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Published online before print August 12, 2003, 10.1101/gr.1227803
Genome Res. 13:2203-2212, 2003
©2003 by Cold Spring Harbor Laboratory Press; ISSN 1088-9051/03 $5.00
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Transcript Mapping and Genome Annotation of Ascidian mtDNA Using EST Data

Carmela Gissi and Graziano Pesole1

Dipartimento di Scienze Biomolecolari e Biotecnologie, Università di Milano, Milano, Italy

Mitochondrial transcripts of two ascidian species were reconstructed through sequence assembly of publicly available ESTs resembling mitochondrial DNA sequences (mt-ESTs). This strategy allowed us to analyze processing and mapping of the mitochondrial transcripts and to investigate the gene organization of a previously uncharacterized mitochondrial genome (mtDNA). This new strategy would greatly facilitate the sequencing and annotation of mtDNAs. In Ciona intestinalis, the assembled mt-ESTs covered 22 mitochondrial genes (~12,000 bp) and provided the partial sequence of the mtDNA and the prediction of its gene organization. Such sequences were confirmed by amplification and sequencing of the entire Ciona mtDNA. For Halocynthia roretzi, for which the mtDNA sequence was already available, the inferred mt transcripts allowed better definition of gene boundaries (16S rRNA, ND1, ATP6, and tRNA-Ser genes) and the identification of a new gene (an additional Phe-tRNA). In both species, polycistronic and immature transcripts, creation of stop codons by polyadenylation, tRNA signal processing, and rRNA transcript termination signals were identified, thus suggesting that the main features of mitochondrial transcripts are conserved in Chordata.

Article and publication are at http://www.genome.org/cgi/doi/10.1101/gr.1227803. Article published online before print in August 2003.

1 Corresponding author.
E-MAIL graziano.pesole{at}unimi.it; FAX 39-02-50314912.


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