inst/app/www/README.md
In LieberInstitute/spatialLIBD: spatialLIBD: an R/Bioconductor package to visualize spatially-resolved transcriptomics data
spatialLIBD 
Welcome to the spatialLIBD project! It is composed of:
- a shiny web application that we are
hosting at
spatial.libd.org/spatialLIBD/
that can handle a
limited
set of concurrent users,
- a Bioconductor package at
bioconductor.org/packages/spatialLIBD
(or from here) that lets
you analyze the data and run a local version of our web application
(with our data or yours),
- and a research article
with the scientific knowledge we drew from this dataset. The
analysis code for our project is available
here and the high
quality figures for the manuscript are available through
Figshare.
The web application allows you to browse the LIBD human dorsolateral
pre-frontal cortex (DLPFC) spatial transcriptomics data generated with
the 10x Genomics Visium platform. Through the R/Bioconductor
package you can also
download the data as well as visualize your own datasets using this web
application. Please check the
manuscript or bioRxiv
pre-print
for more details about this project.
If you tweet about this website, the data or the R package please use
the #spatialLIBD hashtag. You can find previous tweets
that way as shown
here.
Thank you!
Tweet
#spatialLIBD
Study design
As a quick overview, the data presented here is from portion of the
DLPFC that spans six neuronal layers plus white matter (A) for a
total of three subjects with two pairs of spatially adjacent replicates
(B). Each dissection of DLPFC was designed to span all six layers
plus white matter (C). Using this web application you can explore
the expression of known genes such as SNAP25 (D, a neuronal gene),
MOBP (E, an oligodendrocyte gene), and known layer markers from
mouse studies such as PCP4 (F, a known layer 5 marker gene).
This web application was built such that we could annotate the spots to
layers as you can see under the spot-level data tab. Once we
annotated each spot to a layer, we compressed the information by a
pseudo-bulking approach into layer-level data. We then analyzed the
expression through a set of models whose results you can also explore
through this web application. Finally, you can upload your own gene sets
of interest as well as layer enrichment statistics and compare them with
our LIBD Human DLPFC Visium dataset.
If you are interested in running this web application locally, you can
do so thanks to the spatialLIBD R/Bioconductor package that powers
this web application as shown below.
## Run this web application locally
spatialLIBD::run_app()
## You will have more control about the length of the
## session and memory usage.
## You could also use this function to visualize your
## own data given some requirements described
## in detail in the package vignette documentation
## at http://research.libd.org/spatialLIBD/.
Shiny website mirrors
- Main shiny application website
(note that the link must have a trailing slash
/ for it to work)
- Shinyapps This version has
less RAM memory but is typically deployed using the latest version of
spatialLIBD.
R/Bioconductor package
The spatialLIBD package contains functions for:
- Accessing the spatial transcriptomics data from the LIBD Human Pilot
project (code on
GitHub) generated
with the Visium platform from 10x Genomics. The data is retrieved
from Bioconductor’s
ExperimentHub.
- Visualizing the spot-level spatial gene expression data and
clusters.
- Inspecting the data interactively either on your computer or through
spatial.libd.org/spatialLIBD/.
For more details, please check the documentation
website or the
Bioconductor package landing page
here.
Installation instructions
Get the latest stable R release from
CRAN. Then install spatialLIBD from
Bioconductor using the following code:
if (!requireNamespace("BiocManager", quietly = TRUE)) {
install.packages("BiocManager")
}
BiocManager::install("spatialLIBD")
If you want to use the development version of spatialLIBD, you will
need to use the R version corresponding to the current
Bioconductor-devel branch as described in more detail on the
Bioconductor
website. Then you
can install spatialLIBD from GitHub using the following command.
BiocManager::install("LieberInstitute/spatialLIBD")
Access the data
Through the spatialLIBD package you can access the processed data in
it’s final R format. However, we also provide a table of links so you
can download the raw data we received from 10x Genomics.
Processed data
Using spatialLIBD you can access the Human DLPFC spatial
transcriptomics data from the 10x Genomics Visium platform. For example,
this is the code you can use to access the layer-level data. For more
details, check the help file for fetch_data().
## Load the package
library("spatialLIBD")
## Download the spot-level data
spe <- fetch_data(type = "spe")
## This is a SpatialExperiment object
spe
#> class: SpatialExperiment
#> dim: 33538 47681
#> metadata(0):
#> assays(2): counts logcounts
#> rownames(33538): ENSG00000243485 ENSG00000237613 ... ENSG00000277475
#> ENSG00000268674
#> rowData names(9): source type ... gene_search is_top_hvg
#> colnames(47681): AAACAACGAATAGTTC-1 AAACAAGTATCTCCCA-1 ...
