03462nam 2200721 450 991013721830332120230621135811.09782889195138(ebook)(CKB)3710000000520107(SSID)ssj0001683363(PQKBManifestationID)16509534(PQKBTitleCode)TC0001683363(PQKBWorkID)15037911(PQKB)10043868(WaSeSS)IndRDA00056641(oapen)https://directory.doabooks.org/handle/20.500.12854/54489(EXLCZ)99371000000052010720160829h20152015 fy 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierNeuroanatomy and transgenic technologies /topic editors, Alexander C. Jackson, Chen Liu, Makoto Fukuda, Michael Lazarus and Laurent GautronFrontiers Media SA2015[Lausanne, Switzerland] :Frontiers Media SA,[2015]©20151 online resource (139 pages)illustrations; digital file(s)Frontiers Research Topics"Published in: Frontiers in neuroanatomy" -- front cover.Print version: 2889195139 Includes bibliographical references.Neuroanatomists increasingly rely on techniques enabling them to manipulate genes in defined brain cell populations. In particular, engineered transgenes, which encode a variety of fluorescent reporter proteins can be inserted into the genome or delivered into desired brain regions using viral vectors, thereby allowing the labeling of molecularly-defined populations of neurons and/or glial cells. Transgenic technology can also be used to selectively delete genes in targeted neuronal populations or bi-directionally modulate their electrical excitability using optogenetic or chemogenetic techniques. One of the primary advantages of using transgenic reagents is to simplify the identification and tracing of targeted population of brain cells, which can be laborious using traditional techniques in neuroanatomy. In this research topic, we assembled up-to-date reviews and original articles that demonstrate the versatility and power of transgenic tools in advancing our knowledge of the nervous system, with a special emphasis on the application of transgenic technology to neuroanatomical questions.Frontiers research topics.NeuroanatomyNeuroanatomyTechniqueAnatomyHILCCHuman Anatomy & PhysiologyHILCCHealth & Biological SciencesHILCCgene deliverymouse modelstracingtransgenesismorphologyadeno-associated virusFluorescent reportersneuronal circuitsNeuroanatomy.NeuroanatomyTechnique.AnatomyHuman Anatomy & PhysiologyHealth & Biological SciencesLaurent Gautronauth1365915Jackson Alexander CosbyLiu ChenFukuda MakotoGautron LaurentPQKBUkMaJRUBOOK9910137218303321Neuroanatomy and transgenic technologies3388008UNINA01499nam 2200385 450 99657794340331620231209090834.01-5044-5497-910.1109/IEEESTD.2019.8666953(CKB)4100000007802956(NjHacI)994100000007802956(EXLCZ)99410000000780295620231209d2019 uy 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierIEEE Std 1722.1-2013/Cor 1-2018 (Corrigendum to IEEE Std 1722.1-2013) IEEE Standard for Device Discovery, Connection Management, and Control Protocol for IEEE 1722(TM) Based Devices - Corrigendum 1, Technical and Editorial Corrections /Institute of Electrical and Electronics EngineersNew York, New York :IEEE,2019.1 online resource (69 pages)Technical and editorial corrections are provided by this corrigendum to IEEE Std 1722.1-2013.1722.1-2013/Cor 1-2018 - IEEE Standard for Device Discovery, Connection Management, and Control Protocol for IEEE 1722IEEE Std 1722.1-2013/Cor 1-2018 Static relaysTransistor circuitsStatic relays.Transistor circuits.621.317NjHacINjHaclDOCUMENT996577943403316IEEE Std 1722.1-20132574043UNISA