single cell sequencing Search Results


picard sequencing metrics  (Broad Clinical Labs)
96
Broad Clinical Labs picard sequencing metrics
a , Schematic workflow going from hiPS cells to cortical organoids to <t>sequencing</t> data. The number of hiPS cell lines and individuals (in parentheses) for each form of ASD and controls is indicated. b , Schematic representation of hCO differentiations derived from each hiPS cell line for two forms of ASD (16p11.2 deletion and 22q13.3 deletion). The other forms of ASD can be found in Extended Data Fig. . c , Spearman’s correlation of gene expression between samples from the same time point and form of ASD that were derived either from different lines (red) or from the same line (blue). The sample sizes for each group (number of differentiations) are as follows: day 25: control lines, n = 46; 15q13.3del, n = 7; 16p11.2del, n = 5; 16p11.2dup, n = 4; 22q11.2del, n = 13; 22q13.3del, n = 11; idiopathic, n = 12; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 50: control lines, n = 53; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19 , n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 75: control lines, n = 54; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 23; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Day 100: control lines, n = 50; 15q13.3del, n = 6; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Boxplots show: centre, median; lower hinge, 25% quantile; upper hinge, 75% quantile; lower whisker, smallest observation greater than or equal to lower hinge −1.5× interquartile range; upper whisker, largest observation less than or equal to upper hinge +1.5× interquartile range. d , Genes within the CNVs are downregulated in deletions and upregulated in duplications, as exemplified by 16p11.2 deletion (del) and duplication (dup) and 15q13.3 deletion. 16p11.2del, 61.5% of genes; 16p11.2dup, 50% of genes and 15q13.3del, 52.9% of genes. *dreamlet P values of less than 0.005. Top illustration adapted from ref. , Springer Nature America; illustrations in the IP–MS and CRISPRi panels created in BioRender. Geschwind, D. (2025) ( https://biorender.com/m2jkj03 ).
Picard Sequencing Metrics, supplied by Broad Clinical Labs, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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picard sequencing metrics - by Bioz Stars, 2026-04
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single cell sequence specific amplification kit  (Vazyme Biotech Co)
93
Vazyme Biotech Co single cell sequence specific amplification kit
a , Schematic workflow going from hiPS cells to cortical organoids to <t>sequencing</t> data. The number of hiPS cell lines and individuals (in parentheses) for each form of ASD and controls is indicated. b , Schematic representation of hCO differentiations derived from each hiPS cell line for two forms of ASD (16p11.2 deletion and 22q13.3 deletion). The other forms of ASD can be found in Extended Data Fig. . c , Spearman’s correlation of gene expression between samples from the same time point and form of ASD that were derived either from different lines (red) or from the same line (blue). The sample sizes for each group (number of differentiations) are as follows: day 25: control lines, n = 46; 15q13.3del, n = 7; 16p11.2del, n = 5; 16p11.2dup, n = 4; 22q11.2del, n = 13; 22q13.3del, n = 11; idiopathic, n = 12; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 50: control lines, n = 53; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19 , n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 75: control lines, n = 54; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 23; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Day 100: control lines, n = 50; 15q13.3del, n = 6; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Boxplots show: centre, median; lower hinge, 25% quantile; upper hinge, 75% quantile; lower whisker, smallest observation greater than or equal to lower hinge −1.5× interquartile range; upper whisker, largest observation less than or equal to upper hinge +1.5× interquartile range. d , Genes within the CNVs are downregulated in deletions and upregulated in duplications, as exemplified by 16p11.2 deletion (del) and duplication (dup) and 15q13.3 deletion. 16p11.2del, 61.5% of genes; 16p11.2dup, 50% of genes and 15q13.3del, 52.9% of genes. *dreamlet P values of less than 0.005. Top illustration adapted from ref. , Springer Nature America; illustrations in the IP–MS and CRISPRi panels created in BioRender. Geschwind, D. (2025) ( https://biorender.com/m2jkj03 ).
Single Cell Sequence Specific Amplification Kit, supplied by Vazyme Biotech Co, 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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single-cell rna sequencing  (Muris Inc)
90
Muris Inc single-cell rna sequencing
