From stop to start: tandem gene arrangement, copy number and trans-splicing sites in the dinoflagellate Amphidinium carterae

From stop to start: tandem gene arrangement, copy number and trans-splicing sites in the dinoflagellate Amphidinium carterae

Dinoflagellate genomes present unique challenges including large size, modified DNA bases, lack of nucleosomes, and condensed chromosomes. EST sequencing has shown that many genes are found as many slightly different variants implying that many copies are present in the genome. As a preliminary surv...

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Bibliographic Details
Published in:PloS one Vol. 3; no. 8; p. e2929
Main Authors: Bachvaroff, Tsvetan R, Place, Allen R
Format: Journal Article
Language:English
Published: United States Public Library of Science 13-08-2008
Public Library of Science (PLoS)
Subjects:
Actin
Alternative Splicing
Amphidinium carterae
Animals
Base Sequence
Biotechnology
Chromosomes
Conserved sequence
Copy number
Deoxyribonucleic acid
Dinoflagellates
Dinoflagellida - classification
Dinoflagellida - genetics
Dinophyceae
DNA
DNA Primers
DNA sequencing
DNA, Protozoan - genetics
Environmental impact
Eukaryotes
Evolutionary Biology/Bioinformatics
Evolutionary Biology/Genomics
Evolutionary Biology/Microbial Evolution and Genomics
Expressed Sequence Tags
Gene Amplification
Gene Rearrangement
Gene sequencing
Genes
Genes, Protozoan
Genetic engineering
Genome, Protozoan
Genomes
Genomics
Introns
Leishmania major
Libraries
Lingulodinium polyedrum
Microorganisms
Molecular Biology/Molecular Evolution
Molecular Biology/Post-Translational Regulation of Gene Expression
Molecular Sequence Data
Muscle proteins
Nucleosomes
Pfiesteria piscicida
Phylogenetics
Phylogeny
Polyadenylation
Polymerase chain reaction
Proteins
Pyrrophycophyta
RNA Splicing - genetics
RNA, Protozoan - genetics
Splicing
Studies
Surveys
Walking
United States > US
Maryland
Baltimore Maryland
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Description
Summary:Dinoflagellate genomes present unique challenges including large size, modified DNA bases, lack of nucleosomes, and condensed chromosomes. EST sequencing has shown that many genes are found as many slightly different variants implying that many copies are present in the genome. As a preliminary survey of the genome our goal was to obtain genomic sequences for 47 genes from the dinoflagellate Amphidinium carterae. A PCR approach was used to avoid problems with large insert libraries. One primer set was oriented inward to amplify the genomic complement of the cDNA and a second primer set would amplify outward between tandem repeats of the same gene. Each gene was also tested for a spliced leader using cDNA as template. Almost all (14/15) of the highly expressed genes (i.e. those with high representation in the cDNA pool) were shown to be in tandem arrays with short intergenic spacers, and most were trans-spliced. Only two moderately expressed genes were found in tandem arrays. A polyadenylation signal was found in genomic copies containing the sequence AAAAG/C at the exact polyadenylation site and was conserved between species. Four genes were found to have a high intron density (>5 introns) while most either lacked introns, or had only one to three. Actin was selected for deeper sequencing of both genomic and cDNA copies. Two clusters of actin copies were found, separated from each other by many non-coding features such as intron size and sequence. One intron-rich gene was selected for genomic walking using inverse PCR, and was not shown to be in a tandem repeat. The first glimpse of dinoflagellate genome indicates two general categories of genes in dinoflagellates, a highly expressed tandem repeat class and an intron rich less expressed class. This combination of features appears to be unique among eukaryotes.
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Conceived and designed the experiments: TRB AP. Performed the experiments: TRB. Analyzed the data: TRB AP. Contributed reagents/materials/analysis tools: AP. Wrote the paper: TRB AP.
Current address: Smithsonian Environmental Research Center, Edgewater, Maryland, United States of America
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0002929