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Mice, rats, and nearly all mammals and birds are classified as homeothermic, meaning that their core temperature is regulated at a constant level over a relatively wide range of ambient temperatures. In one sense, this homeothermic designation has been confirmed by the advent of radiotelemetry and other techniques that allow for the remote monitoring of awake, unrestrained animals in laboratory or natural settings. This technology confirmed that, when averaged over many hours, core temperature of mammals is regulated at a nearly constant level. On the other hand, telemetric sampling in relatively small mammals such as mice and rats also revealed that their core temperature often varies markedly from hour to hour. In other words, the mouse could be defined as a homeotherm only when core temperature is averaged over a relatively long period. Many researchers ascribe equal homeothermic capabilities to mice and other small rodents as they do to humans. Such an assumption could lead to errors in extrapolating physiological, pharmacological, and toxicological findings from experimental test species to humans. 相似文献
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Although pregnant women are anecdotally said to “waddle” during gait, researchers have not quantified the kinematics of these gait alterations. The purpose of this study was to examine the effects of pregnancy on thoracic and pelvic kinematics during gait. 相似文献
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Dynamic membrane (DM) formation in dynamic membrane bioreactors plays an important role in achieving efficient solid-liquid separation. In order to study the contribution of extracellular polymeric substances (EPS) to DM formation in anaerobic dynamic membrane bioreactor (AnDMBR) processes, EPS extraction from and re-addition to bulk sludge were carried out in short-term filtration tests. DM formation behaviors could be well simulated by cake filtration model, and sludge with EPS re-addition showed the highest resistance coefficient, followed by sludge after EPS extraction. The DM layers exhibited a higher resistance and a lower porosity for the sludge sample after EPS extraction and for the sludge with EPS re-addition. Particle size of sludge flocs decreased after EPS extraction, and changed little with EPS re-addition, which was confirmed by interaction energy analysis. Further investigations by confocal laser scanning microscopy (CLSM) analysis and batch tests suggested that the removal of in-situ EPS stimulated release of soluble EPS, and re-added EPS were present as soluble EPS rather than bound EPS, which thus improved the formation of DM. The present work revealed the role of EPS in anaerobic DM formation, and could facilitate the operation of AnDMBR processes. 相似文献
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Depolarization of Cell Membrane Potential during Trans-Plasma Membrane Electron Transfer to Extracellular Electron Acceptors in Iron-Deficient Roots of Phaseolus vulgaris L 总被引:1,自引:8,他引:1 下载免费PDF全文
Transfer of electrons from the cytosol of bean (Phaseolus vulgaris L.) root cells to extracellular acceptors such as ferricyanide and FeIIIEDTA causes a rapid depolarization of the membrane potential. This effect is most pronounced (30-40 millivolts) with root cells of Fe-deficient plants, which have an increased capacity to reduce extracellular ferric salts. Ferrocyanide has no effect. In the state of ferricyanide reduction, H+ (1H+/2 electrons) and K+ ions are excreted. The reduction of extracellular ferric salts by roots of Fe-deficient bean plants is driven by cellular NADPH (Sijmons, van den Briel, Bienfait 1984 Plant Physiol 75: 219-221). From this and from the membrane potential depolarization, we conclude that trans-plasma membrane electron transfer from NADPH is the primary process in the reduction of extracellular ferric salts. 相似文献
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Spleen cells from “nude” mice (nu/nu) were stimulated in vitro with sheep erythrocytes. After 4 days of in vitro incubation only a few plaque-forming cells were found in these cultures. This immunological deficit can be restored by adding thymus lymphocytes from allogeneic donors to nu/nu spleen cultures. The restoration is not successful when thymocytes are prevented from proliferating, by irradiation or with Mitomycin C, or when their DNA dependent RNA synthesis is suppressed by actinomycin D. 相似文献
