spatial gene expression library Search Results


visium spatial gene expression reagent kits  (10X Genomics)
86
10X Genomics visium spatial gene expression reagent kits
a , The SMA workflow and quality control design—nonembedded, snap-frozen samples are sectioned and thaw-mounted onto noncharged, barcoded <t>Visium</t> Gene Expression arrays. Tissue sections are then sprayed with MALDI matrices and MSI is performed. This is followed by H&E staining and imaging with bright field microscopy. Finally, sections are processed for SRT. We also designed the following three types of control samples: (1) MSI—samples processed with standard MALDI-MSI protocol on ITO conductive slides; (2) VISIUM—samples processed with standard Visium protocol on all four capture areas of a Visium Gene Expression array and (3) V-iCTRL—samples processed with Visium protocol, but MALDI-MSI was performed on other capture areas of a Visium Gene Expression array. b , Pairwise gene-to-gene and molecule-to-molecule correlations across biological replicates. Samples are named with short identifiers that reflect the technical conditions under which the sample was analyzed: MSI, stand-alone MALDI-MSI; SMA, SMA protocol; VISIUM, stand-alone Visium. Additional acronyms indicate the matrix used in the SMA protocol (FMP-10, DHB and 9-AA), the sample (m1, m3 or m4) and the serial number of the tissue section (one to nine for each section placed on either ITO or Visium slides). c , UMAP of SMA ST spots colored by sections (left), MALDI matrices (middle) and clusters (right). d , Top three marker genes with highest average log 2 fold change for each spatial cluster across biological replicates. e , Spatial plot of mouse brain tissue sections (striatal level, 0.49 mm from bregma) that illustrates clusters of transcripts for samples sprayed with three different MALDI matrices (FMP-10, 9-AA and DHB) and one sample processed with the stand-alone Visium protocol.
Visium Spatial Gene Expression Reagent Kits, supplied by 10X Genomics, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/visium spatial gene expression reagent kits/product/10X Genomics
Average 86 stars, based on 1 article reviews
visium spatial gene expression reagent kits - by Bioz Stars, 2026-06
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visium cytassist for ffpe spatial gene expression 6.5mm, mouse, 4 rxns  (Genomix Inc)
90
Genomix Inc visium cytassist for ffpe spatial gene expression 6.5mm, mouse, 4 rxns
a , The SMA workflow and quality control design—nonembedded, snap-frozen samples are sectioned and thaw-mounted onto noncharged, barcoded <t>Visium</t> Gene Expression arrays. Tissue sections are then sprayed with MALDI matrices and MSI is performed. This is followed by H&E staining and imaging with bright field microscopy. Finally, sections are processed for SRT. We also designed the following three types of control samples: (1) MSI—samples processed with standard MALDI-MSI protocol on ITO conductive slides; (2) VISIUM—samples processed with standard Visium protocol on all four capture areas of a Visium Gene Expression array and (3) V-iCTRL—samples processed with Visium protocol, but MALDI-MSI was performed on other capture areas of a Visium Gene Expression array. b , Pairwise gene-to-gene and molecule-to-molecule correlations across biological replicates. Samples are named with short identifiers that reflect the technical conditions under which the sample was analyzed: MSI, stand-alone MALDI-MSI; SMA, SMA protocol; VISIUM, stand-alone Visium. Additional acronyms indicate the matrix used in the SMA protocol (FMP-10, DHB and 9-AA), the sample (m1, m3 or m4) and the serial number of the tissue section (one to nine for each section placed on either ITO or Visium slides). c , UMAP of SMA ST spots colored by sections (left), MALDI matrices (middle) and clusters (right). d , Top three marker genes with highest average log 2 fold change for each spatial cluster across biological replicates. e , Spatial plot of mouse brain tissue sections (striatal level, 0.49 mm from bregma) that illustrates clusters of transcripts for samples sprayed with three different MALDI matrices (FMP-10, 9-AA and DHB) and one sample processed with the stand-alone Visium protocol.
Visium Cytassist For Ffpe Spatial Gene Expression 6.5mm, Mouse, 4 Rxns, supplied by Genomix Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/visium cytassist for ffpe spatial gene expression 6.5mm, mouse, 4 rxns/product/Genomix Inc
Average 90 stars, based on 1 article reviews
visium cytassist for ffpe spatial gene expression 6.5mm, mouse, 4 rxns - by Bioz Stars, 2026-06
90/100 stars
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spatial gene expression pattern  (Allen Institute for Brain Science)
90
Allen Institute for Brain Science spatial gene expression pattern
a , The SMA workflow and quality control design—nonembedded, snap-frozen samples are sectioned and thaw-mounted onto noncharged, barcoded <t>Visium</t> Gene Expression arrays. Tissue sections are then sprayed with MALDI matrices and MSI is performed. This is followed by H&E staining and imaging with bright field microscopy. Finally, sections are processed for SRT. We also designed the following three types of control samples: (1) MSI—samples processed with standard MALDI-MSI protocol on ITO conductive slides; (2) VISIUM—samples processed with standard Visium protocol on all four capture areas of a Visium Gene Expression array and (3) V-iCTRL—samples processed with Visium protocol, but MALDI-MSI was performed on other capture areas of a Visium Gene Expression array. b , Pairwise gene-to-gene and molecule-to-molecule correlations across biological replicates. Samples are named with short identifiers that reflect the technical conditions under which the sample was analyzed: MSI, stand-alone MALDI-MSI; SMA, SMA protocol; VISIUM, stand-alone Visium. Additional acronyms indicate the matrix used in the SMA protocol (FMP-10, DHB and 9-AA), the sample (m1, m3 or m4) and the serial number of the tissue section (one to nine for each section placed on either ITO or Visium slides). c , UMAP of SMA ST spots colored by sections (left), MALDI matrices (middle) and clusters (right). d , Top three marker genes with highest average log 2 fold change for each spatial cluster across biological replicates. e , Spatial plot of mouse brain tissue sections (striatal level, 0.49 mm from bregma) that illustrates clusters of transcripts for samples sprayed with three different MALDI matrices (FMP-10, 9-AA and DHB) and one sample processed with the stand-alone Visium protocol.
Spatial Gene Expression Pattern, supplied by Allen Institute for Brain Science, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/spatial gene expression pattern/product/Allen Institute for Brain Science
Average 90 stars, based on 1 article reviews
spatial gene expression pattern - by Bioz Stars, 2026-06
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sm-omics spatial gene expression patterns  (Allen Institute for Brain Science)
90
Allen Institute for Brain Science sm-omics spatial gene expression patterns
a , The SMA workflow and quality control design—nonembedded, snap-frozen samples are sectioned and thaw-mounted onto noncharged, barcoded <t>Visium</t> Gene Expression arrays. Tissue sections are then sprayed with MALDI matrices and MSI is performed. This is followed by H&E staining and imaging with bright field microscopy. Finally, sections are processed for SRT. We also designed the following three types of control samples: (1) MSI—samples processed with standard MALDI-MSI protocol on ITO conductive slides; (2) VISIUM—samples processed with standard Visium protocol on all four capture areas of a Visium Gene Expression array and (3) V-iCTRL—samples processed with Visium protocol, but MALDI-MSI was performed on other capture areas of a Visium Gene Expression array. b , Pairwise gene-to-gene and molecule-to-molecule correlations across biological replicates. Samples are named with short identifiers that reflect the technical conditions under which the sample was analyzed: MSI, stand-alone MALDI-MSI; SMA, SMA protocol; VISIUM, stand-alone Visium. Additional acronyms indicate the matrix used in the SMA protocol (FMP-10, DHB and 9-AA), the sample (m1, m3 or m4) and the serial number of the tissue section (one to nine for each section placed on either ITO or Visium slides). c , UMAP of SMA ST spots colored by sections (left), MALDI matrices (middle) and clusters (right). d , Top three marker genes with highest average log 2 fold change for each spatial cluster across biological replicates. e , Spatial plot of mouse brain tissue sections (striatal level, 0.49 mm from bregma) that illustrates clusters of transcripts for samples sprayed with three different MALDI matrices (FMP-10, 9-AA and DHB) and one sample processed with the stand-alone Visium protocol.
