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81.
Frederike D. Hanke Lars Miersch Eric J. Warrant Fedor M. Mitschke Guido Dehnhardt 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》2013,199(6):509-519
Harbour seals are active at night and during the day and see well in both air and water. Polarised light, which is a well-known visual cue for orientation, navigation and foraging, is richly available in harbour seal habitats, both above and below the water surface. We hypothesised that an ability to detect and use polarised light could be valuable for seals, and thus tested if they are able to see this property of light. We performed two behavioural experiments, one involving object discrimination and the other involving object detection. These objects were presented to the seals as two-dimensional stimuli on a specially modified liquid crystal display that generated objects whose contrast was purely defined in terms of polarisation (i.e. objects lacked luminance contrast). In both experiments, the seals’ performance did not deviate significantly from chance. In contrast, the seals showed a high baseline performance when presented with objects on a non-modified display (whose contrast was purely defined in terms of luminance). We conclude that harbour seals are unable to use polarised light in our experimental context. It remains for future work to elucidate if they are polarisation insensitive per se. 相似文献
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A sample of fixed bacterial cells was examined by immunofluorescence microscopy using an Alexa 488 conjugated secondary antibody for visualization. Excitation using visible light confirmed the expected photostability of this fluorophore; however, when using 2-photon excitation, Alexa 488 was rapidly and substantially photobleached. The unexpected instability of Alexa 488 under certain conditions may have deleterious consequences if not anticipated and accommodated in experimental protocols. 相似文献
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Esa-Ville Immonen Irina Ignatova Anna Gislen Eric Warrant Mikko V?h?s?yrinki Matti Weckstr?m Roman Frolov 《Proceedings. Biological sciences / The Royal Society》2014,281(1795)
The common backswimmer, Notonecta glauca, uses vision by day and night for functions such as underwater prey animal capture and flight in search of new habitats. Although previous studies have identified some of the physiological mechanisms facilitating such flexibility in the animal''s vision, neither the biophysics of Notonecta photoreceptors nor possible cellular adaptations are known. Here, we studied Notonecta photoreceptors using patch-clamp and intracellular recording methods. Photoreceptor size (approximated by capacitance) was positively correlated with absolute sensitivity and acceptance angles. Information rate measurements indicated that large and more sensitive photoreceptors performed better than small ones. Our results suggest that backswimmers are adapted for vision in both dim and well-illuminated environments by having open-rhabdom eyes with large intrinsic variation in absolute sensitivity among photoreceptors, exceeding those found in purely diurnal or nocturnal species. Both electrophysiology and microscopic analysis of retinal structure suggest two retinal subsystems: the largest peripheral photoreceptors provide vision in dim light and the smaller peripheral and central photoreceptors function primarily in sunlight, with light-dependent pigment screening further contributing to adaptation in this system by dynamically recruiting photoreceptors with varying sensitivity into the operational pool. 相似文献
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Veera Kainulainen Yurui Tang Thomas Spillmann Susanne Kilpinen Justus Reunanen Per EJ Saris Reetta Satokari 《BMC microbiology》2015,15(1)
Background
For a good probiotic candidate, the abilities to adhere to intestinal epithelium and to fortify barrier function are considered to be crucial for colonization and functionality of the strain. The strain Lactobacillus acidophilus LAB20 was isolated from the jejunum of a healthy dog, where it was found to be the most pre-dominant lactobacilli. In this study, the adhesion ability of LAB20 to intestinal epithelial cell (IECs) lines, IECs isolated from canine intestinal biopsies, and to canine, porcine and human intestinal mucus was investigated. Further, we studied the ability of LAB20 to fortify the epithelial cell monolayer and to reduce LPS-induced interleukin (IL-8) release from enterocytes.Results
We found that LAB20 presented higher adhesion to canine colonic mucus as compared to mucus isolated from porcine colon. LAB20 showed adhesion to HT-29 and Caco-2 cell lines, and importantly also to canine IECs isolated from canine intestinal biopsies. In addition, LAB20 increased the transepithelial electrical resistance (TER) of enterocyte monolayers and thus strengthened the intestinal barrier function. The strain showed also anti-inflammatory capacity in being able to attenuate the LPS-induced IL-8 production of HT-29 cells.Conclusion
In conclusion, canine indigenous strain LAB20 is a potential probiotic candidate for dogs adhering to the host epithelium and showing intestinal barrier fortifying and anti-inflammatory effects.Electronic supplementary material
The online version of this article (doi:10.1186/s12866-014-0337-9) contains supplementary material, which is available to authorized users. 相似文献85.
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Eric J. Warrant Peter D. McIntyre Stanley Caveney 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1990,167(6):817-825
Summary The maturation of the morphology and refractive-index gradients of the crystalline cones and cornea of the superposition compound eye of the nocturnal dung beetle Onitis aygulus was traced as a function of age following adult ecdysis. Intracellular recordings from retinula cells were also made to trace the maturation of angular sensitivity, thereby determining the resolution of the eye at each age. Maturation proceeded quickly during the first 3 days following ecdysis, and then more slowly, with full maturation attained by the end of the second week. The main experimental results obtained during the first 2 weeks after ecdysis were: (1) the mean length of the crystalline cones increases from 67 m to 79 m; (2) the mean thickness of the cornea increases from 36 m to 50 m; (3) the mean refractive index along the axis of the crystalline cones increases from 1.459 to 1.511 in the distal cone region, from 1.434 to 1.501 in the waist region and from 1.425 to 1.486 in the proximal region; (4) the shape of the refractive-index gradient becomes more parabolic; (5) the mean rhabdom cross-sectional area increases from 190 m2 to 230 m2; (6) the angular-sensitivity function narrows, with the acceptance angle decreasing from 22 ° to 4 °. An optical ray tracing model predicts an image quality limited only by the immaturity of the optics, a prediction confirmed by the electrophysiological results. The results are compared to optical maturation in day-active moths and skipper butterflies (which mature very quickly) and discussed in relation to ecological efficiency. 相似文献
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Karin Pirhofer-Walzl Eric Warrant Friedrich G. Barth 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》2007,193(10):1081-1087
The photoreceptor cells of the nocturnal spider Cupiennius salei were investigated by intracellular electrophysiology. (1) The responses of photoreceptor cells of posterior median (PM) and
anterior median (AM) eyes to short (2 ms) light pulses showed long integration times in the dark-adapted and shorter integration
times in the light-adapted state. (2) At very low light intensities, the photoreceptors responded to single photons with discrete
potentials, called bumps, of high amplitude (2–20 mV). When measured in profoundly dark-adapted photoreceptor cells of the
PM eyes these bumps showed an integration time of 128 ± 35 ms (n = 7) whereas in dark-adapted photoreceptor cells of AM eyes the integration time was 84 ± 13 ms (n = 8), indicating that the AM eyes are intrinsically faster than the PM eyes. (3) Long integration times, which improve visual
reliability in dim light, and large responses to single photons in the dark-adapted state, contribute to a high visual sensitivity
in Cupiennius at night. This conclusion is underlined by a calculation of sensitivity that accounts for both anatomical and physiological
characteristics of the eye. 相似文献
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