Accession

SAMC1956635

Accession in Other Database

Sample name

3_human_cell_lines _cell

Title

permeabilized cell of 3 human cell lines

Sample type

Human sample

Organism

Homo sapiens

Description

Fipresci-Seq for permeabilized cell of 3 human cell lines

Attributes

Isolate	not collected
Age
Biomaterial provider	National Collection of Authenticated Cell Cultures (Shanghai, China)
Sex	not applicable
Tissue	Bone marrow
Disease
Cell line
Cell subtype
Cell type
Culture collection
Development stage
Disease stage
Ethnicity
Health State
Karyotype
Phenotype
Population
Race
Type
Treatment
Collection date	2020-11-16

Custom attributes

Release date

2023-02-21

BioProject Accession

PRJCA007160

Submitter

yun li (jiangl@big.ac.cn)

Organization

BIG

Submission date

2023-06-18

Sample Data

Resource name	Description
GSA-Human (1)	-
HRA001531 (Open Access)	Single-cell RNA five-end-sequencing methods can simultaneously quantify gene expression and detect transcribed cis-regulatory elements (tCREs, mostly promoters and enhancers) in a single assay with no extra cost, which are critical for studies of gene regulation. To enable sample multiplexing and cost-effective single-cell RNA five-end-sequencing for millions of individual cells, here we develop an efficient, simple and flexible 'Five-prime end single-cell combinatorial indexing RNA-Seq (Fipresci-Seq)' approach. In this study, we benchmarked Fipresci-Seq on an interspecies mixture of human and mouse cells.

Resource name

Description

GSA-Human (1)

HRA001531 (Open Access)

Single-cell RNA five-end-sequencing methods can simultaneously quantify gene expression and detect transcribed cis-regulatory elements (tCREs, mostly promoters and enhancers) in a single assay with no extra cost, which are critical for studies of gene regulation. To enable sample multiplexing and cost-effective single-cell RNA five-end-sequencing for millions of individual cells, here we develop an efficient, simple and flexible 'Five-prime end single-cell combinatorial indexing RNA-Seq (Fipresci-Seq)' approach. In this study, we benchmarked Fipresci-Seq on an interspecies mixture of human and mouse cells.

Related samples

Samples (1)

SAMC1956631