multiome kit Search Results


10x genomics single cell multiome atac kit a  (10X Genomics)
90
10X Genomics 10x genomics single cell multiome atac kit a
10x Genomics Single Cell Multiome Atac Kit A, supplied by 10X Genomics, 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 genomics single cell multiome atac kit a/product/10X Genomics
Average 90 stars, based on 1 article reviews
10x genomics single cell multiome atac kit a - by Bioz Stars, 2026-04
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multiome kits  (10X Genomics)
90
10X Genomics multiome kits
Multiome Kits, supplied by 10X Genomics, 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/multiome kits/product/10X Genomics
Average 90 stars, based on 1 article reviews
multiome kits - by Bioz Stars, 2026-04
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chromium next gem single cell multiome atac + gene expression kit  (Illumina Inc)
90
Illumina Inc chromium next gem single cell multiome atac + gene expression kit
Chromium Next Gem Single Cell Multiome Atac + Gene Expression Kit, supplied by Illumina 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/chromium next gem single cell multiome atac + gene expression kit/product/Illumina Inc
Average 90 stars, based on 1 article reviews
chromium next gem single cell multiome atac + gene expression kit - by Bioz Stars, 2026-04
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10x genomics multiome kit  (10X Genomics)
90
10X Genomics 10x genomics multiome kit
10x Genomics Multiome Kit, supplied by 10X Genomics, 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 genomics multiome kit/product/10X Genomics
Average 90 stars, based on 1 article reviews
10x genomics multiome kit - by Bioz Stars, 2026-04
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single cell multiome atac + gene expression kit  (10X Genomics)
90
10X Genomics single cell multiome atac + gene expression kit
Transcriptional profiles from joint scRNA- and <t>ATAC-seq</t> identify major cell types of the human retina (A) Schematic of the human retina, depicting the cell types analyzed in this study. (B) Uniform manifold approximation and projection (UMAP) plot of the 51,645 human retinal cells detected by scRNA-seq after quality control filtering and removal of putative doublets. Eight postmortem retinas from four donors were profiled. A total of 22 clusters were resolved and assigned to 13 cell types. (C) Frequency of different cell types in the human retina as determined by scRNA-seq. Numbers above each bar denote absolute counts out of 51,645. (D) Dot plot visualizing the normalized RNA expression of selected marker genes by cell type. The color and size of each dot correspond to the average expression level and fraction of expressing cells, respectively.
Single Cell Multiome Atac + Gene Expression Kit, supplied by 10X Genomics, 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/single cell multiome atac + gene expression kit/product/10X Genomics
Average 90 stars, based on 1 article reviews
single cell multiome atac + gene expression kit - by Bioz Stars, 2026-04
90/100 stars
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1× nuclei buffer multiome kit  (10X Genomics)
90
10X Genomics 1× nuclei buffer multiome kit
Transcriptional profiles from joint scRNA- and <t>ATAC-seq</t> identify major cell types of the human retina (A) Schematic of the human retina, depicting the cell types analyzed in this study. (B) Uniform manifold approximation and projection (UMAP) plot of the 51,645 human retinal cells detected by scRNA-seq after quality control filtering and removal of putative doublets. Eight postmortem retinas from four donors were profiled. A total of 22 clusters were resolved and assigned to 13 cell types. (C) Frequency of different cell types in the human retina as determined by scRNA-seq. Numbers above each bar denote absolute counts out of 51,645. (D) Dot plot visualizing the normalized RNA expression of selected marker genes by cell type. The color and size of each dot correspond to the average expression level and fraction of expressing cells, respectively.
