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Last updated: 2019-01-25
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| File | Version | Author | Date | Message |
|---|---|---|---|---|
| Rmd | 59a47c4 | Luke Zappia | 2019-01-25 | Add publication reference |
| html | db2b836 | Luke Zappia | 2019-01-07 | Adjust author list |
| html | 5dde7e5 | Luke Zappia | 2018-12-05 | Add home page |
| Rmd | 2952082 | Luke Zappia | 2018-12-05 | Add Zenodo DOI |
| html | a61c000 | Luke Zappia | 2018-12-05 | Update home page and getting started |
| html | a61f9c9 | Luke Zappia | 2018-09-13 | Rebuild site |
| html | ad10b21 | Luke Zappia | 2018-09-13 | Switch to GitHub |
| Rmd | a133612 | Luke Zappia | 2018-09-13 | Remove combined trajectory analysis |
| Rmd | fa07de5 | Luke Zappia | 2018-09-13 | Add getting started page and update documentation |
| Rmd | c30f923 | Luke Zappia | 2018-09-07 | Add combined figures |
| Rmd | 45ed184 | Luke Zappia | 2018-09-06 | Add organoids figures |
| Rmd | 5f93b6d | Luke Zappia | 2018-08-29 | Add combined nephron trajectory analysis |
| Rmd | 8a82ab0 | Luke Zappia | 2018-08-29 | Add organoids nephron trajectory analysis |
| Rmd | 7755ac7 | Luke Zappia | 2018-08-15 | Add methods document |
| Rmd | bff4d5b | Luke Zappia | 2018-08-14 | Add crossover document |
| Rmd | 30718d3 | Luke Zappia | 2018-08-14 | Add nephron reclustering |
| Rmd | faf0c5e | Luke Zappia | 2018-08-10 | Add combined clustering |
| Rmd | 2c0e84e | Luke Zappia | 2018-08-09 | Add combined integration |
| Rmd | 4882937 | Luke Zappia | 2018-08-08 | Add Lindstrom QC |
| Rmd | ca0a153 | Luke Zappia | 2018-08-07 | Fix organoids clustering link |
| Rmd | 8b4dd46 | Luke Zappia | 2018-08-07 | Add organoids clustering to index |
| Rmd | 78b57bf | Luke Zappia | 2018-08-01 | Add organoids integration |
| Rmd | db268a5 | Luke Zappia | 2018-07-31 | Add Organoid 4 QC |
| Rmd | 138edbe | Luke Zappia | 2018-07-31 | Fix figures |
| Rmd | bb63ce2 | Luke Zappia | 2018-07-31 | Add organoids batch 1 QC |
| Rmd | 1ca8ee2 | Luke Zappia | 2018-07-30 | Start workflowr project. |
Single cell analysis reveals congruence between kidney organoids and human fetal kidney
Publication: 
Website and code: 
This site contains the results of the analysis presented in “Single-cell analysis reveals congruence between kidney organoids and human fetal kidney” published in Genome Medicine. Follow the links below to see the different parts of the analysis. If you want to reproduce the analysis please have a look at the Getting started page.
Abstract
Background:
Human kidney organoids hold promise for studying development, disease modelling and drug screening. However, the utility of stem cell-derived kidney tissues will depend on how faithfully these replicate normal fetal development at the level of cellular identity and complexity.
Results:
Here we present an integrated analysis of single cell datasets from human kidney organoids and human fetal kidney to assess similarities and differences between the component cell types. When overlaid, individual cell clusters contained cells from both organoid and fetal kidney with transcriptional congruence for key stromal, endothelial and nephron cell-type specific markers. Organoid enriched neural, glial and muscle progenitor populations are also evident. Major transcriptional differences between organoid and human tissue were likely related to technical artefacts. Cell type-specific comparisons revealed differences in stromal, endothelial, and nephron progenitor cell types including expression of WNT2B in the human fetal kidney stroma but not in the organoids.
Conclusions:
This study supports the fidelity of kidney organoids as models of the developing kidney and affirms their potential in disease modelling and drug screening.
Analysis
- Quality control
- Organoid Batch 1 - Quality control of the first batch of organoids containing three samples
- Organoid 4 - Quality control of the second batch of organoids containing a single sample
- Fetal kidney - Quality control of the Lindstrom fetal kidney dataset
- Organoids analysis
- Integration - Integration of the four organoid samples
- Clustering - Clustering of the organoid samples
- Nephron re-clustering - Re-clustering of the organoid nephron lineage
- Nephron trajectory - Trajectory analysis of the organoids nephron lineage
- Figures - Figures for the organoids analysis presented in the paper
- Combined analysis
- Integration - Integration of the organoids datasets and the Lindstrom fetal kidney dataset
- Clustering - Clustering of the combined dataset
- Nephron re-clustering - Re-clustering of the nephron lineage in the combined dataset
- Figures - Figures for the combined analysis presented in the paper
- Clustering crossover - Overlap in samples between clusters from different parts of the analysis
- Methods - Methods describing the analysis
Licenses
The code in this analysis is covered by the MIT license and the written content on this website is covered by a Creative Commons CC-BY license.
The associated publication and the datasets used are covered by their respective licenses and usage agreements. Please refer to those sources for details.
Citations
The results of this analysis can be cited as:
Combes AN, Zappia L, Er PX, Oshlack A, Little MH. Single-cell analysis reveals congruence between kidney organoids and human fetal kidney. Genome Medicine. 2019. DOI: 10.1186/s13073-019-0615-0.
This website and the analysis code can be cited as:
Zappia, Luke, Combes, Alexander N., Er, Pei Xuan, Oshlack, Alicia, & Little, Melissa H. Combes organoid paper analysis code. Zenodo. 2019. DOI: 10.5281/zenodo.1960044.
This reproducible R Markdown analysis was created with workflowr 1.1.1