Add to ORKGMotivation: Drosophila melanogaster is a major model organism for investigating the function and interconnection of animal genes in the earliest stages of embryogenesis. Today, images capturing Drosophila gene expression patterns are being produced at a higher throughput than ever before. The analysis of spatial patterns of gene expression is most biologically meaningful when images from a similar time point during development are compared. Thus, the critical first step is to determine the developmental stage of an embryo. This information is also needed to observe and analyze expression changes over devel-opmental time. Currently, developmental stages (time) of embryos in images capturing spatial expression pattern are annotated manually, ...
We build an image analysis toolbox for high-throughput Drosophila embryo RNAi screens. The goal is t...
<p><b>Copyright information:</b></p><p>Taken from "Automatic image analysis for gene expression patt...
BackgroundTo accurately describe gene expression and computationally model animal transcriptional ne...
Abstract Background Drosophila gene expression pattern images document the spatiotemporal dynamics o...
In this work we propose a system for automatic classi-fication of Drosophila embryos into developmen...
The first 14 mitotic cycles in Drosophila result in a single layer of nuclei surrounding a yolk sac ...
Proper metazoan development requires that genes are expressed in a spatiotemporally controlled manne...
MOTIVATION: Microarray profiling of mRNA abundance is often ill suited for temporal-spatial analysis...
Abstract. It is well known, that organism of animal, consisting of many billions cells, is formed by...
Motivation: Deciphering the regulatory and developmental mechanisms for multicellular organisms requ...
A suite of methods that provide the first quantitative three-dimensional description of gene express...
ABSTRACT: BACKGROUND: Cell and tissue specific gene expression is a defining feature of embryonic de...
In vivo study of embryonic morphogenesis tremendously benefits from recent advances in live microsco...
During animal development, complex patterns of gene expression provide positional information within...
Complex spatiotemporal gene expression patterns direct the development of the fertilized egg into an...
We build an image analysis toolbox for high-throughput Drosophila embryo RNAi screens. The goal is t...
<p><b>Copyright information:</b></p><p>Taken from "Automatic image analysis for gene expression patt...
BackgroundTo accurately describe gene expression and computationally model animal transcriptional ne...
Abstract Background Drosophila gene expression pattern images document the spatiotemporal dynamics o...
In this work we propose a system for automatic classi-fication of Drosophila embryos into developmen...
The first 14 mitotic cycles in Drosophila result in a single layer of nuclei surrounding a yolk sac ...
Proper metazoan development requires that genes are expressed in a spatiotemporally controlled manne...
MOTIVATION: Microarray profiling of mRNA abundance is often ill suited for temporal-spatial analysis...
Abstract. It is well known, that organism of animal, consisting of many billions cells, is formed by...
Motivation: Deciphering the regulatory and developmental mechanisms for multicellular organisms requ...
A suite of methods that provide the first quantitative three-dimensional description of gene express...
ABSTRACT: BACKGROUND: Cell and tissue specific gene expression is a defining feature of embryonic de...
In vivo study of embryonic morphogenesis tremendously benefits from recent advances in live microsco...
During animal development, complex patterns of gene expression provide positional information within...
Complex spatiotemporal gene expression patterns direct the development of the fertilized egg into an...
We build an image analysis toolbox for high-throughput Drosophila embryo RNAi screens. The goal is t...
<p><b>Copyright information:</b></p><p>Taken from "Automatic image analysis for gene expression patt...
BackgroundTo accurately describe gene expression and computationally model animal transcriptional ne...