1× Nuclei Buffer Multiome Kit, supplied by 10X Genomics, 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/1× nuclei buffer multiome kit/product/10X Genomics
Average 90 stars, based on 1 article reviews
1× nuclei buffer multiome kit - by Bioz Stars, 2026-04
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single-cell multiome kits  (10X Genomics)
90
10X Genomics single-cell multiome kits
Transcriptional profiles from joint scRNA- and <t>ATAC-seq</t> identify major cell types of the human retina (A) Schematic of the human retina, depicting the cell types analyzed in this study. (B) Uniform manifold approximation and projection (UMAP) plot of the 51,645 human retinal cells detected by scRNA-seq after quality control filtering and removal of putative doublets. Eight postmortem retinas from four donors were profiled. A total of 22 clusters were resolved and assigned to 13 cell types. (C) Frequency of different cell types in the human retina as determined by scRNA-seq. Numbers above each bar denote absolute counts out of 51,645. (D) Dot plot visualizing the normalized RNA expression of selected marker genes by cell type. The color and size of each dot correspond to the average expression level and fraction of expressing cells, respectively.
Single Cell Multiome Kits, supplied by 10X Genomics, 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/single-cell multiome kits/product/10X Genomics
Average 90 stars, based on 1 article reviews
single-cell multiome kits - by Bioz Stars, 2026-04
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multiomics atac + gene expression kit  (10X Genomics)
90
10X Genomics multiomics atac + gene expression kit
Transcriptional profiles from joint scRNA- and <t>ATAC-seq</t> identify major cell types of the human retina (A) Schematic of the human retina, depicting the cell types analyzed in this study. (B) Uniform manifold approximation and projection (UMAP) plot of the 51,645 human retinal cells detected by scRNA-seq after quality control filtering and removal of putative doublets. Eight postmortem retinas from four donors were profiled. A total of 22 clusters were resolved and assigned to 13 cell types. (C) Frequency of different cell types in the human retina as determined by scRNA-seq. Numbers above each bar denote absolute counts out of 51,645. (D) Dot plot visualizing the normalized RNA expression of selected marker genes by cell type. The color and size of each dot correspond to the average expression level and fraction of expressing cells, respectively.
Multiomics Atac + Gene Expression Kit, supplied by 10X Genomics, 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/multiomics atac + gene expression kit/product/10X Genomics
Average 90 stars, based on 1 article reviews
multiomics atac + gene expression kit - by Bioz Stars, 2026-04
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10x multiome assay kit  (10X Genomics)
90
10X Genomics 10x multiome assay kit
Transcriptional profiles from joint scRNA- and <t>ATAC-seq</t> identify major cell types of the human retina (A) Schematic of the human retina, depicting the cell types analyzed in this study. (B) Uniform manifold approximation and projection (UMAP) plot of the 51,645 human retinal cells detected by scRNA-seq after quality control filtering and removal of putative doublets. Eight postmortem retinas from four donors were profiled. A total of 22 clusters were resolved and assigned to 13 cell types. (C) Frequency of different cell types in the human retina as determined by scRNA-seq. Numbers above each bar denote absolute counts out of 51,645. (D) Dot plot visualizing the normalized RNA expression of selected marker genes by cell type. The color and size of each dot correspond to the average expression level and fraction of expressing cells, respectively.
10x Multiome Assay Kit, supplied by 10X Genomics, 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 multiome assay kit/product/10X Genomics
Average 90 stars, based on 1 article reviews
10x multiome assay kit - by Bioz Stars, 2026-04