a , Schematic workflow going from hiPS cells to cortical organoids to <t>sequencing</t> data. The number of hiPS cell lines and individuals (in parentheses) for each form of ASD and controls is indicated. b , Schematic representation of hCO differentiations derived from each hiPS cell line for two forms of ASD (16p11.2 deletion and 22q13.3 deletion). The other forms of ASD can be found in Extended Data Fig. . c , Spearman’s correlation of gene expression between samples from the same time point and form of ASD that were derived either from different lines (red) or from the same line (blue). The sample sizes for each group (number of differentiations) are as follows: day 25: control lines, n = 46; 15q13.3del, n = 7; 16p11.2del, n = 5; 16p11.2dup, n = 4; 22q11.2del, n = 13; 22q13.3del, n = 11; idiopathic, n = 12; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 50: control lines, n = 53; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19 , n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 75: control lines, n = 54; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 23; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Day 100: control lines, n = 50; 15q13.3del, n = 6; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Boxplots show: centre, median; lower hinge, 25% quantile; upper hinge, 75% quantile; lower whisker, smallest observation greater than or equal to lower hinge −1.5× interquartile range; upper whisker, largest observation less than or equal to upper hinge +1.5× interquartile range. d , Genes within the CNVs are downregulated in deletions and upregulated in duplications, as exemplified by 16p11.2 deletion (del) and duplication (dup) and 15q13.3 deletion. 16p11.2del, 61.5% of genes; 16p11.2dup, 50% of genes and 15q13.3del, 52.9% of genes. *dreamlet P values of less than 0.005. Top illustration adapted from ref. , Springer Nature America; illustrations in the IP–MS and CRISPRi panels created in BioRender. Geschwind, D. (2025) ( https://biorender.com/m2jkj03 ).
Single Cell Rna Sequencing, supplied by Muris Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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single-cell rna sequencing data  (Human Protein Atlas)
90
Human Protein Atlas single-cell rna sequencing data
a , Schematic workflow going from hiPS cells to cortical organoids to <t>sequencing</t> data. The number of hiPS cell lines and individuals (in parentheses) for each form of ASD and controls is indicated. b , Schematic representation of hCO differentiations derived from each hiPS cell line for two forms of ASD (16p11.2 deletion and 22q13.3 deletion). The other forms of ASD can be found in Extended Data Fig. . c , Spearman’s correlation of gene expression between samples from the same time point and form of ASD that were derived either from different lines (red) or from the same line (blue). The sample sizes for each group (number of differentiations) are as follows: day 25: control lines, n = 46; 15q13.3del, n = 7; 16p11.2del, n = 5; 16p11.2dup, n = 4; 22q11.2del, n = 13; 22q13.3del, n = 11; idiopathic, n = 12; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 50: control lines, n = 53; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19 , n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 75: control lines, n = 54; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 23; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Day 100: control lines, n = 50; 15q13.3del, n = 6; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Boxplots show: centre, median; lower hinge, 25% quantile; upper hinge, 75% quantile; lower whisker, smallest observation greater than or equal to lower hinge −1.5× interquartile range; upper whisker, largest observation less than or equal to upper hinge +1.5× interquartile range. d , Genes within the CNVs are downregulated in deletions and upregulated in duplications, as exemplified by 16p11.2 deletion (del) and duplication (dup) and 15q13.3 deletion. 16p11.2del, 61.5% of genes; 16p11.2dup, 50% of genes and 15q13.3del, 52.9% of genes. *dreamlet P values of less than 0.005. Top illustration adapted from ref. , Springer Nature America; illustrations in the IP–MS and CRISPRi panels created in BioRender. Geschwind, D. (2025) ( https://biorender.com/m2jkj03 ).
Single Cell Rna Sequencing Data, supplied by Human Protein Atlas, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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dental caries single-cell rna sequencing mendelian randomisation genetic susceptibility oral health sequencing  (Taihe Biotechnology Co Ltd)
90
Taihe Biotechnology Co Ltd dental caries single-cell rna sequencing mendelian randomisation genetic susceptibility oral health sequencing
a , Schematic workflow going from hiPS cells to cortical organoids to <t>sequencing</t> data. The number of hiPS cell lines and individuals (in parentheses) for each form of ASD and controls is indicated. b , Schematic representation of hCO differentiations derived from each hiPS cell line for two forms of ASD (16p11.2 deletion and 22q13.3 deletion). The other forms of ASD can be found in Extended Data Fig. . c , Spearman’s correlation of gene expression between samples from the same time point and form of ASD that were derived either from different lines (red) or from the same line (blue). The sample sizes for each group (number of differentiations) are as follows: day 25: control lines, n = 46; 15q13.3del, n = 7; 16p11.2del, n = 5; 16p11.2dup, n = 4; 22q11.2del, n = 13; 22q13.3del, n = 11; idiopathic, n = 12; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 50: control lines, n = 53; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19 , n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 75: control lines, n = 54; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 23; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Day 100: control lines, n = 50; 15q13.3del, n = 6; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Boxplots show: centre, median; lower hinge, 25% quantile; upper hinge, 75% quantile; lower whisker, smallest observation greater than or equal to lower hinge −1.5× interquartile range; upper whisker, largest observation less than or equal to upper hinge +1.5× interquartile range. d , Genes within the CNVs are downregulated in deletions and upregulated in duplications, as exemplified by 16p11.2 deletion (del) and duplication (dup) and 15q13.3 deletion. 16p11.2del, 61.5% of genes; 16p11.2dup, 50% of genes and 15q13.3del, 52.9% of genes. *dreamlet P values of less than 0.005. Top illustration adapted from ref. , Springer Nature America; illustrations in the IP–MS and CRISPRi panels created in BioRender. Geschwind, D. (2025) ( https://biorender.com/m2jkj03 ).
