index primer Search Results


a b profiling kit 96  (TaKaRa)
94
TaKaRa a b profiling kit 96
A B Profiling Kit 96, supplied by TaKaRa, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 94 stars, based on 1 article reviews
a b profiling kit 96 - by Bioz Stars, 2026-03
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vahts maxi unique dual index primers  (Vazyme Biotech Co)
94
Vazyme Biotech Co vahts maxi unique dual index primers
Vahts Maxi Unique Dual Index Primers, supplied by Vazyme Biotech Co, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/vahts maxi unique dual index primers/product/Vazyme Biotech Co
Average 94 stars, based on 1 article reviews
vahts maxi unique dual index primers - by Bioz Stars, 2026-03
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vahts small rna index primer kit  (Vazyme Biotech Co)
94
Vazyme Biotech Co vahts small rna index primer kit
Vahts Small Rna Index Primer Kit, supplied by Vazyme Biotech Co, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/vahts small rna index primer kit/product/Vazyme Biotech Co
Average 94 stars, based on 1 article reviews
vahts small rna index primer kit - by Bioz Stars, 2026-03
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nebnext unique dual index primers  (New England Biolabs)
94
New England Biolabs nebnext unique dual index primers
Nebnext Unique Dual Index Primers, supplied by New England Biolabs, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/nebnext unique dual index primers/product/New England Biolabs
Average 94 stars, based on 1 article reviews
nebnext unique dual index primers - by Bioz Stars, 2026-03
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nebnext unique dual index primer pairs  (New England Biolabs)
94
New England Biolabs nebnext unique dual index primer pairs
Nebnext Unique Dual Index Primer Pairs, supplied by New England Biolabs, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/nebnext unique dual index primer pairs/product/New England Biolabs
Average 94 stars, based on 1 article reviews
nebnext unique dual index primer pairs - by Bioz Stars, 2026-03
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smart seq icell8 cds  (TaKaRa)
93
TaKaRa smart seq icell8 cds
(a) . Schematic overview of the study design. Two well-characterized reference cell lines (sample A of a breast cancer cell line & sample B of a matched control normal B lymphocyte cell line) were used to generate scRNA-seq data across four platforms (10X Genomics, Fluidigm C1, Fluidigm C1 HT, and WaferGen), five testing sites (10X_LLU, 10X_NCI, C1_FDA_HT, C1_LLU, and WaferGen) using standard manufactures’ protocols. At 10X_LLU and 10X_NCI sites, mixed singe-cell capture and library constructions were also prepared with either 10% or 5% cancer cells spiked into B lymphocytes. At the NCI site, single-cell capture and library construction was also performed in fixed and mixed cells (5% cancer cell spiked into B lymphocytes). One set of 10X scRNA libraries from NCI was also sequenced using a shorter modified sequencing method. Bulk cell level RNA-seq data were also obtained from these cell lines, each in triplicate. All scRNA-seq data were subject to 3 different pre-processing pipelines for either 10X or C1/WaferGen technologies, respectively. We evaluated seven normalization methods such as Scran Deconvolution, CPM, LogCPM, TMM, DESeq, Quantile, and linnorm and seven batch effect correction algorithms including CCA, MNN, Scanorama, BBKNN, Harmony, limma, and ComBat. The cross-platform and cross-center performances were evaluated further by t-SNE, UMAP, modified alignment score, and both dot and feature plotting on certain selected marker genes. Abbreviations and notations for Fig. 1a : 10X_LLU , single cells were captured using 10X Genomics Chromium controller and scRNA-seq were sequenced at LLU Center for Genomics using the standard 10X Genomics protocol (26×98 bp); 10X_NCI_M , 10X Genomics scRNA-seq libraries were prepared and sequenced at NCI sequencing facility using a modified 10X sequencing protocol (26×56 bp); 10X_NCI , the same 10X Genomics scRNA-seq libraries were prepared at the NCI sequencing facility but sequenced at LLU using the standard 10X sequencing protocol (26×98 bp); C1_FDA_HT , single cells were captured using Fluidigm C1 HT IFC and the scRNA-seq libraries were sequenced at the FDA/CBER sequencing facility (75×2 bp); C1_LLU , single cells were captured using Fluidigm C1 IFC chip and the scRNA-seq libraries