Avian âsubsetâ of global biochemical network of carotenoid metabolism. (PDF 225 kb
How are different carotenoid color phenotypes produced on the same biochemical network? Plumage of h...
Background Recurrence and predictability of evolution are thought to reflect the correspondence betw...
Many animals use carotenoid pigments to produce yellow, orange, and red coloration. In birds, at lea...
Estimated gains and losses of carotenoid compound in relation to their structural position in the ne...
Characteristic of carotenoid metabolic networks for species used in this study. References for Appen...
Diversity of characteristics of metabolic networks producing plumage carotenoid across bird species ...
References to phylogenies used to hierarchically build the topology of the supertree. (PDF 150 kb
Distribution of Robinson-Foulds distances between 10,000 random trees and the molecular-based supert...
(a) Appendix S1: Confirmed enzymatic reactions in the “avian space” of global carotenoid biosynthesi...
BACKGROUND: Resolution of the link between micro- and macroevolution calls for comparing both proces...
Speciesâ binary metabolic networks. This appendix contains binary metabolic networks for each of t...
Sexual selection has resulted in a wide array of ornaments used in mate choice, and such indicator t...
Log GC ratio pairwise comparisons between the avian opsins. The presented p-values are corrected usi...
Network tree of exons 2 (A) and 3 (B) for golden pheasant MHC class I genes. (PDF 4 MB
Establishing metrics of diversification can calibrate the observed scope of diversity within a linea...
How are different carotenoid color phenotypes produced on the same biochemical network? Plumage of h...
Background Recurrence and predictability of evolution are thought to reflect the correspondence betw...
Many animals use carotenoid pigments to produce yellow, orange, and red coloration. In birds, at lea...
Estimated gains and losses of carotenoid compound in relation to their structural position in the ne...
Characteristic of carotenoid metabolic networks for species used in this study. References for Appen...
Diversity of characteristics of metabolic networks producing plumage carotenoid across bird species ...
References to phylogenies used to hierarchically build the topology of the supertree. (PDF 150 kb
Distribution of Robinson-Foulds distances between 10,000 random trees and the molecular-based supert...
(a) Appendix S1: Confirmed enzymatic reactions in the “avian space” of global carotenoid biosynthesi...
BACKGROUND: Resolution of the link between micro- and macroevolution calls for comparing both proces...
Speciesâ binary metabolic networks. This appendix contains binary metabolic networks for each of t...
Sexual selection has resulted in a wide array of ornaments used in mate choice, and such indicator t...
Log GC ratio pairwise comparisons between the avian opsins. The presented p-values are corrected usi...
Network tree of exons 2 (A) and 3 (B) for golden pheasant MHC class I genes. (PDF 4 MB
Establishing metrics of diversification can calibrate the observed scope of diversity within a linea...
How are different carotenoid color phenotypes produced on the same biochemical network? Plumage of h...
Background Recurrence and predictability of evolution are thought to reflect the correspondence betw...
Many animals use carotenoid pigments to produce yellow, orange, and red coloration. In birds, at lea...
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