Accession | Title | Series type(s) | Organism(s) | Samples | GDS | Supplementary | Contact | Release date |
---|---|---|---|---|---|---|---|---|
Filter | Saccharomyces cerevisiae | BW | ||||||
GSE113580 |
Yra1-bound R loops cause orientation-independent transcription-replication collisions and telomere instability
|
2 | Andrés Aguilera | Jun 27, 2018 | ||||
GSE159870 |
Harmful R loops are prevented via different cell cycle specific mechanisms
|
17 | Andrés Aguilera | Jul 22, 2021 | ||||
GSE156480 |
Checkpoint-mediated DNA polymerase e exonuclease activity curbing counteracts resection-driven fork collapse
|
46 | Mohammed Al Mamun | Apr 30, 2021 | ||||
GSE118561 |
Sfp1 regulates yeast cell growth and division through multiple promoter binding modes
|
32 | Benjamin Albert | Mar 08, 2019 | ||||
GSE207001 |
De novo inference of thermodynamic binding energies using deep learning models of in vivo transcription factor binding
|
4 |
|
Amr Mohamed Alexandari | Jun 29, 2022 | |||
GSE61888 |
High resolution chromatin dynamics during a yeast stress response
|
201 | Alon Appleboim | Nov 29, 2014 | ||||
GSE121543 |
The nucleosome acidic patch directly interacts with subunits of the Paf1 and FACT complexes and controls chromatin architecture in vivo
|
12 | Karen M. Arndt | Jun 11, 2019 | ||||
GSE255360 |
Multiple direct and indirect roles of the Paf1 Complex in elongation, splicing, and histone post-translational modifications [4tU-seq]
|
|
50 | Karen Arndt | May 15, 2024 | |||
GSE255361 |
Multiple direct and indirect roles of the Paf1 Complex in elongation, splicing, and histone post-translational modifications [ChIP-seq]
|
|
48 | Karen Arndt | May 15, 2024 | |||
GSE255362 |
Multiple direct and indirect roles of the Paf1 Complex in elongation, splicing, and histone post-translational modifications [RNA-seq]
|
|
12 | Karen Arndt | May 15, 2024 | |||
GSE275291 |
Reconstitution of SPO11-dependent double-strand break formation
|
|
14 |
|
Meret Arter | Aug 20, 2024 | ||
GSE80234 |
Genome-wide Localization of Mot1, Spt16, and Nucleosomes in mot1, spt16, and mot1 spt16 cells
|
18 | David Auble | May 16, 2016 | ||||
GSE80235 |
The Mot1 ATPase and Spt16 Histone Chaperone Co-Regulate Transcription Through Preinitiation Complex Assembly and Nucleosome Organization
|
21 | David Auble | May 16, 2016 | ||||
GSE138281 |
The Set1 N-terminal domain and Swd2 interact with the RNA polymerase II CTD to recruit COMPASS
|
27 | HYUN JIN BAE | Oct 02, 2019 | ||||
GSE150826 |
The ISW1a ATP-dependent chromatin remodeler acts specifically on dinucleosomes to regulate early transcription [ChIP-seq]
|
8 | Blaine Bartholomew | Jul 31, 2020 | ||||
GSE49926 |
Genome-wide effects of Spt6 on RNA pol II and Histone H3 occupancy in budding yeast (ChIP-Seq)
|
3 | David L. Bentley | Aug 16, 2013 | ||||
GSE49927 |
Genome-wide effects of Spt6 on RNA pol II and Histone H3 occupancy in budding yeast (ChIP-Chip)
|
5 |
|
David L. Bentley | Aug 16, 2013 | |||
GSE49928 |
Genome-wide effects of Spt6 on RNA pol II and Histone H3 occupancy in budding yeast
|
8 |
|
David L. Bentley | Aug 16, 2013 | |||
GSE97827 |
RNA pol II Dynamics Modulate Co-transcriptional Chromatin Modification, CTD phosphorylation and transcriptional direction
|
|
53 | David L. Bentley | May 24, 2017 | |||
GSE53718 |
MNase-seq Experiments from Saccharomyces cerevisiae
|
6 | Shelley L Berger | Sep 15, 2014 |