Dental Caries Single Cell Rna Sequencing Mendelian Randomisation Genetic Susceptibility Oral Health Sequencing, supplied by Taihe Biotechnology Co Ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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single- cell rna sequencing  (10X Genomics)
90
10X Genomics single- cell rna sequencing
a , Schematic workflow going from hiPS cells to cortical organoids to <t>sequencing</t> data. The number of hiPS cell lines and individuals (in parentheses) for each form of ASD and controls is indicated. b , Schematic representation of hCO differentiations derived from each hiPS cell line for two forms of ASD (16p11.2 deletion and 22q13.3 deletion). The other forms of ASD can be found in Extended Data Fig. . c , Spearman’s correlation of gene expression between samples from the same time point and form of ASD that were derived either from different lines (red) or from the same line (blue). The sample sizes for each group (number of differentiations) are as follows: day 25: control lines, n = 46; 15q13.3del, n = 7; 16p11.2del, n = 5; 16p11.2dup, n = 4; 22q11.2del, n = 13; 22q13.3del, n = 11; idiopathic, n = 12; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 50: control lines, n = 53; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19 , n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 75: control lines, n = 54; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 23; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Day 100: control lines, n = 50; 15q13.3del, n = 6; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Boxplots show: centre, median; lower hinge, 25% quantile; upper hinge, 75% quantile; lower whisker, smallest observation greater than or equal to lower hinge −1.5× interquartile range; upper whisker, largest observation less than or equal to upper hinge +1.5× interquartile range. d , Genes within the CNVs are downregulated in deletions and upregulated in duplications, as exemplified by 16p11.2 deletion (del) and duplication (dup) and 15q13.3 deletion. 16p11.2del, 61.5% of genes; 16p11.2dup, 50% of genes and 15q13.3del, 52.9% of genes. *dreamlet P values of less than 0.005. Top illustration adapted from ref. , Springer Nature America; illustrations in the IP–MS and CRISPRi panels created in BioRender. Geschwind, D. (2025) ( https://biorender.com/m2jkj03 ).
Single Cell Rna Sequencing, 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
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3' single-cell rna sequencing  (10X Genomics)
90
10X Genomics 3' single-cell rna sequencing
a , Schematic workflow going from hiPS cells to cortical organoids to <t>sequencing</t> data. The number of hiPS cell lines and individuals (in parentheses) for each form of ASD and controls is indicated. b , Schematic representation of hCO differentiations derived from each hiPS cell line for two forms of ASD (16p11.2 deletion and 22q13.3 deletion). The other forms of ASD can be found in Extended Data Fig. . c , Spearman’s correlation of gene expression between samples from the same time point and form of ASD that were derived either from different lines (red) or from the same line (blue). The sample sizes for each group (number of differentiations) are as follows: day 25: control lines, n = 46; 15q13.3del, n = 7; 16p11.2del, n = 5; 16p11.2dup, n = 4; 22q11.2del, n = 13; 22q13.3del, n = 11; idiopathic, n = 12; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 50: control lines, n = 53; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19 , n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 75: control lines, n = 54; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 23; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Day 100: control lines, n = 50; 15q13.3del, n = 6; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Boxplots show: centre, median; lower hinge, 25% quantile; upper hinge, 75% quantile; lower whisker, smallest observation greater than or equal to lower hinge −1.5× interquartile range; upper whisker, largest observation less than or equal to upper hinge +1.5× interquartile range. d , Genes within the CNVs are downregulated in deletions and upregulated in duplications, as exemplified by 16p11.2 deletion (del) and duplication (dup) and 15q13.3 deletion. 16p11.2del, 61.5% of genes; 16p11.2dup, 50% of genes and 15q13.3del, 52.9% of genes. *dreamlet P values of less than 0.005. Top illustration adapted from ref. , Springer Nature America; illustrations in the IP–MS and CRISPRi panels created in BioRender. Geschwind, D. (2025) ( https://biorender.com/m2jkj03 ).
3' Single Cell Rna Sequencing, 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
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single-cell sequencing  (10X Genomics)
90
10X Genomics single-cell sequencing
