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Evolution of viviparity: what can Australian lizards tell us?
引用本文:Thompson MB,Stewart JR,Speake BK,Hosie MJ,Murphy CR. Evolution of viviparity: what can Australian lizards tell us?[J]. Comparative biochemistry and physiology. Part B, Biochemistry & molecular biology, 2002, 131(4): 631-643. DOI: 10.1016/S1096-4959(02)00013-1
作者姓名:Thompson MB  Stewart JR  Speake BK  Hosie MJ  Murphy CR
摘    要:

收稿时间:2001-04-09
修稿时间:2001-09-26

Evolution of viviparity: what can Australian lizards tell us?
Thompson Michael B,Stewart James R,Speake Brian K,Hosie Margot J,Murphy Christopher R. Evolution of viviparity: what can Australian lizards tell us?[J]. Comparative biochemistry and physiology. Part B, Biochemistry & molecular biology, 2002, 131(4): 631-643. DOI: 10.1016/S1096-4959(02)00013-1
Authors:Thompson Michael B  Stewart James R  Speake Brian K  Hosie Margot J  Murphy Christopher R
Affiliation:a School of Biological Sciences and Wildlife Research Institute, Heydon-Laurence Building (A08), University of Sydney, Sydney NSW 2006, Australia;b Department of Biological Sciences, Box 70703, East Tennessee State University, Johnson City, TN 37614, USA;c Department of Biochemistry and Nutrition, Scottish Agricultural College, Ayr KA6 5HW, UK;d Department of Anatomy and Histology, University of Sydney, Sydney NSW 2006, Australia
Abstract:Historically, Australia has been important in the study of, and the development of hypotheses aimed at understanding, the evolution of viviparity in amniote vertebrates. Part of the importance of Australia in the field results from a rich fauna of skinks, including one of the broadest ranges of diversity of placental structures within one geographic region. During the last decade, we have focussed our studies on one lineage, the Eugongylus group of skinks of the subfamily Lygosominae because it contains oviparous species and some that exhibit complex placentae. Our specific objective has been to attempt to understand the fundamental steps required when viviparity, and ultimately complex placentae, evolve from oviparous ancestors. We have taken a three-prong approach: (1) detailed study of the morphology and ontogeny of the placentae of key species at the light microscope level; (2) study of changes in the uterus associated with pregnancy, or the plasma membrane transformation; and (3) measures of the net exchange of nutrients across the placenta or eggshell of key species. In turn, we have found that: (1) details of the morphology and ontogeny of placentae are more complex that originally envisaged, and that the early conclusions about a sequence in the evolution of complex placentae was naïve; (2) a plasma membrane transformation occurs in viviparous, but not oviparous lizards, and thus may be a fundamental feature of the evolution of viviparity in amniotes; and (3) species with more complex chorioallantoic placentae tend to transport more nutrients across the placenta during pregnancy than those with simpler chorioallantoic placentae but, because the correlation is not tight, the importance of the omphaloplacenta in transporting nutrients may have been overlooked. Also, the composition of yolk of highly matrotrophic species is broadly similar, but not identical, to the yolk of oviparous species. Some of the interpretation of our data within the context of our specific objective is not yet possible, pending the publication of a robust phylogeny of Eugongylus group skinks. Once such a phylogeny is available, we are in a position to propose specific hypotheses about the evolution of viviparity that can be tested using another lineage of amniotes, possibly Mabuya group skinks.
Keywords:Placenta   Embryonic nutrition   Placentotrophy   Uterodome   Lipid   Embryo   Plasma membrane   Histology   Lizard
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