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1.
The extracranial arterial system in the heads of beaked whales,with implications on diving physiology and pathogenesis 下载免费PDF全文
Beaked whales are medium‐sized toothed whales that inhabit depths beyond the continental shelf; thus beaked whale strandings are relatively infrequent compared to those of other cetaceans. Beaked whales have been catapulted into the spotlight by their tendency to strand in association with naval sonar deployment. Studies have shown the presence of gas and fat emboli within the tissues and analysis of gas emboli is suggestive of nitrogen as the primary component. These findings are consistent with human decompression sickness (DCS) previously not thought possible in cetaceans. Because, tissue loading with nitrogen gas is paramount for the manifestation of DCS and nitrogen loading depends largely on the vascular perfusion of the tissues, we examined the anatomy of the extracranial arterial system using stranded carcasses of 16 beaked whales from five different species. Anatomic regions containing lipid and/or air spaces were prioritized as potential locations of nitrogen gas absorption due to the known solubility of nitrogen in adipose tissue and the nitrogen content of air, respectively. Attention was focused on the acoustic fat bodies and accessory sinus system on the ventral head. We found much of the arterial system of the head to contain arteries homologous to those found in domestic mammals. Robust arterial associations with lipid depots and air spaces occurred within the acoustic fat bodies of the lower jaw and pterygoid air sacs of the ventral head, respectively. Both regions contained extensive trabecular geometry with small arteries investing the trabeculae. Our findings suggest the presence of considerable surface area between the arterial system, and the intramandibular fat bodies and pterygoid air sacs. Our observations may provide support for the hypothesis that these structures play an important role in the exchange of nitrogen gas during diving. J. Morphol. 277:5–33, 2016. © 2015 Wiley Periodicals, Inc. 相似文献
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Water current velocity as an environmental factor regulating the distribution of amphipod species in Gamo lagoon, Japan 总被引:1,自引:0,他引:1
The role of current velocity as an environmental factor affecting the distribution of amphipod species was investigated in
the brackish Gamo lagoon, Japan. Two gammaridean amphipod species, Eogammarus possjeticus and Melita setiflagella, were found inhabiting stations of different water current with same substrates. E. possjeticus and M. setiflagella selected substrates at low and high water current, respectively. The lifestyles and anatomical features of these two free-living
amphipods contributed to their adaptation to habitats with different water currents. The results of field and experimental
observations suggest the existence of some type of interspecific competition between the two species. The presence of E. possjeticus caused a displacement of the fundamental niche of M. setiflagella.
Received: October 10, 2000 / Accepted: August 17, 2001 相似文献
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Summary Extracellular currents near the surface of the electrically excitable egg of Locusta migratoria have been studied through the combined use of the 2-dimensional vibrating probe and an intracellular microelectrode. Intracellular current injection increased extracellular current densities to levels readily detectable by the vibrating probe, and it has been possible to show that injected current traverses the egg in the posterior end containing the micropylar zone. Extracellular currents could not be detected during the rising, plateau or falling phases of the long duration (>100s) action potential in the egg. Increases in current density during the hyperpolarizing after potential which lasts for 6–10 min after termination of the action potential were also restricted to the posterior end of the egg. The results suggest that the primary region at which current traverses the chorionated egg is near or at the micropylar zone. 相似文献
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The higher harmonics of the current caused by an alternating voltage applied to bilayer lipid membranes made of diphytanoyl phosphatidylcholine (DPhPC) in decane and tetradecane were measured. A universal relation between the amplitudes of harmonics was proposed and experimentally verified. This allowed the coefficients of expansion of the capacitance in even powers of voltage to be calculated for the DPhPC membrane in tetradecane; it also permitted comparison of the inhomogeneity in the thickness of the DPhPC membranes in decane and tetradecane. 相似文献
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Michael R. Heaven Anthony W. Herren Daniel L. Flint Natasha L. Pacheco Jiangtao Li Alice Tang Fatima Khan James E. Goldman Brett S. Phinney Michelle L. Olsen 《Molecular & cellular proteomics : MCP》2022,21(1):100180
