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Molecular characterization and expression analysis of a highly conserved ricemago nashi1homolog

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Mago Nashi, a protein initially shown to be essential in the development of the Drosophila oocyte, is highly conserved among species and shows no homology to any other known cellular proteins. Here we report the nucleotide sequence of a cDNA and a partial gene that encode rice Mago Nashi protein homologs. In addition, we present the tissue-specific expression pattern of mago nashi at the level of RNA and protein. The rice Mago Nashi protein shares at least 73% amino acid identity with all known animal homologs. Genomic DNA gel blot analysis indicates that two copies of the mago nashi gene exist in the rice genome, one of which has identical intron positions to those found in an Arabidopsis homolog. mago nashi is expressed in root, leaf and developing seed tissue as determined by RNA and protein gel blot analysis. Evidence from Drosophila, Caenorhabditis elegans and human studies of Mago Nashi suggests that a major function of this protein is its involvement in RNA localization. The highly conserved amino acid sequence of all Mago Nashi protein homologs across kingdoms suggests that the plant version of this protein may similarly be involved in RNA localization.Key words: development, gene conservation, RNA localization.
Title: Molecular characterization and expression analysis of a highly conserved ricemago nashi1homolog
Description:
Mago Nashi, a protein initially shown to be essential in the development of the Drosophila oocyte, is highly conserved among species and shows no homology to any other known cellular proteins.
Here we report the nucleotide sequence of a cDNA and a partial gene that encode rice Mago Nashi protein homologs.
In addition, we present the tissue-specific expression pattern of mago nashi at the level of RNA and protein.
The rice Mago Nashi protein shares at least 73% amino acid identity with all known animal homologs.
Genomic DNA gel blot analysis indicates that two copies of the mago nashi gene exist in the rice genome, one of which has identical intron positions to those found in an Arabidopsis homolog.
mago nashi is expressed in root, leaf and developing seed tissue as determined by RNA and protein gel blot analysis.
Evidence from Drosophila, Caenorhabditis elegans and human studies of Mago Nashi suggests that a major function of this protein is its involvement in RNA localization.
The highly conserved amino acid sequence of all Mago Nashi protein homologs across kingdoms suggests that the plant version of this protein may similarly be involved in RNA localization.
Key words: development, gene conservation, RNA localization.

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