Abstract Organoids, which can reproduce the complex tissue structures found in embryos, are revolutionizing basic research and regenerative medicine. In order to use organoids for research and medicine, it is necessary to assess the composition and arrangement of cell types within the organoid, i.e., spatial gene expression. However, current methods are invasive and require gene editing and immunostaining. In this study, we developed a non-invasive estimation method of spatial gene expression patterns using machine learning. A deep learning model with an encoder-decoder architecture was trained on paired datasets of phase-contrast and fluorescence images, and was applied to a retinal organoid derived from mouse embryonic stem cells, focusin...
Spatial transcriptomics allows for the measurement of RNA abundance at a high spatial resolution, ma...
Multiplexed RNA sequencing in individual cells is transforming basic and clinical life sciences. Oft...
Comprehensive information on the timing and location of gene expression is fundamental to our unders...
Organoids generated from human pluripotent stem cells provide experimental systems to study developm...
Reverse engineering of gene regulatory networks (GRNs) is a central task in systems biology. Most of...
The proper functional development of a multicellular organism depends on an intricate network of int...
Organoids derived from stem cells become increasingly important to study human development and to mo...
Cell lineage decisions occur in three-dimensional spatial patterns that are difficult to identify by...
Spatial transcriptomics technology is increasingly being applied because it enables the measurement ...
Background: Many important high throughput projects use in situ hybridization and may require the an...
Determining spatial patterns in gene expression is crucial for understanding physiological function...
Spatial patterns of gene expression manifest at scales ranging from local (e.g., cell-cell interacti...
Abstract. Associating specific gene activity with functional locations in the brain results in a gre...
Spatial transcriptomics produces high-dimensional gene expression measurements while retaining their...
convolutional neural networks for annotating gene expression patterns in the mouse brain Tao Zeng1, ...
Spatial transcriptomics allows for the measurement of RNA abundance at a high spatial resolution, ma...
Multiplexed RNA sequencing in individual cells is transforming basic and clinical life sciences. Oft...
Comprehensive information on the timing and location of gene expression is fundamental to our unders...
Organoids generated from human pluripotent stem cells provide experimental systems to study developm...
Reverse engineering of gene regulatory networks (GRNs) is a central task in systems biology. Most of...
The proper functional development of a multicellular organism depends on an intricate network of int...
Organoids derived from stem cells become increasingly important to study human development and to mo...
Cell lineage decisions occur in three-dimensional spatial patterns that are difficult to identify by...
Spatial transcriptomics technology is increasingly being applied because it enables the measurement ...
Background: Many important high throughput projects use in situ hybridization and may require the an...
Determining spatial patterns in gene expression is crucial for understanding physiological function...
Spatial patterns of gene expression manifest at scales ranging from local (e.g., cell-cell interacti...
Abstract. Associating specific gene activity with functional locations in the brain results in a gre...
Spatial transcriptomics produces high-dimensional gene expression measurements while retaining their...
convolutional neural networks for annotating gene expression patterns in the mouse brain Tao Zeng1, ...
Spatial transcriptomics allows for the measurement of RNA abundance at a high spatial resolution, ma...
Multiplexed RNA sequencing in individual cells is transforming basic and clinical life sciences. Oft...
Comprehensive information on the timing and location of gene expression is fundamental to our unders...