General Information
- Project ID
- OEP004186
- Project Name
- Single-Cell Nephrology Profiling Primary Membranous Nephropathy
- Description
- Podocyte lesions caused by anti-phospholipase A2 receptor autoantibodies represent the major type of primary membranous nephropathy (PMN), a leading cause of nephrotic syndrome in adults. We employed single-cell RNA sequencing to analyze kidney biopsy samples from eleven PMN patients and seven control subjects. Profiling 44,060 cells from patients allowed us to characterize the cellular composition and cell-type-specific gene expression in the PMN kidney.
Project information
- Experiments
- 1
Experiment ID Experiment name Experiment type Create Date OEX024230 Transcriptomic single cell Transcriptomic single cell 2023-06-12 - Samples
- 18
Sample ID Sample Name Sample Subject Type Organism Tissue Create Date OES312450 MN1 Human Homo sapiens kidney 2023-06-12 OES312451 MN2 Human Homo sapiens kidney 2023-06-12 OES312452 MN3 Human Homo sapiens kidney 2023-06-12 OES312453 MN4 Human Homo sapiens kidney 2023-06-12 OES312454 MN5 Human Homo sapiens kidney 2023-06-12 OES312455 MN6 Human Homo sapiens kidney 2023-06-12 OES312456 MN7 Human Homo sapiens kidney 2023-06-12 OES312457 MN8 Human Homo sapiens kidney 2023-06-12 OES312458 MN9 Human Homo sapiens kidney 2023-06-12 OES312459 MN10 Human Homo sapiens kidney 2023-06-12 OES312460 MN11 Human Homo sapiens kidney 2023-06-12 OES312461 Ctrl1 Human Homo sapiens kidney 2023-06-12 OES312462 Ctrl2 Human Homo sapiens kidney 2023-06-12 OES312463 Ctrl3 Human Homo sapiens kidney 2023-06-12 OES312464 Ctrl4 Human Homo sapiens kidney 2023-06-12 OES312465 Ctrl5 Human Homo sapiens kidney 2023-06-12 OES312466 Ctrl6 Human Homo sapiens kidney 2023-06-12 OES312467 Ctrl7 Human Homo sapiens kidney 2023-06-12 - Runs
-
18
Run ID Run Name Experiment Sample Data Num Create Date OER398684 MN1_rawdata_fastq OEX024230 OES312450 2 2023-06-13 OER398685 MN2_rawdata_fastq OEX024230 OES312451 2 2023-06-13 OER398686 MN3_rawdata_fastq OEX024230 OES312452 2 2023-06-13 OER398687 MN4_rawdata_fastq OEX024230 OES312453 2 2023-06-13 OER398688 MN5_rawdata_fastq OEX024230 OES312454 2 2023-06-13 OER398689 MN6_rawdata_fastq OEX024230 OES312455 2 2023-06-13 OER398690 MN7_rawdata_fastq OEX024230 OES312456 2 2023-06-13 OER398691 MN8_rawdata_fastq OEX024230 OES312457 3 2023-06-13 OER398692 MN9_rawdata_fastq OEX024230 OES312458 2 2023-06-13 OER398693 MN10_rawdata_fastq OEX024230 OES312459 2 2023-06-13 OER398694 MN11_rawdata_fastq OEX024230 OES312460 2 2023-06-13 OER398695 Ctrl1_rawdata_fastq OEX024230 OES312461 3 2023-06-13 OER398696 Ctrl2_rawdata_fastq OEX024230 OES312462 3 2023-06-13 OER398697 Ctrl3_rawdata_fastq OEX024230 OES312463 2 2023-06-13 OER398698 Ctrl4_rawdata_fastq OEX024230 OES312464 2 2023-06-13 OER398699 Ctrl5_rawdata_fastq OEX024230 OES312465 2 2023-06-13 OER398700 Ctrl6_rawdata_fastq OEX024230 OES312466 2 2023-06-13 OER398701 Ctrl7_rawdata_fastq OEX024230 OES312467 2 2023-06-13 - Analysis
- 4
Author Information
- Create Date
- 2023-06-12
- Last Modified
- 2023-06-13
- Submission
- Yiwei Meng
- Center for Excellence in Molecular Cell Science, Chinese Academy of Sciences