To understand human development and disease, as well as to regenerate damaged tissues, scientists are working to engineer certain cell types in vitro and to create 3D microenvironments in which cells behave physiologically. Single-cell genomics (SCG) technologies are being applied to primary human organs and to engineered cells and tissues to generate atlases of cell diversity in these systems at unparalleled resolution. Moving beyond atlases, SCG methods are powerful tools for gaining insight into the engineering and disease process. Here we discuss how scientists can use single-cell sequencing to optimize human cell and tissue engineering by measuring precision, detecting inefficiencies, and assessing accuracy. We also provide a perspecti...
BACKGROUND: Single-cell genomics is an approach to investigate cell heterogeneity and to identify ne...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, 2018.Ca...
Recent advances in single-cell genomics are opening up unprecedented opportunities to transform canc...
To understand human development and disease, as well as to regenerate damaged tissues, scientists ar...
Single-cell sequencing is a powerful approach that can detect genetic alterations and their phenotyp...
Three-dimensional (3D) tissues grown in culture from human stem cells offer the incredible opportuni...
Three-dimensional (3D) tissues grown in culture from human stem cells offer the incredible opportuni...
We all start out as a single totipotent cell that is programmed to produce amulticellular organism. ...
Although all cells in a human body are descendant from a single cell –i.e. the zygote– the genetic c...
Abstract Precision medicine emerges as a new approach that takes into account individual variability...
The single cell is considered the basic unit of biology, and the pursuit of understanding how hetero...
New discoveries in the realm of biology often come hand-in-hand with innovations in technology. Over...
Cell-to-cell variation and heterogeneity are fundamental and intrinsic characteristics of stem cell ...
Single-cell molecular tools have been developed at an incredible pace over the last five years as se...
Single-cell genomics is the study of cellular uniqueness utilizing omics methodologies. While being ...
BACKGROUND: Single-cell genomics is an approach to investigate cell heterogeneity and to identify ne...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, 2018.Ca...
Recent advances in single-cell genomics are opening up unprecedented opportunities to transform canc...
To understand human development and disease, as well as to regenerate damaged tissues, scientists ar...
Single-cell sequencing is a powerful approach that can detect genetic alterations and their phenotyp...
Three-dimensional (3D) tissues grown in culture from human stem cells offer the incredible opportuni...
Three-dimensional (3D) tissues grown in culture from human stem cells offer the incredible opportuni...
We all start out as a single totipotent cell that is programmed to produce amulticellular organism. ...
Although all cells in a human body are descendant from a single cell –i.e. the zygote– the genetic c...
Abstract Precision medicine emerges as a new approach that takes into account individual variability...
The single cell is considered the basic unit of biology, and the pursuit of understanding how hetero...
New discoveries in the realm of biology often come hand-in-hand with innovations in technology. Over...
Cell-to-cell variation and heterogeneity are fundamental and intrinsic characteristics of stem cell ...
Single-cell molecular tools have been developed at an incredible pace over the last five years as se...
Single-cell genomics is the study of cellular uniqueness utilizing omics methodologies. While being ...
BACKGROUND: Single-cell genomics is an approach to investigate cell heterogeneity and to identify ne...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, 2018.Ca...
Recent advances in single-cell genomics are opening up unprecedented opportunities to transform canc...