Classification and regression tree (CART) analyses of genomic signatures reveal sets of tetramers that discriminate temperature optima of archaea and bacteria

Classification and regression tree (CART) analyses of genomic signatures reveal sets of tetramers that discriminate temperature optima of archaea and bacteria

Classification and regression tree (CART) analysis was applied to genome-wide tetranucleotide frequencies (genomic signatures) of 195 archaea and bacteria. Although genomic signatures have typically been used to classify evolutionary divergence, in this study, convergent evolution was the focus. Tem...

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Veröffentlicht in:Archaea 2008-12, Vol.2008 (3), p.159-167
Hauptverfasser: Dyer, Betsey Dexter, Kahn, Michael J, Leblanc, Mark D
Format: Artikel
Sprache:eng
Schlagworte:
Archaea - classification
Archaea - genetics
Bacteria - classification
Bacteria - genetics
Computational Biology - methods
Evolution, Molecular
Genome, Archaeal
Genome, Bacterial
Genomics
Hot Temperature
Regression Analysis
Repetitive Sequences, Nucleic Acid - genetics
Temperature
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Zusammenfassung:Classification and regression tree (CART) analysis was applied to genome-wide tetranucleotide frequencies (genomic signatures) of 195 archaea and bacteria. Although genomic signatures have typically been used to classify evolutionary divergence, in this study, convergent evolution was the focus. Temperature optima for most of the organisms examined could be distinguished by CART analyses of tetranucleotide frequencies. This suggests that pervasive (nonlinear) qualities of genomes may reflect certain environmental conditions (such as temperature) in which those genomes evolved. The predominant use of GAGA and AGGA as the discriminating tetramers in CART models suggests that purine-loading and codon biases of thermophiles may explain some of the results.
ISSN:1472-3646
1472-3654
DOI:10.1155/2008/829730