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Links from GEO DataSets

Items: 18

1.

P18 mouse non-deprived vs. deprived visual cortex

(Submitter supplied) Wild-type (C57Bl6) mice underwent monocular enucleation at P14 and were sacrificed 4 days later at P18. Bilateral (non-deprived and deprived) visual cortex was dissected from 1-mm thick coronal sections, and total RNA was extracted from the tissue lysate using Trizol (Gibco-BRL). Keywords: repeat
Organism:
Mus musculus
Type:
Expression profiling by array
Platform:
GPL81
10 Samples
Download data
Series
Accession:
GSE4263
ID:
200004263
2.

P18, P24, P46, P104, and P46DR (dark reared) non-deprived vs. deprived visual cortex

(Submitter supplied) This SuperSeries is composed of the SubSeries listed below.
Organism:
Mus musculus
Type:
Expression profiling by array
Platform:
GPL81
36 Samples
Download data
Series
Accession:
GSE4269
ID:
200004269
3.

P46DR (dark reared) mouse non-deprived vs. deprived visual cortex

(Submitter supplied) Wild-type (C57Bl6) mice were dark reared from birth to P42, then underwent monocular enucleation at P42. They were then placed in a normal light-dark environment for 4 days, after which they were sacrificed (at P46). Visual cortex was dissected from 1-mm thick coronal sections, and total RNA was extracted from the tissue lysate using Trizol (Gibco-BRL). Keywords: repeat
Organism:
Mus musculus
Type:
Expression profiling by array
Platform:
GPL81
4 Samples
Download data
Series
Accession:
GSE4267
ID:
200004267
4.

P104 mouse non-deprived vs. deprived visual cortex

(Submitter supplied) Wild-type (C57Bl6) mice underwent monocular enucleation at P100 and were sacrificed 4 days later at P104. Bilateral (non-deprived and deprived) visual cortex was dissected from 1-mm thick coronal sections, and total RNA was extracted from the tissue lysate using Trizol (Gibco-BRL). Keywords: repeat
Organism:
Mus musculus
Type:
Expression profiling by array
Platform:
GPL81
6 Samples
Download data
Series
Accession:
GSE4266
ID:
200004266
5.

P46 mouse non-deprived vs. deprived visual cortex

(Submitter supplied) Wild-type (C57Bl6) mice underwent monocular enucleation at P42 and were sacrificed 4 days later at P46. Bilateral (non-deprived and deprived) visual cortex was dissected from 1-mm thick coronal sections, and total RNA was extracted from the tissue lysate using Trizol (Gibco-BRL). Keywords: repeat
Organism:
Mus musculus
Type:
Expression profiling by array
Platform:
GPL81
8 Samples
Download data
Series
Accession:
GSE4265
ID:
200004265
6.

P24 mouse non-deprived vs. deprived visual cortex

(Submitter supplied) Wild-type (C57Bl6) mice underwent monocular enucleation at P20 and were sacrificed 4 days later at P24. Bilateral (non-deprived and deprived) visual cortex was dissected from 1-mm thick coronal sections, and total RNA was extracted from the tissue lysate using Trizol (Gibco-BRL). Keywords: repeat
Organism:
Mus musculus
Type:
Expression profiling by array
Platform:
GPL81
8 Samples
Download data
Series
Accession:
GSE4264
ID:
200004264
7.

Changes in miRNA expression in mouse primary visual cortex following visual deprivation

(Submitter supplied) Visual deprivation, either in the form of dark rearing (DR) or monocular deprivation (MD) are established paradigms for studying cortical plasticity. We have used miRNA microarray to uncover miRNAs whose expression is altered in primary visual cortex following DR and/or MD.
Organism:
Mus musculus
Type:
Non-coding RNA profiling by array
Platform:
GPL10384
9 Samples
Download data: TXT
Series
Accession:
GSE31536
ID:
200031536
8.

Expression data from mouse primary visual cortex under different deprivation conditions

(Submitter supplied) Two key paradigms for examining activity-dependent development of primary visual cortex (V1) involve either reduction of activity in both eyes via dark-rearing (DR) or imbalance of activity between the two eyes via monocular deprivation (MD). Combining DNA microarray analysis with computational approaches, RT-PCR, immunohistochemistry and physiological imaging, we find that DR leads to (i) upregulation of genes subserving synaptic transmission and electrical activity, consistent with a coordinated response of cortical neurons to reduction of visual drive, and (ii) downregulation of parvalbumin, implicating parvalbumin-expressing neurons as underlying the delay in cortical maturation after DR. more...
Organism:
Mus musculus
Type:
Expression profiling by array
Datasets:
GDS1983 GDS1984 GDS1986
Platforms:
GPL83 GPL81 GPL82
36 Samples
Download data
Series
Accession:
GSE4537
ID:
200004537
9.
Full record GDS1986

Primary visual cortex response to visual input deprivation (MG-U74C)

Analysis of primary visual cortex (V1) under conditions of binocular deprivation by dark-rearing (DR) or monocular deprivation (MD). Animals subjected to DR from birth till postnatal day (P) 27 or to MD from P11-12 to P27. Results provide insight into the role of visual activity in V1 development.
Organism:
Mus musculus
Type:
Expression profiling by array, count, 3 other, 3 protocol sets
Platform:
GPL83
Series:
GSE4537
12 Samples
Download data
DataSet
Accession:
GDS1986
ID:
1986
10.
Full record GDS1984

