Using partial genomic fosmid libraries for sequencing complete organellar genomes

Using partial genomic fosmid libraries for sequencing complete organellar genomes

Organellar genome sequences provide numerous phylogenetic markers and yield insight into organellar function and molecular evolution. These genomes are much smaller in size than their nuclear counterparts; thus, their complete sequencing is much less expensive than total nuclear genome sequencing, m...

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Bibliographic Details
Published in:BioTechniques Vol. 41; no. 1; pp. 69 - 73
Main Authors: McNeal, Joel R, Leebens-Mack, James H, Arumuganathan, Kathiravetpillai, Kuehl, Jennifer V, Boore, Jeffrey L, DePamphilis, Claude W
Format: Journal Article
Language:English
Published: England Taylor & Francis Group 01-07-2006
Subjects:
DNA - chemistry
DNA - genetics
Evolution, Molecular
Gene Library
Genes, Plant
Genetic Vectors
Genome, Plant
Genomic Library
Genomics
Models, Genetic
Oligonucleotide Array Sequence Analysis
Phylogeny
Plastids - genetics
Plastids - metabolism
Sequence Analysis, DNA
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Summary:Organellar genome sequences provide numerous phylogenetic markers and yield insight into organellar function and molecular evolution. These genomes are much smaller in size than their nuclear counterparts; thus, their complete sequencing is much less expensive than total nuclear genome sequencing, making broader phylogenetic sampling feasible. However; for some organisms, it is challenging to isolate plastid DNA for sequencing using standard methods. To overcome these difficulties, we constructed partial genomic libraries from total DNA preparations of two heterotrophic and two autotrophic angiosperm species using fosmid vectors. We then used macroarray screening to isolate clones containing large fragments of plastid DNA. A minimum tiling path of clones comprising the entire genome sequence of each plastid was selected, and these clones were shotgun-sequenced and assembled into complete genomes. Although this method worked well for both heterotrophic and autotrophic plants, nuclear genome size had a dramatic effect on the proportion of screened clones containing plastid DNA and, consequently, the overall number of clones that must be screened to ensure full plastid genome coverage. This technique makes it possible to determine complete plastid genome sequences for organisms that defy other available organellar genome sequencing methods, especially those for which limited amounts of tissue are available.
ISSN:0736-6205
1940-9818
DOI:10.2144/000112202