Heterochromatic sequences in a Drosophila whole-genome shotgun assembly

Most eukaryotic genomes include a substantial repeat-rich fraction termed heterochromatin, which is concentrated in centric and telomeric regions. The repetitive nature of heterochromatic sequence makes it difficult to assemble and analyze. To better understand the heterochromatic component of the D...

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Published inGenome biology Vol. 3; no. 12; p. RESEARCH0085
Main Authors Hoskins, Roger A, Smith, Christopher D, Carlson, Joseph W, Carvalho, A Bernardo, Halpern, Aaron, Kaminker, Joshua S, Kennedy, Cameron, Mungall, Chris J, Sullivan, Beth A, Sutton, Granger G, Yasuhara, Jiro C, Wakimoto, Barbara T, Myers, Eugene W, Celniker, Susan E, Rubin, Gerald M, Karpen, Gary H
Format Journal Article
LanguageEnglish
Published England BioMed Central Ltd 01.01.2002
BioMed Central
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Summary:Most eukaryotic genomes include a substantial repeat-rich fraction termed heterochromatin, which is concentrated in centric and telomeric regions. The repetitive nature of heterochromatic sequence makes it difficult to assemble and analyze. To better understand the heterochromatic component of the Drosophila melanogaster genome, we characterized and annotated portions of a whole-genome shotgun sequence assembly. WGS3, an improved whole-genome shotgun assembly, includes 20.7 Mb of draft-quality sequence not represented in the Release 3 sequence spanning the euchromatin. We annotated this sequence using the methods employed in the re-annotation of the Release 3 euchromatic sequence. This analysis predicted 297 protein-coding genes and six non-protein-coding genes, including known heterochromatic genes, and regions of similarity to known transposable elements. Bacterial artificial chromosome (BAC)-based fluorescence in situ hybridization analysis was used to correlate the genomic sequence with the cytogenetic map in order to refine the genomic definition of the centric heterochromatin; on the basis of our cytological definition, the annotated Release 3 euchromatic sequence extends into the centric heterochromatin on each chromosome arm. Whole-genome shotgun assembly produced a reliable draft-quality sequence of a significant part of the Drosophila heterochromatin. Annotation of this sequence defined the intron-exon structures of 30 known protein-coding genes and 267 protein-coding gene models. The cytogenetic mapping suggests that an additional 150 predicted genes are located in heterochromatin at the base of the Release 3 euchromatic sequence. Our analysis suggests strategies for improving the sequence and annotation of the heterochromatic portions of the Drosophila and other complex genomes.
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ISSN:1474-760X
1465-6906
1474-760X
1465-6914
DOI:10.1186/gb-2002-3-12-research0085