a , Schematic workflow going from hiPS cells to cortical organoids to <t>sequencing</t> data. The number of hiPS cell lines and individuals (in parentheses) for each form of ASD and controls is indicated. b , Schematic representation of hCO differentiations derived from each hiPS cell line for two forms of ASD (16p11.2 deletion and 22q13.3 deletion). The other forms of ASD can be found in Extended Data Fig. . c , Spearman’s correlation of gene expression between samples from the same time point and form of ASD that were derived either from different lines (red) or from the same line (blue). The sample sizes for each group (number of differentiations) are as follows: day 25: control lines, n = 46; 15q13.3del, n = 7; 16p11.2del, n = 5; 16p11.2dup, n = 4; 22q11.2del, n = 13; 22q13.3del, n = 11; idiopathic, n = 12; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 50: control lines, n = 53; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19 , n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 75: control lines, n = 54; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 23; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Day 100: control lines, n = 50; 15q13.3del, n = 6; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Boxplots show: centre, median; lower hinge, 25% quantile; upper hinge, 75% quantile; lower whisker, smallest observation greater than or equal to lower hinge −1.5× interquartile range; upper whisker, largest observation less than or equal to upper hinge +1.5× interquartile range. d , Genes within the CNVs are downregulated in deletions and upregulated in duplications, as exemplified by 16p11.2 deletion (del) and duplication (dup) and 15q13.3 deletion. 16p11.2del, 61.5% of genes; 16p11.2dup, 50% of genes and 15q13.3del, 52.9% of genes. *dreamlet P values of less than 0.005. Top illustration adapted from ref. , Springer Nature America; illustrations in the IP–MS and CRISPRi panels created in BioRender. Geschwind, D. (2025) ( https://biorender.com/m2jkj03 ).
Single Cell Sequencing, 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
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mouse single-cell rna-sequencing dataset  (GeneSearch Inc)
90
GeneSearch Inc mouse single-cell rna-sequencing dataset
a , Schematic workflow going from hiPS cells to cortical organoids to <t>sequencing</t> data. The number of hiPS cell lines and individuals (in parentheses) for each form of ASD and controls is indicated. b , Schematic representation of hCO differentiations derived from each hiPS cell line for two forms of ASD (16p11.2 deletion and 22q13.3 deletion). The other forms of ASD can be found in Extended Data Fig. . c , Spearman’s correlation of gene expression between samples from the same time point and form of ASD that were derived either from different lines (red) or from the same line (blue). The sample sizes for each group (number of differentiations) are as follows: day 25: control lines, n = 46; 15q13.3del, n = 7; 16p11.2del, n = 5; 16p11.2dup, n = 4; 22q11.2del, n = 13; 22q13.3del, n = 11; idiopathic, n = 12; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 50: control lines, n = 53; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19 , n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 75: control lines, n = 54; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 23; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Day 100: control lines, n = 50; 15q13.3del, n = 6; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Boxplots show: centre, median; lower hinge, 25% quantile; upper hinge, 75% quantile; lower whisker, smallest observation greater than or equal to lower hinge −1.5× interquartile range; upper whisker, largest observation less than or equal to upper hinge +1.5× interquartile range. d , Genes within the CNVs are downregulated in deletions and upregulated in duplications, as exemplified by 16p11.2 deletion (del) and duplication (dup) and 15q13.3 deletion. 16p11.2del, 61.5% of genes; 16p11.2dup, 50% of genes and 15q13.3del, 52.9% of genes. *dreamlet P values of less than 0.005. Top illustration adapted from ref. , Springer Nature America; illustrations in the IP–MS and CRISPRi panels created in BioRender. Geschwind, D. (2025) ( https://biorender.com/m2jkj03 ).
Mouse Single Cell Rna Sequencing Dataset, supplied by GeneSearch Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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single-cell cool-seq  (Illumina Inc)
90
Illumina Inc single-cell cool-seq
Oocyte and embryo developmental stage, method of collection and <t> sequencing </t> for DNA methylation
Single Cell Cool Seq, 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
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single-cell whole-genome bisulfite sequencing wgbs  (Illumina Inc)
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Illumina Inc single-cell whole-genome bisulfite sequencing wgbs
Oocyte and embryo developmental stage, method of collection and <t> sequencing </t> for DNA methylation
Single Cell Whole Genome Bisulfite Sequencing Wgbs, 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
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single cell sequencing data from 6tf microglia  (Draeger Safety)
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Draeger Safety single cell sequencing data from 6tf microglia
Oocyte and embryo developmental stage, method of collection and <t> sequencing </t> for DNA methylation
Single Cell Sequencing Data From 6tf Microglia, supplied by Draeger Safety, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


