0000000000314884

AUTHOR

Pedro Andrade

showing 3 related works from this author

Regulatory changes in pterin and carotenoid genes underlie balanced color polymorphisms in the wall lizard

2019

Significance Reptiles show an amazing color diversity based on variation in melanins, carotenoids, and pterins. This study reveals genes controlling differences between three color morphs (white, orange, and yellow) in the common wall lizard. Orange pigmentation, due to high levels of orange/red pterins in skin, is caused by genetic changes in the sepiapterin reductase gene. Yellow skin, showing high levels of yellow carotenoids, is controlled by the beta-carotene oxygenase 2 locus. Thus, the color polymorphism in the common wall lizard is associated with changes in two small regions of the genome containing genes with crucial roles in pterin and carotenoid metabolism. These genes are likel…

balanced polymorphismBalanced polymorphismgenetic structuresEvolutionIntrogressionintrogressionColorpterin pigmentationSkin PigmentationDioxygenasesEvolutionsbiologiGeneticAnimalscarotenoid pigmentationPolymorphismPterin pigmentationEvolutionary BiologyPolymorphism GeneticBalanced polymorphism; Carotenoid pigmentation; Introgression; Podarcis muralis; Pterin pigmentation; Alcohol Oxidoreductases; Animals; Carotenoids; Color; Dioxygenases; Lizards; Pigmentation; Polymorphism Genetic; Pterins; Skin PigmentationPigmentationLizardsBiological SciencesCarotenoidsPterinsAlcohol OxidoreductasesPNAS PlusCarotenoid pigmentationPodarcis muralissense organs
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Epistatic interactions between pterin and carotenoid genes modulate intra-morph color variation in a lizard.

2021

Color polymorphisms have become a major topic in evolutionary biology and substantial efforts have been devoted to the understanding of the mechanisms responsible for originating such colorful systems. Within-morph continuous variation, on the other hand, has been neglected in most of the studies. Here, we combine spectrophotometric/visual modeling and genetic data to study the mechanisms promoting continuous variation within categorical color morphs of Podarcis muralis. Our results suggest that intra-morph variability in the pterin-based orange morph is greater compared to white and yellow morphs. We also show that continuous variation within the orange morph is partially discriminable by …

animal structuresgenetic structuresColorLocus (genetics)Biologychemistry.chemical_compoundbiology.animalAnimalsPterinAllelereproductive and urinary physiologyPolymorphism GeneticLizardPigmentationfungiLizardsbiology.organism_classificationBiological EvolutionCarotenoidsPterinsWhite (mutation)Podarcis muralisVariation (linguistics)chemistryEvolutionary biologyEpistasisAnimal Science and Zoologypsychological phenomena and processesIntegrative zoologyREFERENCES
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Regulatory Changes in Pterin and Carotenoid Genes Underlie Balanced Color Polymorphisms in the Wall Lizard

2018

ABSTRACTReptiles use pterin and carotenoid pigments to produce yellow, orange, and red colors. These conspicuous colors serve a diversity of signaling functions, but their molecular basis remains unresolved. Here, we show that the genomes of sympatric color morphs of the European common wall lizard, which differ in orange and yellow pigmentation and in their ecology and behavior, are virtually undifferentiated. Genetic differences are restricted to two small regulatory regions, near genes associated with pterin (SPR) and carotenoid metabolism (BCO2), demonstrating that a core gene in the housekeeping pathway of pterin biosynthesis has been co-opted for bright coloration in reptiles and indi…

chemistry.chemical_classificationgenetic structuresHaplotypeBiologychemistry.chemical_compoundPigmentchemistrySympatric speciationEvolutionary biologyvisual_artGenetic variationvisual_art.visual_art_mediumPterinAlleleCarotenoidGene
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