Sm Omics Spatial Gene Expression Patterns, supplied by Allen Institute for Brain Science, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/sm-omics spatial gene expression patterns/product/Allen Institute for Brain Science
Average 90 stars, based on 1 article reviews
sm-omics spatial gene expression patterns - by Bioz Stars, 2026-06
90/100 stars
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spatial and temporal maps of gene expression  (Allen Institute for Brain Science)
90
Allen Institute for Brain Science spatial and temporal maps of gene expression
a , The SMA workflow and quality control design—nonembedded, snap-frozen samples are sectioned and thaw-mounted onto noncharged, barcoded <t>Visium</t> Gene Expression arrays. Tissue sections are then sprayed with MALDI matrices and MSI is performed. This is followed by H&E staining and imaging with bright field microscopy. Finally, sections are processed for SRT. We also designed the following three types of control samples: (1) MSI—samples processed with standard MALDI-MSI protocol on ITO conductive slides; (2) VISIUM—samples processed with standard Visium protocol on all four capture areas of a Visium Gene Expression array and (3) V-iCTRL—samples processed with Visium protocol, but MALDI-MSI was performed on other capture areas of a Visium Gene Expression array. b , Pairwise gene-to-gene and molecule-to-molecule correlations across biological replicates. Samples are named with short identifiers that reflect the technical conditions under which the sample was analyzed: MSI, stand-alone MALDI-MSI; SMA, SMA protocol; VISIUM, stand-alone Visium. Additional acronyms indicate the matrix used in the SMA protocol (FMP-10, DHB and 9-AA), the sample (m1, m3 or m4) and the serial number of the tissue section (one to nine for each section placed on either ITO or Visium slides). c , UMAP of SMA ST spots colored by sections (left), MALDI matrices (middle) and clusters (right). d , Top three marker genes with highest average log 2 fold change for each spatial cluster across biological replicates. e , Spatial plot of mouse brain tissue sections (striatal level, 0.49 mm from bregma) that illustrates clusters of transcripts for samples sprayed with three different MALDI matrices (FMP-10, 9-AA and DHB) and one sample processed with the stand-alone Visium protocol.
Spatial And Temporal Maps Of Gene Expression, supplied by Allen Institute for Brain Science, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/spatial and temporal maps of gene expression/product/Allen Institute for Brain Science
Average 90 stars, based on 1 article reviews
spatial and temporal maps of gene expression - by Bioz Stars, 2026-06
90/100 stars
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spatially-resolved gene expression and clustering in invasive ductal carcinoma  (BioIVT Inc)
90
BioIVT Inc spatially-resolved gene expression and clustering in invasive ductal carcinoma
a , The SMA workflow and quality control design—nonembedded, snap-frozen samples are sectioned and thaw-mounted onto noncharged, barcoded <t>Visium</t> Gene Expression arrays. Tissue sections are then sprayed with MALDI matrices and MSI is performed. This is followed by H&E staining and imaging with bright field microscopy. Finally, sections are processed for SRT. We also designed the following three types of control samples: (1) MSI—samples processed with standard MALDI-MSI protocol on ITO conductive slides; (2) VISIUM—samples processed with standard Visium protocol on all four capture areas of a Visium Gene Expression array and (3) V-iCTRL—samples processed with Visium protocol, but MALDI-MSI was performed on other capture areas of a Visium Gene Expression array. b , Pairwise gene-to-gene and molecule-to-molecule correlations across biological replicates. Samples are named with short identifiers that reflect the technical conditions under which the sample was analyzed: MSI, stand-alone MALDI-MSI; SMA, SMA protocol; VISIUM, stand-alone Visium. Additional acronyms indicate the matrix used in the SMA protocol (FMP-10, DHB and 9-AA), the sample (m1, m3 or m4) and the serial number of the tissue section (one to nine for each section placed on either ITO or Visium slides). c , UMAP of SMA ST spots colored by sections (left), MALDI matrices (middle) and clusters (right). d , Top three marker genes with highest average log 2 fold change for each spatial cluster across biological replicates. e , Spatial plot of mouse brain tissue sections (striatal level, 0.49 mm from bregma) that illustrates clusters of transcripts for samples sprayed with three different MALDI matrices (FMP-10, 9-AA and DHB) and one sample processed with the stand-alone Visium protocol.
Spatially Resolved Gene Expression And Clustering In Invasive Ductal Carcinoma, supplied by BioIVT Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/spatially-resolved gene expression and clustering in invasive ductal carcinoma/product/BioIVT Inc
Average 90 stars, based on 1 article reviews
spatially-resolved gene expression and clustering in invasive ductal carcinoma - by Bioz Stars, 2026-06
90/100 stars
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visium spatial gene expression slides  (3DHistech ltd)
90
3DHistech ltd visium spatial gene expression slides
a , The SMA workflow and quality control design—nonembedded, snap-frozen samples are sectioned and thaw-mounted onto noncharged, barcoded <t>Visium</t> Gene Expression arrays. Tissue sections are then sprayed with MALDI matrices and MSI is performed. This is followed by H&E staining and imaging with bright field microscopy. Finally, sections are processed for SRT. We also designed the following three types of control samples: (1) MSI—samples processed with standard MALDI-MSI protocol on ITO conductive slides; (2) VISIUM—samples processed with standard Visium protocol on all four capture areas of a Visium Gene Expression array and (3) V-iCTRL—samples processed with Visium protocol, but MALDI-MSI was performed on other capture areas of a Visium Gene Expression array. b , Pairwise gene-to-gene and molecule-to-molecule correlations across biological replicates. Samples are named with short identifiers that reflect the technical conditions under which the sample was analyzed: MSI, stand-alone MALDI-MSI; SMA, SMA protocol; VISIUM, stand-alone Visium. Additional acronyms indicate the matrix used in the SMA protocol (FMP-10, DHB and 9-AA), the sample (m1, m3 or m4) and the serial number of the tissue section (one to nine for each section placed on either ITO or Visium slides). c , UMAP of SMA ST spots colored by sections (left), MALDI matrices (middle) and clusters (right). d , Top three marker genes with highest average log 2 fold change for each spatial cluster across biological replicates. e , Spatial plot of mouse brain tissue sections (striatal level, 0.49 mm from bregma) that illustrates clusters of transcripts for samples sprayed with three different MALDI matrices (FMP-10, 9-AA and DHB) and one sample processed with the stand-alone Visium protocol.
Visium Spatial Gene Expression Slides, supplied by 3DHistech ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/visium spatial gene expression slides/product/3DHistech ltd
Average 90 stars, based on 1 article reviews
visium spatial gene expression slides - by Bioz Stars, 2026-06
90/100 stars
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visium spatial gene expression sections  (Cureline Inc)
90
Cureline Inc visium spatial gene expression sections