a , Schematic workflow going from hiPS cells to cortical organoids to sequencing data. The number of hiPS cell lines and individuals (in parentheses) for each form of ASD and controls is indicated. b , Schematic representation of hCO differentiations derived from each hiPS cell line for two forms of ASD (16p11.2 deletion and 22q13.3 deletion). The other forms of ASD can be found in Extended Data Fig. . c , Spearman’s correlation of gene expression between samples from the same time point and form of ASD that were derived either from different lines (red) or from the same line (blue). The sample sizes for each group (number of differentiations) are as follows: day 25: control lines, n = 46; 15q13.3del, n = 7; 16p11.2del, n = 5; 16p11.2dup, n = 4; 22q11.2del, n = 13; 22q13.3del, n = 11; idiopathic, n = 12; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 50: control lines, n = 53; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19 , n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 75: control lines, n = 54; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 23; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Day 100: control lines, n = 50; 15q13.3del, n = 6; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Boxplots show: centre, median; lower hinge, 25% quantile; upper hinge, 75% quantile; lower whisker, smallest observation greater than or equal to lower hinge −1.5× interquartile range; upper whisker, largest observation less than or equal to upper hinge +1.5× interquartile range. d , Genes within the CNVs are downregulated in deletions and upregulated in duplications, as exemplified by 16p11.2 deletion (del) and duplication (dup) and 15q13.3 deletion. 16p11.2del, 61.5% of genes; 16p11.2dup, 50% of genes and 15q13.3del, 52.9% of genes. *dreamlet P values of less than 0.005. Top illustration adapted from ref. , Springer Nature America; illustrations in the IP–MS and CRISPRi panels created in BioRender. Geschwind, D. (2025) ( https://biorender.com/m2jkj03 ).

