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@ARTICLE{Feldmeyer:45088,
author = {Feldmeyer, D. and Roth, A. and Sakmann, B.},
title = {{M}onosynaptic connections between pairs of spiny stellate
cells in layer 4 and pyramidal cells in layer 5a indicate
that lemniscal and paralemniscal afferent pathways converge
in the infragranular somatosensory cortex},
journal = {The journal of neuroscience},
volume = {25},
issn = {0270-6474},
address = {Washington, DC},
publisher = {Soc.},
reportid = {PreJuSER-45088},
pages = {3431 - 3423},
year = {2005},
note = {Record converted from VDB: 12.11.2012},
abstract = {Monosynaptic interlaminar connections between spiny
stellate cells in layer 4 (L4), the main cortical recipient
layer for thalamic projections, and pyramidal cells in layer
5A (L5A), one of the main cortical output layers, were
examined anatomically and functionally by paired recordings
in acute brain slices. The somata of pairs forming
interlaminar L4-to-L5A connections were located
predominantly close to or directly under the barrel-septum
wall in layer 4. Superposition of spiny stellate axon arbors
and L5A pyramidal cell dendritic arbors suggested an
innervation domain underneath an L4 barrel wall.
Functionally, the L4-to-L5A connections were of high
reliability and relatively low efficacy, with a unitary EPSP
amplitude of 0.6 mV, and the connectivity was moderately
high (one in seven pairs tested was connected). The EPSP
amplitude was weakly depressing (paired-pulse ratio of
approximately 0.8) during repetitive presynaptic action
potentials at 10 Hz. The existence of monosynaptic L4-to-L5A
connections indicates that the specific "lemniscal" thalamic
input from the ventro-basal nucleus of the thalamus to the
cortex and the more unspecific "paralemniscal" afferent
thalamic projections from the posterior medial nucleus of
the thalamus merge already at an initial stage of cortical
signal processing. These monosynaptic connections establish
a monosynaptic coupling of the input to the cortex and its
output, thereby effectively bypassing the supragranular
layers.},
keywords = {Afferent Pathways: cytology / Afferent Pathways: physiology
/ Animals / Electric Stimulation: methods / Excitatory
Postsynaptic Potentials: physiology / Excitatory
Postsynaptic Potentials: radiation effects / Image
Processing, Computer-Assisted: methods / Lysine: analogs
$\&$ derivatives / Lysine: metabolism / Neural Networks
(Computer) / Neurons: classification / Neurons: cytology /
Neurons: physiology / Patch-Clamp Techniques: methods / Rats
/ Rats, Wistar / Reaction Time: physiology / Reaction Time:
radiation effects / Somatosensory Cortex: cytology /
Synapses: physiology / Lysine (NLM Chemicals) / biocytin
(NLM Chemicals) / J (WoSType)},
cin = {IME},
ddc = {590},
cid = {I:(DE-Juel1)VDB54},
pnm = {Neurowissenschaften},
pid = {G:(DE-Juel1)FUEK255},
shelfmark = {Neurosciences},
typ = {PUB:(DE-HGF)16},
pubmed = {pmid:15800197},
UT = {WOS:000228038200019},
doi = {10.1523/JNEUROSCI.5227-04.2005},
url = {https://juser.fz-juelich.de/record/45088},
}
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