Abstract
The use of DNA structural information to probe the evolutionary relationships between organisms is based on the variability of these structures with time. The explosion in the ability to extract DNA structural information from a variety of organisms has permitted inferences with respect to the type and tempo of these variations. One form of structural variation, the point mutation, is that which involves the substitution of one nucleotide for another. Point mutations, although common, are not the exclusive means by which DNA structures diverge. An important area of modern molecular biology deals exactly with these more drastic changes in DNA structure, those due to recombinatorial events including gene duplications, transpositions, deletions and insertions of genetic information. A complete description of the time-related divergence of DNA structures in various organisms must account for all forms of DNA structural variability.
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References
Cavender JA, Felsenstein J (1987) Invariants of phylogenies: simple case with discrete states. J Classif 4: 57–71
Cedergren R, LaRue B, Sankoff D, Grosjean H (1981) The evolving tRNA Molecule. CRC Crit Rev iochem 11: 35–104
Cedergren R, Lang BF (1985) Probing fungal mitochondrial evolution with tRNA. BioSyst 18: 263–267
Cedergren R, Gray MW, Abel Y, Sankoff D (1988) The evolutionary relationships among known life forms. J Mol Evol 28: 98–112
Cedergren R, Abel Y, Sankoff D (1990) Normalized Gene Designation Database. Nature 345: 484
Gray MW, Sankoff D, Cedergren R (1984) On the evolutionary descent of organisms and organelles. Nucl Acids Res 12: 5837–5852
Gray MW, Cedergren R, Abel Y, Sankoff D (1989) On the evolutionary origin of the plant mitochondrion and its genome. Proc Natl Acad Sci (USA) 86: 2267–2271
Hori H, Osawa S (1987) Origin and evolution of organisms as deduced from 5s ribosomal RNA sequences. Mol Biol Evol 3. 445–472
Iwabe.N, Kuma K, Hasegawa M, Osawa S, Miyata T (1989) Evolutionary relationship of archaebacteria, eubacteria and eukaryotes inferred from phylogenetic trees of duplicated genes. Proc Natl Acad Sci (USA) 86:9355–9359
Lake JA (1987) A rate-independent technique for analysis of nucleic acid sequences: evolutionary parsimony. Mol Biol Evol 4. 167–191
Leffers H, Kjems J, Ostergaard L, Larsen N, Garrett RA (1987) Evolutionary relationships amongst archaebacteria. A comparative study of a sulphur-dependent extreme thermophile, an extreme halophile and a thermophilic methanogen. J Mol Biol 195: 43–61
Maréchal-Drouard L, Guillemaut P, Grienenberger J-M, Jeannin G, Weil J-H (1985) Sequence and codon recognition of bean mitochondria and chloroplast tRNAsTrp; evidence for a high degree of homology. Nucl Acids Res 13: 4411–4416
Maréchal-Drouard L, Guillemaut P, Cosset A, Arbogast M, Weber F, Weil J-H, Dietrich A (1990) Transfer RNAs of potato mitochondria have different genetic origins. Nucl Acids Res 18: 3689–3696
Nicoghosian K, Bigras M, Sankoff D, Cedergren R (1987) Archetypical features of tRNA families. J Mol Evol 26: 34 1346
Pace NR, Olsen GJ, Woese CR (1986) Ribosomal RNA phylogeny andthe primary lines of evolutionary descent. Cell 45: 325–326
Sankoff D, Cedergren R, Abel D (1990) Genomic Divergence through gene rearrangement. Methods in Enzymol 183: 428–438
Schulman LH and Abelson J (1988) Recent excitement in understanding transfer RNA identity. Science 240: 1591–1592
Yang D, Oyaizu Y, Olsen GJ, Woese CR (1985) Mitochondrial origins. Proc Natl Acad Sci (USA) 82: 4443–4447
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© 1991 Springer-Verlag Berlin Heidelberg
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Cedergren, R., Abel, Y., Sankoff, D. (1991). Evaluating Gene Versus Genome Evolution. In: Hewitt, G.M., Johnston, A.W.B., Young, J.P.W. (eds) Molecular Techniques in Taxonomy. NATO ASI Series, vol 57. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-83962-7_6
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DOI: https://doi.org/10.1007/978-3-642-83962-7_6
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