Bioinformatics Vol. 16 no. 2 2000
Pages 79-95
© 2000 Oxford University Press
The complexities of genome analysis, the Retroid agent perspective
1 Department of Microbiology and Center for Computational Biology, Montana State University, Bozeman, MT, USA
Motivation: The sequences of Retroid agents from a wide diversity of organisms constitute the largest set of complete genomes currently available for the study of genomic architecture and the transfer of information within and between organisms. These agents are ubiquitous in Eukaryotes, comprising 50–90% of the genomic information in some cases.
Results: Analyses conducted for over a decade illustrate that Retroid agents are engaged in a wide spectrum of molecular evolutionary events. A description of these complexities is presented as a three parameter conceptual framework that considers type, size, and mechanism of events that contribute to the evolution of genes, genomes, and organisms. The results of new data mining studies further illustrate the complexity of the network of relationships among and between Retroid agents and other organisms. A hidden Markov model construction strategy is presented that generates a multiple alignment more similar to those refined by human experts.
Contact: mars{at}parvati.msu.montana.edu
Received on February 23, 1999
; revised on June 15, 1999
; accepted on June 29, 1999
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