Pharmacologic manipulation of skin pigmentation.

Skin complexion is among the most recognizable phenotypes between individuals and is mainly determined by the amount and type of melanin pigment deposited in the epidermis. Persons with dark skin complexion have more of a brown/black pigment known as eumelanin in their epidermis whereas those with fair skin complexions have less. Epidermal eumelanin acts as a natural sunblock by preventing incoming UV photons from penetrating into the skin and therefore protects against UV mutagenesis. By understanding the signaling pathways and regulation of pigmentation, strategies can be developed to manipulate skin pigmentation to improve UV resistance and to diminish skin cancer risk.

On Intraspecific and Interspecific Variation in Teleost Scleral Ossification.

Scleral ossicles are bony elements found along the eyes of many fishes, amphibians, and reptiles. These bones provide a superficial layer of support to the eye and may facilitate visual acuity. Previous research has shown that scleral ossicle diversity is generally limited among teleosts, but that scleral ossicles have been lost numerous times among teleosts inhabiting benthopelagic habitats (Franz-Odendaal. Anat Rec 291 (2008) 161-168). In this study, we further investigate these patterns of intraspecific and interspecific variation by examining eyes from multiple individuals of 10 riverine teleosts native to Kentucky as well as one population of the Mexican blind cavefish, Astyanax mexicanus, and by re-analyzing a quantitative database of scleral ossicle number and depth preference from over 100 teleosts using newly resolved teleost phylogenies. Consistent with the limited diversity of most teleost families, we find that intraspecific variation in scleral ossicle number and size is virtually nonexistent among the species sampled, although we do find evidence of additional interspecific variation among the Cyprinodontiformes, as well as dramatic intrapopulation variation among cavefish from Chica Cave. Although our data replicates the negative relationship between scleral ossicle number and the depth preference previously found among teleosts (Franz-Odendaal. Anat Rec 291 (2008) 161-168), even when accounting for phylogenetic relationships, our results further reveal that this relationship is relatively weak. We conclude that further sampling may reveal additional interspecific and even intraspecific variation among some groups of teleosts, and that depth could serve as a proxy for other life history traits that more directly influence teleost scleral ossicle diversity such as prey-capture strategies. Anat Rec, 302:1238-1249, 2019. © 2019 Wiley Periodicals, Inc.