Chromatophores that contain large amounts of yellow pteridine pigments are named xanthophores; those with mainly red/orange carotenoids are termed erythrophores. However, vesicles containing pteridine and carotenoids are sometimes found in the same cell, in which case the overall colour depends on the ratio of red and yellow pigments. Therefore, the distinction between these chromatophore types is not always clear.
Most chromatophores can generate pteridines from guanosine triphosphate, but xanthophores appear to have supplemental biochemical pathways enabling them to accumulate yellow pigment. In contrast, carotenoids are metabolised and transported to erythrophores. This was first demonstrated by rearing normally green frogs on a diet of carotene-restricted crickets. The absence of carotene in the frogs’ diet meant that the red/orange carotenoid colour ‘filter’ was not present in their erythrophores. This made the frogs appear blue instead of green.
The above text is retrieved from the Wikipedia article “Xanthophores and Erythrophores”, which has been released under the GNU Free Documentation License. Text available under the Creative Commons Attribution-ShareAlike License; additional terms may apply.