Morpholino-based gene knockdown screen of novel genes with developmental function in Ciona intestinalis

doi:10.1242/dev.00847

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First published online 19 November 2003
doi: 10.1242/dev.00847

Development 130, 6485-6495 (2003)
Published by The Company of Biologists 2003

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Morpholino-based gene knockdown screen of novel genes with developmental function in Ciona intestinalis

Lixy Yamada¹^,*, Eiichi Shoguchi²^,*, Shuichi Wada²^,*, Kenji Kobayashi¹^,*, Yasuaki Mochizuki¹^,*, Yutaka Satou¹ and Nori Satoh¹^,2^,

¹ Department of Zoology, Graduate School of Science, Kyoto University, Sakyo-ku, Kyoto 606-8502, Japan
² CREST, Japan Science and Technology Agency, Tokyo, Japan

Author for correspondence (e-mail: satoh{at}ascidian.zool.kyoto-u.ac.jp)

Accepted 2 September 2003

In the present study, we conducted an extensive analysis toidentify novel genes with developmental function among Cionaintestinalis genes discovered by cDNA projects. Translationof a total of 200 genes expressed during embryogenesis was suppressedby using specific morpholino antisense oligonucleotides. Suppressionof the translation of any of 40 genes (one-fifth of the genestested) was thereby shown to cause specific embryonic defects. Mostof these genes have counterpart(s) in mouse and human, suggestingthat the present approach will be useful for identifying candidategenes essential for the development of vertebrates. Suppressionof translation of 14 of these 40 genes resulted in the `disorganizedbody plan' phenotype characterized by gross morphological abnormalitiescaused by early defects in embryogenesis. These genes encodezinc-finger, transmembrane or Pbx homeodomain proteins. The morphologicalfeatures of larvae of this phenotypic class varied accordingto the gene suppressed, suggesting that a distinct developmentalevent such as tissue specification or cell cycle progressionwas affected in each type of larva. Suppression of the remaining26 genes resulted in the `abnormal tail' phenotype. Some ofthese genes encode proteins with known functional structuressuch as Zn-finger and HLH motifs. Twelve genes among them are especiallyinteresting, because their suppression produced defects in the nervoussystem, as demonstrated by the loss of the sensory pigment cellsor palps of the adhesive organ in the knockdown larvae. Theseresults suggest that screening for developmental genes by thereverse genetic approach in Ciona intestinalis embryos is effectivefor identifying novel genes with developmental functions requiredfor the development of chordates.

Key words: Ciona intestinalis, Reverse genetics, Novel genes, Morpholino oligonucleotide, Translational suppression

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