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multiome kit for chromatin accessibility  (10X Genomics)
90
10X Genomics multiome kit for chromatin accessibility
Transcriptional profiles from joint scRNA- and <t>ATAC-seq</t> identify major cell types of the human retina (A) Schematic of the human retina, depicting the cell types analyzed in this study. (B) Uniform manifold approximation and projection (UMAP) plot of the 51,645 human retinal cells detected by scRNA-seq after quality control filtering and removal of putative doublets. Eight postmortem retinas from four donors were profiled. A total of 22 clusters were resolved and assigned to 13 cell types. (C) Frequency of different cell types in the human retina as determined by scRNA-seq. Numbers above each bar denote absolute counts out of 51,645. (D) Dot plot visualizing the normalized RNA expression of selected marker genes by cell type. The color and size of each dot correspond to the average expression level and fraction of expressing cells, respectively.
Multiome Kit For Chromatin Accessibility, supplied by 10X Genomics, 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/multiome kit for chromatin accessibility/product/10X Genomics
Average 90 stars, based on 1 article reviews
multiome kit for chromatin accessibility - by Bioz Stars, 2026-04
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next gem single-cell multiome atac+ gene expression kit  (10X Genomics)
90
10X Genomics next gem single-cell multiome atac+ gene expression kit
Transcriptional profiles from joint scRNA- and <t>ATAC-seq</t> identify major cell types of the human retina (A) Schematic of the human retina, depicting the cell types analyzed in this study. (B) Uniform manifold approximation and projection (UMAP) plot of the 51,645 human retinal cells detected by scRNA-seq after quality control filtering and removal of putative doublets. Eight postmortem retinas from four donors were profiled. A total of 22 clusters were resolved and assigned to 13 cell types. (C) Frequency of different cell types in the human retina as determined by scRNA-seq. Numbers above each bar denote absolute counts out of 51,645. (D) Dot plot visualizing the normalized RNA expression of selected marker genes by cell type. The color and size of each dot correspond to the average expression level and fraction of expressing cells, respectively.
Next Gem Single Cell Multiome Atac+ Gene Expression Kit, supplied by 10X Genomics, 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/next gem single-cell multiome atac+ gene expression kit/product/10X Genomics
Average 90 stars, based on 1 article reviews
next gem single-cell multiome atac+ gene expression kit - by Bioz Stars, 2026-04
90/100 stars
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multiome atac + gene expression kit  (10X Genomics)
90
10X Genomics multiome atac + gene expression kit
Transcriptional profiles from joint scRNA- and <t>ATAC-seq</t> identify major cell types of the human retina (A) Schematic of the human retina, depicting the cell types analyzed in this study. (B) Uniform manifold approximation and projection (UMAP) plot of the 51,645 human retinal cells detected by scRNA-seq after quality control filtering and removal of putative doublets. Eight postmortem retinas from four donors were profiled. A total of 22 clusters were resolved and assigned to 13 cell types. (C) Frequency of different cell types in the human retina as determined by scRNA-seq. Numbers above each bar denote absolute counts out of 51,645. (D) Dot plot visualizing the normalized RNA expression of selected marker genes by cell type. The color and size of each dot correspond to the average expression level and fraction of expressing cells, respectively.
Multiome Atac + Gene Expression Kit, supplied by 10X Genomics, 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/multiome atac + gene expression kit/product/10X Genomics
Average 90 stars, based on 1 article reviews
multiome atac + gene expression kit - by Bioz Stars, 2026-04
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Image Search Results


