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131.
Daniela Jerszurki Or Sperling Theivasigamani Parthasarathi Juliana Espada Lichston Adi Yaaran Menachem Moshelion Shimon Rachmilevitch Naftali Lazarovitch 《Physiologia plantarum》2020,170(1):60-74
Plants optimize water use and carbon assimilation via transient regulation of stomata resistance and by limiting hydraulic conductivity in a long-term response of xylem anatomy. We postulated that without effective hydraulic regulation plants would permanently restrain water loss and photosynthetic productivity under salt stress conditions. We compared wild-type tomatoes to a transgenic type (TT) with impaired stomatal control. Gas exchange activity, biomass, starch content, leaf area and root traits, mineral composition and main stems xylem anatomy and hydraulic conductivity were analyzed in plants exposed to salinities of 1 and 4 dS m−1 over 60 days. As the xylem cannot easily readjust to different environmental conditions, shifts in its anatomy and the permanent effect on plant hydraulic conductivity kept transpiration at lower levels under unstressed conditions and maintained it under salt-stress, while sustaining higher but inefficient assimilation rates, leading to starch accumulation and decreased plant biomass, leaf and root area and root length. Narrow conduits in unstressed TT plants were related to permanent restrain of hydraulic conductivity and plant transpiration. Under salinity, TT plants followed the atmospheric water demand, sustained similar transpiration rate from unstressed to salt-stressed conditions and possibly maintained hydraulic integrity, due to likely impaired hydraulic regulation, wider conduits and higher hydraulic conductivity. The accumulation of salts and starch in the TT plants was a strong evidence of salinity tolerance via osmotic regulation, also thought to help to maintain the assimilation rates and transpiration flux under salinity, although it was not translated into higher growth. 相似文献
132.
A cross-over trail of debrisoquine and guanethidine in 32 patients showed that both drugs were equally effective in lowering both systolic and diastolic blood pressure. The degree to which they were tolerated by the patients, however, differed greatly. After three months on each drug 18 patients preferred debrisoquine, nine preferred guanethidine, and five showed no particular preference. At current prices the cost of daily treatment to the patient was cheaper with debrisoquine than with guanethidine. 相似文献
133.
During postembryonic development of insects, sensorimotor pathways, which generate specific behaviors, undergo maturational changes. It is less clear whether such pathways are typically stable, or undergo further maturation, during the adult stage. In the present study, we have examined this issue by multilevel analysis of a simple model system, the escape behavior of the cockroach, from identified synapses to behavior. We show that the escape system is highly responsive immediately after the molt to adulthood, but that the latency of escape responses was not at its typical value immediately after the molt to adult. The latency of escape behavior increased over the first 30 days of adult life, perhaps indicating maturational adjustments of the escape sensorimotor pathway. The first station in the escape circuitry is the synaptic connections between the cercal wind receptors and the giant interneurons. We measured unitary excitatory synaptic potentials between single sensory neurons and an identified giant interneuron (GI(2)). We found a decrease in the synaptic strength between identified cercal hairs from a single column and GI(2) over the first month after the adult molt. Consequently, the latency and the number of action potentials of GI(2) in response to natural stimuli increased and decreased respectively during this time. Thus, we show that both behavioral performance and the wind sensitivity of GI(2) decreased over the first month after molt. We conclude that the cockroach escape system undergoes further sensorimotor maturation over a period of 1 month, and that cellular changes correlate with, or predict, some changes in behavioral performance. 相似文献
134.
Adi?SusiloEmail author Peter V.?Ridd Séverine?Thomas 《Wetlands Ecology and Management》2005,13(4):377-388
Tidal groundwater in a mangrove swamp can return to the mangrove creek by one of two mechanisms: (a) it can either flow through
the swamp soil due to the water table difference between the creek and the groundwater in the swamp; or (b) it can flow via
tidal flushing of animal burrows. This paper compares the magnitude of these two mechanisms for different regions of a mangrove
swamp. Direct groundwater flow rates resulting from water stored in the sediment as a consequence of infiltration, especially
during and after tidal inundation, were calculated for every square meter in the surface of a mangrove forest from piezometer
data. Flow rates of water due to burrow flushing were determined based on published surveys, by estimating the burrow volume
and the percentage of the burrow water that is flushed at each tidal inundation. Although direct groundwater flux was found
to decrease further away from the creek compared to close to the creek, it was also found to have a similar range as burrow
flushing flow. Specifically, direct groundwater flow ranged from 0.004 to 0.04 m3/m2/day, whilst burrow flushing flux ranged from 0.01 to 0.04 m3/m2/day.Considering the errors involved in the experiments and calculations, these ranges can be considered as being the same
and neither of the two processes can be considered as negligible compared to the other. As a consequence, surveys of groundwater
processes in mangrove areas, and more generally in swamp and tidal areas where animal burrows are present, will need to consider
both mechanisms. Investigations of the influence over flushing mechanisms of different residence times of the water in burrows
and in the sediment body would also be recommended in order to establish salt and nutrient budget in mangrove swamps. 相似文献
135.
