shear stress elicits cellular
responses (mechanotransduction). This review describes the role of shear sensors and signal transducers in these events. The
major focus is the response to removal of shear as occurs when blood flow is compromised (i.e., ischemia). Pulmonary ischemia
studied with the isolated murine lung or flow adapted pulmonary microvascular endothelial cells in vitro results in endothelial
generation of reactive oxygen species (ROS) and NO. The response requires caveolae and is initiated by endothelial cell depolarization
via KATP channel closure followed by activation of NADPH oxidase (NOX2) and NO synthase (eNOS), signaling through MAP kinases, and
endothelial cell proliferation. These physiological mediators can promote vasodilation and angiogenesis as compensation for
decreased tissue perfusion. 相似文献
982.
Heather E. Wright Qiong Zhang James R. Mihelcic 《The International Journal of Life Cycle Assessment》2008,13(5):412-420
Goal, Scope, and Background The paper describes the integration of the economic input–output life cycle assessment (EIO-LCA) model and the environmental
fate and transport model (CHEMGL) with a risk assessment tool. Utilizing the EIO-LCA, instead of a traditional LCA, enables
a rapid, screening-level analysis of an emerging chemical of concern, decabromodiphenyl ether (DecaBDE). The risk assessment
in this study is evaluated based on the mass of chemical released, estimated concentrations, exposure, and chemical toxicity.
Methods The relative risk from ten economic sectors identified within the EIO-LCA model, 55 chemicals utilized in those sectors and
DecaBDE along with four potential DecaBDE breakdown products, were evaluated for the life cycle stages and exposure pathways.
The relative risk (expressed as toluene equivalents) of the different chemicals, sectors, and life cycle stages were compared
to assess those representing the greatest overall relative risks to humans (via inhalation and ingestion) and fish.
Results The greatest overall risk to human health resulted from the manufacturing and production stages. For fish, the manufacturing
stage represented virtually all of the risk. Of the 56 chemicals evaluated, DecaBDE represented the majority of the total
risk to humans. However, DecaBDE posed the least risk compared to its potential breakdown products.
Discussion The risk to humans from ingestion, which represented the greatest risk, from the production, manufacturing, and consumption
stages can be controlled and reduced through various safety precautions in the workplace. Additionally, the increasing concentration
of DecaBDE in anaerobic compartments represents a threat to humans and fish via the higher risk DecaBDE breakdown products.
Conclusions Overall, the manufacturing and production life cycle stages pose the greatest risk to humans and fish. The sediment compartment
received the highest DecaBDE concentration for the production, manufacturing, and consumption stages. This case study demonstrates
that the integrated EIO-LCA with risk assessment is suitable for screening-level analysis of emerging chemicals due to rapid
life cycle inventory analysis.
Recommendations The production and manufacturing stages allow for greater industry control and government regulation, compared to the consumption
stage, because there are fewer point sources. This integrated life cycle methodology may allow chemical designers to evaluate
each stage and assess areas where risks can be minimized. 相似文献
983.
Kristina Ulrich Thomas Stauber Dietrich Ewald 《Plant Cell, Tissue and Organ Culture》2008,93(3):347-351
High densities of endophytic bacteria were found in plant material from poplar, larch and spruce that had been micropropagated
for at least 5 years. The majority of these bacteria were assigned to the genus Paenibacillus based on the sequencing of the 16S rRNA genes. Other endophytic bacteria such as Methylobacterium, Stenotrophomonas or Bacillus could also be found but only in some tissue cultures. Certain species or strains of Paenibacillus, especially those with a close relationship to P. humicus, seemed to accumulate under in vitro conditions without visible negative influences on the plant’s development. Poplar microcuttings
inoculated with the endophytic Paenibacillus isolate 22 showed significantly more roots per cutting and higher root length in comparison to the control plants after 3 weeks. 相似文献
984.