a , The SMA workflow and quality control design—nonembedded, snap-frozen samples are sectioned and thaw-mounted onto noncharged, barcoded <t>Visium</t> Gene Expression arrays. Tissue sections are then sprayed with MALDI matrices and MSI is performed. This is followed by H&E staining and imaging with bright field microscopy. Finally, sections are processed for SRT. We also designed the following three types of control samples: (1) MSI—samples processed with standard MALDI-MSI protocol on ITO conductive slides; (2) VISIUM—samples processed with standard Visium protocol on all four capture areas of a Visium Gene Expression array and (3) V-iCTRL—samples processed with Visium protocol, but MALDI-MSI was performed on other capture areas of a Visium Gene Expression array. b , Pairwise gene-to-gene and molecule-to-molecule correlations across biological replicates. Samples are named with short identifiers that reflect the technical conditions under which the sample was analyzed: MSI, stand-alone MALDI-MSI; SMA, SMA protocol; VISIUM, stand-alone Visium. Additional acronyms indicate the matrix used in the SMA protocol (FMP-10, DHB and 9-AA), the sample (m1, m3 or m4) and the serial number of the tissue section (one to nine for each section placed on either ITO or Visium slides). c , UMAP of SMA ST spots colored by sections (left), MALDI matrices (middle) and clusters (right). d , Top three marker genes with highest average log 2 fold change for each spatial cluster across biological replicates. e , Spatial plot of mouse brain tissue sections (striatal level, 0.49 mm from bregma) that illustrates clusters of transcripts for samples sprayed with three different MALDI matrices (FMP-10, 9-AA and DHB) and one sample processed with the stand-alone Visium protocol.
Visium Spatial Gene Expression Sections, supplied by Cureline Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/visium spatial gene expression sections/product/Cureline Inc
Average 90 stars, based on 1 article reviews
visium spatial gene expression sections - by Bioz Stars, 2026-06
90/100 stars
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10x visium spatial gene expression libraries  (BioMicro Systems Inc)
90
BioMicro Systems Inc 10x visium spatial gene expression libraries
a , The SMA workflow and quality control design—nonembedded, snap-frozen samples are sectioned and thaw-mounted onto noncharged, barcoded <t>Visium</t> Gene Expression arrays. Tissue sections are then sprayed with MALDI matrices and MSI is performed. This is followed by H&E staining and imaging with bright field microscopy. Finally, sections are processed for SRT. We also designed the following three types of control samples: (1) MSI—samples processed with standard MALDI-MSI protocol on ITO conductive slides; (2) VISIUM—samples processed with standard Visium protocol on all four capture areas of a Visium Gene Expression array and (3) V-iCTRL—samples processed with Visium protocol, but MALDI-MSI was performed on other capture areas of a Visium Gene Expression array. b , Pairwise gene-to-gene and molecule-to-molecule correlations across biological replicates. Samples are named with short identifiers that reflect the technical conditions under which the sample was analyzed: MSI, stand-alone MALDI-MSI; SMA, SMA protocol; VISIUM, stand-alone Visium. Additional acronyms indicate the matrix used in the SMA protocol (FMP-10, DHB and 9-AA), the sample (m1, m3 or m4) and the serial number of the tissue section (one to nine for each section placed on either ITO or Visium slides). c , UMAP of SMA ST spots colored by sections (left), MALDI matrices (middle) and clusters (right). d , Top three marker genes with highest average log 2 fold change for each spatial cluster across biological replicates. e , Spatial plot of mouse brain tissue sections (striatal level, 0.49 mm from bregma) that illustrates clusters of transcripts for samples sprayed with three different MALDI matrices (FMP-10, 9-AA and DHB) and one sample processed with the stand-alone Visium protocol.
10x Visium Spatial Gene Expression Libraries, supplied by BioMicro Systems Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/10x visium spatial gene expression libraries/product/BioMicro Systems Inc
Average 90 stars, based on 1 article reviews
10x visium spatial gene expression libraries - by Bioz Stars, 2026-06
90/100 stars
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spatial gene expression slide  (Visum Therapeutics)
86
Visum Therapeutics spatial gene expression slide
Spatiotemporal dynamics of main cell types after UIR. a) H&E staining of Visium <t>Spatial</t> <t>Gene</t> <t>Expression</t> samples. b) Representative Masson images at each timepoint. c,d) UMAP of spatial transcriptomics spots based on cell‐type compositions and the injury score in spatial transcriptomics. e)Injury scores in each time points. The arrows point to the areas with the highest injury score. f,g,h) The proportions of macrophages, neutrophils and multiple cells were deconvoluted from the scRNA‐seq data using the cell2location algorithm. Max, maximum; min, minimum. i) The proportion of macrophages and neutrophils infiltrated into each area according to the time‐point after UIR. j) Median relevance of cell‐type abundance in predicting other cell‐type abundances within a location.
Spatial Gene Expression Slide, supplied by Visum Therapeutics, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/spatial gene expression slide/product/Visum Therapeutics
Average 86 stars, based on 1 article reviews
spatial gene expression slide - by Bioz Stars, 2026-06
86/100 stars
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gene expression count ncount vizgen  (Vizgen Inc)
86
Vizgen Inc gene expression count ncount vizgen
Spatiotemporal dynamics of main cell types after UIR. a) H&E staining of Visium <t>Spatial</t> <t>Gene</t> <t>Expression</t> samples. b) Representative Masson images at each timepoint. c,d) UMAP of spatial transcriptomics spots based on cell‐type compositions and the injury score in spatial transcriptomics. e)Injury scores in each time points. The arrows point to the areas with the highest injury score. f,g,h) The proportions of macrophages, neutrophils and multiple cells were deconvoluted from the scRNA‐seq data using the cell2location algorithm. Max, maximum; min, minimum. i) The proportion of macrophages and neutrophils infiltrated into each area according to the time‐point after UIR. j) Median relevance of cell‐type abundance in predicting other cell‐type abundances within a location.
Gene Expression Count Ncount Vizgen, supplied by Vizgen Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/gene expression count ncount vizgen/product/Vizgen Inc
Average 86 stars, based on 1 article reviews
gene expression count ncount vizgen - by Bioz Stars, 2026-06
86/100 stars
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tissue context gene expression maps gene expression  (Spatial Transcriptomics Inc)
86
Spatial Transcriptomics Inc tissue context gene expression maps gene expression
Spatiotemporal dynamics of main cell types after UIR. a) H&E staining of Visium <t>Spatial</t> <t>Gene</t> <t>Expression</t> samples. b) Representative Masson images at each timepoint. c,d) UMAP of spatial transcriptomics spots based on cell‐type compositions and the injury score in spatial transcriptomics. e)Injury scores in each time points. The arrows point to the areas with the highest injury score. f,g,h) The proportions of macrophages, neutrophils and multiple cells were deconvoluted from the scRNA‐seq data using the cell2location algorithm. Max, maximum; min, minimum. i) The proportion of macrophages and neutrophils infiltrated into each area according to the time‐point after UIR. j) Median relevance of cell‐type abundance in predicting other cell‐type abundances within a location.
Tissue Context Gene Expression Maps Gene Expression, supplied by Spatial Transcriptomics Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/tissue context gene expression maps gene expression/product/Spatial Transcriptomics Inc
Average 86 stars, based on 1 article reviews
tissue context gene expression maps gene expression - by Bioz Stars, 2026-06
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Image Search Results


