Showing papers by "Eric H. Davidson published in 2002"
TL;DR: A gene regulatory network that controls the specification of endoderm and mesoderm in the sea urchin embryo is summarized here and reveals specific and general aspects of development, such as how given cells generate their ordained fates in the embryo and why the process moves inexorably forward in developmental time.
Abstract: Development of the body plan is controlled by large networks of regulatory genes. A gene regulatory network that controls the specification of endoderm and mesoderm in the sea urchin embryo is summarized here. The network was derived from large-scale perturbation analyses, in combination with computational methodologies, genomic data, cis-regulatory analysis, and molecular embryology. The network contains over 40 genes at present, and each node can be directly verified at the DNA sequence level by cis-regulatory analysis. Its architecture reveals specific and general aspects of development, such as how given cells generate their ordained fates in the embryo and why the process moves inexorably forward in developmental time.
1,515 citations
TL;DR: The current form of a provisional DNA sequence-based regulatory gene network that explains in outline how endomesodermal specification in the sea urchin embryo is controlled is presented.
346 citations
TL;DR: It is shown how the functions of several GRNs can be considered in mathematical terms, and the resolution of GRNs by both "top down" and "bottom up" approaches are discussed.
Abstract: Summary Developmental processes in complex animals are directed by a hardwired genomic regulatory code, the ultimate function of which is to set up a progression of transcriptional regulatory states in space and time. The code specifies the gene regulatory networks (GRNs) that underlie allmajor developmentalevents.Modelsof GRNs are required for analysis, for experimental manipulation and, most fundamentally, for comprehension of how GRNs work. To model GRNs requires knowledge of both their overall structure, which depends upon linkage amongst regulatory genes, and the modular building blocksofwhichGRNsareheirarchicallyconstructed.The building blocks consist of basic transcriptional control processes executed by one or a few functionally linked genes. We show how the functions of several such buildingblockscanbeconsideredinmathematicalterms, and discuss resolution of GRNs by both ‘‘top down’’ and ‘‘bottom up’’ approaches. BioEssays 24:1118–1129, 2002. 2002 Wiley Periodicals, Inc.
297 citations
TL;DR: An alternative view is discussed, in which the last common PDA had a less complex body plan than is frequently conceived, which alters expectations for Neoproterozoic fossil remains that could illustrate the pathways of bilaterian evolution.
Abstract: Many regulatory genes appear to be utilized in at least superficially similar ways in the development of particular body parts in Drosophila and in chordates. These similarities have been widely interpreted as functional homologies, producing the conventional view of the last common protostome-deuterostome ancestor (PDA) as a complex organism that possessed some of the same body parts as modern bilaterians. Here we discuss an alternative view, in which the last common PDA had a less complex body plan than is frequently conceived. This reconstruction alters expectations for Neoproterozoic fossil remains that could illustrate the pathways of bilaterian evolution.
261 citations
TL;DR: The regulatory network subelement emerging from this work shows how the specificity of micromere function depends on continuing global regulatory interactions, as well as on early localized inputs.
260 citations
TL;DR: Genes that are upregulated by LiCl treatment of sea urchin embryos and/or downregulated by injection into the egg of mRNA encoding an internal fragment of cadherin (Cad) were detected in a differential macroarray screen.
164 citations
TL;DR: The new observations reported in this paper indicate the existence of a diverse and already differentiated cnidarian fauna, long before the Cambrian evolutionary event.
159 citations
TL;DR: Several locally developed software tools that have been used in support of the embryogenesis of the sea urchin are presented and an overview of the process used to build the model of the Strongylocentrotus purpuratus endomesoderm gene network is presented.
121 citations
TL;DR: It is demonstrated that interspecific sequence conservation can provide a systematic guide to the identification of functional cis-regulatory elements within a large expanse of genomic DNA.
105 citations
TL;DR: The results and other data suggest that the brachyury gene transduces information about the state of endodermal specification to genes that modulate morphogenesis and genes that perform terminal functions in the gut.
83 citations
TL;DR: The ultimate aim of the network models discussed here is to represent the regulatory relationships among the genomic control systems of the genes in the network, and to state their functional meaning.
TL;DR: Confocal laser scanning microscopy data collection from a single sea urchin blastula required less than 2 min, thereby allowing gene expression in dozens of embryos to be monitored in parallel with high spatial and temporal resolution.
Abstract: A confocal laser scanning microscopy method has been developed for the quantitation of green fluorescent protein (GFP) as a reporter of gene activity in living three-dimensional structures such as sea urchin and starfish embryos. This method is between 2 and 50 times more accurate than conventional confocal microscopy procedures depending on the localization of GFP within an embryo. By using coinjected Texas red dextran as an internal fluorescent standard, the observed GFP intensity is corrected for variations in laser excitation and fluorescence collection efficiency. To relate the recorded image intensity to the number of GFP molecules, the embryos were lysed gently, and a fluorometric analysis of their contents was performed. Confocal laser scanning microscopy data collection from a single sea urchin blastula required less than 2 min, thereby allowing gene expression in dozens of embryos to be monitored in parallel with high spatial and temporal resolution.