Karen Thomson scite author profile

Background: Rare genomic changes (RGCs) that are thought to comprise derived shared characters of individual clades are becoming an increasingly important class of markers in genome-wide phylogenetic studies. Recently, we proposed a new type of RGCs designated RGC_CAMs (after Conserved Amino acids-Multiple substitutions) that were inferred using genome-wide identification of amino acid replacements that were: i) located in unambiguously aligned regions of orthologous genes, ii) shared by two or more taxa in positions that contain a different, conserved amino acid in a much broader range of taxa, and iii) require two or three nucleotide substitutions. When applied to animal phylogeny, the RGC_CAM approach supported the coelomate clade that unites deuterostomes with arthropods as opposed to the ecdysozoan (molting animals) clade. However, a nonnegligible level of homoplasy was detected.

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Preliminary nanopore cheminformatics analysis of aptamer-target binding strength

Thomson

Amin

Morales

et al. 2007

BMC Bioinformatics

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Identification of Zucchini yellow mosaic potyvirus by RT-PCR and analysis of sequence variability

Thomson

Dietzgen

Gibbs

et al. 1995

Journal of Virological Methods

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Karen Thomson

Homoplasy in genome-wide analysis of rare amino acid replacements: the molecular-evolutionary basis for Vavilov's law of homologous series

Preliminary nanopore cheminformatics analysis of aptamer-target binding strength

Identification of Zucchini yellow mosaic potyvirus by RT-PCR and analysis of sequence variability

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