#> TTGTTTCCATACAACT-1 TTGTTTGTGTAAATTC-1
#> colData names(66): sample_id Cluster ... spatialLIBD ManualAnnotation
#> reducedDimNames(6): PCA TSNE_perplexity50 ... TSNE_perplexity80
#> UMAP_neighbors15
#> mainExpName: NULL
#> altExpNames(0):
#> spatialData names(3) : in_tissue array_row array_col
#> spatialCoords names(2) : pxl_col_in_fullres pxl_row_in_fullres
#> imgData names(4): sample_id image_id data scaleFactor
## Note the memory size
lobstr::obj_size(spe)
#> 2.04 GB
## Remake the logo image with histology information
vis_clus(
spe = spe,
clustervar = "spatialLIBD",
sampleid = "151673",
colors = libd_layer_colors,
... = " DLPFC Human Brain Layers\nMade with research.libd.org/spatialLIBD/"
)
Raw data
You can access all the raw data through
Globus (jhpce#HumanPilot10x).
Furthermore, below you can find the links to the raw data we received
from 10x Genomics.
| SampleID | h5_filtered | h5_raw | image_full | image_hi | image_lo | loupe | HTML_report |
|---------:|:------------------------------------------------------------------------------------------------|:-------------------------------------------------------------------------------------------|:-------------------------------------------------------------------------------------|:---------------------------------------------------------------------------------------------|:----------------------------------------------------------------------------------------------|:----------------------------------------------------------------------------|:-------------------------------------------------------------------------------------------------------|
| 151507 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub |
| 151508 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub |
| 151509 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub |
| 151510 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub |
| 151669 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub |
| 151670 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub |
| 151671 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub |
| 151672 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub |
| 151673 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub |
| 151674 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub |
| 151675 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub |
| 151676 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub |
Citation
Below is the citation output from using citation('spatialLIBD') in R.
Please run this yourself to check for any updates on how to cite
spatialLIBD.
print(citation("spatialLIBD"), bibtex = TRUE)
#>
#> Pardo B, Spangler A, Weber LM, Hicks SC, Jaffe AE, Martinowich K,
#> Maynard KR, Collado-Torres L (2022). "spatialLIBD: an R/Bioconductor
#> package to visualize spatially-resolved transcriptomics data."
#> _BMC Genomics_. doi: 10.1186/s12864-022-08601-w (URL:
#> https://doi.org/10.1186/s12864-022-08601-w), <URL:
#> https://doi.org/10.1186/s12864-022-08601-w>.
#>
#> A BibTeX entry for LaTeX users is
#>
#> @Article{,
#> title = {spatialLIBD: an R/Bioconductor package to visualize spatially-resolved transcriptomics data},
#> author = {Brenda Pardo and Abby Spangler and Lukas M. Weber and Stephanie C. Hicks and Andrew E. Jaffe and Keri Martinowich and Kristen R. Maynard and Leonardo Collado-Torres},
#> year = {2022},
#> journal = {BMC Genomics},
#> doi = {10.1186/s12864-022-08601-w},
#> url = {https://doi.org/10.1186/s12864-022-08601-w},
#> }
#>
#> Maynard KR, Collado-Torres L, Weber LM, Uytingco C, Barry BK, Williams
#> SR, II JLC, Tran MN, Besich Z, Tippani M, Chew J, Yin Y, Kleinman JE,
#> Hyde TM, Rao N, Hicks SC, Martinowich K, Jaffe AE (2021).
#> "Transcriptome-scale spatial gene expression in the human dorsolateral
#> prefrontal cortex." _Nature Neuroscience_. doi:
#> 10.1038/s41593-020-00787-0 (URL:
#> https://doi.org/10.1038/s41593-020-00787-0), <URL:
#> https://www.nature.com/articles/s41593-020-00787-0>.
#>
#> A BibTeX entry for LaTeX users is
#>
#> @Article{,
#> title = {Transcriptome-scale spatial gene expression in the human dorsolateral prefrontal cortex},
#> author = {Kristen R. Maynard and Leonardo Collado-Torres and Lukas M. Weber and Cedric Uytingco and Brianna K. Barry and Stephen R. Williams and Joseph L. Catallini II and Matthew N. Tran and Zachary Besich and Madhavi Tippani and Jennifer Chew and Yifeng Yin and Joel E. Kleinman and Thomas M. Hyde and Nikhil Rao and Stephanie C. Hicks and Keri Martinowich and Andrew E. Jaffe},
#> year = {2021},
#> journal = {Nature Neuroscience},
#> doi = {10.1038/s41593-020-00787-0},
#> url = {https://www.nature.com/articles/s41593-020-00787-0},
#> }
Please note that the spatialLIBD was only made possible thanks to many
other R and bioinformatics software authors, which are cited either in
the vignettes and/or the paper(s) describing this package.