Journal: Nature

Article Title: Developmental convergence and divergence in human stem cell models of autism

doi: 10.1038/s41586-025-10047-5

Figure Lengend Snippet: a , Schematic workflow going from hiPS cells to cortical organoids to sequencing data. The number of hiPS cell lines and individuals (in parentheses) for each form of ASD and controls is indicated. b , Schematic representation of hCO differentiations derived from each hiPS cell line for two forms of ASD (16p11.2 deletion and 22q13.3 deletion). The other forms of ASD can be found in Extended Data Fig. . c , Spearman’s correlation of gene expression between samples from the same time point and form of ASD that were derived either from different lines (red) or from the same line (blue). The sample sizes for each group (number of differentiations) are as follows: day 25: control lines, n = 46; 15q13.3del, n = 7; 16p11.2del, n = 5; 16p11.2dup, n = 4; 22q11.2del, n = 13; 22q13.3del, n = 11; idiopathic, n = 12; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 50: control lines, n = 53; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19 , n = 2; SHANK3, n = 2; and Timothy syndrome, n = 3. Day 75: control lines, n = 54; 15q13.3del, n = 7; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 23; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Day 100: control lines, n = 50; 15q13.3del, n = 6; 16p11.2del, n = 6; 16p11.2dup, n = 4; 22q11.2del, n = 15; 22q13.3del, n = 12; idiopathic, n = 15; PCDH19, n = 2; SHANK3, n = 2; and Timothy syndrome, n = 2. Boxplots show: centre, median; lower hinge, 25% quantile; upper hinge, 75% quantile; lower whisker, smallest observation greater than or equal to lower hinge −1.5× interquartile range; upper whisker, largest observation less than or equal to upper hinge +1.5× interquartile range. d , Genes within the CNVs are downregulated in deletions and upregulated in duplications, as exemplified by 16p11.2 deletion (del) and duplication (dup) and 15q13.3 deletion. 16p11.2del, 61.5% of genes; 16p11.2dup, 50% of genes and 15q13.3del, 52.9% of genes. *dreamlet P values of less than 0.005. Top illustration adapted from ref. , Springer Nature America; illustrations in the IP–MS and CRISPRi panels created in BioRender. Geschwind, D. (2025) ( https://biorender.com/m2jkj03 ).

Article Snippet: To control for technical variation due to the sequencing and library prep we calculated the principal components of the Picard sequencing metrics ( http://broadinstitute.github.io/picard/ ) using the CollectAlignmentSummaryMetrics, CollectRnaSeqMetrics and MarkDuplicates modules, and included them in our model. To infer genetic ancestry, we called single-nucleotide polymorphisms (SNPs) from the aligned reads using the GATK (v.3.3) Haplotype caller .

Techniques: Sequencing, Derivative Assay, Gene Expression, Control, Whisker Assay, Protein-Protein interactions

Whole genome sequencing depth in ( a ) 16p11.2 ( b ) 15q13.3 ( c ) 22q11.2 and ( d ) 22q13.3 loci averaged over 10 kb windows. ( e ) Mutational forms not shown in main figure showing genes inside the CNV locus or genes carrying the point mutations (marked in blue). Genes significantly differentially expressed over all time points are denoted by asterisks (dreamlet p-values of p < 0.005). The percent of DE genes in the CNV across the 4 time points is as follows: 22q13del - 77.3% of genes, 22q11del - 88.9% of genes.

Journal: Nature

Article Title: Developmental convergence and divergence in human stem cell models of autism

doi: 10.1038/s41586-025-10047-5

Figure Lengend Snippet: Whole genome sequencing depth in ( a ) 16p11.2 ( b ) 15q13.3 ( c ) 22q11.2 and ( d ) 22q13.3 loci averaged over 10 kb windows. ( e ) Mutational forms not shown in main figure showing genes inside the CNV locus or genes carrying the point mutations (marked in blue). Genes significantly differentially expressed over all time points are denoted by asterisks (dreamlet p-values of p < 0.005). The percent of DE genes in the CNV across the 4 time points is as follows: 22q13del - 77.3% of genes, 22q11del - 88.9% of genes.

Article Snippet: To control for technical variation due to the sequencing and library prep we calculated the principal components of the Picard sequencing metrics ( http://broadinstitute.github.io/picard/ ) using the CollectAlignmentSummaryMetrics, CollectRnaSeqMetrics and MarkDuplicates modules, and included them in our model. To infer genetic ancestry, we called single-nucleotide polymorphisms (SNPs) from the aligned reads using the GATK (v.3.3) Haplotype caller .