were sequenced at the LLU Center for Genomics (150×2 bp, ∼4-4.77M reads/cell); WaterGen_PE , single cells were captured using the <t>ICELL8</t> chip (Takara Bio) and scRNA-seq libraries were sequenced at paired ends (75×2 bp) at Takara Bio; WaterGen_SE , the same scRNA-seq libraries generated at Takara Bio were sequenced at the LLU Center for Genomics (150×1 bp, ∼1M reads/cell). See Table 1 for detail on the numbers of single cells captured and sequencing read depths in each platform and each site. (b). For both the breast cancer cell line (A) and normal B lymphocyte cell line (B) across 7 data sets, percentage of reads mapped to the exonic region (blue), non-exonic region (orange), or not mapped to the human genome (gray). For UMI methods (10X genomics platform), dark blue indicates the exonic reads with UMIs. (c). Median number of genes detected per cell at different sequencing read depth. Solid line represents the breast cancer cell line (A). Dashed line represents the normal B lymphocyte cell line (B).
Smart Seq Icell8 Cds, supplied by TaKaRa, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/smart seq icell8 cds/product/TaKaRa
Average 93 stars, based on 1 article reviews
smart seq icell8 cds - by Bioz Stars, 2026-03
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n70x oligo  (Illumina Inc)
96
Illumina Inc n70x oligo
(a) . Schematic overview of the study design. Two well-characterized reference cell lines (sample A of a breast cancer cell line & sample B of a matched control normal B lymphocyte cell line) were used to generate scRNA-seq data across four platforms (10X Genomics, Fluidigm C1, Fluidigm C1 HT, and WaferGen), five testing sites (10X_LLU, 10X_NCI, C1_FDA_HT, C1_LLU, and WaferGen) using standard manufactures’ protocols. At 10X_LLU and 10X_NCI sites, mixed singe-cell capture and library constructions were also prepared with either 10% or 5% cancer cells spiked into B lymphocytes. At the NCI site, single-cell capture and library construction was also performed in fixed and mixed cells (5% cancer cell spiked into B lymphocytes). One set of 10X scRNA libraries from NCI was also sequenced using a shorter modified sequencing method. Bulk cell level RNA-seq data were also obtained from these cell lines, each in triplicate. All scRNA-seq data were subject to 3 different pre-processing pipelines for either 10X or C1/WaferGen technologies, respectively. We evaluated seven normalization methods such as Scran Deconvolution, CPM, LogCPM, TMM, DESeq, Quantile, and linnorm and seven batch effect correction algorithms including CCA, MNN, Scanorama, BBKNN, Harmony, limma, and ComBat. The cross-platform and cross-center performances were evaluated further by t-SNE, UMAP, modified alignment score, and both dot and feature plotting on certain selected marker genes. Abbreviations and notations for Fig. 1a : 10X_LLU , single cells were captured using 10X Genomics Chromium controller and scRNA-seq were sequenced at LLU Center for Genomics using the standard 10X Genomics protocol (26×98 bp); 10X_NCI_M , 10X Genomics scRNA-seq libraries were prepared and sequenced at NCI sequencing facility using a modified 10X sequencing protocol (26×56 bp); 10X_NCI , the same 10X Genomics scRNA-seq libraries were prepared at the NCI sequencing facility but sequenced at LLU using the standard 10X sequencing protocol (26×98 bp); C1_FDA_HT , single cells were captured using Fluidigm C1 HT IFC and the scRNA-seq libraries were sequenced at the FDA/CBER sequencing facility (75×2 bp); C1_LLU , single cells were captured using Fluidigm C1 IFC chip and the scRNA-seq libraries were sequenced at the LLU Center for Genomics (150×2 bp, ∼4-4.77M reads/cell); WaterGen_PE , single cells were captured using the <t>ICELL8</t> chip (Takara Bio) and scRNA-seq libraries were sequenced at paired ends (75×2 bp) at Takara Bio; WaterGen_SE , the same scRNA-seq libraries generated at Takara Bio were sequenced at the LLU Center for Genomics (150×1 bp, ∼1M reads/cell). See Table 1 for detail on the numbers of single cells captured and sequencing read depths in each platform and each site. (b). For both the breast cancer cell line (A) and normal B lymphocyte cell line (B) across 7 data sets, percentage of reads mapped to the exonic region (blue), non-exonic region (orange), or not mapped to the human genome (gray). For UMI methods (10X genomics platform), dark blue indicates the exonic reads with UMIs. (c). Median number of genes detected per cell at different sequencing read depth. Solid line represents the breast cancer cell line (A). Dashed line represents the normal B lymphocyte cell line (B).
