Add to ORKGA spatio-temporal map of gene activity in the brain would be an important contribution to the understanding of brain development, disease, and function. Such a resource is now possible using high-throughput in situ hybridization, a method for transcriptome-wide acquisition of cellular resolution gene expression patterns in serial tissue sections. However, querying an enormous quantity of image data requires computational methods for describing and organizing gene expression patterns in a consistent manner. In addressing this, we have developed procedures for automated annotation of gene expression patterns in the postnatal mouse brain
<div><p>Massive amounts of data are being generated in an effort to represent for the brain the expr...
Abstract Background Spatially mapped large scale gene expression databases enable quantitative compa...
Massive amounts of data are being generated in an effort to represent for the brain the expression o...
A spatio-temporal map of gene activity in the brain would be an important contribution to the unders...
Acquiring information about the expression of a gene in different cell populations and tissues can p...
Background: Many important high throughput projects use in situ hybridization and may require the an...
Many important high throughput projects use in situ gene expression detection technology and require...
Many important high throughput projects use in situ hybridization and may require the analysis of im...
Many important high throughput projects use in situ hybridization and may require the analysis of im...
Massive amounts of data are being generated in an effort to represent for the brain the expression o...
A genome-wide expression atlas of the nervous system at cellular resolution would be a valuable reso...
A genome-wide expression atlas of the nervous system at cellular resolution would be a valuable reso...
Genomes of animals contain between 15 000 (e.g. Drosophila) and 50 000 (human, mouse) genes, many of...
Genomes of animals contain between 15 000 (e.g. Drosophila) and 50 000 (human, mouse) genes, many of...
Massive amounts of data are being generated in an effort to represent for the brain the expression o...
<div><p>Massive amounts of data are being generated in an effort to represent for the brain the expr...
Abstract Background Spatially mapped large scale gene expression databases enable quantitative compa...
Massive amounts of data are being generated in an effort to represent for the brain the expression o...
A spatio-temporal map of gene activity in the brain would be an important contribution to the unders...
Acquiring information about the expression of a gene in different cell populations and tissues can p...
Background: Many important high throughput projects use in situ hybridization and may require the an...
Many important high throughput projects use in situ gene expression detection technology and require...
Many important high throughput projects use in situ hybridization and may require the analysis of im...
Many important high throughput projects use in situ hybridization and may require the analysis of im...
Massive amounts of data are being generated in an effort to represent for the brain the expression o...
A genome-wide expression atlas of the nervous system at cellular resolution would be a valuable reso...
A genome-wide expression atlas of the nervous system at cellular resolution would be a valuable reso...
Genomes of animals contain between 15 000 (e.g. Drosophila) and 50 000 (human, mouse) genes, many of...
Genomes of animals contain between 15 000 (e.g. Drosophila) and 50 000 (human, mouse) genes, many of...
Massive amounts of data are being generated in an effort to represent for the brain the expression o...
<div><p>Massive amounts of data are being generated in an effort to represent for the brain the expr...
Abstract Background Spatially mapped large scale gene expression databases enable quantitative compa...
Massive amounts of data are being generated in an effort to represent for the brain the expression o...