In RubD/Giotto_site: Spatial Single-Cell Transcriptomics Toolbox
Giotto spot enrichment tools
Not yet available. Check out the visium brain datasets for examples.
1. processing steps
library(Giotto)
path_to_matrix = system.file("extdata", "visium_DG_expr.txt.gz", package = 'Giotto')
path_to_locations = system.file("extdata", "visium_DG_locs.txt", package = 'Giotto')
my_giotto_object = createGiottoObject(raw_exprs = path_to_matrix,
spatial_locs = path_to_locations)
# processing
my_giotto_object <- normalizeGiotto(gobject = my_giotto_object)
$~$
2. Run spatial cell type enrichments methods
2.1 PAGE enrichment
astro_epen_markers = c("Krt15" , "Apoc1" , "Igsf1" , "Gjb6" , "Slc26a3" ,
"1500015O10Rik" , "S1pr1" , "Riiad1" , "Cldn10" , "Itih3" ,
"Ccdc153" , "Cbs" , "C4b" , "Gm11627" , "Folr1" ,
"Calml4" , "Aqp4" , "Ppp1r3g" , "1700012B09Rik" , "Hes5")
gran_markers = c("Nr3c2", "Gabra5", "Tubgcp2", "Ahcyl2",
"Islr2", "Rasl10a", "Tmem114", "Bhlhe22",
"Ntf3", "C1ql2")
cortex_hippo_markers = c("6330403A02Rik" , "Tekt5" , "Wipf3" , "1110032F04Rik" , "Lmo3" ,
"Nrep" , "Slc30a3" , "Plcxd2" , "D630023F18Rik" , "Nptx1" ,
"C1ql3" , "Ddit4l" , "Fezf2" , "Col24a1" , "Kcnf1" ,
"Tnnc1" , "Gm12371" , "3110035E14Rik" , "Nr4a2" , "Nr4a3")
oligo_markers = c("Efhd1" , "H2-Ab1" , "Enpp6" , "Ninj2" , "Bmp4" ,
"Tnr" , "Hapln2" , "Neu4" , "Wfdc18" , "Ccp110" ,
"Gm26834" , "Il23a" , "Arap2" , "Nkx2-9" , "Mal" ,
"Tmem2" , "Birc2" , "Cdkn1c" , "Pak4" , "Tmem88b")
signature_matrix = makeSignMatrixPAGE(sign_names = c('Astro_ependymal',
'Granule',
'Cortex_hippocampus',
'Oligo_dendrocytes'),
sign_list = list(astro_epen_markers,
gran_markers,
cortex_hippo_markers,
oligo_markers))
# runSpatialEnrich() can also be used as a wrapper for all currently provided enrichment options
my_giotto_object = runPAGEEnrich(gobject = my_giotto_object,
sign_matrix = signature_matrix,
min_overlap_genes = 2)
cell_types_subset = colnames(signature_matrix)
spatCellPlot(gobject = my_giotto_object,
spat_enr_names = 'PAGE',
cell_annotation_values = cell_types_subset,
cow_n_col = 2,coord_fix_ratio = NULL, point_size = 2.75)
2.2 RANK enrichment
# single-cell RNA-seq data from Zeisel et al
# mini data is available at https://github.com/RubD/spatial-datasets/tree/master/data/2019_visium_brain
# single cell matrix
single_cell_DT = fread('/path/to/raw_exp_small.txt')
single_cell_matrix = Giotto:::dt_to_matrix(single_cell_DT)
single_cell_matrix[1:4, 1:4]
# single cell annotation vector
cell_annotations = read.table(file = '/path/to/major_cluster_small.txt')
cell_annotations = as.vector(cell_annotations$V1)
cell_annotations[1:10]
# 1.2 create rank matrix
rank_matrix = makeSignMatrixRank(sc_matrix = single_cell_matrix, sc_cluster_ids = cell_annotations)
# 1.3 enrichment test with RANK
# runSpatialEnrich() can also be used as a wrapper for all currently provided enrichment options
my_giotto_object = runRankEnrich(gobject = my_giotto_object, sign_matrix = rank_matrix)
cell_types_subset = c("Astro_ependymal", "Oligo_dendrocyte" , "Cortex_hippocampus" , "Granule_neurons" )
spatCellPlot(gobject = my_giotto_object,
spat_enr_names = 'rank',
cell_annotation_values = cell_types_subset,
cow_n_col = 3,coord_fix_ratio = NULL, point_size = 1.75)
2.3 Hypergeometric enrichment
my_giotto_object = runHyperGeometricEnrich(gobject = my_giotto_object,
sign_matrix = signature_matrix)
cell_types_subset = colnames(signature_matrix)
spatCellPlot(gobject = my_giotto_object,
spat_enr_names = 'hypergeometric',
cell_annotation_values = cell_types_subset,
cow_n_col = 2,coord_fix_ratio = NULL, point_size = 2.75)
2.4 Deconvolution
my_giotto_object = runDWLSDeconv(gobject = my_giotto_object, sign_matrix = signature_matrix)
RubD/Giotto_site documentation built on April 12, 2025, 6:46 p.m.
