Accession | Title | Series type(s) | Organism(s) | Samples | GDS | Supplementary | Contact | Release date |
---|---|---|---|---|---|---|---|---|
Filter | Schizosaccharomyces pombe | CSV | ||||||
GSE216106 |
Fission yeast essential nuclear pore protein nup211 regulates the transcriptome
|
6 | Hualin Zhong | Oct 04, 2024 | ||||
GSE274240 |
A comprehensive Schizosaccharomyces pombe atlas of physical transcription factor interactions with proteins and chromatin [RNAseq]
|
12 | Fabio Mohn | Aug 20, 2024 | ||||
GSE247371 |
SUMO protease and proteasome recruitment at the nuclear periphery differently affect replication dynamics at arrested forks.
|
23 | Karel Naiman | Nov 13, 2023 | ||||
GSE235001 |
Genome-scale chromatin interaction dynamic measurements for key components of the RNA Pol II general transcription machinery [RNA-seq]
|
|
24 | David T. Auble | Jul 27, 2023 | |||
GSE167543 |
Proteome-wide effects of single gene perturbations in a eukaryotic cell
|
384 |
|
Falk Butter | Sep 20, 2022 | |||
GSE207082 |
The shelterin-dependent recruitment of Stn1-Ten1 ensures replication of hard to replicate subtelomeric regions in fission yeast
|
36 | Karel Naiman | Jul 01, 2022 | ||||
GSE186273 |
Ccr4-Not complex reduces transcription efficiency in heterochromatin
|
130 |
|
Mario Halic | Jun 15, 2022 | |||
GSE192342 |
Rtf2 is Important for Replication Fork Barrier Activity of RTS1 via Splicing of Rtf1 [Pu-Seq]
|
16 |
|
Alice Budden | Dec 24, 2021 | |||
GSE192343 |
Rtf2 is Important for Replication Fork Barrier Activity of RTS1 via Splicing of Rtf1 [cDNA-Seq]
|
6 |
|
Alice Budden | Dec 24, 2021 | |||
GSE192344 |
Rtf2 is Important for Replication Fork Barrier Activity of RTS1 via Splicing of Rtf1
|
22 |
|
Alice Budden | Dec 24, 2021 | |||
GSE181824 |
Transcription-wide distribution of dihydrouridine (D) into mRNAs reveals its requirement for meiotic chromosome segregation [Ribo/RNA-seq]
|
12 |
|
Carlo Yague-Sanz | Oct 26, 2021 | |||
GSE184379 |
Local chromatin context dictates the genetic determinants of the heterochromatin spreading reaction.
|
30 |
|
Bassem Al-Sady | Sep 24, 2021 | |||
GSE152621 |
High-resolution quantitative profiling of tRNA abundance and modification status in eukaryotes by mim-tRNAseq
|
|
29 |
|
Danny Nedialkova | Feb 12, 2021 | ||
GSE165503 |
Increased expression of Polδ does not alter the canonical replication program in vivo
|
27 |
|
Robert Zach | Feb 05, 2021 | |||
GSE142487 |
TOR targets RNA elimination machinery to govern facultative heterochromatin assembly and mitosis to meiosis developmental switch [RNA-seq]
|
49 | Shiv Grewal | Dec 22, 2020 | ||||
GSE142488 |
TOR targets an RNA processing network to regulate facultative heterochromatin, developmental gene expression and cell proliferation
|
72 | Shiv Grewal | Dec 22, 2020 | ||||
GSE150544 |
The INO80 complex regulates epigenetic inheritance of heterochromatin (RNA-seq)
|
8 |
|
Songtao Jia | Nov 18, 2020 | |||
GSE138088 |
Comparative analysis of global transcriptional profile of Escherichia coli and Schizosaccharomyces pombe in respiratory and fermentative growth: Inferring the evolution of analog circuits of post-transcriptional regulation
|
|
12 |
|
Veronica Jimenez-Jacinto | Sep 25, 2020 | ||
GSE138436 |
Epigenetic gene silencing by heterochromatin primes fungal resistance
|
49 |
|
Sito Torres-Garcia | Sep 09, 2020 | |||
GSE153731 |
Replication dynamics of recombination-dependent replication forks: leading and lagging strand synthesis are not coupled
|
36 |
|
Karel Naiman | Jul 03, 2020 |