Accession | Title | Series type(s) | Organism(s) | Samples | GDS | Supplementary | Contact | Release date |
---|---|---|---|---|---|---|---|---|
Filter | BED | Shaun Mahony | ||||||
GSE30882 |
Embryonic stem cell based system for the discovery and mapping of developmental transcriptional programs
|
5 |
|
Shaun Mahony | Nov 12, 2011 | |||
GSE46707 |
Co-regulated gene expression downstream of a single transcription factor controls the acquisition of corticospinal motor neuron identity
|
6 |
|
Shaun Mahony | Jul 06, 2014 | |||
GSE48254 |
A Cdx4-Sall4 regulatory module controls the transition from mesoderm formation to embryonic hematopoiesis
|
7 |
|
Shaun Mahony | Dec 02, 2013 | |||
GSE212052 |
DNA sequence context and the chromatin landscape differentiate sequence-specific transcription factor binding in the human malaria parasite, Plasmodium falciparum
|
8 |
|
Shaun Mahony | Jul 31, 2024 | |||
GSE110502 |
Characterizing protein-DNA binding event subtypes in ChIP-exo data
|
9 |
|
Shaun Mahony | Feb 13, 2018 | |||
GSE199313 |
Foxa2 and Pet1 direct and indirect synergy drive serotonergic neuronal differentiation [ATAC-Seq]
|
10 | Shaun Mahony | Jun 09, 2022 | ||||
GSE142375 |
Diversification of posterior Hox patterning by graded ability to engage inaccessible chromatin [ATAC-seq]
|
12 |
|
Shaun Mahony | Sep 06, 2020 | |||
GSE114171 |
Molecular basis of neuronal subtype bias introduced by proneural factors Ascl1 and Neurog2 (ATAC-seq)
|
14 |
|
Shaun Mahony | Feb 27, 2019 | |||
GSE199314 |
Foxa2 and Pet1 direct and indirect synergy drive serotonergic neuronal differentiation [ChIP-Seq]
|
14 |
|
Shaun Mahony | Jun 09, 2022 | |||
GSE31456 |
Transcriptional mechanisms controlling direct motor neuron programming
|
26 | Shaun Mahony | Jul 04, 2013 | ||||
GSE244410 |
Joint sequence and chromatin neural networks characterize the differential abilities of Forkhead transcription factors to engage inaccessible chromatin (ChIP-exo)
|
28 |
|
Shaun Mahony | Oct 04, 2023 | |||
GSE114172 |
Molecular basis of neuronal subtype bias introduced by proneural factors Ascl1 and Neurog2 (ChIP-seq)
|
31 |
|
Shaun Mahony | Feb 27, 2019 | |||
GSE142377 |
Diversification of posterior Hox patterning by graded ability to engage inaccessible chromatin [ChIP-seq]
|
42 |
|
Shaun Mahony | Sep 06, 2020 | |||
GSE244411 |
Joint sequence and chromatin neural networks characterize the differential abilities of Forkhead transcription factors to engage inaccessible chromatin
|
57 |
|
Shaun Mahony | Oct 04, 2023 | |||
GSE80321 |
A multi-step transcriptional and chromatin cascade underlies motor neuron programming (transcription factor ChIP-seq)
|
58 |
|
Shaun Mahony | Dec 07, 2016 | |||
GSE142379 |
Diversification of posterior Hox patterning by graded ability to engage inaccessible chromatin
|
70 |
|
Shaun Mahony | Sep 06, 2020 |