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101.
Multiwavelength spectroscopy is a rapid analytical technique that can be applied to detect, identify, and quantify microorganisms such as Karenia brevis, the species known for frequent red-tide blooms in Florida's coastal waters. This research will report on a model-based interpretation of UV–vis spectra of K. brevis. The spectroscopy models are based on light scattering and absorption theories, and the approximation of the frequency-dependant optical properties of the basic constituents of living organisms. Absorption and scattering properties of K. brevis, such as cell size/shape, internal structure, and chemical composition, are shown to predict the spectral features observed in the measured spectra. The parameters for the interpretation model were based upon both reported literature values, and experimental values obtained from live cultures and pigment standards. Measured and mathematically derived spectra were compared to determine the adequacy of the model, contribute new spectral information, and to establish the proposed spectral interpretation approach as a new detection method for K. brevis. 相似文献
102.
Mercedes Montero-Balaguer Kendra Swirsding Fabrizio Orsenigo Franco Cotelli Marina Mione Elisabetta Dejana 《PloS one》2009,4(6)
Background
VE-cadherin is an endothelial specific, transmembrane protein, that clusters at adherens junctions where it promotes homotypic cell-cell adhesion. VE-cadherin null mutation in the mouse results in early fetal lethality due to altered vascular development. However, the mechanism of action of VE-cadherin is complex and, in the mouse embryo, it is difficult to define the specific steps of vascular development in which this protein is involved.Methodology and Principal Findings
In order to study the role VE-cadherin in the development of the vascular system in a more suitable model, we knocked down the expression of the coding gene in zebrafish. The novel findings reported here are: 1) partial reduction of VE-cadherin expression using low doses of morpholinos causes vascular fragility, head hemorrhages and increase in permeability; this has not been described before and suggests that the total amount of the protein expressed is an important determinant of vascular stability; 2) concentrations of morpholinos which abrogate VE-cadherin expression prevent vessels to establish successful reciprocal contacts and, as a consequence, vascular sprouting activity is not inhibited. This likely explains the observed vascular hyper-sprouting and the presence of several small, collapsing vessels; 3) the common cardinal vein lacks a correct connection with the endocardium leaving the heart separated from the rest of the circulatory system. The lack of closure of the circulatory loop has never been described before and may explain some downstream defects of the phenotype such as the lack of a correct vascular remodeling.Conclusions and Significance
Our observations identify several steps of vascular development in which VE-cadherin plays an essential role. While it does not appear to regulate vascular patterning it is implicated in vascular connection and inhibition of sprouting activity. These processes require stable cell-cell junctions which are defective in absence of VE-cadherin. Notably, also partial modifications in VE-cadherin expression prevent the formation of a stable vasculature. This suggests that partial internalization or change of function of this protein may strongly affect vascular stability and organization. 相似文献103.
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105.
Applications and safety considerations of Lactobacillus salivarius as a probiotic in animal and human health 下载免费PDF全文
The goals of this review are to summarize the current knowledge on the application of Lactobacillus salivarius as a probiotic in animals and humans, and to address safety concerns with its use on live hosts. Overall, several strains of L. salivarius are well established probiotics with multiple applications in animal health, particularly to reduce colonization by gastrointestinal pathogens, and to a lesser extent, as a production and quality aid. In humans, L. salivarius has been used to prevent and treat a variety of chronic diseases, including asthma, cancer, atopic dermatitis and halitosis, and to a much limited extent, to prevent or treat infections. Based on the results from primary research evidence, it seems that L. salivarius does not pose a health risk to animals or humans in the doses currently used for a variety of applications; however, there is a systematic lack of studies assuring the safety of many of the strains intended for clinical use. This review provides researchers in the field with up‐to‐date information regarding applications and safety of L. salivarius. Furthermore, it helps researchers identify knowledge gaps and potential opportunities for microbiological and clinical research. 相似文献
106.
Craine JM Nippert JB Towne EG Tucker S Kembel SW Skibbe A McLauchlan KK 《Oecologia》2011,165(4):1109-1117
Future climate change is likely to reduce the floristic diversity of grasslands. Yet the potential consequences of climate-induced
plant species losses for the functioning of these ecosystems are poorly understood. We investigated how climate change might
alter the functional composition of grasslands for Konza Prairie, a diverse tallgrass prairie in central North America. With
species-specific climate envelopes, we show that a reduction in mean annual precipitation would preferentially remove species
that are more abundant in the more productive lowland positions at Konza. As such, decreases in precipitation could reduce
productivity not only by reducing water availability but by also removing species that inhabit the most productive areas and
respond the most to climate variability. In support of this prediction, data on species abundance at Konza over 16 years show
that species that are more abundant in lowlands than uplands are preferentially reduced in years with low precipitation. Climate
change is likely to also preferentially remove species from particular functional groups and clades. For example, warming
is forecast to preferentially remove perennials over annuals as well as Cyperaceae species. Despite these predictions, climate
change is unlikely to unilaterally alter the functional composition of the tallgrass prairie flora, as many functional traits
such as physiological drought tolerance and maximum photosynthetic rates showed little relationship with climate envelope
parameters. In all, although climatic drying would indirectly alter grassland productivity through species loss patterns,
the insurance afforded by biodiversity to ecosystem function is likely to be sustained in the face of climate change. 相似文献
107.
