Mechanisms and benefits of granule cell latency coding in the mouse olfactory bulb.
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Principal cell activity induces spine relocation of adult-born interneurons in the olfactory bulb.Population imaging at subcellular resolution supports specific and local inhibition by granule cells in the olfactory bulb.Rapid Feedforward Inhibition and Asynchronous Excitation Regulate Granule Cell Activity in the Mammalian Main Olfactory Bulb.Greater excitability and firing irregularity of tufted cells underlies distinct afferent-evoked activity of olfactory bulb mitral and tufted cells.Broadly tuned and respiration-independent inhibition in the olfactory bulb of awake mice.Glucose sensitivity of mouse olfactory bulb neurons is conveyed by a voltage-gated potassium channel.
P2860
Mechanisms and benefits of granule cell latency coding in the mouse olfactory bulb.
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2012年の論文
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Mechanisms and benefits of granule cell latency coding in the mouse olfactory bulb.
@ast
Mechanisms and benefits of granule cell latency coding in the mouse olfactory bulb.
@en
type
label
Mechanisms and benefits of granule cell latency coding in the mouse olfactory bulb.
@ast
Mechanisms and benefits of granule cell latency coding in the mouse olfactory bulb.
@en
prefLabel
Mechanisms and benefits of granule cell latency coding in the mouse olfactory bulb.
@ast
Mechanisms and benefits of granule cell latency coding in the mouse olfactory bulb.
@en
P2860
P356
P1476
Mechanisms and benefits of granule cell latency coding in the mouse olfactory bulb
@en
P2093
Sonya Giridhar
P2860
P356
10.3389/FNCIR.2012.00040
P577
2012-06-27T00:00:00Z