Techniques: Sequencing

( a ) Overlaps between differentially expressed genes at all time points and risk genes for ASD from either SFARI or from large scale whole exome (WES) sequencing studies , as well as with neurodevelopmental disorders (NDDs) and intellectual disability (ID) risk genes . Colour represents the OR (two-sided Fishers exact test) and the size of the point represented the -log 10 FDR. Only positive significant overlaps (OR > 1 and FDR < 0.05) are shown. ( b ) Select gene ontology (GO) terms enriched in upregulated (red) or downregulated (blue) genes in each of the ASD forms at day 25 (top) or day 100 (bottom). Statistics derived from GSEA. ( c ) Distribution of normalized expression for meta analysis significant example genes at day 100. Boxplots show: centre, median, lower hinge – 25% quantile, upper hinge – 75% quantile, lower whisker – smallest observation greater than or equal to lower hinge –1.5× interquartile range, upper whisker – largest observation less than or equal to upper hinge +1.5× interquartile range. Number of samples (differentiations) for each form: Control – 50, 15q13.3del – 6, 16p11.2del – 6, 16p11.2dup – 4, 22q11.2del – 15, 22q13.3del – 12, Idiopathic – 15, PCDH19 – 2, SHANK3 – 2, Timothy Syndrome – 2. Asterisks denote dreamlet derived p-values: +p < 0.005,* FDR < 0.05, ** FDR < 0.01, *** FDR < 0.005. ( d ) Select GO terms enriched in upregulated or downregulated meta-analysis significant genes Colour corresponds to normalized enrichment score (NES). Point size corresponds to the level of significance (−log 10 (FDR)). Statistics derived from GSEA.

Journal: Nature

Article Title: Developmental convergence and divergence in human stem cell models of autism

doi: 10.1038/s41586-025-10047-5

Figure Lengend Snippet: ( a ) Overlaps between differentially expressed genes at all time points and risk genes for ASD from either SFARI or from large scale whole exome (WES) sequencing studies , as well as with neurodevelopmental disorders (NDDs) and intellectual disability (ID) risk genes . Colour represents the OR (two-sided Fishers exact test) and the size of the point represented the -log 10 FDR. Only positive significant overlaps (OR > 1 and FDR < 0.05) are shown. ( b ) Select gene ontology (GO) terms enriched in upregulated (red) or downregulated (blue) genes in each of the ASD forms at day 25 (top) or day 100 (bottom). Statistics derived from GSEA. ( c ) Distribution of normalized expression for meta analysis significant example genes at day 100. Boxplots show: centre, median, lower hinge – 25% quantile, upper hinge – 75% quantile, lower whisker – smallest observation greater than or equal to lower hinge –1.5× interquartile range, upper whisker – largest observation less than or equal to upper hinge +1.5× interquartile range. Number of samples (differentiations) for each form: Control – 50, 15q13.3del – 6, 16p11.2del – 6, 16p11.2dup – 4, 22q11.2del – 15, 22q13.3del – 12, Idiopathic – 15, PCDH19 – 2, SHANK3 – 2, Timothy Syndrome – 2. Asterisks denote dreamlet derived p-values: +p < 0.005,* FDR < 0.05, ** FDR < 0.01, *** FDR < 0.005. ( d ) Select GO terms enriched in upregulated or downregulated meta-analysis significant genes Colour corresponds to normalized enrichment score (NES). Point size corresponds to the level of significance (−log 10 (FDR)). Statistics derived from GSEA.

Article Snippet: To control for technical variation due to the sequencing and library prep we calculated the principal components of the Picard sequencing metrics ( http://broadinstitute.github.io/picard/ ) using the CollectAlignmentSummaryMetrics, CollectRnaSeqMetrics and MarkDuplicates modules, and included them in our model. To infer genetic ancestry, we called single-nucleotide polymorphisms (SNPs) from the aligned reads using the GATK (v.3.3) Haplotype caller .

Techniques: Sequencing, Derivative Assay, Expressing, Whisker Assay, Control

( a ) Schema of CROP-Seq vector. ( b ) Example of gating for flow cytometry. Left shows a set of hNPCs not expressing virus used for gating compared with hNPCs expressing both dCas9-Krab (GFP) and Crop-Seq-opti-dsRed (TdTomato). Box in the upper right shows double positive cells selected for downstream analysis (~20% of live cell fraction). ( c ) QC measures for CRISPRi single cell libraries organized by gRNA negative (no gRNA detected in sequencing), Control gRNA positive, or Target gRNA positive. ( d ) Number of gRNA UMIs per cell. X-axis shows cut-off of 10 UMIs used to consider a cell gRNA positive (left). Number of of unique gRNAs expressed in each cell (x-axis). Only cells expressing gRNA for a single gene-target are retained for downstream analyses. ( e ) Single cell UMAPs of markers used to differentiate cycling and non-cyling NPCs ( f ) Single cell UMAP coloured by Target-gene presence ( g ) Proportion of cells uniquely expressing gRNAs barcodes for each target within each experiment (n = 18 per Gene comprised of 6 technical replicates, 3 gRNAs barcodes per target, for Controls n = 108: 18 gRNAs across 6 technical replicates). TP53 show increased proportion compared to non-targeting controls (NTCs). Boxplots a-c show: centre, median, lower hinge – 25% quantile, upper hinge – 75% quantile, lower whisker – smallest observation greater than or equal to lower hinge –1.5× interquartile range, upper whisker – largest observation less than or equal to upper hinge +1.5× interquartile range. ***Family wise corrected p < 0.005, Dunnets post-hoc contrast of linear model.

