Accession | Title | Series type(s) | Organism(s) | Samples | GDS | Supplementary | Contact | Release date |
---|---|---|---|---|---|---|---|---|
Filter | Feb 27, 2024 | |||||||
GSE259197 |
Control ChIP-seq from whole organism (ENCSR530KZU)
|
1 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259198 |
TF ChIP-seq from whole organism (ENCSR530MRJ)
|
3 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259199 |
Control ChIP-seq from whole organism (ENCSR530XBH)
|
1 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259200 |
Control ChIP-seq from whole organism (ENCSR531CCR)
|
2 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259201 |
TF ChIP-seq from whole organism (ENCSR532BHA)
|
3 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259202 |
TF ChIP-seq from whole organism (ENCSR532EVV)
|
3 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259203 |
TF ChIP-seq from whole organism (ENCSR532YPP)
|
2 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259204 |
TF ChIP-seq from whole organism (ENCSR533AOQ)
|
2 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259205 |
Control ChIP-seq from whole organism (ENCSR533CSZ)
|
1 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259206 |
TF ChIP-seq from whole organism (ENCSR533CXT)
|
3 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259207 |
Control ChIP-seq from whole organism (ENCSR534JVP)
|
2 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259208 |
TF ChIP-seq from whole organism (ENCSR534TFA)
|
2 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259209 |
Control ChIP-seq from whole organism (ENCSR534YJS)
|
2 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259210 |
TF ChIP-seq from whole organism (ENCSR535LKO)
|
2 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259211 |
Control ChIP-seq from whole organism (ENCSR535RLJ)
|
1 | ENCODE DCC | Feb 27, 2024 | ||||
GSE259313 |
Sex differences in the expression and function of hepatic very low-density lipoprotein receptor during protein deficiency in mice
|
8 | Jiuxiang Cao | Feb 27, 2024 | ||||
GSE259431 |
A circadian transcriptional sub-network and EARLY FLOWERING 3 control timing of senescence and grain nutrition in bread wheat
|
96 | Christopher Robert Buckley | Feb 27, 2024 |