| Accession | Title | Series type(s) | Organism(s) | Samples | GDS | Supplementary | Contact | Release date |
|---|---|---|---|---|---|---|---|---|
 Filter
|
Neurospora crassa
|
|||||||
| GSE269228 |
A Constitutive Heterochromatic Region Shapes Genome Organization and Impacts Gene Expression in Neurospora crassa [ChIP-Seq]
|
|
3 | Andrew David Klocko | Jun 10, 2024 | |||
| GSE269229 |
A Constitutive Heterochromatic Region Shapes Genome Organization and Impacts Gene Expression in Neurospora crassa [Hi-C]
|
|
8 | Andrew David Klocko | Jun 10, 2024 | |||
| GSE269230 |
A Constitutive Heterochromatic Region Shapes Genome Organization and Impacts Gene Expression in Neurospora crassa [RNA-Seq]
|
|
12 | Andrew David Klocko | Jun 10, 2024 | |||
| GSE269235 |
A Constitutive Heterochromatic Region Shapes Genome Organization and Impacts Gene Expression in Neurospora crassa
|
|
23 | Andrew David Klocko | Jun 10, 2024 | |||
| GSE261900 |
Sterol biosynthesis is regulated by a sophisticated regulatory network involving multiple transcription factors in fungi
|
|
42 | pengju YU | Mar 24, 2024 | |||
| GSE224796 |
Transcriptional regulation by the Velvet complex during sexual development in Neurospora crassa
|
|
84 | Gabriel Gutierrez | Mar 01, 2024 | |||
| GSE238077 |
Transcriptional decay profiling of Neurospora crassa
|
|
8 | Yunkun Dang | Dec 31, 2023 | |||
| GSE245041 |
Ribosome profiling of WT strain in Neurospora crass
|
|
1 | Yunkun Dang | Dec 31, 2023 | |||
| GSE222372 |
The transcriptional factor Clr-5 is involved in cellulose degradation through regulation of amino acid metabolism in Neurospora crassa
|
|
12 | Jingen Li | Dec 06, 2023 | |||
| GSE232933 |
Histone deacetylation and cytosine methylation are required for the normal compartmentalization of heterochromatin in the genome organization of Neurospora crassa [ChIP-Seq]
|
|
19 | Andrew David Klocko | Jul 03, 2023 | |||
| GSE232934 |
Histone deacetylation and cytosine methylation are required for the normal compartmentalization of heterochromatin in the genome organization of Neurospora crassa [Hi-C]
|
|
12 | Andrew David Klocko | Jul 03, 2023 | |||
| GSE232935 |
Histone deacetylation and cytosine methylation are required for the normal compartmentalization of heterochromatin in the genome organization of Neurospora crassa
|
|
31 | Andrew David Klocko | Jul 03, 2023 | |||
| GSE199259 |
Orphan elements are clustered with allorecognition loci and likely involved in incompatibility and speciation in Neurospora
|
|
5 | Francesc Lopez | Mar 23, 2023 | |||
| GSE201901 |
A role for gene expression and mRNA stability in nutritional compensation of the circadian clock
|
|
4 | Christina M Kelliher | Dec 16, 2022 | |||
| GSE216517 |
ChIP-seq H4 and AcH4 in WT and del.ncu09482
|
|
6 | Bin Wang | Oct 26, 2022 | |||
| GSE134445 |
The histone H3G34R mutation disrupts the epigenome via catalytic inactivation of the ASH1 H3K36 methyltransferase [ATAC-seq]
|
|
5 | Elizabeth Toomey Wiles | Oct 19, 2022 | |||
| GSE134449 |
The histone H3G34R mutation disrupts the epigenome via catalytic inactivation of the ASH1 H3K36 methyltransferase [ChIP-seq]
|
|
12 | Elizabeth Toomey Wiles | Oct 19, 2022 | |||
| GSE134451 |
The histone H3G34R mutation disrupts the epigenome via catalytic inactivation of the ASH1 H3K36 methyltransferase [RNA-seq]
|
|
3 | Elizabeth Toomey Wiles | Oct 19, 2022 | |||
| GSE134452 |
The histone H3G34R mutation disrupts the epigenome via catalytic inactivation of the ASH1 H3K36 methyltransferase
|
|
20 | Elizabeth Toomey Wiles | Oct 19, 2022 | |||
| GSE181564 |
Circadian Clock-Controlled Translation of Specific mRNAs in Neurospora crassa Requires Rhythmic eIF2α Activity and P-body Sequestration [RNA-seq]
|
|
80 | Deborah Bell-Pedersen | Sep 23, 2022 |
