Single-cell sequencing is a powerful approach that can detect genetic alterations and their phenotypic consequences in the context of human development, with cellular resolution. Humans start out as single-cell zygotes and undergo fission and differentiation to develop into multicellular organisms. Before fertilisation and during development, the cellular genome acquires hundreds of mutations that propagate down the cell lineage. Whether germline or somatic in nature, some of these mutations may have significant genotypic impact and lead to diseased cellular phenotypes, either systemically or confined to a tissue. Single-cell sequencing enables the detection and monitoring of the genotype and the consequent molecular phenotypes at a cellula...
Single-cell analysis is a rapidly evolving approach to characterize genome-scale molecular informati...
Single-cell transcriptomic technologies have emerged as powerful tools to explore cellular heterogen...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, 2018.Ca...
Although all cells in a human body are descendant from a single cell –i.e. the zygote– the genetic c...
Although a cell produces an assortment of products that protect, inspect and if necessary heal its v...
The single cell is considered the basic unit of biology, and the pursuit of understanding how hetero...
Single-cell sequencing methods provide the highest resolution insight into cellular heterogeneity. O...
To understand human development and disease, as well as to regenerate damaged tissues, scientists ar...
Intra-tumour heterogeneity and tumour evolution are well-documented phenomena in human cancers. Whil...
BACKGROUND: Single-cell genomics is an approach to investigate cell heterogeneity and to identify ne...
To understand human development and disease, as well as to regenerate damaged tissues, scientists ar...
Advances in whole genome amplification and next-generation sequencing methods have enabled genomic a...
Recent advances in single-cell sequencing hold great potential for exploring biological systems with...
The use of single-cell DNA sequencing (sc-seq) techniques for the diagnosis, prognosis and treatment...
Biological phenotype is the output of complex interactions between heterogeneous cells within a spec...
Single-cell analysis is a rapidly evolving approach to characterize genome-scale molecular informati...
Single-cell transcriptomic technologies have emerged as powerful tools to explore cellular heterogen...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, 2018.Ca...
Although all cells in a human body are descendant from a single cell –i.e. the zygote– the genetic c...
Although a cell produces an assortment of products that protect, inspect and if necessary heal its v...
The single cell is considered the basic unit of biology, and the pursuit of understanding how hetero...
Single-cell sequencing methods provide the highest resolution insight into cellular heterogeneity. O...
To understand human development and disease, as well as to regenerate damaged tissues, scientists ar...
Intra-tumour heterogeneity and tumour evolution are well-documented phenomena in human cancers. Whil...
BACKGROUND: Single-cell genomics is an approach to investigate cell heterogeneity and to identify ne...
To understand human development and disease, as well as to regenerate damaged tissues, scientists ar...
Advances in whole genome amplification and next-generation sequencing methods have enabled genomic a...
Recent advances in single-cell sequencing hold great potential for exploring biological systems with...
The use of single-cell DNA sequencing (sc-seq) techniques for the diagnosis, prognosis and treatment...
Biological phenotype is the output of complex interactions between heterogeneous cells within a spec...
Single-cell analysis is a rapidly evolving approach to characterize genome-scale molecular informati...
Single-cell transcriptomic technologies have emerged as powerful tools to explore cellular heterogen...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, 2018.Ca...