Single cell transcriptional consequences of leukaemogenic SETBP1 mutations
The SETBP1 gene encodes a DNA-binding nuclear protein that regulates gene expression across multiple tissues. Precise control of SETBP1 dosage is essential for normal cellular function, as both loss- and gain-of-function variants of SETBP1 can lead to severe phenotypic consequences. De novo germline gain-of-function point mutations that prolong SETBP1 half-life result in Schinzel-Giedion syndrome (SGS), an ultra-rare and severe congenital disorder associated with extensive developmental abnormalities and health complications. These SGS-associated variants cluster within a hotspot in the SKI-homology domain of SETBP1, overlapping with somatic mutations recurrently observed in myeloid leukaemia with poor prognosis. Thus far, the precise mechanisms by which these SETBP1_mutations drive disease remain largely unclear. Here, through single-cell and single-nucleus mRNA sequencing of a rare collection of primary patient samples with SGS, we examined the transcriptional consequences of _SETBP1 gain-of-function variants in haematopoietic cells from natural variation.
- 05/03/2026
- 1 sample
- DAC: EGAC00001000000
- Technology: Illumina NovaSeq 6000
DUO:0000019 version: 2021-02-23
publication required
This data use modifier indicates that requestor agrees to make results of studies using the data available to the larger scientific community.
DUO:0000026 version: 2021-02-23
user specific restriction
This data use modifier indicates that use is limited to use by approved users.
DUO:0000028 version: 2021-02-23
institution specific restriction
This data use modifier indicates that use is limited to use within an approved institution.
DUO:0000042 version: 2021-02-23
general research use
This data use permission indicates that use is allowed for general research use for any research purpose.
Wellcome Trust Sanger Institute Cancer Genome Group Data Sharing Policy
Studies are experimental investigations of a particular phenomenon, e.g., case-control studies on a particular trait or cancer research projects reporting matching cancer normal genomes from patients.
| Study ID | Study Title | Study Type |
|---|---|---|
| EGAS00001005100 | Transcriptome Analysis | |
| EGAS00001006804 | Other | |
| EGAS00001006837 | Cancer Genomics |
This table displays only public information pertaining to the files in the dataset. If you wish to access this dataset, please submit a request. If you already have access to these data files, please consult the download documentation.
| ID | File Type | Size | Quality Report |
Located in
i
|
|---|---|---|---|---|
| EGAF00008238306 | cram | 70.2 GB |
|
|
| EGAF00008638536 | cram | 53.3 GB |
|
|
| EGAF00008997475 | cram | 33.2 GB |
|
|
| EGAF00008997476 | cram | 34.0 GB |
|
|
| EGAF00008997477 | cram | 39.1 GB |
|
|
| EGAF00009023972 | cram | 36.1 GB |
|
|
| 6 Files (265.8 GB) | ||||