Ascoli Giorgio et al. Quantitative Morphometry of Electrophysiologically Identified CA3b Interneurons Reveals Robust Local Geometry and Distinct Cell Classes. (2009) JOURNAL OF COMPARATIVE NEUROLOGY 0021-9967 1096-9861 515 6 677-695
[Citation relation:10023164]

Object type
Citation
Id
10023164
Status
Published
Published
Yes
Comment
FU: National Institute of Neurological Disorders and Stroke ; National : Institute of Mental Health ; National Science Foundation [NS24288, : AG25633, NS39600] FX: Grant sponsor: Human Brain Project joint sponsors-National Institute of : Neurological Disorders and Stroke, National Institute of Mental Health, : and National Science Foundation; Grant numbers: NS24288, AG25633, and : NS39600.
Unhandled tickets
0
Old Timestamp
2018-09-17T17:15:46.000+0000
Deleted
No
Old Id
23164
Last modified
2018-10-09T07:45:20.585+0000
Created
2010-06-13T01:46:11.000+0000
Last duplum OK date
2019-09-05T10:23:33.800+0000
Last duplum search date
2019-09-05T10:23:33.800+0000
Publication
Gulyás AI et al. Precision and variability in postsynaptic target selection of inhibitory cells in the hippocampal CA3 region. (1993) EUROPEAN JOURNAL OF NEUROSCIENCE 0953-816X 1460-9568 5 12 1729-1751
Publication MTMT ID
107599
Related
Ascoli Giorgio et al. Quantitative Morphometry of Electrophysiologically Identified CA3b Interneurons Reveals Robust Local Geometry and Distinct Cell Classes. (2009) JOURNAL OF COMPARATIVE NEUROLOGY 0021-9967 1096-9861 515 6 677-695
Citing publication MTMT ID
27028939
Source
WOS
External citation
Yes
External citation OK
Yes
Link
/api/citation/10023164
Label
Ascoli Giorgio et al. Quantitative Morphometry of Electrophysiologically Identified CA3b Interneurons Reveals Robust Local Geometry and Distinct Cell Classes. (2009) JOURNAL OF COMPARATIVE NEUROLOGY 0021-9967 1096-9861 515 6 677-695
2020-10-23 01:03