Telling the Evolutionary Time: Molecular Clocks and the Fossil Record

(Grace) #1

Pawlowski, J., Bolivar, L., Fahrni, J., de Vargas, C. and Bowser, S.S. (1999) ‘Molecular evidence
that Reticulomyxa filosa is a freshwater naked foraminifer’, Journal of Eukaryotic Microbiology, 46:
612–17.
Pawlowski, J., Fahrni, J.F., Brykczynska, U., Habura, A. and Bowser, S.S. (2002) ‘Molecular data
reveal high taxonomic diversity of allogromiid Foraminifera in Explorers Cove (McMurdo
Sound, Antarctica)’, Polar Biology, 25:96–105.
Philippe, H., Chenuil, A. and Adoutte, A. (1994) ‘Can the Cambrian explosion be inferred through
molecular phylogeny?’, in M.Akam, P.W.H.Holland, P.W.Ingham and G.A.Wray (eds)
Development 1994 Supplement, Cambridge, MA: The Company of Biologists Limited,
pp. 15–25.
Ragan, M.A., Bird, C.J., Rice, E.L., Gutell, R.R., Murphy, C.A. and Singh, R.K. (1994) ‘A
molecular phylogeny of the marine red algae (Rhodophyta) based on the nuclear small-subunit
rRNA gene’, Proceedings of the National Academy of Sciences, USA, 91:7276–80.
Rambaut, A. and Bromham, L. (1998) ‘Estimating divergence dates from molecular sequences’,
Molecular Biology and Evolution, 15:442–8.
Robinson-Rechavi, M. and Huchon, D. (2000) ‘RRTree: relative-rate tests between groups of
sequences on a phylogenetic tree’, Bioinformatics, 16:296–7.
Rodríguez-Trelles, F., Tarrío, R. and Ayala, F.J. (2001) ‘Xanthine dehydrogenase (XDH): episodic
evolution of a “neutral” protein’, Journal of Molecular Evolution, 53:485–95.
Ross, C.A. and Ross, J.R.P. (1991) ‘Paleozoic Foraminifera’, Biosystems, 25:39–51.
Smith, A.B., Lafay, B. and Christen, R. (1992) ‘Comparative variation of morphological and
molecular evolution through geologic time: 28S ribosomal RNA versus morphology in
echinoids’, Philosophical Transactions of the Royal Society, London, B338:365–82.
Sogin, M. (1997) ‘History assignment: when was the mitochondrion founded?’, Current Opinion in
Genetics and Development, 7:792–9.
Sorhannus, U. (1996) ‘Higher ribosomal RNA substitution rates in Bacillariophyceae and
Dasycladales than in Mollusca, Echinodermata and Actinistia-Tetrapoda’, Molecular Biology and
Evolution, 13:1032–8.
Van de Peer, Y. and De Wachter, R. (1997) ‘Evolutionary relationships among the eukaryotic crown
taxa taking into account site-to-site rate variation in 18S rRNA’, Journal of Molecular Evolution,
45:619–30.
Van de Peer, Y., Baldauf, S.L., Doolittle, W.F. and Meyer, A. (2000) ‘An updated and
comprehensive rRNA phylogeny of (crown) Eukaryotes based on rate-calibrated evolutionary
distances’, Journal of Molecular Evolution, 51:565–76.
Vossbrinck, C.R., Maddox, J.V., Friedman, S., Debrunner-Vossbrinck, B.A. and Woese, C.R.
(1987) ‘Ribosomal RNA sequence suggests Microsporidia are extremely ancient Eukaryotes’,
Nature, 326:411–14.
Wallis, M. (2000) ‘Episodic evolution of protein hormones: molecular evolution of pituitary
prolactin’, Journal of Molecular Evolution, 50:465–73.
—— (2001) ‘Episodic evolution of protein hormones in mammals’, Journal of Molecular Evolution,
53:10–18.
Wallis, O.C., Zhang, Y.P. and Wallis, M. (2001) ‘Molecular evolution of GH in primates:
characterisation of the GH genes from slow loris and marmoset defines an episode of rapid
evolutionary change’, Journal of Molecular Endocrinology, 26:249–58.
Wilson, P.A. and Norris, R.D. (2001) ‘Warm tropical ocean surface and global anoxia during the mid-
Cretaceous period’, Nature, 412:425–9.


120 JAN PAWLOWSKI AND CÉDRIC BERNEY


http://www.ebook3000.com

http://www.ebook3000.com - Telling the Evolutionary Time: Molecular Clocks and the Fossil Record - free download pdf - issuhub">
Free download pdf