Primary visual cortex response to visual input deprivation (MG-U74B)

Analysis of primary visual cortex (V1) under conditions of binocular deprivation by dark-rearing (DR) or monocular deprivation (MD). Animals subjected to DR from birth till postnatal day (P) 27 or to MD from P11-12 to P27. Results provide insight into the role of visual activity in V1 development.
Organism:
Mus musculus
Type:
Expression profiling by array, count, 3 other, 3 protocol sets
Platform:
GPL82
Series:
GSE4537
12 Samples
Download data
DataSet
Accession:
GDS1984
ID:
1984
11.
Full record GDS1983

Primary visual cortex response to visual input deprivation (MG-U74A)

Analysis of primary visual cortex (V1) under conditions of binocular deprivation by dark-rearing (DR) or monocular deprivation (MD). Animals subjected to DR from birth till postnatal day (P) 27 or to MD from P11-12 to P27. Results provide insight into the role of visual activity in V1 development.
Organism:
Mus musculus
Type:
Expression profiling by array, count, 3 other, 3 protocol sets
Platform:
GPL81
Series:
GSE4537
12 Samples
Download data
DataSet
Accession:
GDS1983
ID:
1983
12.

Expression data from postnatal day (P) 14, 28, 60 mouse visual cortex (V1)

(Submitter supplied) Analysis of gene expression before (P14), during (P28), and after (P60) the critical period for ocular dominance plasticity. Keywords: time course
Organism:
Mus musculus
Type:
Expression profiling by array
Datasets:
GDS3375 GDS3376 GDS3382
Platforms:
GPL83 GPL81 GPL82
30 Samples
Download data: CEL, CHP
Series
Accession:
GSE11764
ID:
200011764
13.
Full record GDS3382

Visual cortex during the critical period for ocular dominance (MG-U74C)

Analysis of visual cortices before the critical period for ocular dominance plasticity opens [postnatal day 14 (P14)], at the peak sensitivity of the critical period (P28), and after the critical period (P60). Results provide insight into the molecular mechanisms associated with the critical period.
Organism:
Mus musculus
Type:
Expression profiling by array, count, 3 age sets
Platform:
GPL83
Series:
GSE11764
10 Samples
Download data: CEL, CHP
14.
Full record GDS3376

Visual cortex during the critical period for ocular dominance (MG-U74B)

Analysis of visual cortices before the critical period for ocular dominance plasticity opens [postnatal day 14 (P14)], at the peak sensitivity of the critical period (P28), and after the critical period (P60). Results provide insight into the molecular mechanisms associated with the critical period.
Organism:
Mus musculus
Type:
Expression profiling by array, count, 3 age sets
Platform:
GPL82
Series:
GSE11764
10 Samples
Download data: CEL, CHP
15.
Full record GDS3375

Visual cortex during the critical period for ocular dominance (MG-U74A)

Analysis of visual cortices before the critical period for ocular dominance plasticity opens [postnatal day 14 (P14)], at the peak sensitivity of the critical period (P28), and after the critical period (P60). Results provide insight into the molecular mechanisms associated with the critical period.
Organism:
Mus musculus
Type:
Expression profiling by array, count, 3 age sets
Platform:
GPL81
Series:
GSE11764
10 Samples
Download data: CEL, CHP
16.

Activity Deprivation-Induced Transcriptional Changes in the P21 Cochlear Nucleus

(Submitter supplied) We analyzed whether cochlear removal-induced transcriptional changes in the cochlear nucleus (CN) were due to loss of electrical activity in the 8th nerve. Pharmacological activity blockade of the auditory nerve for 24 h resulted in similar expression changes for only a subset of genes. Thus, an additional factor not dependent on action potential-mediated signaling must also regulate transcriptional responses to deafferentation in the CN. more...
Organism:
Mus musculus
Type:
Expression profiling by array
Platform:
GPL8321
6 Samples
Download data: CEL
Series
Accession:
GSE11726
ID:
200011726
17.

Gene Expression after Cochlear Removal in Cochlear Nucleus at P7 and P21

(Submitter supplied) Deprivation of peripheral nerve input by cochlear removal in young mice results in dramatic neuron death in the cochlear nucleus (CN). The same manipulation in older mice does not result in significant loss. The molecular basis of this critical period of vulnerability remains largely unknown. Here we identified genes regulated at early time points after cochlear removal at ages when neurons are vulnerable (postnatal day (P)7) or invulnerable (P21) to this challenge. more...
Organism:
Mus musculus
Type:
Expression profiling by array
Platform:
GPL339
44 Samples
Download data: CEL
Series
Accession:
GSE5394
ID:
200005394
18.

Vision-dependent specification of cell types and function in the developing cortex

(Submitter supplied) The role of postnatal experience in sculpting cortical circuitry, while long appreciated, is poorly understood at the level of cell types. We explore this in the mouse primary visual cortex (V1) using single-nucleus RNA-sequencing, visual deprivation, genetics, and functional imaging. We find that vision selectively drives the specification of glutamatergic cell types in upper layers (L) (L2/3/4), while deeper-layer glutamatergic, GABAergic, and non-neuronal cell types are established prior to eye opening. more...
Organism:
Mus musculus
Type:
Expression profiling by high throughput sequencing
Platform:
GPL24247
35 Samples
Download data: CSV
Series
Accession:
GSE190940
ID:
200190940
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