Spatial transcriptomics produces high-dimensional gene expression measurements while retaining their spatial context within tissues. Obtaining a biologically meaningful low dimensional presentation of the data is a crucial step toward data interpretation and downstream analysis. Here, we present STAMP, an interpretable spatially aware dimension reduction method built on a deep generative model that returns low dimensional topics of biologically relevant spatial domains and associated gene modules. STAMP recovered the anatomical structures of the mouse hippocampus and olfactory bulb with known gene markers highly ranked in the respective gene modules. In a lung cancer sample, it delineated cell states with supporting gene markers at a higher...
Investigations of spatial cellular composition of tissue architectures revealed by multiplexed in si...
Spatial gene expression profiles provide a novel means of exploring the structural organization of t...
Single-cell technologies are emerging fast due to their ability to unravel the heterogeneity of biol...
Spatially-resolved transcriptomics methodologies are revolutionizing our understanding of complex ti...
Spatial patterns of gene expression manifest at scales ranging from local (e.g., cell-cell interacti...
Spatially resolved transcriptomics has greatly expanded our knowledge of complex multicellular biolo...
Spatial transcriptomics technology is increasingly being applied because it enables the measurement ...
Recent advances in spatially resolved transcriptomics have greatly expandedthe knowledge of complex ...
Analysis of the pattern of proteins or messenger RNAs (mRNAs) in histological tissue sections is a c...
Characterizing the expression level of genes (transcriptome) in cells and tis- sues is essential for...
In recent years, massive parallel sequencing has revolutionized the field of biology and has provide...
Abstract Organoids, which can reproduce the complex tissue structures found in embryos, are revoluti...
Spatial and molecular characteristics determine tissue function, yet high-resolution methods to capt...
Spatial transcriptomics (ST) is an emerging technology that quantifies gene expression at spatial re...
Spatial transcriptomics allows for the measurement of RNA abundance at a high spatial resolution, ma...
Investigations of spatial cellular composition of tissue architectures revealed by multiplexed in si...
Spatial gene expression profiles provide a novel means of exploring the structural organization of t...
Single-cell technologies are emerging fast due to their ability to unravel the heterogeneity of biol...
Spatially-resolved transcriptomics methodologies are revolutionizing our understanding of complex ti...
Spatial patterns of gene expression manifest at scales ranging from local (e.g., cell-cell interacti...
Spatially resolved transcriptomics has greatly expanded our knowledge of complex multicellular biolo...
Spatial transcriptomics technology is increasingly being applied because it enables the measurement ...
Recent advances in spatially resolved transcriptomics have greatly expandedthe knowledge of complex ...
Analysis of the pattern of proteins or messenger RNAs (mRNAs) in histological tissue sections is a c...
Characterizing the expression level of genes (transcriptome) in cells and tis- sues is essential for...
In recent years, massive parallel sequencing has revolutionized the field of biology and has provide...
Abstract Organoids, which can reproduce the complex tissue structures found in embryos, are revoluti...
Spatial and molecular characteristics determine tissue function, yet high-resolution methods to capt...
Spatial transcriptomics (ST) is an emerging technology that quantifies gene expression at spatial re...
Spatial transcriptomics allows for the measurement of RNA abundance at a high spatial resolution, ma...
Investigations of spatial cellular composition of tissue architectures revealed by multiplexed in si...
Spatial gene expression profiles provide a novel means of exploring the structural organization of t...
Single-cell technologies are emerging fast due to their ability to unravel the heterogeneity of biol...