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Reconstructing phylogeny from RNA secondary structure via simulated evolution

Reconstructing phylogeny from RNA secondary structure via simulated evolution
Reconstructing phylogeny from RNA secondary structure via simulated evolution
DNA sequences of genes encoding functional RNA molecules (e.g., ribosomal RNAs) are commonly used in phylogenetics (i.e. to infer evolutionary history). Trees derived from ribosomal RNA (rRNA) sequences, however, are inconsistent with other molecular data in investigations of deep branches in the tree of life. Since much of te functional constraints on the gene products (i.e. RNA molecules) relate to three-dimensional structure, rather than their actual sequences, accumulated mutations in the gene sequences may obscure phylogenetic signal over very large evolutionary time-scales. Variation in structure, however, may be suitable for phylogenetic inference even under extreme sequence divergence. To evaluate qualitatively the manner in which structural evolution relates to sequence change, we simulated the evolution of RNA sequences under various constraints on structural change.
Fischer, Will
a2ba9f98-f049-4b5e-95a1-8cf82b8cde4c
Geard, Nicholas
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Fischer, Will
a2ba9f98-f049-4b5e-95a1-8cf82b8cde4c
Geard, Nicholas
e9933f78-10b8-4454-8c8d-c2c75e040346

Fischer, Will and Geard, Nicholas (2002) Reconstructing phylogeny from RNA secondary structure via simulated evolution. Santa Fe Institute Complex Systems Summer School 2002, Santa Fe, NM.

Record type: Conference or Workshop Item (Paper)

Abstract

DNA sequences of genes encoding functional RNA molecules (e.g., ribosomal RNAs) are commonly used in phylogenetics (i.e. to infer evolutionary history). Trees derived from ribosomal RNA (rRNA) sequences, however, are inconsistent with other molecular data in investigations of deep branches in the tree of life. Since much of te functional constraints on the gene products (i.e. RNA molecules) relate to three-dimensional structure, rather than their actual sequences, accumulated mutations in the gene sequences may obscure phylogenetic signal over very large evolutionary time-scales. Variation in structure, however, may be suitable for phylogenetic inference even under extreme sequence divergence. To evaluate qualitatively the manner in which structural evolution relates to sequence change, we simulated the evolution of RNA sequences under various constraints on structural change.

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More information

Published date: 2002
Additional Information: Event Dates: June 2002
Venue - Dates: Santa Fe Institute Complex Systems Summer School 2002, Santa Fe, NM, 2002-06-01
Organisations: Electronics & Computer Science
Learn more about Electronics & Computer Science research

Identifiers

Local EPrints ID: 267776
URI: http://eprints.soton.ac.uk/id/eprint/267776
PURE UUID: 4c1d31bc-52f5-475a-824c-9c3bb35a0600

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Date deposited: 13 Aug 2009 10:50
Last modified: 14 Mar 2024 08:58

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Contributors

Author: Will Fischer
Author: Nicholas Geard

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