Accession | Title | Series type(s) | Organism(s) | Samples | GDS | Supplementary | Contact | Release date |
---|---|---|---|---|---|---|---|---|
Filter | Xenopus laevis | CEL | ||||||
GSE108684 |
Fam46a is a regulator for gene expression in secretory tissues and plays an important role in development and homeostasis [Chordin]
|
4 | Toshiyasu Suzuki | Nov 21, 2023 | ||||
GSE108686 |
Fam46a is a regulator for gene expression in secretory tissues and plays an important role in development and homeostasis [Fam46a-MO1]
|
12 | Toshiyasu Suzuki | Nov 21, 2023 | ||||
GSE108692 |
Fam46a is a regulator for gene expression in secretory tissues and plays an important role in development and homeostasis
|
|
22 | Toshiyasu Suzuki | Nov 21, 2023 | |||
GSE196422 |
Enhancers of host immune tolerance to bacterial infection discovered using linked computational and experimental approaches I
|
40 | Megan M Sperry | Jun 16, 2022 | ||||
GSE196424 |
Enhancers of host immune tolerance to bacterial infection discovered using linked computational and experimental approaches II
|
27 | Megan M Sperry | Jun 16, 2022 | ||||
GSE196425 |
Enhancers of host immune tolerance to bacterial infection discovered using linked computational and experimental approaches
|
67 | Megan M Sperry | Jun 16, 2022 | ||||
GSE205827 |
Expression profiling of retinoic acid targets in lateral mesoderm from Xenopus laevis embryos
|
18 | Jean-Francois RIOU | Jun 13, 2022 | ||||
GSE199049 |
Target-agnostic discovery of Rett Syndrome therapeutics by coupling computational network analysis and CRISPR-enabled in vivo disease modeling
|
13 | Richard Novak | Mar 22, 2022 | ||||
GSE138834 |
Gene expression in dorsal halves of Apcdd1-depleted Xenopus laevis embryos
|
6 | Alin Vonica | Oct 15, 2019 | ||||
GSE115148 |
Transcriptome analysis of Xenopus orofacial tissues deficient in retinoic acid receptor function
|
4 | Amanda Dickinson | Oct 15, 2018 | ||||
GSE116164 |
Deficiency in SUMOylation, by injection of Gam1 mRNA into one cell embryos, leads to differential expression of genes in Xenopus
|
18 | Paul Huber | Jun 23, 2018 | ||||
GSE110427 |
ERK3 is essential for establishment of epithelial architecture [ERK3 KD]
|
6 | Eisuke Nishida | Jun 13, 2018 | ||||
GSE110428 |
ERK3 is essential for establishment of epithelial architecture [ERK3 KD vs. TFAP2A KD]
|
6 | Eisuke Nishida | Jun 13, 2018 | ||||
GSE110429 |
ERK3 is essential for establishment of epithelial architecture
|
12 | Eisuke Nishida | Jun 13, 2018 | ||||
GSE69546 |
Expression data from Xenopus laevis juvenile inner ear tissue
|
3 | Selene Virk | Aug 01, 2017 | ||||
GSE68095 |
Msi1 assists CPEB1-driven polyadenylation [CPEB1 & Msi1 RIP replicate]
|
5 | Oscar Reina Garcia | Jul 17, 2017 | ||||
GSE68097 |
Msi1 assists CPEB1-driven polyadenylation [Msi1 RIP]
|
3 | Oscar Reina Garcia | Jul 17, 2017 | ||||
GSE68098 |
Msi1 assists CPEB1-driven polyadenylation [CPEB1 RIP]
|
3 | Oscar Reina Garcia | Jul 17, 2017 | ||||
GSE68099 |
Msi1 assists CPEB1-driven polyadenylation
|
11 | Oscar Reina Garcia | Jul 17, 2017 | ||||
GSE97243 |
Acute (2 hr) response to rxLeptin injection in preoptic area/hypothalamus/pituitary of early prometamorphic (NF stage 54) Xenopus laevis tadpoles
|
6 | Robert J Denver | Mar 31, 2017 |