N70x Oligo, supplied by Illumina Inc, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/n70x oligo/product/Illumina Inc
Average 96 stars, based on 1 article reviews
n70x oligo - by Bioz Stars, 2026-03
96/100 stars
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index primer i5  (Illumina Inc)
96
Illumina Inc index primer i5
(a) . Schematic overview of the study design. Two well-characterized reference cell lines (sample A of a breast cancer cell line & sample B of a matched control normal B lymphocyte cell line) were used to generate scRNA-seq data across four platforms (10X Genomics, Fluidigm C1, Fluidigm C1 HT, and WaferGen), five testing sites (10X_LLU, 10X_NCI, C1_FDA_HT, C1_LLU, and WaferGen) using standard manufactures’ protocols. At 10X_LLU and 10X_NCI sites, mixed singe-cell capture and library constructions were also prepared with either 10% or 5% cancer cells spiked into B lymphocytes. At the NCI site, single-cell capture and library construction was also performed in fixed and mixed cells (5% cancer cell spiked into B lymphocytes). One set of 10X scRNA libraries from NCI was also sequenced using a shorter modified sequencing method. Bulk cell level RNA-seq data were also obtained from these cell lines, each in triplicate. All scRNA-seq data were subject to 3 different pre-processing pipelines for either 10X or C1/WaferGen technologies, respectively. We evaluated seven normalization methods such as Scran Deconvolution, CPM, LogCPM, TMM, DESeq, Quantile, and linnorm and seven batch effect correction algorithms including CCA, MNN, Scanorama, BBKNN, Harmony, limma, and ComBat. The cross-platform and cross-center performances were evaluated further by t-SNE, UMAP, modified alignment score, and both dot and feature plotting on certain selected marker genes. Abbreviations and notations for Fig. 1a : 10X_LLU , single cells were captured using 10X Genomics Chromium controller and scRNA-seq were sequenced at LLU Center for Genomics using the standard 10X Genomics protocol (26×98 bp); 10X_NCI_M , 10X Genomics scRNA-seq libraries were prepared and sequenced at NCI sequencing facility using a modified 10X sequencing protocol (26×56 bp); 10X_NCI , the same 10X Genomics scRNA-seq libraries were prepared at the NCI sequencing facility but sequenced at LLU using the standard 10X sequencing protocol (26×98 bp); C1_FDA_HT , single cells were captured using Fluidigm C1 HT IFC and the scRNA-seq libraries were sequenced at the FDA/CBER sequencing facility (75×2 bp); C1_LLU , single cells were captured using Fluidigm C1 IFC chip and the scRNA-seq libraries were sequenced at the LLU Center for Genomics (150×2 bp, ∼4-4.77M reads/cell); WaterGen_PE , single cells were captured using the <t>ICELL8</t> chip (Takara Bio) and scRNA-seq libraries were sequenced at paired ends (75×2 bp) at Takara Bio; WaterGen_SE , the same scRNA-seq libraries generated at Takara Bio were sequenced at the LLU Center for Genomics (150×1 bp, ∼1M reads/cell). See Table 1 for detail on the numbers of single cells captured and sequencing read depths in each platform and each site. (b). For both the breast cancer cell line (A) and normal B lymphocyte cell line (B) across 7 data sets, percentage of reads mapped to the exonic region (blue), non-exonic region (orange), or not mapped to the human genome (gray). For UMI methods (10X genomics platform), dark blue indicates the exonic reads with UMIs. (c). Median number of genes detected per cell at different sequencing read depth. Solid line represents the breast cancer cell line (A). Dashed line represents the normal B lymphocyte cell line (B).
Index Primer I5, supplied by Illumina Inc, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/index primer i5/product/Illumina Inc
Average 96 stars, based on 1 article reviews
index primer i5 - by Bioz Stars, 2026-03
96/100 stars
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adapter index primers  (Illumina Inc)
96
Illumina Inc adapter index primers
