Organoids derived from stem cells become increasingly important to study human development and to model disease. However, methods are needed to control and study spatio-temporal patterns of gene expression in organoids. To this aim, we combined optogenetics and gene perturbation technologies to activate or knock-down RNA of target genes, at single-cell resolution and in programmable spatio-temporal patterns. To illustrate the usefulness of our approach, we locally activated Sonic Hedgehog (SHH) signaling in an organoid model for human neurodevelopment. High-resolution spatial transcriptomic and single-cell analyses showed that this local induction was sufficient to generate stereotypically patterned organoids in three dimensions and reveale...
Understanding neurological diseases requires tractable genetic systems, and engineered three-dimensi...
How a complex multicellular organism forms from a single cell is a question that defies simplistic u...
Abstract Background Human cerebral organoids (hCO) are attractive systems due to their ability to mo...
Organoids derived from stem cells become increasingly important to study human development and to mo...
Organoids derived from stem cells have become an increasingly important tool for studying human deve...
Organoids generated from human pluripotent stem cells provide experimental systems to study developm...
Abstract Organoids, which can reproduce the complex tissue structures found in embryos, are revoluti...
Self-organizing tissues resembling brain structures generated from human stem cells offer exciting p...
Self-organizing cerebral organoids grown from pluripotent stem cells combined with single-cell genom...
Spatial patterns of gene expression manifest at scales ranging from local (e.g., cell-cell interacti...
SummarySecreted signals, known as morphogens, provide the positional information that organizes gene...
Diverse regions develop within cerebral organoids generated from human induced pluripotent stem cell...
Emerging spatial technologies, including spatial transcriptomics and spatial epigenomics, are becomi...
Spatially resolved transcriptomic technologies are promising tools to study complex biological proce...
The first part of this thesis describes how widely-used tissue dissociation protocols that are often...
Understanding neurological diseases requires tractable genetic systems, and engineered three-dimensi...
How a complex multicellular organism forms from a single cell is a question that defies simplistic u...
Abstract Background Human cerebral organoids (hCO) are attractive systems due to their ability to mo...
Organoids derived from stem cells become increasingly important to study human development and to mo...
Organoids derived from stem cells have become an increasingly important tool for studying human deve...
Organoids generated from human pluripotent stem cells provide experimental systems to study developm...
Abstract Organoids, which can reproduce the complex tissue structures found in embryos, are revoluti...
Self-organizing tissues resembling brain structures generated from human stem cells offer exciting p...
Self-organizing cerebral organoids grown from pluripotent stem cells combined with single-cell genom...
Spatial patterns of gene expression manifest at scales ranging from local (e.g., cell-cell interacti...
SummarySecreted signals, known as morphogens, provide the positional information that organizes gene...
Diverse regions develop within cerebral organoids generated from human induced pluripotent stem cell...
Emerging spatial technologies, including spatial transcriptomics and spatial epigenomics, are becomi...
Spatially resolved transcriptomic technologies are promising tools to study complex biological proce...
The first part of this thesis describes how widely-used tissue dissociation protocols that are often...
Understanding neurological diseases requires tractable genetic systems, and engineered three-dimensi...
How a complex multicellular organism forms from a single cell is a question that defies simplistic u...
Abstract Background Human cerebral organoids (hCO) are attractive systems due to their ability to mo...