a , The SMA workflow and quality control design—nonembedded, snap-frozen samples are sectioned and thaw-mounted onto noncharged, barcoded Visium Gene Expression arrays. Tissue sections are then sprayed with MALDI matrices and MSI is performed. This is followed by H&E staining and imaging with bright field microscopy. Finally, sections are processed for SRT. We also designed the following three types of control samples: (1) MSI—samples processed with standard MALDI-MSI protocol on ITO conductive slides; (2) VISIUM—samples processed with standard Visium protocol on all four capture areas of a Visium Gene Expression array and (3) V-iCTRL—samples processed with Visium protocol, but MALDI-MSI was performed on other capture areas of a Visium Gene Expression array. b , Pairwise gene-to-gene and molecule-to-molecule correlations across biological replicates. Samples are named with short identifiers that reflect the technical conditions under which the sample was analyzed: MSI, stand-alone MALDI-MSI; SMA, SMA protocol; VISIUM, stand-alone Visium. Additional acronyms indicate the matrix used in the SMA protocol (FMP-10, DHB and 9-AA), the sample (m1, m3 or m4) and the serial number of the tissue section (one to nine for each section placed on either ITO or Visium slides). c , UMAP of SMA ST spots colored by sections (left), MALDI matrices (middle) and clusters (right). d , Top three marker genes with highest average log 2 fold change for each spatial cluster across biological replicates. e , Spatial plot of mouse brain tissue sections (striatal level, 0.49 mm from bregma) that illustrates clusters of transcripts for samples sprayed with three different MALDI matrices (FMP-10, 9-AA and DHB) and one sample processed with the stand-alone Visium protocol.