Biological invasions offer excellent systems to study the evolutionary processes involved in introductions of species to new
ranges. Molecular markers can reveal invasion histories and the effects of introductions on amounts and structuring of genetic
variation. We used five polymorphic microsatellite loci to elucidate genetic diversity and population structure between native
range and introduced range populations of a prominent North American rangeland weed, Centaurea diffusa (Asteraceae). We found that the total number of alleles and the number of private alleles was slightly higher in the native
Eurasian range, and that allelic richness did not differ between the ranges, indicating overall levels of diversity were similar
in Eurasia and North America. It therefore seems unlikely that this invasion has been affected by genetic bottlenecks or founder
effects. Indeed, results of assignment tests suggest that multiple introductions have contributed to North America’s C. diffusa invasion. Additionally, assignment tests show that both Eurasian and North American sites had a strong pattern of mixed genetic
ancestry. This mixed assignment corresponded to a lack of geographic population structure among Eurasian samples. The lack
of population structure in the native range conflicts with general expectations and findings to date for invasion genetics,
and cautions that even species’ native ranges may show signs of recent ecological upheaval. Despite the mixed assignments,
North American samples showed strong population structure, suggesting that the invasion has been characterized by long-range
dispersal of genetically distinct propagules across the introduced range. 相似文献
985.
Leaf physiological and gas-exchange traits of a summer-green herbaceous perennial, Parasenecio yatabei, growing along a stream were examined in relation to leaf age. In its vegetative phase, the aerial part of this plant consists
of only one leaf and provides an ideal system for the study of leaf longevity. Volumetric soil water content (SWC) decreased
with increasing distance from the stream, whereas relative light intensity was nearly constant. The light-saturated net CO2 assimilation rate (A
sat) and leaf stomatal conductance (gs) were approximately 1.5-fold and 1.4-fold higher, respectively, in the lower slope near
the mountain stream than in the upper slope far from the mountain stream. The lifespan of aerial parts of vegetative plants
significantly increased with decreasing SWC. The leaf mass-based nitrogen content of the leaves (N
mass) was almost constant (ca. 2.2%); however, the maximum carboxylation rate by ribulose-1,5-biphosphate carboxylase/oxygenase
(rubisco) (V
cmax) and photosynthetic nitrogen use efficiency (PNUE, A
sat/N
area) decreased more slowly in the upper slope than in the lower slope. The higher leaf photosynthetic activity of P. yatabei plants growing lower on the slope leads to a decrease in V
cmax and PNUE in the early growing season, and to a shorter leaf lifespan. 相似文献
986.
Ri-Sheng Tang Jian-Chu Zheng Zhi-Qing Jin Da-Dong Zhang Yi-Hong Huang Liu-Gen Chen 《Plant Growth Regulation》2008,54(1):37-43
In order to explore the possible physiological mechanism of high temperature induced sterility in rice, we examined the floret
sterility and endogenous plant growth regulator contents in pollens of two hybrid rice cultivars Shanyou63 and Teyou559 that
are tolerant and susceptible to high temperature, respectively. Indexes of floret sterility, pollen activity, and variation
of endogenous indole-3-acetic acid (IAA), gibberellic acids (GAs), abscisic acid (ABA), free proline and soluble proteins
in anthers were measured. We found that during the course of high temperature treatment, both cultivars exhibited a marked
decrease in pollen activity, pollen germination and floret fertility; however, the high temperature tolerant Shanyou63 showed
a much slower rate of decrease than the high temperature susceptible Teyou559. In addition, anthers of both cultivars displayed
a decrease in the contents of IAA, GAs, free proline and soluble proteins but an increase in the ABA content. Yet compared
to Teyou559, Shanyou63 retained significantly higher levels of free praline and GAs and a lower level of ABA, along with higher
pollen vigour and pollen germination rate even after prolonged high temperature treatment. Our study suggests a possible correlation
between pollen viability/floret sterility and high temperature-caused changes in IAA, GAs, ABA, free proline and soluble protein
contents. The severity in these changes may reflect the variation of rice cultivars in their heat stress sensitivities for
floret development. 相似文献
987.
