LEADER 00000cam 2200661Ii 4500 001 on1004664421 003 OCoLC 005 20200419055346.2 006 m o d 007 cr cnu|||unuuu 008 170925s2017 sz a o 000 0 eng d 015 GBB953095|2bnb 016 7 019301961|2Uk 019 1005454684|a1008874173|a1011793966|a1048177917|a1066639767 |a1107355626 020 9783319601922|q(electronic book) 020 331960192X|q(electronic book) 020 |z9783319601915|q(print) 020 |z3319601911 024 7 10.1007/978-3-319-60192-2|2doi 035 (OCoLC)1004664421|z(OCoLC)1005454684|z(OCoLC)1008874173 |z(OCoLC)1011793966|z(OCoLC)1048177917|z(OCoLC)1066639767 |z(OCoLC)1107355626 037 com.springer.onix.9783319601922|bSpringer Nature 040 GW5XE|beng|erda|epn|cGW5XE|dYDX|dNJR|dAZU|dUPM|dMERER |dOCLCF|dOCLCO|dUAB|dIOG|dCOO|dOCLCO|dOCLCQ|dJG0|dOCLCO |dOCLCA|dSNK|dU3W|dCAUOI|dOCLCQ|dOCLCO|dKSU|dVT2|dOCLCO |dOCLCQ|dOCLCO|dAU@|dOCLCO|dESU|dWYU|dOCLCO|dEBLCP|dOCLCA |dOCLCQ|dOCLCO|dOAPEN|dOCLCQ|dOCLCO|dUKMGB|dOCLCO|dOCLCQ 049 STJJ 050 4 QP356.22 060 4 QU 550 072 7 MFN|2bicssc 072 7 MED107000|2bisacsh 082 04 572.8|223 245 00 Genome editing in neurosciences /|cRudolf Jaenisch, Feng Zhang, Fred Gage, editors. 264 1 Cham, Switzerland :|bSpringer,|c2017. 300 1 online resource (xi, 123 pages) :|bcolor illustrations. 336 text|btxt|2rdacontent 337 computer|bc|2rdamedia 338 online resource|bcr|2rdacarrier 347 text file|bPDF|2rda 490 1 Research and perspectives in neurosciences,|x0945-6082 505 0 Introduction -- In vitro modeling of complex neurological diseases -- Aquatic model organisms in neurosciences : the genome editing revolution -- Genome-wide genetic screening in the mammalian CNS -- CRISPR/Cas9-mediated Knockin and Knockout in Zebrafish -- Dissecting the role of synaptic proteins with CRISPR -- Recurrently Breaking Genes in Neural Progenitors: Potential Roles of DNA Breaks in Neuronal Function, Degeneration and Cancer -- Neuroscience research using non-human primate models and genome editing -- Multiscale genome engineering: Genome-wide screens and targeted approaches -- Using Genome Engineering to Understand Huntington's Disease -- Therapeutic gene editing in muscles and muscle stem cells. 506 0 Open access.|5GW5XE 520 This book is open access under a CC BY 4.0 license. Innovations in molecular biology are allowing neuroscientists to study the brain with unprecedented resolution, from the level of single molecules to integrated gene circuits. Chief among these innovations is the CRISPR-Cas genome editing technology, which has the precision and scalability to tackle the complexity of the brain. This Colloque Médecine et Recherche has brought together experts from around the world that are applying genome editing to address important challenges in neuroscience, including basic biology in model organisms that has the power to reveal systems-level insight into how the nervous system develops and functions as well as research focused on understanding and treating human neurological disorders. 588 0 Online resource; title from PDF title page (SpringerLink, viewed September 25, 2017). 590 SpringerLink|bSpringer Nature Open Access eBooks 650 0 Neurogenetics. 650 0 Genetic engineering. 650 0 RNA editing. 650 2 Gene Editing. 650 7 Neurosciences.|2bicssc 650 7 Genetic engineering.|2fast|0(OCoLC)fst00940027 650 7 Neurogenetics.|2fast|0(OCoLC)fst01036353 650 7 RNA editing.|2fast|0(OCoLC)fst01086255 700 1 Jaenisch, Rudolf,|eeditor. 700 1 Zhang, Feng,|d1982-|eeditor. 700 1 Gage, F.|q(Fred),|d1950-|eeditor. 776 08 |iPrint version:|tGenome editing in neurosciences.|dCham, Switzerland : Springer, 2017|z9783319601915|z3319601911 |w(OCoLC)987282339 830 0 Research and perspectives in neurosciences.|x0945-6082 914 on1004664421 994 92|bSTJ
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