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Addressing variability in iPSC-derived models of human disease: guidelines to promote reproducibility
by
Webber, Caleb
, Volpato, Viola
in
bioinformatics
/ Biological variation
/ Cell Differentiation
/ Cells, Cultured
/ cellular heterogeneity
/ Disease
/ DNA methylation
/ Experiments
/ Gene expression
/ Gene loci
/ Genomes
/ Health risk assessment
/ Humans
/ Induced Pluripotent Stem Cells - cytology
/ ipscs
/ Kinases
/ Laboratories
/ Models, Biological
/ Morphology
/ Mutation
/ Quantitative Trait Loci
/ Reproducibility
/ Reproducibility of Results
/ Review
/ Stem cells
/ Transcription factors
2020
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Addressing variability in iPSC-derived models of human disease: guidelines to promote reproducibility
by
Webber, Caleb
, Volpato, Viola
in
bioinformatics
/ Biological variation
/ Cell Differentiation
/ Cells, Cultured
/ cellular heterogeneity
/ Disease
/ DNA methylation
/ Experiments
/ Gene expression
/ Gene loci
/ Genomes
/ Health risk assessment
/ Humans
/ Induced Pluripotent Stem Cells - cytology
/ ipscs
/ Kinases
/ Laboratories
/ Models, Biological
/ Morphology
/ Mutation
/ Quantitative Trait Loci
/ Reproducibility
/ Reproducibility of Results
/ Review
/ Stem cells
/ Transcription factors
2020
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Do you wish to request the book?
Addressing variability in iPSC-derived models of human disease: guidelines to promote reproducibility
by
Webber, Caleb
, Volpato, Viola
in
bioinformatics
/ Biological variation
/ Cell Differentiation
/ Cells, Cultured
/ cellular heterogeneity
/ Disease
/ DNA methylation
/ Experiments
/ Gene expression
/ Gene loci
/ Genomes
/ Health risk assessment
/ Humans
/ Induced Pluripotent Stem Cells - cytology
/ ipscs
/ Kinases
/ Laboratories
/ Models, Biological
/ Morphology
/ Mutation
/ Quantitative Trait Loci
/ Reproducibility
/ Reproducibility of Results
/ Review
/ Stem cells
/ Transcription factors
2020
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Addressing variability in iPSC-derived models of human disease: guidelines to promote reproducibility
Journal Article
Addressing variability in iPSC-derived models of human disease: guidelines to promote reproducibility
2020
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Overview
Induced pluripotent stem cell (iPSC) technologies have provided in vitro models of inaccessible human cell types, yielding new insights into disease mechanisms especially for neurological disorders. However, without due consideration, the thousands of new human iPSC lines generated in the past decade will inevitably affect the reproducibility of iPSC-based experiments. Differences between donor individuals, genetic stability and experimental variability contribute to iPSC model variation by impacting differentiation potency, cellular heterogeneity, morphology, and transcript and protein abundance. Such effects will confound reproducible disease modelling in the absence of appropriate strategies. In this Review, we explore the causes and effects of iPSC heterogeneity, and propose approaches to detect and account for experimental variation between studies, or even exploit it for deeper biological insight.
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