Commentaires
Dibamidés et Gekkotiens - Les trois relations possibles entre ces clades et le reste des Squamates sont retrouvées dans les études récentes : le groupe frère de tous les autres Squamates est soit les Dibamidés, soit les Gekkotiens, soit un clade (Dibamidés, Gekkotiens).
Lacertoïdés - Les Lacertoïdés contiennent notamment les Lacertidés (lézards vrais), les Amphisbaeniens, les Gymnophtalmidés et les Téiidés.
Références (10 dernières années)
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Gable S, Mendez J, Bushroe N, Wilson A, Byars M & Tollis M (2023) The state of Squamate genomics: past, present, and future of genome research in the most speciose terrestrial vertebrate order. Genes, 14: 1387
Gemell NJ, Rutherford K, Prost S, Tollis M, Winter D, Macey JR, Adelson DL, Suh A, Bertozzi T, Grau JH et al. (2020) The tuatara genome reveals ancient features of amniote evolution. Nature, 584: 403-409
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Mount GG & Brown JM (2022) Comparing likelihood ratios to understand genome-wide variation in phylogenetic support. Sytematic Biology, 71: 973-985
Simões T, Tollis M & Burbrink F (2025) Origin and early evolution of Squamates and their kin: from fossils to genomes. Annual Review of Ecology, Evolution and Systematics, 56: 265-290
Singhal S, Grundler M, Colli G & Rabosky DL (2017) Squamate Conserved Loci (SqCL): A unified set of conserved loci for phylogenomics and population genetics of squamate reptiles. Molecular Ecology Resources, 1-13
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Streicher JW & Wiens JJ (2017) Phylogenomic analyses of more than 4000 nuclear loci resolve the origin of snakes among lizard families. Biology Letters, 13: 20170393
Zheng Y & Wiens JJ (2016) Combining phylogenomic and supermatrix approaches, and a time-calibrated phylogeny for squamate reptiles (lizards and snakes) based on 52 genes and 4162 species. Molecular Phylogenetics and Evolution, 94: 537-547