Understanding the function and evolution of developmental regulatory networks requires the characterisation and quantification of spatio-temporal gene expression patterns across a range of systems and species. However, most high-throughput methods to measure the dynamics of gene expression do not preserve the detailed spatial information needed in this context. For this reason, quantification methods based on image bioinformatics have become increasingly important over the past few years. Most available approaches in this field either focus on the detailed and accurate quantification of a small set of gene expression patterns, or attempt high-throughput analysis of spatial expression through binary pattern extraction and large-scale analysi...
Complex spatiotemporal gene expression patterns direct the development of the fertilized egg into an...
Background: Gene expression measurements during the development of the fly Drosophila melanogaster a...
Complex spatiotemporal gene expression patterns direct the development of the fertilized egg into an...
This is the final version of the article. Available from the publisher via the DOI in this record.Un...
Motivation: Recent advancements in high-throughput imaging have created new large data sets with ten...
The proper functional development of a multicellular organism depends on an intricate network of int...
MOTIVATION: Microarray profiling of mRNA abundance is often ill suited for temporal-spatial analysis...
To understand transcriptional regulation during development a detailed analysis of gene expression i...
<p>Development of a single cell into an adult organism is accomplished through an elaborate and comp...
International audienceTo properly understand and model animal embryogenesis it is crucial to obtain ...
Background: Many important high throughput projects use in situ hybridization and may require the an...
A complex, spatially and temporally dynamic network of gene expression underlies proper metazoan dev...
Genomes of animals contain between 15 000 (e.g. Drosophila) and 50 000 (human, mouse) genes, many of...
The precise anatomical location of gene expression is an essential component of the study of gene fu...
Complex spatiotemporal gene expression patterns direct the development of the fertilized egg into an...
Complex spatiotemporal gene expression patterns direct the development of the fertilized egg into an...
Background: Gene expression measurements during the development of the fly Drosophila melanogaster a...
Complex spatiotemporal gene expression patterns direct the development of the fertilized egg into an...
This is the final version of the article. Available from the publisher via the DOI in this record.Un...
Motivation: Recent advancements in high-throughput imaging have created new large data sets with ten...
The proper functional development of a multicellular organism depends on an intricate network of int...
MOTIVATION: Microarray profiling of mRNA abundance is often ill suited for temporal-spatial analysis...
To understand transcriptional regulation during development a detailed analysis of gene expression i...
<p>Development of a single cell into an adult organism is accomplished through an elaborate and comp...
International audienceTo properly understand and model animal embryogenesis it is crucial to obtain ...
Background: Many important high throughput projects use in situ hybridization and may require the an...
A complex, spatially and temporally dynamic network of gene expression underlies proper metazoan dev...
Genomes of animals contain between 15 000 (e.g. Drosophila) and 50 000 (human, mouse) genes, many of...
The precise anatomical location of gene expression is an essential component of the study of gene fu...
Complex spatiotemporal gene expression patterns direct the development of the fertilized egg into an...
Complex spatiotemporal gene expression patterns direct the development of the fertilized egg into an...
Background: Gene expression measurements during the development of the fly Drosophila melanogaster a...
Complex spatiotemporal gene expression patterns direct the development of the fertilized egg into an...