Journal: Nature Biotechnology

Article Title: Spatial multimodal analysis of transcriptomes and metabolomes in tissues

doi: 10.1038/s41587-023-01937-y

Figure Lengend Snippet: a , The SMA workflow and quality control design—nonembedded, snap-frozen samples are sectioned and thaw-mounted onto noncharged, barcoded Visium Gene Expression arrays. Tissue sections are then sprayed with MALDI matrices and MSI is performed. This is followed by H&E staining and imaging with bright field microscopy. Finally, sections are processed for SRT. We also designed the following three types of control samples: (1) MSI—samples processed with standard MALDI-MSI protocol on ITO conductive slides; (2) VISIUM—samples processed with standard Visium protocol on all four capture areas of a Visium Gene Expression array and (3) V-iCTRL—samples processed with Visium protocol, but MALDI-MSI was performed on other capture areas of a Visium Gene Expression array. b , Pairwise gene-to-gene and molecule-to-molecule correlations across biological replicates. Samples are named with short identifiers that reflect the technical conditions under which the sample was analyzed: MSI, stand-alone MALDI-MSI; SMA, SMA protocol; VISIUM, stand-alone Visium. Additional acronyms indicate the matrix used in the SMA protocol (FMP-10, DHB and 9-AA), the sample (m1, m3 or m4) and the serial number of the tissue section (one to nine for each section placed on either ITO or Visium slides). c , UMAP of SMA ST spots colored by sections (left), MALDI matrices (middle) and clusters (right). d , Top three marker genes with highest average log 2 fold change for each spatial cluster across biological replicates. e , Spatial plot of mouse brain tissue sections (striatal level, 0.49 mm from bregma) that illustrates clusters of transcripts for samples sprayed with three different MALDI matrices (FMP-10, 9-AA and DHB) and one sample processed with the stand-alone Visium protocol.

Article Snippet: Visium Spatial Gene Expression and Tissue Optimization slides, with the exception of the human postmortem sample, were processed according to the corresponding latest versions of the 10X Genomics protocols (Visium Spatial Gene Expression Reagent Kits—Tissue Optimization User Guide, document CG000238 Rev E, 10X Genomics, (February 2022); Visium Spatial Gene Expression Reagent Kits—User Guide, document CG000239 Rev F, 10X Genomics, (January 2022) and Methanol Fixation, H&E Staining and Imaging for Visium Spatial Protocols, document CG000160 Rev C, 10X Genomics), without any modification.

