Titre:
Cremation / by John F McDonald LCL
Auteur:MacDonald, John F Editeur:
London : Catholic Truth Society
Date:
1966
Collation:
7 p.
Collection:
CTS publications
Documents dans cette collection:CTS publications No RERO:
R008229120
Titre:
Memar Marqah : the teaching of Marqah / ed. and transl. by John MacDonald
Auteur:MacDonald, John F Editeur:
Berlin : A. Töpelmann
Date:
1963
Collation:
2 vol. ; 24 cm
Collection:
Beihefte zur Zeitschrift für die alttestamentliche Wissenschaft ; 84
Documents dans cette collection:Beihefte zur Zeitschrift für die alttestamentliche Wissenschaft Sujet RERO:Marqah. Memar Note:
Vol. 1: the text, vol. 2: the translation
No RERO:
0805324
Titre:
Studies in the Book of Job : with a new translation / A. Guillaume ; ed. by John Macdonald
Auteur:Guillaume, Alfred Contributeur:MacDonald, John F Editeur:
Leiden : E.J. Brill
Date:
1968
Collation:
VIII, 150 p. ; 25 cm
Collection:
Annual of Leeds University Oriental Society. Supplement ; 2
Documents dans cette collection:Annual of Leeds University Oriental Society. Supplement Titre uniforme:
Bible. 034. A.T. Job. Anglais
No RERO:
0761564
Permalien:
http://data.rero.ch/01-0761564/html
Plusieurs versions
Elimination of the vesicular acetylcholine transporter in the forebrain causes hyperactivity and deficits in spatial memory and long-term potentiation
Martyn, Amanda C, De Jaeger, Xavier, Magalhães, Ana C, Kesarwani, Rohit, Gonçalves, Daniela F, Raulic, Sanda, Guzman, Monica S, Jackson, Michael F, Izquierdo, Ivan, Macdonald, John F, Prado, Marco A M, Prado, Vania F
Proceedings of the National Academy of Sciences of the United States of America, 23 October 2012, Vol.109(43), pp.17651-6
[Revue évaluée par les pairs]
Xie, Yu-Feng, Jackson, Michael F, Macdonald, John F
Acta pharmacologica Sinica, November 2013, Vol.34(11), pp.1381-5
[Revue évaluée par les pairs]
MEDLINE/PubMed (U.S. National Library of Medicine)
Titre: Optogenetics and synaptic plasticity Auteur:Xie, Yu-Feng; Jackson, Michael F; Macdonald, John F Sujet:Neuronal Plasticity -- Physiology ; Optogenetics -- Methods ; Synapses -- Physiology Description:
The intricate and complex interaction between different populations of neurons in the brain has imposed limits on our ability to gain detailed understanding of synaptic transmission and its integration when employing classical electrophysiological approaches. Indeed, electrical field stimulation delivered via traditional microelectrodes does not permit the targeted, precise and selective control of neuronal activity amongst a varied population of neurons and their inputs (eg, cholinergic, dopaminergic or glutamatergic neurons). Recently established optogenetic techniques overcome these limitations allowing precise control of the target neuron populations, which is essential for the elucidation of the neural substrates underlying complex animal behaviors. Indeed, by introducing light-activated channels (ie, microbial opsin genes) into specific neuronal populations, optogenetics enables non-invasive optical control of specific neurons with milliseconds precision. These approaches can readily...
Fait partie de:
Acta pharmacologica Sinica, November 2013, Vol.34(11), pp.1381-5
Identifiant:
1745-7254 (E-ISSN); 24162508 Version (PMID); 10.1038/aps.2013.150 (DOI)
Plusieurs versions
Recent progress in understanding subtype specific regulation of NMDA receptors by G Protein Coupled Receptors (GPCRs)
Yang, Kai, Jackson, Michael F, Macdonald, John F
International journal of molecular sciences, 20 February 2014, Vol.15(2), pp.3003-24
[Revue évaluée par les pairs]