Transcriptional profiles from joint scRNA- and ATAC-seq identify major cell types of the human retina (A) Schematic of the human retina, depicting the cell types analyzed in this study. (B) Uniform manifold approximation and projection (UMAP) plot of the 51,645 human retinal cells detected by scRNA-seq after quality control filtering and removal of putative doublets. Eight postmortem retinas from four donors were profiled. A total of 22 clusters were resolved and assigned to 13 cell types. (C) Frequency of different cell types in the human retina as determined by scRNA-seq. Numbers above each bar denote absolute counts out of 51,645. (D) Dot plot visualizing the normalized RNA expression of selected marker genes by cell type. The color and size of each dot correspond to the average expression level and fraction of expressing cells, respectively.

Journal: Cell Genomics

Article Title: Single-cell multiome of the human retina and deep learning nominate causal variants in complex eye diseases

doi: 10.1016/j.xgen.2022.100164

Figure Lengend Snippet: Transcriptional profiles from joint scRNA- and ATAC-seq identify major cell types of the human retina (A) Schematic of the human retina, depicting the cell types analyzed in this study. (B) Uniform manifold approximation and projection (UMAP) plot of the 51,645 human retinal cells detected by scRNA-seq after quality control filtering and removal of putative doublets. Eight postmortem retinas from four donors were profiled. A total of 22 clusters were resolved and assigned to 13 cell types. (C) Frequency of different cell types in the human retina as determined by scRNA-seq. Numbers above each bar denote absolute counts out of 51,645. (D) Dot plot visualizing the normalized RNA expression of selected marker genes by cell type. The color and size of each dot correspond to the average expression level and fraction of expressing cells, respectively.

Article Snippet: Single Cell Multiome ATAC + Gene Expression kit , 10x Genomics , Cat# 1000285.

Techniques: Control, RNA Expression, Marker, Expressing

Chromatin accessibility profiles from joint scRNA- and ATAC-seq of the human retina reveal cell-type-specific epigenetic landscapes (A) Number of chromatin accessibility peaks for each cell type as determined by scATAC-seq. Peaks were required to be present in a least two pseudo-bulk ATAC replicates (n = 2 for astrocyte and microglia, n = 5 for all other cell types). (B) Overlap of scATAC peaks with peaks from published human retina bulk ATAC-seq data. Overlapping was defined as peaks with any overlapping bases. (C) Heatmap of scATAC marker peaks enriched in each cell type. Each column represents a marker peak. (D) Sequencing tracks of chromatin accessibility near selected marker genes by cell type. Each track represents the aggregate scATAC signal of all cells from the given cell type normalized by the total number of reads in TSS regions. Genes in the sense direction (TSS on the left) are shown in red, and genes in the antisense direction (TSS on the right) are shown in blue. Coordinates for each region are as follows: PDE6A (chr5:149924792–149964793), GRIK1 (chr21:29905031−29955033), RLBP1 (chr15:89201750−89241751), GRM6 (chr5:178975297−179015298), NIF3L1 (chr2:200874325−200914327), ARR3 (chrX:70248304−70288305), GAD2 (chr10:26186306−26246307), ONECUT1 (chr15:52781076−52821078), SLC6A9 (chr1:44005465−44035467), NEFL (chr8:24937109−24977110), CALB2 (chr16:71323711−71368713), PAX2 (chr10:100715602−100755603), and HLA-DRA (chr6:32419841−32459842).

Journal: Cell Genomics

Article Title: Single-cell multiome of the human retina and deep learning nominate causal variants in complex eye diseases

doi: 10.1016/j.xgen.2022.100164

Figure Lengend Snippet: Chromatin accessibility profiles from joint scRNA- and ATAC-seq of the human retina reveal cell-type-specific epigenetic landscapes (A) Number of chromatin accessibility peaks for each cell type as determined by scATAC-seq. Peaks were required to be present in a least two pseudo-bulk ATAC replicates (n = 2 for astrocyte and microglia, n = 5 for all other cell types). (B) Overlap of scATAC peaks with peaks from published human retina bulk ATAC-seq data. Overlapping was defined as peaks with any overlapping bases. (C) Heatmap of scATAC marker peaks enriched in each cell type. Each column represents a marker peak. (D) Sequencing tracks of chromatin accessibility near selected marker genes by cell type. Each track represents the aggregate scATAC signal of all cells from the given cell type normalized by the total number of reads in TSS regions. Genes in the sense direction (TSS on the left) are shown in red, and genes in the antisense direction (TSS on the right) are shown in blue. Coordinates for each region are as follows: PDE6A (chr5:149924792–149964793), GRIK1 (chr21:29905031−29955033), RLBP1 (chr15:89201750−89241751), GRM6 (chr5:178975297−179015298), NIF3L1 (chr2:200874325−200914327), ARR3 (chrX:70248304−70288305), GAD2 (chr10:26186306−26246307), ONECUT1 (chr15:52781076−52821078), SLC6A9 (chr1:44005465−44035467), NEFL (chr8:24937109−24977110), CALB2 (chr16:71323711−71368713), PAX2 (chr10:100715602−100755603), and HLA-DRA (chr6:32419841−32459842).