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Protistan community grazing rates upon both bacterioplankton and autotrophic picoplankton were estimated using fluorescently-labeled prey and by measurement of extracellular hydrolysis of 4-methylumbelliferyl (MUF) beta-N-acetylglucosaminide in a eutrophic reservoir and an oligo-mesotrophic lake during phytoplankton blooms. In addition, enzyme methods were optimized in bacterivorous flagellate cultures by two enzyme assays, based on fluorometric detection of protistan digestive activity, which were compared and calibrated independently against flagellate bacterivory. Enzymatic hydrolyses of MUF beta-N,N',N'-triacetylchitotriose and MUF beta-N-acetylglucosaminide were measured in cell-free (sonicated) and whole-cell (unsonicated) samples. The hydrolysis of both substrates, using the whole-cell enzyme assay at in situ pH, was correlated significantly with total grazing rate of Bodo saltans. Thus the whole-cell enzyme assay with MUF beta-N-acetylglucosaminide was used for freshwater samples. High-affinity (Km < 1 μmol l-1) and low-affinity (Km > 100μmol l-1) enzymes were distinguished kinetically in most samples from both systems studied. Activities (Vmax) of the high-affinity enzyme varied from 0.24 to 1.43 nmol l-1 h-1. Protistan community grazing on bacterioplankton was in the range of 0.15-1.36 μg C l-1 h-1 both for lake and reservoir, the differences being observed in grazing on picocyanobacteria (lake, 0.03-0.22 μg C l-1 h-1; reservoir, 0.35-1.56 μg C l-1 h-1). The enzyme activities were correlated significantly with the protistan grazing both on bacterioplakton (rs=0.62, P<0.001) and total procaryotic picoplankton (the sum of organic carbon grazed from bacteria and picocyanobacteria, rs=0.73, P<0.001) in the eutrophic reservoir. Weaker relationships (rs=0.42) with a lower slope were found for the oligo-mesotrophic lake. Ingestion rate studies are time-consuming and the digestive enzyme assay with MUF beta-N-acetylglucosaminide presents a rapid alternative for estimating total protistan prokaryotic picoplanktivory in freshwaters. 相似文献
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An Electron Microscope Study of the Salamander Thyroid during Hormonal Stimulation 总被引:2,自引:4,他引:2 下载免费PDF全文
Lawrence Herman 《The Journal of cell biology》1960,7(1):143-150
Cytological changes in thyroid glands following administration of thyroid-stimulating hormone (TSH), were studied in adult salamanders, Ambystoma tigrinum, Triturus torosus, and Triturus viridescens by electron and light microscopy. Thyroids from untreated salamanders contained large follicles, faintly basophilic colloid, low follicle cells with flattened nuclei, and scant, slightly basophilic cytoplasm. After TSH administration the cell height and nuclear volume increased. Cytoplasmic basophilia was markedly increased and follicle lumina were reduced. In electron micrographs, stacks of ergastoplasmic lamellae appeared near the nucleus occasionally in contact with the nuclear membrane. In more advanced stages of stimulation, lamellar arrays were largely replaced by small disoriented vesicles and larger vacuoles containing colloid-like material. Sections of obliquely oriented ergastoplasmic membranes contained rows of extremely fine particles. Microvilli increased in size and number and Golgi structures became more extensive. Homogeneous osmiophilic droplets increased in size and abundance. Some of the smaller droplets were seen associated with the Golgi zone. Droplets similar in size and density frequently contained closely packed, whorled lamellae. Mitochondria showed no structural changes but occurred in aggregates interposed between the nucleus and highly folded portions of the basal cell membrane. 相似文献
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Determination of Fluorescence Polarization of Membrane Probes in Intact Erythrocytes: Possible Scattering Artifacts 下载免费PDF全文
The anisotropy of the fluorescence of diphenylhexatriene has been reported to be less in the membranes of intact erythrocytes than in erythrocyte ghost membranes or in membranes prepared from erythrocyte lipids. Evidence is presented that this may be an artifact due to the intense light scattering by the intact erythrocytes. 相似文献
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Alina Frias Angeles Manresa Eliandre de Oliveira Carmen López-Iglesias Elena Mercade 《Microbial ecology》2010,59(3):476-486
Many Gram-negative, cold-adapted bacteria from the Antarctic environment produce large amounts of extracellular matter, which
has potential biotechnology applications. We examined the ultrastructure of extracellular matter from five Antarctic bacteria
(Shewanella livingstonensis NF22T, Shewanella vesiculosa M7T, Pseudoalteromonas sp. M4.2, Psychrobacter fozii NF23T, and Marinobacter guineae M3BT) by transmission electron microscopy after high-pressure freezing and freeze substitution. All analyzed extracellular matter
appeared as a netlike mesh composed of a capsular polymer around cells and large numbers of membrane vesicles (MVs), which
have not yet been described for members of the genera Psychrobacter and Marinobacter. MVs showed the typical characteristics described for these structures, and seemed to be surrounded by the same capsular
polymer as that found around the cells. The analysis of MV proteins from Antarctic strains by SDS-PAGE showed different banding
profiles in MVs compared to the outer membrane, suggesting some kind of protein sorting during membrane vesicle formation.