(a) . Schematic overview of the study design. Two well-characterized reference cell lines (sample A of a breast cancer cell line & sample B of a matched control normal B lymphocyte cell line) were used to generate scRNA-seq data across four platforms (10X Genomics, Fluidigm C1, Fluidigm C1 HT, and WaferGen), five testing sites (10X_LLU, 10X_NCI, C1_FDA_HT, C1_LLU, and WaferGen) using standard manufactures’ protocols. At 10X_LLU and 10X_NCI sites, mixed singe-cell capture and library constructions were also prepared with either 10% or 5% cancer cells spiked into B lymphocytes. At the NCI site, single-cell capture and library construction was also performed in fixed and mixed cells (5% cancer cell spiked into B lymphocytes). One set of 10X scRNA libraries from NCI was also sequenced using a shorter modified sequencing method. Bulk cell level RNA-seq data were also obtained from these cell lines, each in triplicate. All scRNA-seq data were subject to 3 different pre-processing pipelines for either 10X or C1/WaferGen technologies, respectively. We evaluated seven normalization methods such as Scran Deconvolution, CPM, LogCPM, TMM, DESeq, Quantile, and linnorm and seven batch effect correction algorithms including CCA, MNN, Scanorama, BBKNN, Harmony, limma, and ComBat. The cross-platform and cross-center performances were evaluated further by t-SNE, UMAP, modified alignment score, and both dot and feature plotting on certain selected marker genes. Abbreviations and notations for Fig. 1a : 10X_LLU , single cells were captured using 10X Genomics Chromium controller and scRNA-seq were sequenced at LLU Center for Genomics using the standard 10X Genomics protocol (26×98 bp); 10X_NCI_M , 10X Genomics scRNA-seq libraries were prepared and sequenced at NCI sequencing facility using a modified 10X sequencing protocol (26×56 bp); 10X_NCI , the same 10X Genomics scRNA-seq libraries were prepared at the NCI sequencing facility but sequenced at LLU using the standard 10X sequencing protocol (26×98 bp); C1_FDA_HT , single cells were captured using Fluidigm C1 HT IFC and the scRNA-seq libraries were sequenced at the FDA/CBER sequencing facility (75×2 bp); C1_LLU , single cells were captured using Fluidigm C1 IFC chip and the scRNA-seq libraries were sequenced at the LLU Center for Genomics (150×2 bp, ∼4-4.77M reads/cell); WaterGen_PE , single cells were captured using the <t>ICELL8</t> chip (Takara Bio) and scRNA-seq libraries were sequenced at paired ends (75×2 bp) at Takara Bio; WaterGen_SE , the same scRNA-seq libraries generated at Takara Bio were sequenced at the LLU Center for Genomics (150×1 bp, ∼1M reads/cell). See Table 1 for detail on the numbers of single cells captured and sequencing read depths in each platform and each site. (b). For both the breast cancer cell line (A) and normal B lymphocyte cell line (B) across 7 data sets, percentage of reads mapped to the exonic region (blue), non-exonic region (orange), or not mapped to the human genome (gray). For UMI methods (10X genomics platform), dark blue indicates the exonic reads with UMIs. (c). Median number of genes detected per cell at different sequencing read depth. Solid line represents the breast cancer cell line (A). Dashed line represents the normal B lymphocyte cell line (B).
Adapter Index Primers, supplied by Illumina Inc, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/adapter index primers/product/Illumina Inc
Average 96 stars, based on 1 article reviews
adapter index primers - by Bioz Stars, 2026-03
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idt unique dual indexing primers  (Illumina Inc)
96
Illumina Inc idt unique dual indexing primers
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Idt Unique Dual Indexing Primers, supplied by Illumina Inc, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/idt unique dual indexing primers/product/Illumina Inc
Average 96 stars, based on 1 article reviews
idt unique dual indexing primers - by Bioz Stars, 2026-03
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index primers  (Cell Signaling Technology Inc)
92
Cell Signaling Technology Inc index primers
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Index Primers, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/index primers/product/Cell Signaling Technology Inc
Average 92 stars, based on 1 article reviews
index primers - by Bioz Stars, 2026-03
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dual index primer pairs  (New England Biolabs)
93
New England Biolabs dual index primer pairs
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Dual Index Primer Pairs, supplied by New England Biolabs, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 93 stars, based on 1 article reviews
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Image Search Results