Alexander disease (AxD) is a rare and fatal neurodegenerative disorder caused by mutations in the gene encoding glial fibrillary acidic protein (GFAP). In this report, a mouse model of AxD (GFAPTg;Gfap+/R236H) was analyzed that contains a heterozygous R236H point mutation in murine Gfap as well as a transgene with a GFAP promoter to overexpress human GFAP. Using label-free quantitative proteomic comparisons of brain tissue from GFAPTg;Gfap+/R236H versus wild-type mice confirmed upregulation of the glutathione metabolism pathway and indicated proteins were elevated in the peroxisome proliferator-activated receptor (PPAR) signaling pathway, which had not been reported previously in AxD. Relative protein-level differences were confirmed by a targeted proteomics assay, including proteins related to astrocytes and oligodendrocytes. Of particular interest was the decreased level of the oligodendrocyte protein, 2-hydroxyacylsphingosine 1-beta-galactosyltransferase (Ugt8), since Ugt8-deficient mice exhibit a phenotype similar to GFAPTg;Gfap+/R236H mice (e.g., tremors, ataxia, hind-limb paralysis). In addition, decreased levels of myelin-associated proteins were found in the GFAPTg;Gfap+/R236H mice, consistent with the role of Ugt8 in myelin synthesis. Fabp7 upregulation in GFAPTg;Gfap+/R236H mice was also selected for further investigation due to its uncharacterized association to AxD, critical function in astrocyte proliferation, and functional ability to inhibit the anti-inflammatory PPAR signaling pathway in models of amyotrophic lateral sclerosis (ALS). Within Gfap+ astrocytes, Fabp7 was markedly increased in the hippocampus, a brain region subjected to extensive pathology and chronic reactive gliosis in GFAPTg;Gfap+/R236H mice. Last, to determine whether the findings in GFAPTg;Gfap+/R236H mice are present in the human condition, AxD patient and control samples were analyzed by Western blot, which indicated that Type I AxD patients have a significant fourfold upregulation of FABP7. However, immunohistochemistry analysis showed that UGT8 accumulates in AxD patient subpial brain regions where abundant amounts of Rosenthal fibers are located, which was not observed in the GFAPTg;Gfap+/R236H mice. 相似文献
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《Chronobiology international》2013,30(4):453-469
Rhythmic activity of single cells or multicellular networks is a common feature of all organisms. The oscillatory activity is characterized by time intervals of several seconds up to many hours. Cellular rhythms govern the beating of the heart, the swimming behavior of sperm, cycles of sleep and wakefulness, breathing, and the release of hormones. Many neurons in the brain and cardiac cells are characterized by endogenous rhythmic activity, which relies on a complex interplay between several distinct ion channels. In particular, one type of ion channel plays a prominent role in the control of rhythmic electrical activity since it determines the frequency of the oscillations. The activity of the channels is thus setting the “pace” of the oscillations; therefore, these channels are often referred to as “pacemaker” channels. Despite their obvious important physiological function, it was not until recently that genes encoding pacemaker channels have been identified. Because both hyperpolarization and cyclic nucleotides are key elements that control their activity, pacemaker channels have now been designated hyperpolarization-activated and cyclic nucleotide–gated (HCN) channels. The molecular identification of the channels and the upcoming studies on their properties in heterologous systems will certainly enhance our understanding of “pacemaking” in physiological systems. This review gives a brief insight into the physiological importance of these channels and sums up what we have learned since the first cloning of genes succeeded (for recent reviews, see also Clapham 1998; Luüthi and McCormick 1998a; Biel et al. 1999; Ludwig, Zong, Hofmann, et al. 1999; Santoro and Tibbs 1999). (Chronobiology International, 17(4), 453–469, 2000) 相似文献
10.
《Electromagnetic biology and medicine》2013,32(2):87-93
The experimental model of in vitro culture and direct current stimulation of isolated rat osteoblastlike cells was used to study the effects of mechanoelectric environments on osteogenesis and bone metabolism. DNA synthesis and Ca++ concentration in the osteoblastlike cells were measured with an Adherent Cell Analysis and Sorting Interactive Laser Cytometer (ACAS-570). The results showed that a suitable direct current stimulation (i.e., 100 µ;A/cm2) is effective in opening the Ca++ passages in the osteoblastlike cell membrane, increasing the intracellular concentration of free calcium ions. This effect can be elicited by the application of direct current for as short a time as about 160 sec and can last for about 110 sec after cessation of stimulation. DNA synthesis is mediated by calcium ion influx after DC stimulation. From the results, we concluded that intra-extra-cel-Mar calcium ion metabolism plays a key role in regulating osteogenesis under stimulation by direct current. 相似文献