For the psychrotolerant bacterium, S. livingstonensis NF22T, the growth temperature seemed to influence the amount and morphology of MVs. In an initial attempt to elucidate the functions
of MVs for this psychrotolerant bacterium, we conducted a proteomic analysis on membrane vesicles from S. livingstonensis NF22T obtained at 4 and 18°C. At both temperatures, MVs were highly enriched in outer membrane proteins and periplasmic proteins
related to nutrient processing and transport in Gram-negative bacteria suggesting that MVs could be related with nutrient
sensing and bacterial survival. Differences were observed in the expression of some proteins depending on incubation temperature
but further studies will be necessary to define their roles and implications in the survival of bacteria in the extreme Antarctic
environment. 相似文献
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Agnieszka Włodarczyk Agata Szymańska Agnieszka Bąkowska Aleksandra Skłodowska 《Geomicrobiology journal》2017,34(2):166-175
The presented study focuses on the characterization of extracellular membrane structures (EMSs) detected in the biofilm of an indigenous bacterial consortium growing on the surface of the Kupferschiefer black shale under model laboratory conditions. Received results showed that several types of extracellular structures, including multilayer vesicle-like structures observed for the first time, are a significant component of mixed-species bacterial biofilm. Based on the protein profile, the potential structure and functions of the EMSs were discussed. The findings of this study expand the current knowledge about biofilms formed by bacterial consortia on the surface of sedimentary rocks and show the diversity of EMSs produced by environmental microorganisms. 相似文献
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Documentary sources show that painful joint disease afflicted several members of the Medici family, which dominated Renaissance Florence in Italy. The term frequently reported in contemporary archives to indicate these morbid episodes is “gout.” Paleopathology allows us to verify the nosological information obtained from the written documents and to clarify the nature of the rheumatological condition that afflicted the Medici. 相似文献
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Using fluorescent membrane markers, we have previously shown that extracellular ATP stimulates both exocytosis and membrane internalization in the Fisher rat thyroid cell line FRTL. In this study, we examine the actions of ATP using whole-cell recording conditions that favor stimulation of membrane internalization. ATP stimulation of the P2X7 receptor activated a reversible, Ca2+-permeable, cation conductance that slowly increased in size without changes in ion selectivity. ATP also induced a delayed irreversible decrease in cell capacitance (Cm) that was equivalent to an 8% decrease in membrane surface area. Addition of guanosine 5′-0-2-thiodiphosphate to the pipette solution inhibited the ATP-induced decrease in Cm without affecting channel activation. The effects of ATP on membrane conductance were mimicked by 2′,3′-O-(4-benzoylbenzoyl)-ATP, but not by UTP, adenosine, or 2-methylthio-ATP, and were inhibited by pyridoxal phosphate-6-azophenyl-2′4′-disulfonic acid, adenosine 5′-triphosphate-2′3′-dialdehyde, and Cu2+. The capacitance decrease persisted in Na+-, Ca2+- and Cl−-free external saline or with Ca2+-free pipette solution. It is concluded that ATP activation of the inotropic P2X7 receptor stimulates membrane internalization by a mechanism that involves intracellular GTP, but does not require internal Ca2+ or influx of Na+ or Ca2+ through the receptor-gated channel. 相似文献
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Stefan M. Kolašinac Zora P. Dajić Stevanović Sofija N. Kilibarda Aleksandar Ž. Kostić 《Phyton》2021,90(4):1041-1062
Carotenoids represent a large group of mainly red, orange, and yellow natural metabolites mainly involved in regulation of many metabolic processes. Carotenoids are beneficial for human health. Current study describes the importance, chemical composition and functioning of carotenoids. It is well known that carotenoids support pigments acting in light absorbance mechanisms during photosynthesis, and are known to protect the chlorophyll molecules from oxidative stress and reactive oxygen species (ROS) damage. Carotenoids are involved in signaling processes in plants, responses to environmental stresses, pollination, germination and reproduction, and development regulation. As nutrients of strong antioxidant activity that is primarily linked to their polyene molecular structure, the carotenoids are reported as immune-enhancement and anticancer agents, which are also involved in prevention of eye-, gastric and neurocognitive disorders, and in regulation of obesity and anti-ageing. Concerning the wide prospective applications of carotenoids as pharmaceuticals and nutraceuticals, there are some critical aspects associated with carotenoids’ bioavailability and challenges in their bioengineering. This mostly refers to the needs for identification and cloning of genes responsible for carotenoid biosynthesis and transformation and related development of transgenic carotenoid-rich crops. In the recent years, technologies of micro- and nanoencapsulation have addressed the needs of carotenoid entrapping to enhance their bioavailability, solubility and chemical stability, and to ensure the target delivery and manifestation of their strong antioxidant and other biological activity. Among standard and some advanced analytic tools for carotenoid determination (e.g., High performance liquid chromatography-HPLC, Liquid chromatography–mass spectrometry-LC-MS, Ultra high performance liquid chromatography-UHPLC, High-performance thin-layer chromatography-HPTLC and others), the vibrational spectroscopy techniques, primarily Raman spectroscopy coupled with chemometric modeling, opened a new era in carotenoid research and application. 相似文献