Article Snippet: Single Cell Multiome ATAC + Gene Expression kit , 10x Genomics , Cat# 1000285.

Techniques: Marker, Sequencing

Integration of the single-cell multiome with HiChIP and eQTL data prioritizes functional noncoding polymorphisms in the human retina (A) Overlap of H3K27ac HiChIP loop anchors (n = 2 biological replicates) with scATAC peaks. (B) Percentage of SNPs in scATAC peaks for each disease with available retina eQTL data. (C) Sequencing tracks of chromatin accessibility near rs9966620 (chr18:24100771), rs2730260 (chr7:159054238), and rs66475830 (chr6:116087639). Genes in the sense and antisense directions are shown in red and blue, respectively. The location of each SNP is depicted by a vertical gray line. Gray arcs indicate predicted target genes for the scATAC peak containing the SNP of interest. The black arc overlapping with rs9966620 indicates a H3K27ac HiChIP loop with the region encompassed by the opposite anchor, highlighted in purple. (D) Significance of SNP-gene associations for rs2730260 or rs66475830 and their nearby genes, as determined by retina eQTL analysis. Adjusted p values for each gene were calculated by multiplying the nominal p value listed in the EyeGEx database by the number of SNP-gene pairs tested for that SNP.

Journal: Cell Genomics

Article Title: Single-cell multiome of the human retina and deep learning nominate causal variants in complex eye diseases

doi: 10.1016/j.xgen.2022.100164

Figure Lengend Snippet: Integration of the single-cell multiome with HiChIP and eQTL data prioritizes functional noncoding polymorphisms in the human retina (A) Overlap of H3K27ac HiChIP loop anchors (n = 2 biological replicates) with scATAC peaks. (B) Percentage of SNPs in scATAC peaks for each disease with available retina eQTL data. (C) Sequencing tracks of chromatin accessibility near rs9966620 (chr18:24100771), rs2730260 (chr7:159054238), and rs66475830 (chr6:116087639). Genes in the sense and antisense directions are shown in red and blue, respectively. The location of each SNP is depicted by a vertical gray line. Gray arcs indicate predicted target genes for the scATAC peak containing the SNP of interest. The black arc overlapping with rs9966620 indicates a H3K27ac HiChIP loop with the region encompassed by the opposite anchor, highlighted in purple. (D) Significance of SNP-gene associations for rs2730260 or rs66475830 and their nearby genes, as determined by retina eQTL analysis. Adjusted p values for each gene were calculated by multiplying the nominal p value listed in the EyeGEx database by the number of SNP-gene pairs tested for that SNP.

Article Snippet: Single Cell Multiome ATAC + Gene Expression kit , 10x Genomics , Cat# 1000285.