Techniques: Control, Gene Expression, Staining, Imaging, Microscopy, Marker

(a) Eight mouse brain tissue sections from the striatal level of the same animal (n = 8) were mounted onto a Visium Tissue Optimization slide and sprayed with four different MALDI matrices (DHB, norharmane (analyzed in both positive and negative mode, shown as Nor+ and Nor-), 9-AA and FMP-10). Areas delimited by red lines: regions of interest imaged with MALDI-MSI. Scalebars: 1 mm. (b) Representative MSI results from: i) m/z 426.36, C18:1 L-Carnitine (DHB); ii) m/z 857.52, PI(36:4) (Nor-); iii) m/z 788.62 PC(36:1) (Nor+); iv,v) m/z 303.24, arachidonic acid (9-AA); vi) m/z 371.17, GABA (FMP-10). Nor+ and Nor-: Norharmane analyzed in positive and negative mode, respectively. Scalebars: 1 mm, except iv and v where it is 2 mm. (c) Fluorescence microscopy images of mRNA footprint captured with polydT probes after MALDI-MSI. Colored lines (i, iv, vi, viii, x, xii) demarcate areas imaged with MALDI-MSI, while gray lines (ii, iii, v, vii, ix, xi, xiii, xiv) demarcate areas not imaged with MALDI-MSI and used as controls. Scalebars: 1 mm. (d) Fluorescence intensity of tissue areas imaged or not with MALDI-MSI. The upper and lower limit of the box represent the +1 and −1 standard deviation from the mean, the horizontal line inside the box represents the mean fluorescence intensity, and the upper and lower limits of the whiskers represent the maximum and minimum fluorescence intensity values. The results shown in panels (A-C) belong to eight consecutive tissue sections from n = 1 biologically independent sample examined over one independent experiment (all the sections were placed on one Visium Tissue Optimization array). The areas in square pixels over which the statistics is derived are the following: i = 768047, ii=355349, iii=843707, iv=866085, v = 578711, vi=805789, vii=562179, viii=846042, ix=317398, x = 843416, xi=611982, xii=779667, xiii=727089, xiv=751797. (e) A mouse brain tissue sections (n = 1) from the hippocampus level was mounted onto an ITO slide and sprayed FMP-10. The area delimited by a red line demarcates the region of interest imaged with MALDI-MSI. (f) Targeted In Situ Sequencing data demonstrate similar rolling circle product (RCP) density generated from MALDI-MSI processed region (upper right panel) and non-processed region (lower right panel) for demarcated regions of interest in the mouse coronal section (n = 1). Targeted ISS simultaneously probed for housekeeping gene, Gapdh labeled in Magenta (Cy5), and a panel of five control genes - Foxj1, Plp1, Lamp5, Rorb and Kcnip2 that are labeled in Cyan (AF750). (g) Mean Cy5 and AF750 fluorescence intensity of rolling circle products in tissue areas imaged or not with MALDI-MSI.The results shown in panels (E-G) belong to one tissue section from n = 1 biologically independent sample examined over one independent experiment. The number of RCPs detected in the MALDI-MSI processed region in AF750 and Cy5 and the number of RCPs detected in the non-processed region in AF750 and Cy5 respectively, which the statistics is derived from, are the following: n = 3830,n = 18231, n = 3051,n = 18193. The lower and upper hinges of the boxplot correspond to the first and third quartiles (the 25th and 75th percentiles), the central white dot corresponds to the median, the upper and lower whiskers extend from the hinge to the maximum or minimum respectively.

Journal: Nature Biotechnology

Article Title: Spatial multimodal analysis of transcriptomes and metabolomes in tissues

doi: 10.1038/s41587-023-01937-y

Figure Lengend Snippet: (a) Eight mouse brain tissue sections from the striatal level of the same animal (n = 8) were mounted onto a Visium Tissue Optimization slide and sprayed with four different MALDI matrices (DHB, norharmane (analyzed in both positive and negative mode, shown as Nor+ and Nor-), 9-AA and FMP-10). Areas delimited by red lines: regions of interest imaged with MALDI-MSI. Scalebars: 1 mm. (b) Representative MSI results from: i) m/z 426.36, C18:1 L-Carnitine (DHB); ii) m/z 857.52, PI(36:4) (Nor-); iii) m/z 788.62 PC(36:1) (Nor+); iv,v) m/z 303.24, arachidonic acid (9-AA); vi) m/z 371.17, GABA (FMP-10). Nor+ and Nor-: Norharmane analyzed in positive and negative mode, respectively. Scalebars: 1 mm, except iv and v where it is 2 mm. (c) Fluorescence microscopy images of mRNA footprint captured with polydT probes after MALDI-MSI. Colored lines (i, iv, vi, viii, x, xii) demarcate areas imaged with MALDI-MSI, while gray lines (ii, iii, v, vii, ix, xi, xiii, xiv) demarcate areas not imaged with MALDI-MSI and used as controls. Scalebars: 1 mm. (d) Fluorescence intensity of tissue areas imaged or not with MALDI-MSI. The upper and lower limit of the box represent the +1 and −1 standard deviation from the mean, the horizontal line inside the box represents the mean fluorescence intensity, and the upper and lower limits of the whiskers represent the maximum and minimum fluorescence intensity values. The results shown in panels (A-C) belong to eight consecutive tissue sections from n = 1 biologically independent sample examined over one independent experiment (all the sections were placed on one Visium Tissue Optimization array). The areas in square pixels over which the statistics is derived are the following: i = 768047, ii=355349, iii=843707, iv=866085, v = 578711, vi=805789, vii=562179, viii=846042, ix=317398, x = 843416, xi=611982, xii=779667, xiii=727089, xiv=751797. (e) A mouse brain tissue sections (n = 1) from the hippocampus level was mounted onto an ITO slide and sprayed FMP-10. The area delimited by a red line demarcates the region of interest imaged with MALDI-MSI. (f) Targeted In Situ Sequencing data demonstrate similar rolling circle product (RCP) density generated from MALDI-MSI processed region (upper right panel) and non-processed region (lower right panel) for demarcated regions of interest in the mouse coronal section (n = 1). Targeted ISS simultaneously probed for housekeeping gene, Gapdh labeled in Magenta (Cy5), and a panel of five control genes - Foxj1, Plp1, Lamp5, Rorb and Kcnip2 that are labeled in Cyan (AF750). (g) Mean Cy5 and AF750 fluorescence intensity of rolling circle products in tissue areas imaged or not with MALDI-MSI.The results shown in panels (E-G) belong to one tissue section from n = 1 biologically independent sample examined over one independent experiment. The number of RCPs detected in the MALDI-MSI processed region in AF750 and Cy5 and the number of RCPs detected in the non-processed region in AF750 and Cy5 respectively, which the statistics is derived from, are the following: n = 3830,n = 18231, n = 3051,n = 18193. The lower and upper hinges of the boxplot correspond to the first and third quartiles (the 25th and 75th percentiles), the central white dot corresponds to the median, the upper and lower whiskers extend from the hinge to the maximum or minimum respectively.