(a) . Schematic overview of the study design. Two well-characterized reference cell lines (sample A of a breast cancer cell line & sample B of a matched control normal B lymphocyte cell line) were used to generate scRNA-seq data across four platforms (10X Genomics, Fluidigm C1, Fluidigm C1 HT, and WaferGen), five testing sites (10X_LLU, 10X_NCI, C1_FDA_HT, C1_LLU, and WaferGen) using standard manufactures’ protocols. At 10X_LLU and 10X_NCI sites, mixed singe-cell capture and library constructions were also prepared with either 10% or 5% cancer cells spiked into B lymphocytes. At the NCI site, single-cell capture and library construction was also performed in fixed and mixed cells (5% cancer cell spiked into B lymphocytes). One set of 10X scRNA libraries from NCI was also sequenced using a shorter modified sequencing method. Bulk cell level RNA-seq data were also obtained from these cell lines, each in triplicate. All scRNA-seq data were subject to 3 different pre-processing pipelines for either 10X or C1/WaferGen technologies, respectively. We evaluated seven normalization methods such as Scran Deconvolution, CPM, LogCPM, TMM, DESeq, Quantile, and linnorm and seven batch effect correction algorithms including CCA, MNN, Scanorama, BBKNN, Harmony, limma, and ComBat. The cross-platform and cross-center performances were evaluated further by t-SNE, UMAP, modified alignment score, and both dot and feature plotting on certain selected marker genes. Abbreviations and notations for Fig. 1a : 10X_LLU , single cells were captured using 10X Genomics Chromium controller and scRNA-seq were sequenced at LLU Center for Genomics using the standard 10X Genomics protocol (26×98 bp); 10X_NCI_M , 10X Genomics scRNA-seq libraries were prepared and sequenced at NCI sequencing facility using a modified 10X sequencing protocol (26×56 bp); 10X_NCI , the same 10X Genomics scRNA-seq libraries were prepared at the NCI sequencing facility but sequenced at LLU using the standard 10X sequencing protocol (26×98 bp); C1_FDA_HT , single cells were captured using Fluidigm C1 HT IFC and the scRNA-seq libraries were sequenced at the FDA/CBER sequencing facility (75×2 bp); C1_LLU , single cells were captured using Fluidigm C1 IFC chip and the scRNA-seq libraries were sequenced at the LLU Center for Genomics (150×2 bp, ∼4-4.77M reads/cell); WaterGen_PE , single cells were captured using the ICELL8 chip (Takara Bio) and scRNA-seq libraries were sequenced at paired ends (75×2 bp) at Takara Bio; WaterGen_SE , the same scRNA-seq libraries generated at Takara Bio were sequenced at the LLU Center for Genomics (150×1 bp, ∼1M reads/cell). See Table 1 for detail on the numbers of single cells captured and sequencing read depths in each platform and each site. (b). For both the breast cancer cell line (A) and normal B lymphocyte cell line (B) across 7 data sets, percentage of reads mapped to the exonic region (blue), non-exonic region (orange), or not mapped to the human genome (gray). For UMI methods (10X genomics platform), dark blue indicates the exonic reads with UMIs. (c). Median number of genes detected per cell at different sequencing read depth. Solid line represents the breast cancer cell line (A). Dashed line represents the normal B lymphocyte cell line (B).