Techniques: HiChIP, Functional Assay, Sequencing

Integration of the single-cell multiome with base-resolution deep learning nominates functional mechanisms for disease-associated SNPs (A) Schematic of the CNN-based deep learning pipeline. (B) Percentage of noncoding index SNPs (n = 1,284), LD expanded SNPs (n = 7,034), LD expanded SNPs in scATAC peaks (n = 1,152), randomly selected GC-matched SNPs (n = 9,984), and randomly selected SNPs in scATAC peaks (n = 1,160) that were categorized as high-effect. (C) Top: predicted per-base accessibility for rs1532278 (chr8:27608798) and rs1874459 (chr16:65041801) in Müller glia and rod bipolar cells, respectively, as determined by deep learning models. A 100-bp window depicts the importance of each base to predicted accessibility at the SNP, and a 1,000-bp window depicts predicted per-base counts for the reference (blue) and alternate (orange) alleles. SNP bases are highlighted in purple. For rs1874459, similar changes in accessibility were predicted for OFF-cone bipolar, ON-cone bipolar, gly-amacrine, and AII-amacrine cells. Bottom: sequencing tracks of chromatin accessibility near rs1532278 and rs1874459. Genes in the sense and antisense directions are shown in red and blue, respectively. The location of each SNP is depicted by a vertical gray line. Gray arcs indicate predicted target genes for the scATAC peak containing the SNP of interest. (D and F) Significance of SNP-gene associations for rs1532278 (D) or rs1874459 (F) and their nearby genes, as determined by retina eQTL analysis. Adjusted p values for each gene were calculated by multiplying the nominal p value listed in the EyeGEx database by the number of SNP-gene pairs tested for that SNP. (E) Dot plot visualizing the normalized RNA expression of 40 different homeodomain TFs in Müller glia. The selected TFs correspond to the 40 homeodomain factors whose binding motifs were most significantly enriched in Müller glia, as determined by motif analysis . (G) Dot plot visualizing the normalized RNA expression of neuroD and neurogenin family members by cell type.

Journal: Cell Genomics

Article Title: Single-cell multiome of the human retina and deep learning nominate causal variants in complex eye diseases

doi: 10.1016/j.xgen.2022.100164

Figure Lengend Snippet: Integration of the single-cell multiome with base-resolution deep learning nominates functional mechanisms for disease-associated SNPs (A) Schematic of the CNN-based deep learning pipeline. (B) Percentage of noncoding index SNPs (n = 1,284), LD expanded SNPs (n = 7,034), LD expanded SNPs in scATAC peaks (n = 1,152), randomly selected GC-matched SNPs (n = 9,984), and randomly selected SNPs in scATAC peaks (n = 1,160) that were categorized as high-effect. (C) Top: predicted per-base accessibility for rs1532278 (chr8:27608798) and rs1874459 (chr16:65041801) in Müller glia and rod bipolar cells, respectively, as determined by deep learning models. A 100-bp window depicts the importance of each base to predicted accessibility at the SNP, and a 1,000-bp window depicts predicted per-base counts for the reference (blue) and alternate (orange) alleles. SNP bases are highlighted in purple. For rs1874459, similar changes in accessibility were predicted for OFF-cone bipolar, ON-cone bipolar, gly-amacrine, and AII-amacrine cells. Bottom: sequencing tracks of chromatin accessibility near rs1532278 and rs1874459. Genes in the sense and antisense directions are shown in red and blue, respectively. The location of each SNP is depicted by a vertical gray line. Gray arcs indicate predicted target genes for the scATAC peak containing the SNP of interest. (D and F) Significance of SNP-gene associations for rs1532278 (D) or rs1874459 (F) and their nearby genes, as determined by retina eQTL analysis. Adjusted p values for each gene were calculated by multiplying the nominal p value listed in the EyeGEx database by the number of SNP-gene pairs tested for that SNP. (E) Dot plot visualizing the normalized RNA expression of 40 different homeodomain TFs in Müller glia. The selected TFs correspond to the 40 homeodomain factors whose binding motifs were most significantly enriched in Müller glia, as determined by motif analysis . (G) Dot plot visualizing the normalized RNA expression of neuroD and neurogenin family members by cell type.

Article Snippet: Single Cell Multiome ATAC + Gene Expression kit , 10x Genomics , Cat# 1000285.

Techniques: Functional Assay, Sequencing, RNA Expression, Binding Assay

Journal: Cell Genomics

Article Title: Single-cell multiome of the human retina and deep learning nominate causal variants in complex eye diseases

doi: 10.1016/j.xgen.2022.100164

Figure Lengend Snippet:

Article Snippet: Single Cell Multiome ATAC + Gene Expression kit , 10x Genomics , Cat# 1000285.

Techniques: Recombinant, Protease Inhibitor, Electron Microscopy, Gene Expression, HiChIP, Software