1. Identification of neural genes usingXenopus DNA microarrays
- Author
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Ken W.Y. Cho, Atsushi Kitayama, Naoto Ueno, Makoto Mochii, Daniel A. Peiffer, Yongchol Shin, Tetsuya Koide, and Arnold Liao
- Subjects
Time Factors ,Microarray ,Xenopus ,In situ hybridization ,Bone morphogenetic protein ,Xenopus laevis ,Animals ,Cloning, Molecular ,In Situ Hybridization ,Body Patterning ,Genes, Dominant ,Oligonucleotide Array Sequence Analysis ,Neurons ,biology ,Reverse Transcriptase Polymerase Chain Reaction ,Wnt signaling pathway ,biology.organism_classification ,Molecular biology ,Chromatin ,Gene Expression Regulation ,Neural Crest ,Bone Morphogenetic Proteins ,RNA ,DNA microarray ,Neural plate ,Neural development ,Signal Transduction ,Developmental Biology - Abstract
To isolate novel genes regulating neural induction, we used a DNA microarray approach. As neural induction is thought to occur by means of the inhibition of bone morphogenetic protein (BMP) signaling, BMP signaling was inhibited in ectodermal cells by overexpression of a dominant-negative receptor. RNAs were isolated from control animal cap explants and from dominant-negative BMP receptor expressing animal caps and subjected to a microarray experiment using newly generated high-density Xenopus DNA microarray chips representing over 17,000 unigenes. We have identified 77 genes that are induced in animal caps after inhibition of BMP signaling, and all of these genes were subjected to whole-mount in situ hybridization analysis. Thirty-two genes showed specific expression in neural tissues. Of the 32, 14 genes have never been linked to neural induction. Two genes that are highly induced by BMP inhibition are inhibitors of Wnt signaling, suggesting that a key step in neural induction is to produce Wnt antagonists to promote anterior neural plate development. Our current analysis also proves that a microarray approach is useful in identifying novel candidate factors involved in neural induction and patterning.
- Published
- 2005
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