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Minghui Li Huihui Yang Jiue Zhao Lingling Fang Hongjuan Shi Mengru Li Yunlv Sun Xianbo Zhang Dongneng Jiang Linyan Zhou Deshou Wang 《Genetics》2014,197(2):591-599
Studies of gene function in non-model animals have been limited by the approaches available for eliminating gene function. The CRISPR/Cas9 (clustered regularly interspaced short palindromic repeats/CRISPR associated) system has recently become a powerful tool for targeted genome editing. Here, we report the use of the CRISPR/Cas9 system to disrupt selected genes, including nanos2, nanos3, dmrt1, and foxl2, with efficiencies as high as 95%. In addition, mutations in dmrt1 and foxl2 induced by CRISPR/Cas9 were efficiently transmitted through the germline to F1. Obvious phenotypes were observed in the G0 generation after mutation of germ cell or somatic cell-specific genes. For example, loss of Nanos2 and Nanos3 in XY and XX fish resulted in germ cell-deficient gonads as demonstrated by GFP labeling and Vasa staining, respectively, while masculinization of somatic cells in both XY and XX gonads was demonstrated by Dmrt1 and Cyp11b2 immunohistochemistry and by up-regulation of serum androgen levels. Our data demonstrate that targeted, heritable gene editing can be achieved in tilapia, providing a convenient and effective approach for generating loss-of-function mutants. Furthermore, our study shows the utility of the CRISPR/Cas9 system for genetic engineering in non-model species like tilapia and potentially in many other teleost species. 相似文献
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Parasympathetic ganglia are considered simple relay systems that have cholinergic input and output, with modulation occurring centrally. Greater complexity is suggested, however, by our showing here that avian ciliary ganglion (CG) neurons also express a different excitatory receptor type--ionotropic glutamate receptors of the kainate subtype (KARs). This is the first report of glutamate receptor expression in the CG and KAR expression in any cholinergic neuron. We show that KARs form functional channels on CG neurons. KARs localize to CG neuron axons and somata as well as axons and terminals of pre-synaptic inputs to the CG. Glutamate transporters are expressed on Schwann cells that surround synapses on neuronal somata, and may provide a local source of glutamate. CG neurons express multiple KAR subunit mRNAs (GluR5, GluR7, and KA1), and their relative levels change dramatically during axon outgrowth and synaptic differentiation. The developmental role for KARs may depend upon their calcium permeability, a property regulated by mRNA editing. We show GluR5 editing increases predominantly at the time CG axons contact peripheral targets. Our data suggest that glutamatergic signaling may function as a local circuit mechanism to modulate excitability and calcium signaling during synapse formation and maturation in the CG in vivo. 相似文献
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