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Giotto spot enrichment tools
Not yet available. Check out the visium brain datasets for examples.
1. processing steps
library(Giotto) path_to_matrix = system.file("extdata", "visium_DG_expr.txt.gz", package = 'Giotto') path_to_locations = system.file("extdata", "visium_DG_locs.txt", package = 'Giotto') my_giotto_object = createGiottoObject(raw_exprs = path_to_matrix, spatial_locs = path_to_locations) # processing my_giotto_object <- normalizeGiotto(gobject = my_giotto_object)
$~$
2. Run spatial cell type enrichments methods
2.1 PAGE enrichment
astro_epen_markers = c("Krt15" , "Apoc1" , "Igsf1" , "Gjb6" , "Slc26a3" , "1500015O10Rik" , "S1pr1" , "Riiad1" , "Cldn10" , "Itih3" , "Ccdc153" , "Cbs" , "C4b" , "Gm11627" , "Folr1" , "Calml4" , "Aqp4" , "Ppp1r3g" , "1700012B09Rik" , "Hes5") gran_markers = c("Nr3c2", "Gabra5", "Tubgcp2", "Ahcyl2", "Islr2", "Rasl10a", "Tmem114", "Bhlhe22", "Ntf3", "C1ql2") cortex_hippo_markers = c("6330403A02Rik" , "Tekt5" , "Wipf3" , "1110032F04Rik" , "Lmo3" , "Nrep" , "Slc30a3" , "Plcxd2" , "D630023F18Rik" , "Nptx1" , "C1ql3" , "Ddit4l" , "Fezf2" , "Col24a1" , "Kcnf1" , "Tnnc1" , "Gm12371" , "3110035E14Rik" , "Nr4a2" , "Nr4a3") oligo_markers = c("Efhd1" , "H2-Ab1" , "Enpp6" , "Ninj2" , "Bmp4" , "Tnr" , "Hapln2" , "Neu4" , "Wfdc18" , "Ccp110" , "Gm26834" , "Il23a" , "Arap2" , "Nkx2-9" , "Mal" , "Tmem2" , "Birc2" , "Cdkn1c" , "Pak4" , "Tmem88b") signature_matrix = makeSignMatrixPAGE(sign_names = c('Astro_ependymal', 'Granule', 'Cortex_hippocampus', 'Oligo_dendrocytes'), sign_list = list(astro_epen_markers, gran_markers, cortex_hippo_markers, oligo_markers)) # runSpatialEnrich() can also be used as a wrapper for all currently provided enrichment options my_giotto_object = runPAGEEnrich(gobject = my_giotto_object, sign_matrix = signature_matrix, min_overlap_genes = 2)
cell_types_subset = colnames(signature_matrix) spatCellPlot(gobject = my_giotto_object, spat_enr_names = 'PAGE', cell_annotation_values = cell_types_subset, cow_n_col = 2,coord_fix_ratio = NULL, point_size = 2.75)
2.2 RANK enrichment
# single-cell RNA-seq data from Zeisel et al # mini data is available at https://github.com/RubD/spatial-datasets/tree/master/data/2019_visium_brain # single cell matrix single_cell_DT = fread('/path/to/raw_exp_small.txt') single_cell_matrix = Giotto:::dt_to_matrix(single_cell_DT) single_cell_matrix[1:4, 1:4] # single cell annotation vector cell_annotations = read.table(file = '/path/to/major_cluster_small.txt') cell_annotations = as.vector(cell_annotations$V1) cell_annotations[1:10] # 1.2 create rank matrix rank_matrix = makeSignMatrixRank(sc_matrix = single_cell_matrix, sc_cluster_ids = cell_annotations) # 1.3 enrichment test with RANK # runSpatialEnrich() can also be used as a wrapper for all currently provided enrichment options my_giotto_object = runRankEnrich(gobject = my_giotto_object, sign_matrix = rank_matrix)
cell_types_subset = c("Astro_ependymal", "Oligo_dendrocyte" , "Cortex_hippocampus" , "Granule_neurons" ) spatCellPlot(gobject = my_giotto_object, spat_enr_names = 'rank', cell_annotation_values = cell_types_subset, cow_n_col = 3,coord_fix_ratio = NULL, point_size = 1.75)
2.3 Hypergeometric enrichment
my_giotto_object = runHyperGeometricEnrich(gobject = my_giotto_object, sign_matrix = signature_matrix)
cell_types_subset = colnames(signature_matrix) spatCellPlot(gobject = my_giotto_object, spat_enr_names = 'hypergeometric', cell_annotation_values = cell_types_subset, cow_n_col = 2,coord_fix_ratio = NULL, point_size = 2.75)
2.4 Deconvolution
my_giotto_object = runDWLSDeconv(gobject = my_giotto_object, sign_matrix = signature_matrix)
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