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Luminescent nanoparticles for rapid monitoring of endogenous acetylcholine release in mice atria 下载免费PDF全文
Alsu Mukhametshina Alexey Petrov Svetlana Fedorenko Konstantin Petrov Irek Nizameev Asiya Mustafina Oleg Sinyashin 《Luminescence》2018,33(3):588-593
The present work introduces for the first time a nanoparticulate approach for ex vivo monitoring of acetylcholinesterase‐catalyzed hydrolysis of endogenous acetylcholine released from nerve varicosities in mice atria. Amino‐modified 20‐nm size silica nanoparticles (SNs) doped by luminescent Tb(III) complexes were applied as the nanosensors. Their sensing capacity results from the decreased intensity of Tb(III)‐centred luminescence due to the quenching effect of acetic acid derived from acetylcholinesterase‐catalyzed hydrolysis of acetylcholine. Sensitivity of the SNs in monitoring acetylcholine hydrolysis was confirmed by in vitro experiments. Isolated atria were exposed to the nanosensors for 10 min to stain cell membranes. Acetylcholine hydrolysis was monitored optically in the atria samples by measuring quenching of Tb(III)‐centred luminescence by acetic acid derived from endogenous acetylcholine due to its acetylcholinesterase‐catalyzed hydrolysis. The reliability of the sensing was demonstrated by the quenching effect of exogenous acetylcholine added to the bath solution. Additionally, no luminescence quenching occurred when the atria were pre‐treated with the acetylcholinesterase inhibitor paraoxon. 相似文献
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For the emu, where monogamous mating is normal, artificial insemination (AI) promises much faster genetic improvement and a considerable reduction in production costs by reducing the number of male birds needed for mating. Semen collection is now a routine procedure so the next step is to develop successful protocols for sperm storage. In this paper, we briefly overview our recent progress on the development of protocols for liquid storage and cryopreservation of emu spermatozoa. We have shown that emu semen can be stored at 10 °C for up to 48 h with a minimal loss of viability, and that cryopreservation with dimethylacetamide (DMA) as a cryoprotectant is feasible because we have observed no adverse effects of this cryoprotectant on the emu sperm membrane integrity, morphology and motility. We now need to establish the predictability of the various tests in vivo, but the proportions of live normal and motile sperm with good egg membrane penetration potential suggest that acceptable numbers of competent sperm are preserved and that this will be sufficient for AI. 相似文献
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M Bonato CK Cornwallis IA Malecki PK Rybnik-Trzaskowska SW Cloete 《Animal reproduction science》2012,133(1-2):123-128
As the chemical environment of semen diluents can have a profound effect on sperm quality, we examined the effect of temperature and pH on the motility and viability of sperm in the ostrich. Semen was collected from four males, each male being replicated three times. Ejaculates were diluted and incubated for 10 min at 20°C and 40°C in four different buffers, temperature adjusted at pH 6, 7, 8 and 9 respectively. Average path velocity (VAP), curvilinear velocity (VCL), straight-line velocity (VSL), linearity (LIN), beat cross frequency (BCF) and amplitude of lateral displacement (ALH) were then recorded for each sample using CASA. The viability of sperm was assessed using nigrosin-eosin staining. Sperm incubated at 40°C had higher motility parameters, except for ALH. At 40°C, VAP, VSL and LIN increased with pH while VCL, BCF and ALH were higher for lower pHs. The viability of sperm was not affected by temperature but decreased at pH values>7. A pH in the neutral range appeared to yield higher quality sperm after in vitro storage at 20°C. However, the effect of different pH levels and temperatures on sperm longevity needs to be investigated further to develop viable ostrich specific diluents. 相似文献
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