Journal: bioRxiv

Article Title: A Comprehensive Multi-Center Cross-platform Benchmarking Study of Single-cell RNA Sequencing Using Reference Samples

doi: 10.1101/2020.03.27.010249

Figure Lengend Snippet: (a) . Schematic overview of the study design. Two well-characterized reference cell lines (sample A of a breast cancer cell line & sample B of a matched control normal B lymphocyte cell line) were used to generate scRNA-seq data across four platforms (10X Genomics, Fluidigm C1, Fluidigm C1 HT, and WaferGen), five testing sites (10X_LLU, 10X_NCI, C1_FDA_HT, C1_LLU, and WaferGen) using standard manufactures’ protocols. At 10X_LLU and 10X_NCI sites, mixed singe-cell capture and library constructions were also prepared with either 10% or 5% cancer cells spiked into B lymphocytes. At the NCI site, single-cell capture and library construction was also performed in fixed and mixed cells (5% cancer cell spiked into B lymphocytes). One set of 10X scRNA libraries from NCI was also sequenced using a shorter modified sequencing method. Bulk cell level RNA-seq data were also obtained from these cell lines, each in triplicate. All scRNA-seq data were subject to 3 different pre-processing pipelines for either 10X or C1/WaferGen technologies, respectively. We evaluated seven normalization methods such as Scran Deconvolution, CPM, LogCPM, TMM, DESeq, Quantile, and linnorm and seven batch effect correction algorithms including CCA, MNN, Scanorama, BBKNN, Harmony, limma, and ComBat. The cross-platform and cross-center performances were evaluated further by t-SNE, UMAP, modified alignment score, and both dot and feature plotting on certain selected marker genes. Abbreviations and notations for Fig. 1a : 10X_LLU , single cells were captured using 10X Genomics Chromium controller and scRNA-seq were sequenced at LLU Center for Genomics using the standard 10X Genomics protocol (26×98 bp); 10X_NCI_M , 10X Genomics scRNA-seq libraries were prepared and sequenced at NCI sequencing facility using a modified 10X sequencing protocol (26×56 bp); 10X_NCI , the same 10X Genomics scRNA-seq libraries were prepared at the NCI sequencing facility but sequenced at LLU using the standard 10X sequencing protocol (26×98 bp); C1_FDA_HT , single cells were captured using Fluidigm C1 HT IFC and the scRNA-seq libraries were sequenced at the FDA/CBER sequencing facility (75×2 bp); C1_LLU , single cells were captured using Fluidigm C1 IFC chip and the scRNA-seq libraries were sequenced at the LLU Center for Genomics (150×2 bp, ∼4-4.77M reads/cell); WaterGen_PE , single cells were captured using the ICELL8 chip (Takara Bio) and scRNA-seq libraries were sequenced at paired ends (75×2 bp) at Takara Bio; WaterGen_SE , the same scRNA-seq libraries generated at Takara Bio were sequenced at the LLU Center for Genomics (150×1 bp, ∼1M reads/cell). See Table 1 for detail on the numbers of single cells captured and sequencing read depths in each platform and each site. (b). For both the breast cancer cell line (A) and normal B lymphocyte cell line (B) across 7 data sets, percentage of reads mapped to the exonic region (blue), non-exonic region (orange), or not mapped to the human genome (gray). For UMI methods (10X genomics platform), dark blue indicates the exonic reads with UMIs. (c). Median number of genes detected per cell at different sequencing read depth. Solid line represents the breast cancer cell line (A). Dashed line represents the normal B lymphocyte cell line (B).

Article Snippet: Cell counts were determined using a Moxie Flow cell counter (ORFLO Technologies, ID, USA) and diluted to ∼1 cell in 35 nL (∼ 28,600 cells / mL) in a solution which at dispense contains: ∼0.96 of 1X PBS (1X PBS, no Ca 2+ , Mg 2+ , Phenol Red, or serum, pH 7.4; Thermo Fisher Scientific), Second Diluent (1X), RNase Inhibitor (0.4 U) and 1.92 μM of the 3’ oligo dT terminating primer: SMART-Seq® ICELL8® CDS (Takara Bio USA, CA, USA).

Techniques: Modification, Sequencing, RNA Sequencing Assay, Marker, Generated

KEY RESOURCES TABLE

Journal: Cell stem cell

Article Title: Multilayer omics analysis reveals a non-classical retinoic acid signaling axis that regulates hematopoietic stem cell identity

doi: 10.1016/j.stem.2021.10.002

Figure Lengend Snippet: KEY RESOURCES TABLE

Article Snippet: IDT unique dual indexing primers , Illumina , 20027213.

Techniques: Recombinant, Reverse Transcription, In Vivo, In Vitro, Multiplex Assay, Plasmid Preparation, Isolation, Sample Prep, RNA Sequencing Assay, Control, shRNA, Software