Article Snippet: Visium Spatial Gene Expression and Tissue Optimization slides, with the exception of the human postmortem sample, were processed according to the corresponding latest versions of the 10X Genomics protocols (Visium Spatial Gene Expression Reagent Kits—Tissue Optimization User Guide, document CG000238 Rev E, 10X Genomics, (February 2022); Visium Spatial Gene Expression Reagent Kits—User Guide, document CG000239 Rev F, 10X Genomics, (January 2022) and Methanol Fixation, H&E Staining and Imaging for Visium Spatial Protocols, document CG000160 Rev C, 10X Genomics), without any modification.

Techniques: Fluorescence, Microscopy, Standard Deviation, Derivative Assay, In Situ, Sequencing, Generated, Labeling, Control

Violin plots and box plots illustrating the number of unique genes per spot (a) and the number of unique molecular identifiers (UMIs) per spot (b) across biological conditions of the mouse striatum data (n = 9). The numbers of spots per section from which the statistics is derived are the same for the corresponding sections in panels A and B, and are the following: V-iCTRL.FMP10.mPD3.8 = 3017, V-iCTRL.nM.mPD3.3 = 3163, SMA.9AA.mPD3.4 = 2913, SMA.DHB.mPD3.1 = 2856, SMA.DHB.mPD3.2 = 3002, SMA.FMP10.mPD1.5 = 2675, SMA.FMP10.mPD3.6 = 3120, SMA.FMP10.mPD4.7 = 2918, VISIUM.mPD3.9 = 3116. n = 9 sections examined over 3 biologically independent samples. Violin plots and box plots illustrating the number of unique genes per spot (c) and the number of unique molecular identifiers (UMIs) per spot (d) of the human striatum data (n = 1). The human sample H&E was used as a legend to indicate the four capture areas A-D. The numbers of spots per capture area from which the statistics is derived are the same for corresponding sections in panels C and D and are the following: A = 4770, B = 4875, C = 4740, D = 4387. n = 4 capture areas examined over 1 biologically independent sample. For all boxplots presented in (A-D) the lower and upper hinges of the boxplot correspond to the first and third quartiles (the 25th and 75th percentiles), the central line corresponds to the median, the upper and lower whiskers extend from the hinge to the largest or smallest value respectively no further than 1.5 times the inter-quartile range, data beyond the end of the whiskers are plotted individually as black dots. On the right, spatial featureplot representing the number of genes per spot and the number of UMIs per spot of a representative capture area (that is, capture area A). (e) Sequencing metrics: i) Gene body coverage plot illustrating the sequencing coverage at different percentiles of gene body for all the genes in the quality control dataset; ii) sequencing saturation as a function of mean reads per spot; iii) median genes per spot as a function of mean reads per spot. (f) RNA integrity plots of mouse and human post-mortem samples.

Journal: Nature Biotechnology

Article Title: Spatial multimodal analysis of transcriptomes and metabolomes in tissues

doi: 10.1038/s41587-023-01937-y

Figure Lengend Snippet: Violin plots and box plots illustrating the number of unique genes per spot (a) and the number of unique molecular identifiers (UMIs) per spot (b) across biological conditions of the mouse striatum data (n = 9). The numbers of spots per section from which the statistics is derived are the same for the corresponding sections in panels A and B, and are the following: V-iCTRL.FMP10.mPD3.8 = 3017, V-iCTRL.nM.mPD3.3 = 3163, SMA.9AA.mPD3.4 = 2913, SMA.DHB.mPD3.1 = 2856, SMA.DHB.mPD3.2 = 3002, SMA.FMP10.mPD1.5 = 2675, SMA.FMP10.mPD3.6 = 3120, SMA.FMP10.mPD4.7 = 2918, VISIUM.mPD3.9 = 3116. n = 9 sections examined over 3 biologically independent samples. Violin plots and box plots illustrating the number of unique genes per spot (c) and the number of unique molecular identifiers (UMIs) per spot (d) of the human striatum data (n = 1). The human sample H&E was used as a legend to indicate the four capture areas A-D. The numbers of spots per capture area from which the statistics is derived are the same for corresponding sections in panels C and D and are the following: A = 4770, B = 4875, C = 4740, D = 4387. n = 4 capture areas examined over 1 biologically independent sample. For all boxplots presented in (A-D) the lower and upper hinges of the boxplot correspond to the first and third quartiles (the 25th and 75th percentiles), the central line corresponds to the median, the upper and lower whiskers extend from the hinge to the largest or smallest value respectively no further than 1.5 times the inter-quartile range, data beyond the end of the whiskers are plotted individually as black dots. On the right, spatial featureplot representing the number of genes per spot and the number of UMIs per spot of a representative capture area (that is, capture area A). (e) Sequencing metrics: i) Gene body coverage plot illustrating the sequencing coverage at different percentiles of gene body for all the genes in the quality control dataset; ii) sequencing saturation as a function of mean reads per spot; iii) median genes per spot as a function of mean reads per spot. (f) RNA integrity plots of mouse and human post-mortem samples.

Article Snippet: Visium Spatial Gene Expression and Tissue Optimization slides, with the exception of the human postmortem sample, were processed according to the corresponding latest versions of the 10X Genomics protocols (Visium Spatial Gene Expression Reagent Kits—Tissue Optimization User Guide, document CG000238 Rev E, 10X Genomics, (February 2022); Visium Spatial Gene Expression Reagent Kits—User Guide, document CG000239 Rev F, 10X Genomics, (January 2022) and Methanol Fixation, H&E Staining and Imaging for Visium Spatial Protocols, document CG000160 Rev C, 10X Genomics), without any modification.