De Jonghe BC Hayes MR Banno R Skibicka KP Zimmer DJ Bowen KA Leichner TM Alhadeff AL Kanoski SE Cyr NE Nillni EA Grill HJ Bence KK 《American journal of physiology. Endocrinology and metabolism》2011,300(6):E1002-E1011
The adipose tissue-derived hormone leptin regulates energy balance through catabolic effects on central circuits, including proopiomelanocortin (POMC) neurons. Leptin activation of POMC neurons increases thermogenesis and locomotor activity. Protein tyrosine phosphatase 1B (PTP1B) is an important negative regulator of leptin signaling. POMC neuron-specific deletion of PTP1B in mice results in reduced high-fat diet-induced body weight and adiposity gain due to increased energy expenditure and greater leptin sensitivity. Mice lacking the leptin gene (ob/ob mice) are hypothermic and cold intolerant, whereas leptin delivery to ob/ob mice induces thermogenesis via increased sympathetic activity to brown adipose tissue (BAT). Here, we examined whether POMC PTP1B mediates the thermoregulatory response of CNS leptin signaling by evaluating food intake, body weight, core temperature (T(C)), and spontaneous physical activity (SPA) in response to either exogenous leptin or 4-day cold exposure (4°C) in male POMC-Ptp1b-deficient mice compared with wild-type controls. POMC-Ptp1b(-/-) mice were hypersensitive to leptin-induced food intake and body weight suppression compared with wild types, yet they displayed similar leptin-induced increases in T(C). Interestingly, POMC-Ptp1b(-/-) mice had increased BAT weight and elevated plasma triiodothyronine (T(3)) levels in response to a 4-day cold challenge, as well as reduced SPA 24 h after cold exposure, relative to controls. These data show that PTP1B in POMC neurons plays a role in short-term cold-induced reduction of SPA and may influence cold-induced thermogenesis via enhanced activation of the thyroid axis. 相似文献
108.
Ruzzene M Tosoni K Zanin S Cesaro L Pinna LA 《Molecular and cellular biochemistry》2011,356(1-2):5-10
At variance with protein kinases expressed by oncogenes, CK2 is endowed with constitutive activity under normal conditions, and no CK2 gain-of-function mutants are known. Its amount, however, is abnormally high in malignant cells where it appears to be implicated in many of the cell biology phenomena associated with cancer. These observations can be reconciled assuming that tumor cells develop an overdue reliance ("non-oncogene addiction") on abnormally high CK2 level. While the potential of this latter to generate an environment favorable to neoplasia is consistent with the global antiapoptotic and prosurvival role played by CK2, it is not clear what is determining accumulation of CK2 in cells "predisposed" to become malignant. Exploiting the apoptosis sensitive (S) or resistant (R) CEM cell model, characterized by sharply different CK2 levels, we have now correlated the level and degradation rate of CK2 to those of the chaperone proteins Hsp90 and Cdc37. We show in particular that persistence of high CK2 level in R-CEM, as opposed to S-CEM, is accompanied by the presence of an immunospecific form of Cdc37 not detectable in S-CEM and refractory to staurosporine-induced degradation. 相似文献
109.
110.
PTP1B regulates leptin signal transduction in vivo 总被引:15,自引:0,他引:15
Zabolotny JM Bence-Hanulec KK Stricker-Krongrad A Haj F Wang Y Minokoshi Y Kim YB Elmquist JK Tartaglia LA Kahn BB Neel BG 《Developmental cell》2002,2(4):489-495
Mice lacking the protein-tyrosine phosphatase PTP1B are hypersensitive to insulin and resistant to obesity. However, the molecular basis for resistance to obesity has been unclear. Here we show that PTP1B regulates leptin signaling. In transfection studies, PTP1B dephosphorylates the leptin receptor-associated kinase, Jak2. PTP1B is expressed in hypothalamic regions harboring leptin-responsive neurons. Compared to wild-type littermates, PTP1B(-/-) mice have decreased leptin/body fat ratios, leptin hypersensitivity, and enhanced leptin-induced hypothalamic Stat3 tyrosyl phosphorylation. Gold thioglucose treatment, which ablates leptin-responsive hypothalamic neurons, partially overcomes resistance to obesity in PTP1B(-/-) mice. Our data indicate that PTP1B regulates leptin signaling in vivo, likely by targeting Jak2. PTP1B may be a novel target to treat leptin resistance in obesity. 相似文献