Spatial extension
Document generated: 2024-09-27 15:33:03 UTC+0000
Source:vignettes/scdrake_spatial.Rmd
scdrake_spatial.Rmd
scdrake now offer spatial extension for the first
stage (01_input_qc
) and the second stage
(02_norm_clustering
) of the single-sample pipeline. The
spatial possibility is aimed at Visium technology, respectively on
spot-based technologies. Scdrake provides comparable results with
Seurat, Giotto (R), as well as scanpy (Python), and correspond to Best Practices for Spatial
Transcriptomics. For now, we discourage usage of scdrake for other
technologies than Visium. For futher analyses of the spatial dataset we
recommend CARD for
deconvolution and CellChat2 or IGAN for cell-cell
interaction.
This vignette should serve as a supplement to other vignettes, as
vignette("stage_input_qc")
and
vignette("stage_norm_clustering")
).
Spatial exsention functions
Spatial visualization
For (01_input_qc
) and (02_norm_clustering
)
of the single-sample pipeline we now offer visualization of tissue, as
pseudo tissue spot visualization. Spatial extension will add spot
coordinates (array_col and array_row) from SpaceRanger
tissue_possitions.csv file, and will filter away all spots, that are by
SpaceRanger labeled as not in tissue. Visualization function are
implemented from the Giotto package.
Visualization is automatically used for quality control and dimension
reduction results.
Selection of spatially variable genes
For spatial analyses in stage 02_norm_clustering
vignette("stage_norm_clustering")
when spatial option is
enabled, spatially variable genes (SVGs) are automaticaly calculated
together with HVGs. That is done using Seurat::SVFInfo, selection method
MoransI. A straightforward union of SVGs and HVGs is taking to further
processing, see https://www.biorxiv.org/content/10.1101/2021.08.27.457741v1
for more details.
Marker-based annotation
Marker-based annotation was implemented for both single-cell and spatial datasets. In summary, expression profiles and statistical metrics are computed for each cell/spot, the result is visualized using a heatmap and dimension reduction plot. For spatial datasets is enabled to visualized results in tissue coordinates, both enrichment plots for each annotation label (individual enrichment plots) and for overall results for each spot. Marker-based annotation is implemented from the Giotto package, the function is based on Kim SY et al.