Techniques: Derivative Assay, Sequencing, Control

(a) Scatterplots of log 10 gene counts of SMA-SRT data vs. stand-alone Visium data. The red line highlights a 1-to-1 relationship, whereas the dashed green and blue lines highlight a log 10 0.5 or −0.5 relationship. (b) Stacked barplot illustrating the percentage of genes with log 10 higher, lower or within the log 10 fold change range −0.5-0.5. The percentages inside the gray bars illustrate the percentages of peaks with absolute log 10 below 0.5.

Journal: Nature Biotechnology

Article Title: Spatial multimodal analysis of transcriptomes and metabolomes in tissues

doi: 10.1038/s41587-023-01937-y

Figure Lengend Snippet: (a) Scatterplots of log 10 gene counts of SMA-SRT data vs. stand-alone Visium data. The red line highlights a 1-to-1 relationship, whereas the dashed green and blue lines highlight a log 10 0.5 or −0.5 relationship. (b) Stacked barplot illustrating the percentage of genes with log 10 higher, lower or within the log 10 fold change range −0.5-0.5. The percentages inside the gray bars illustrate the percentages of peaks with absolute log 10 below 0.5.

Article Snippet: Visium Spatial Gene Expression and Tissue Optimization slides, with the exception of the human postmortem sample, were processed according to the corresponding latest versions of the 10X Genomics protocols (Visium Spatial Gene Expression Reagent Kits—Tissue Optimization User Guide, document CG000238 Rev E, 10X Genomics, (February 2022); Visium Spatial Gene Expression Reagent Kits—User Guide, document CG000239 Rev F, 10X Genomics, (January 2022) and Methanol Fixation, H&E Staining and Imaging for Visium Spatial Protocols, document CG000160 Rev C, 10X Genomics), without any modification.

Techniques:

Spatiotemporal dynamics of main cell types after UIR. a) H&E staining of Visium Spatial Gene Expression samples. b) Representative Masson images at each timepoint. c,d) UMAP of spatial transcriptomics spots based on cell‐type compositions and the injury score in spatial transcriptomics. e)Injury scores in each time points. The arrows point to the areas with the highest injury score. f,g,h) The proportions of macrophages, neutrophils and multiple cells were deconvoluted from the scRNA‐seq data using the cell2location algorithm. Max, maximum; min, minimum. i) The proportion of macrophages and neutrophils infiltrated into each area according to the time‐point after UIR. j) Median relevance of cell‐type abundance in predicting other cell‐type abundances within a location.

Journal: Advanced Science

Article Title: Identification of a Novel ECM Remodeling Macrophage Subset in AKI to CKD Transition by Integrative Spatial and Single‐Cell Analysis

doi: 10.1002/advs.202309752

Figure Lengend Snippet: Spatiotemporal dynamics of main cell types after UIR. a) H&E staining of Visium Spatial Gene Expression samples. b) Representative Masson images at each timepoint. c,d) UMAP of spatial transcriptomics spots based on cell‐type compositions and the injury score in spatial transcriptomics. e)Injury scores in each time points. The arrows point to the areas with the highest injury score. f,g,h) The proportions of macrophages, neutrophils and multiple cells were deconvoluted from the scRNA‐seq data using the cell2location algorithm. Max, maximum; min, minimum. i) The proportion of macrophages and neutrophils infiltrated into each area according to the time‐point after UIR. j) Median relevance of cell‐type abundance in predicting other cell‐type abundances within a location.

Article Snippet: The Visum spatial gene expression slide and Reagent Kit (10x Genomics, PN‐1000184) were used to process the Visum spatial gene expression.

Techniques: Staining, Gene Expression

Characteristics of ECM remodeling macrophages. a) Expression of representative ECM‐related genes in EAMs after UIR. b) Gene expression of Tgfbi and Mmp9 in spatial transcriptomics dataset. c) Expression of representative lipid metabolism‐related genes. d) Gene expression of Fabp5 and Pla2g7 in spatial transcriptomics dataset. e) Gene Ontology terms enriched from the differentially expressed genes of EAMs compared to all other Mac clusters in each time points. f) Inflammation, fibrosis and ECM scores of EAMs in each time points. g) Gene expression of Igf1 and Mmp12 in spatial transcriptomics dataset.

Journal: Advanced Science

Article Title: Identification of a Novel ECM Remodeling Macrophage Subset in AKI to CKD Transition by Integrative Spatial and Single‐Cell Analysis

doi: 10.1002/advs.202309752

Figure Lengend Snippet: Characteristics of ECM remodeling macrophages. a) Expression of representative ECM‐related genes in EAMs after UIR. b) Gene expression of Tgfbi and Mmp9 in spatial transcriptomics dataset. c) Expression of representative lipid metabolism‐related genes. d) Gene expression of Fabp5 and Pla2g7 in spatial transcriptomics dataset. e) Gene Ontology terms enriched from the differentially expressed genes of EAMs compared to all other Mac clusters in each time points. f) Inflammation, fibrosis and ECM scores of EAMs in each time points. g) Gene expression of Igf1 and Mmp12 in spatial transcriptomics dataset.

Article Snippet: The Visum spatial gene expression slide and Reagent Kit (10x Genomics, PN‐1000184) were used to process the Visum spatial gene expression.

Techniques: Expressing, Gene Expression