Huang CY Lee W Lin HC 《Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology》2008,178(1):111-121
The fish gill is a multifunctional organ responsible for gas exchange and ionic regulation. It is hypothesized that both morphological
and functional differentiation can be found in the gills of the aquatic air-breathing fish, Trichogaster leeri. To test this, we used the air-breathing fish, Trichogaster leeri, to investigate various morphological/functional parameters. First, we evaluated the importance of performing the aquatic
surface respiration behavior in T. leeri. A reduced survival rate was observed when fish were kept in the restrained cages in hypoxic conditions. On the gross anatomy
of gills, we found evidence of both morphological and functional modification in the first and the second gills and are responsible
for ionic regulation. There were large-bore arterioarterial shunts in the fourth gill arch. It is specialized for the transport
of oxygenated blood and is less responsive to environmental stress. In addition, the anterior and the posterior gills differed
in the Na+, K+-ATPase activity upon ionic stresses. That is, only the Na+, K+-ATPase activity of the anterior two gills was up-regulated significantly in the deionized water. Lastly, we found that the
number of mitochondria-rich cells in the first and the second gills increased following ionic stress and no difference was
found in the third and the fourth gills following such an exposure. These results supported the hypothesis that there are
morphological and functional differences between anterior and posterior gill arches within the air-breathing Trichogaster leeri. In contrast, no significant difference was found among gills in gross anatomy, filament density and Na+, K+-ATPase activity in the non-air-breather, Barbodes schwanenfeldi. 相似文献
988.
Lake Balaton (Hungary), one of the largest lakes in Europe, has undergone eutrophication and restoration during the last two decades. The first quantitative phytoplankton records date back to the 1930s, and since that time thousands of data have been published or accumulated in counting protocols or computer sheets. These data provide material for both scientific analyses (e.g. effects of global change) and applications (e.g. estimation of reference state for the Water Framework Directive). The ALMOBAL phytoplankton database was developed to provide computing support for these applications. It stores data in standardized forms, handles synonyms and allows analyses to be conducted on the basis of floral records, numbers or biomass. The analysis includes records of about 3000 phytoplankton samples taken during the past 60 years from two representative basins in Lake Balaton. This article represents the first attempt at historical reconstruction of the ecological status and compares it with changes in trophic state and current water quality. The results indicate that the phytoplankton biomass and community structure found in the early 1960s could be regarded as reference conditions. Statistical analyses support the view that late summer phytoplankton assemblages are the most sensitive indicators of trophic change, and clearly show the eutrophication of the lake that occurred from the mid-1970s to the mid-1990s and the restoration during the last decade. An additional advantage is that, since quality estimation is based on relative biomass, the method can be used to reconstruct water quality in cases when counting protocols are available, but some basic data for quantitative estimates are missing. 相似文献
989.
de Cássia Dias S Sakauchi D Abreu PA de Lima Netto S Iourtov D Raw I Kubrusly FS 《Biotechnology letters》2008,30(5):807-812
Aprotinin, the most studied serine proteinase inhibitor, was isolated from porcine lung for the first time. The purified porcine
aprotinin had an Mr value of ∼7 kDa. It cross-reacted with polyclonal serum anti-commercial aprotinin. About 1 μg porcine
aprotinin inhibited 6 μg trypsin whereas 1 μg commercial soybean inhibitor inhibited only 1 μg trypsin. The aprotinin gene
was also isolated from porcine lung: the deduced amino acid sequence showed 74% identity to bovine aprotinin. 相似文献
990.
In this paper we demonstrate that low level ‘artisanal’ fishing can dramatically affect populations of slow-growing, late-maturing
animals and that even on remote oceanic islands, stocks have been depleted and ecosystems degraded for millennia. Industrialised
fisheries have developed during different decades in different regions of the world, and this has almost always been followed
by a period of massive stock decline. However, ecosystems were not pristine before the onset of industrial fishing and it
is difficult to assess the ‘virgin’ state of a population given that it may have been subject to moderate or even high levels
of fishing mortality for many centuries.
A wide range of information is available to help define or deduce historic marine population status. These include ‘traditional’
written sources but also less conventional sources such as archaeological remains, genetic analyses or simple anecdotal evidence.
Detailed information, collected specifically for the purpose of determining fish stock biomass tends to exist only for recent
decades, and most fishery assessments around the world (and thus time-series of biomass estimates), are less than 30 years
long. Here we advocate using a wider range of multidisciplinary data sources, although we also recognise that it can be difficult
to separate natural variability associated with changing climatic conditions from human-induced changes through fishing. We
consider whether or not recovery of degraded ecosystems is ever possible and discuss a series of one-way ratchet like processes
that can make it extremely difficult to return to a former ecosystem state. 相似文献