Journal: Nature

Article Title: Developmental convergence and divergence in human stem cell models of autism

doi: 10.1038/s41586-025-10047-5

Figure Lengend Snippet: ( a ) Schema of CROP-Seq vector. ( b ) Example of gating for flow cytometry. Left shows a set of hNPCs not expressing virus used for gating compared with hNPCs expressing both dCas9-Krab (GFP) and Crop-Seq-opti-dsRed (TdTomato). Box in the upper right shows double positive cells selected for downstream analysis (~20% of live cell fraction). ( c ) QC measures for CRISPRi single cell libraries organized by gRNA negative (no gRNA detected in sequencing), Control gRNA positive, or Target gRNA positive. ( d ) Number of gRNA UMIs per cell. X-axis shows cut-off of 10 UMIs used to consider a cell gRNA positive (left). Number of of unique gRNAs expressed in each cell (x-axis). Only cells expressing gRNA for a single gene-target are retained for downstream analyses. ( e ) Single cell UMAPs of markers used to differentiate cycling and non-cyling NPCs ( f ) Single cell UMAP coloured by Target-gene presence ( g ) Proportion of cells uniquely expressing gRNAs barcodes for each target within each experiment (n = 18 per Gene comprised of 6 technical replicates, 3 gRNAs barcodes per target, for Controls n = 108: 18 gRNAs across 6 technical replicates). TP53 show increased proportion compared to non-targeting controls (NTCs). Boxplots a-c show: centre, median, lower hinge – 25% quantile, upper hinge – 75% quantile, lower whisker – smallest observation greater than or equal to lower hinge –1.5× interquartile range, upper whisker – largest observation less than or equal to upper hinge +1.5× interquartile range. ***Family wise corrected p < 0.005, Dunnets post-hoc contrast of linear model.

Article Snippet: To control for technical variation due to the sequencing and library prep we calculated the principal components of the Picard sequencing metrics ( http://broadinstitute.github.io/picard/ ) using the CollectAlignmentSummaryMetrics, CollectRnaSeqMetrics and MarkDuplicates modules, and included them in our model. To infer genetic ancestry, we called single-nucleotide polymorphisms (SNPs) from the aligned reads using the GATK (v.3.3) Haplotype caller .

Techniques: Plasmid Preparation, Flow Cytometry, Expressing, Virus, Single Cell, Sequencing, Control, Whisker Assay

Oocyte and embryo developmental stage, method of collection and sequencing for DNA methylation

Journal: iScience

Article Title: Mining RNAseq data reveals dynamic metaboloepigenetic profiles in human, mouse and bovine pre-implantation embryos

doi: 10.1016/j.isci.2022.103904

Figure Lengend Snippet: Oocyte and embryo developmental stage, method of collection and sequencing for DNA methylation

Article Snippet: Mouse , MII, 2, 4, 8C, MO, ICM and TE , In vivo , Single-cell multi-omics sequencing technology (single-cell COOL-seq) , Illumina HiSeq 2500 , ( ) .

Techniques: Sequencing, In Vivo, In Vitro, Methylation Sequencing, Biomarker Discovery

Oocyte and embryo developmental stage, method of collection and sequencing for DNA methylation

Journal: iScience

Article Title: Mining RNAseq data reveals dynamic metaboloepigenetic profiles in human, mouse and bovine pre-implantation embryos

doi: 10.1016/j.isci.2022.103904

Figure Lengend Snippet: Oocyte and embryo developmental stage, method of collection and sequencing for DNA methylation

Article Snippet: Human , MII, 2, 4, 8C, MO, ICM and TE , In vitro , Single-cell whole-genome bisulfite sequencing WGBS) , Illumina HiSeq 2500 or HiSeq 4000 , ( ) .

Techniques: Sequencing, In Vivo, In Vitro, Methylation Sequencing, Biomarker Discovery