136.
A role for TLRs in the regulation of immune cell migration by first trimester trophoblast cells 总被引:15,自引:0,他引:15
Abrahams VM Visintin I Aldo PB Guller S Romero R Mor G 《Journal of immunology (Baltimore, Md. : 1950)》2005,175(12):8096-8104
Normal pregnancy is characterized by the presence of innate immune cells at the maternal-fetal interface. Originally, it was postulated that the presence of these leukocytes was due to an immune response toward paternal Ags expressed by the invading trophoblasts. Instead, we and others postulate that these innate immune cells are necessary for successful implantation and pregnancy. However, elevated leukocyte infiltration may be an underlying cause of pregnancy complications, such as preterm labor or preeclampsia. Furthermore, such conditions have been attributed to an intrauterine infection. Therefore, we hypothesize that first trimester trophoblast cells, upon recognition of microbes through TLRs, may coordinate an immune response by recruiting cells of the innate immune system to the maternal-fetal interface. In this study, we have demonstrated that human first trimester trophoblast cells constitutively secrete the chemokines growth-related oncogene, growth-related oncogene alpha, IL-8, and MCP-1 and are able to recruit monocytes and NK cells, and to a lesser degree, neutrophils. Following the ligation of TLR-3 by the viral ligand, poly(I:C), or TLR-4 by bacterial LPS, trophoblast secretion of chemokines is significantly increased and this in turn results in elevated monocyte and neutrophil chemotaxis. In addition, TLR-3 stimulation also induces trophoblast cells to secrete RANTES. These results suggest a novel mechanism by which first trimester trophoblast cells may differentially modulate the maternal immune system during normal pregnancy and in the presence of an intrauterine infection. Such altered trophoblast cell responses might contribute to the pathogenesis of certain pregnancy complications. 相似文献
137.
Vascular endothelial growth factor (VEGF) and its receptors are critical in angiogenesis. The main player in the secretion and response to VEGF is the endothelial cell. We initiated this study to test whether T cells can secrete VEGF and are able to respond to it. Here we show that VEGF is secreted by T cells on stimulation by specific Ag or by IL-2 and by hypoxia; thus, activated T cells might enhance angiogenesis. Hypoxia also induced the expression in T cells of VEGFR2, suggesting that T cells might also respond to VEGF. Indeed, VEGF augmented IFN-gamma and inhibited IL-10 secretion by T cells responding to mitogen or Ag; thus, VEGF can enhance a Th1 phenotype. Encephalitogenic T cells stimulated in the presence of VEGF caused more severe and prolonged encephalomyelitis. Thus, T cells can play a role in angiogenesis by delivering VEGF to inflammatory sites, and VEGF can augment proinflammatory T cell differentiation. 相似文献
138.
139.
The Death-Associated Protein kinase (DAPk) family contains three closely related serine/threonine kinases, named DAPk, ZIPk and DRP-1, which display a high degree of homology in their catalytic domains. The recent discovery of protein-protein interactions and kinase/substrate relationships among these family members suggests that the three kinases may form multi-protein complexes capable of transmitting apoptotic or autophagic cell death signals in response to various cellular stresses including the misregulated expression of oncogenes in pre-malignant cells. Several lines of evidence indicate that the most studied member of the family, DAPk, has tumor and metastasis suppressor properties. Here we present an overview of the data connecting the DAPk family of proteins to cell death and malignant transformation and discuss the possible involvement of the autophagic cell death-inducing capacity of DAPk in its tumor suppressor activity. 相似文献
140.