LieberInstitute/spatialLIBD documentation built on May 12, 2024, 12:22 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
spatialLIBD
Welcome to the spatialLIBD project! It is composed of:
- a shiny web application that we are hosting at spatial.libd.org/spatialLIBD/ that can handle a limited set of concurrent users,
- a Bioconductor package at bioconductor.org/packages/spatialLIBD (or from here) that lets you analyze the data and run a local version of our web application (with our data or yours),
- and a research article with the scientific knowledge we drew from this dataset. The analysis code for our project is available here and the high quality figures for the manuscript are available through Figshare.
The web application allows you to browse the LIBD human dorsolateral pre-frontal cortex (DLPFC) spatial transcriptomics data generated with the 10x Genomics Visium platform. Through the R/Bioconductor package you can also download the data as well as visualize your own datasets using this web application. Please check the manuscript or bioRxiv pre-print for more details about this project.
If you tweet about this website, the data or the R package please use
the #spatialLIBD hashtag. You can find previous tweets
that way as shown
here.
Thank you!
Tweet
#spatialLIBD
Study design
As a quick overview, the data presented here is from portion of the DLPFC that spans six neuronal layers plus white matter (A) for a total of three subjects with two pairs of spatially adjacent replicates (B). Each dissection of DLPFC was designed to span all six layers plus white matter (C). Using this web application you can explore the expression of known genes such as SNAP25 (D, a neuronal gene), MOBP (E, an oligodendrocyte gene), and known layer markers from mouse studies such as PCP4 (F, a known layer 5 marker gene).
This web application was built such that we could annotate the spots to layers as you can see under the spot-level data tab. Once we annotated each spot to a layer, we compressed the information by a pseudo-bulking approach into layer-level data. We then analyzed the expression through a set of models whose results you can also explore through this web application. Finally, you can upload your own gene sets of interest as well as layer enrichment statistics and compare them with our LIBD Human DLPFC Visium dataset.
If you are interested in running this web application locally, you can
do so thanks to the spatialLIBD R/Bioconductor package that powers
this web application as shown below.
## Run this web application locally
spatialLIBD::run_app()
## You will have more control about the length of the
## session and memory usage.
## You could also use this function to visualize your
## own data given some requirements described
## in detail in the package vignette documentation
## at http://research.libd.org/spatialLIBD/.
Shiny website mirrors
- Main shiny application website
(note that the link must have a trailing slash
/for it to work) - Shinyapps This version has
less RAM memory but is typically deployed using the latest version of
spatialLIBD.
R/Bioconductor package
The spatialLIBD package contains functions for:
- Accessing the spatial transcriptomics data from the LIBD Human Pilot
project (code on
GitHub) generated
with the Visium platform from 10x Genomics. The data is retrieved
from Bioconductor’s
ExperimentHub. - Visualizing the spot-level spatial gene expression data and clusters.
- Inspecting the data interactively either on your computer or through spatial.libd.org/spatialLIBD/.
For more details, please check the documentation website or the Bioconductor package landing page here.
Installation instructions
Get the latest stable R release from
CRAN. Then install spatialLIBD from
Bioconductor using the following code:
if (!requireNamespace("BiocManager", quietly = TRUE)) {
install.packages("BiocManager")
}
BiocManager::install("spatialLIBD")
If you want to use the development version of spatialLIBD, you will
need to use the R version corresponding to the current
Bioconductor-devel branch as described in more detail on the
Bioconductor
website. Then you
can install spatialLIBD from GitHub using the following command.
BiocManager::install("LieberInstitute/spatialLIBD")
Access the data
Through the spatialLIBD package you can access the processed data in
it’s final R format. However, we also provide a table of links so you
can download the raw data we received from 10x Genomics.
Processed data
Using spatialLIBD you can access the Human DLPFC spatial
transcriptomics data from the 10x Genomics Visium platform. For example,
this is the code you can use to access the layer-level data. For more
details, check the help file for fetch_data().
## Load the package
library("spatialLIBD")
## Download the spot-level data
spe <- fetch_data(type = "spe")
## This is a SpatialExperiment object
spe
#> class: SpatialExperiment
#> dim: 33538 47681
#> metadata(0):
#> assays(2): counts logcounts
#> rownames(33538): ENSG00000243485 ENSG00000237613 ... ENSG00000277475
#> ENSG00000268674
#> rowData names(9): source type ... gene_search is_top_hvg
#> colnames(47681): AAACAACGAATAGTTC-1 AAACAAGTATCTCCCA-1 ...
