Identification of novel genes affecting mesoderm formation and morphogenesis through an enhanced large scale functional screen in Xenopus

The formation of mesoderm is an important developmental process of vertebrate embryos, which can be broken down into several steps; mesoderm induction, patterning, morphogenesis and differentiation. Although mesoderm formation in Xenopus has been intensively studied, much remains to be learned about...

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Bibliographic Details
Published in:Mechanisms of development 2005-03, Vol.122 (3), p.307-331
Main Authors: Chen, Jun-An, Voigt, Jana, Gilchrist, Mike, Papalopulu, Nancy, Amaya, Enrique
Format: Article
Language:English
Subjects:
Animals
Apoptosis
Body Patterning
Cell Lineage
Cloning, Molecular
DNA, Complementary - metabolism
DNA-Binding Proteins - metabolism
Embryonic Development
Expressed Sequence Tags
Functional genomics
Gain-of-function screen
Galactosides - metabolism
Gastrulation
Gene Expression Regulation, Developmental
Genetic Techniques
Genetic Testing
In Situ Hybridization
Indoles - metabolism
Mesoderm
Mesoderm - metabolism
Models, Biological
Morphogenesis
Multigene Family
Muscle Proteins - metabolism
Myogenic Regulatory Factor 5
Patterning
Phenotype
RNA - metabolism
RNA, Messenger - metabolism
T-Box Domain Proteins - metabolism
Trans-Activators - metabolism
Transcription, Genetic
Xenopus
Xenopus - genetics
Xenopus Proteins
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Summary:The formation of mesoderm is an important developmental process of vertebrate embryos, which can be broken down into several steps; mesoderm induction, patterning, morphogenesis and differentiation. Although mesoderm formation in Xenopus has been intensively studied, much remains to be learned about the molecular events responsible for each of these steps. Furthermore, the interplay between mesoderm induction, patterning and morphogenesis remains obscure. Here, we describe an enhanced functional screen in Xenopus designed for large-scale identification of genes controlling mesoderm formation. In order to improve the efficiency of the screen, we used a Xenopus tropicalis unique set of cDNAs, highly enriched in full-length clones. The screening strategy incorporates two mesodermal markers, Xbra and Xmyf-5, to assay for cell fate specification and patterning, respectively. In addition we looked for phenotypes that would suggest effects in morphogenesis, such as gastrulation defects and shortened anterior–posterior axis. Out of 1728 full-length clones we isolated 82 for their ability to alter the phenotype of tadpoles and/or the expression of Xbra and Xmyf-5. Many of the clones gave rise to similar misexpression phenotypes (synphenotypes) and many of the genes within each synphenotype group appeared to be involved in similar pathways. We determined the expression pattern of the 82 genes and found that most of the genes were regionalized and expressed in mesoderm. We expect that many of the genes identified in this screen will be important in mesoderm formation.
ISSN:0925-4773
1872-6356
DOI:10.1016/j.mod.2004.11.008