Marine molluscs as hosts for symbiosis
1968; Elsevier BV; Volume: 11; Issue: 1 Linguagem: Inglês
10.1016/0022-2011(68)90071-2
ISSN1096-0805
Autores Tópico(s)Marine and fisheries research
ResumoThe ribosomal RNAs (rRNAs) of animal mitochondria, especially those of arthropod mitochondria, have a higher content of G:U and U:G base pairs in their stem regions than the nuclear rRNAs. Thus, the theoretical formulation of base pair changes is extended to incorporate the faster base pair changes A:U↔G:U↔G:C and U:A↔U:G↔C:G into the previous formulation of the slower base pair changes between A:U, G:C, C:G and U:A. The relative base pair change probability containing the faster and slower base pair changes is theoretically derived to estimate the divergence time of rRNAs under the influence of selection for these base pairs. Using the cartilaginous fish–teleost fish divergence and the crustacean–insect divergence as calibration points, the present method successfully predicts the divergence times of the main branches of animals: Deuterostomia and Protostomia diverged 9.2×108 years ago, the divergence of Echinodermata, Hemichordata and Cephalochordata succeedingly occurred during the period from 8×108 to 6×108 years ago, while Arthropoda, Annelida and Mollusca diverged almost concomitantly about 7×108 years ago. The dating for the divergence of Platyhelminthes and Cnidaria is traced back to 1.2×109 years ago. This result is consistent with the fossil records in the Stirling Range Formation of southwestern Australia, the Ediacara and Avalon faunas and the Cambrian Burgess Shale. Thus, the present method may be useful for estimating the divergence times of animals ranging from 108 to 109 years ago, resolving the difficult problems, e.g. deviation from rate constancy and large sampling variances, in the usual methods of treating apparent change rates between individual bases and/or base pairs.
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