#> TTGTTTCCATACAACT-1 TTGTTTGTGTAAATTC-1
#> colData names(66): sample_id Cluster ... spatialLIBD ManualAnnotation
#> reducedDimNames(6): PCA TSNE_perplexity50 ... TSNE_perplexity80
#> UMAP_neighbors15
#> mainExpName: NULL
#> altExpNames(0):
#> spatialData names(3) : in_tissue array_row array_col
#> spatialCoords names(2) : pxl_col_in_fullres pxl_row_in_fullres
#> imgData names(4): sample_id image_id data scaleFactor
## Note the memory size
lobstr::obj_size(spe)
#> 2.04 GB
## Remake the logo image with histology information
vis_clus(
spe = spe,
clustervar = "spatialLIBD",
sampleid = "151673",
colors = libd_layer_colors,
... = " DLPFC Human Brain Layers\nMade with research.libd.org/spatialLIBD/"
)
Raw data
You can access all the raw data through
Globus (jhpce#HumanPilot10x).
Furthermore, below you can find the links to the raw data we received
from 10x Genomics.
| SampleID | h5_filtered | h5_raw | image_full | image_hi | image_lo | loupe | HTML_report | |---------:|:------------------------------------------------------------------------------------------------|:-------------------------------------------------------------------------------------------|:-------------------------------------------------------------------------------------|:---------------------------------------------------------------------------------------------|:----------------------------------------------------------------------------------------------|:----------------------------------------------------------------------------|:-------------------------------------------------------------------------------------------------------| | 151507 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub | | 151508 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub | | 151509 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub | | 151510 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub | | 151669 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub | | 151670 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub | | 151671 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub | | 151672 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub | | 151673 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub | | 151674 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub | | 151675 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub | | 151676 | AWS | AWS | AWS | AWS | AWS | AWS | GitHub |
Citation
Below is the citation output from using citation('spatialLIBD') in R.
Please run this yourself to check for any updates on how to cite
spatialLIBD.
print(citation("spatialLIBD"), bibtex = TRUE)
#>
#> Pardo B, Spangler A, Weber LM, Hicks SC, Jaffe AE, Martinowich K,
#> Maynard KR, Collado-Torres L (2022). "spatialLIBD: an R/Bioconductor
#> package to visualize spatially-resolved transcriptomics data."
#> _BMC Genomics_. doi: 10.1186/s12864-022-08601-w (URL:
#> https://doi.org/10.1186/s12864-022-08601-w), <URL:
#> https://doi.org/10.1186/s12864-022-08601-w>.
#>
#> A BibTeX entry for LaTeX users is
#>
#> @Article{,
#> title = {spatialLIBD: an R/Bioconductor package to visualize spatially-resolved transcriptomics data},
#> author = {Brenda Pardo and Abby Spangler and Lukas M. Weber and Stephanie C. Hicks and Andrew E. Jaffe and Keri Martinowich and Kristen R. Maynard and Leonardo Collado-Torres},
#> year = {2022},
#> journal = {BMC Genomics},
#> doi = {10.1186/s12864-022-08601-w},
#> url = {https://doi.org/10.1186/s12864-022-08601-w},
#> }
#>
#> Maynard KR, Collado-Torres L, Weber LM, Uytingco C, Barry BK, Williams
#> SR, II JLC, Tran MN, Besich Z, Tippani M, Chew J, Yin Y, Kleinman JE,
#> Hyde TM, Rao N, Hicks SC, Martinowich K, Jaffe AE (2021).
#> "Transcriptome-scale spatial gene expression in the human dorsolateral
#> prefrontal cortex." _Nature Neuroscience_. doi:
#> 10.1038/s41593-020-00787-0 (URL:
#> https://doi.org/10.1038/s41593-020-00787-0), <URL:
#> https://www.nature.com/articles/s41593-020-00787-0>.
#>
#> A BibTeX entry for LaTeX users is
#>
#> @Article{,
#> title = {Transcriptome-scale spatial gene expression in the human dorsolateral prefrontal cortex},
#> author = {Kristen R. Maynard and Leonardo Collado-Torres and Lukas M. Weber and Cedric Uytingco and Brianna K. Barry and Stephen R. Williams and Joseph L. Catallini II and Matthew N. Tran and Zachary Besich and Madhavi Tippani and Jennifer Chew and Yifeng Yin and Joel E. Kleinman and Thomas M. Hyde and Nikhil Rao and Stephanie C. Hicks and Keri Martinowich and Andrew E. Jaffe},
#> year = {2021},
#> journal = {Nature Neuroscience},
#> doi = {10.1038/s41593-020-00787-0},
#> url = {https://www.nature.com/articles/s41593-020-00787-0},
#> }
Please note that the spatialLIBD was only made possible thanks to many
other R and bioinformatics software authors, which are cited either in
the vignettes and/or the paper(s) describing this package.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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