Publications by authors named "J T Bagnara"
Although the various vertebrate classes, from fishes to mammals are each distinctive, they possess many common features making it important to understand their comparative biology. One general feature that has long commanded interest is the integumental pigmentary system. Thus, much is known about particular pigment cells; however, the basis for some specific colors, such as blue, has escaped the scrutiny of the comparative approach.
View Article and Find Full Text PDFMelanosomes observed in dermal melanophores of adult leaf frogs contain a unique wine red pigment identified as pterorhodin, a pteridine dimer never before found in any vertebrate. This type of melanosome, almost twice as large as the typical eumelanin melanosome, contains a small electron dense core of eumelanin surrounded by a concentric fibrous mass of pterorhodin. Dermal melanophores of larval leaf frogs contain small eumelanin melanosomes that transform at metamorphosis through the gradual accumulation of pterorhodin on the eumelanin surface to form the compound melanosomes of adults.
View Article and Find Full Text PDFFMRFamide is a small neuropeptide present in particular neurons of the basal forebrain and midbrain of the vertebrate groups studied, especially fishes and mammals. In order to assess interspecies variation, the distribution of FMRFamide-like immunoreactivity was studied in the brains of 13 species of amphibian. Although FMRFamide-immunoreactive (IR) terminals occurred throughout much of the brain, IR cell groups were noted in circumscribed regions of the CNS.
View Article and Find Full Text PDFThis is a semi-autobiographical coverage of my research career in pigment cell biology presented in the context of the emergence and growth of the discipline. This anecdotal presentation tells about some historical personages in the field. My undergraduate studies at the University of Rochester are related to my graduate work at the University of Iowa.
View Article and Find Full Text PDF