TY - JOUR
T1 - Colorful seashells: Identification of haem pathway genes associated with the synthesis of porphyrin shell color in marine snails
AU - Williams, Suzanne T.
AU - Lockyer, Anne E.
AU - Dyal, Patricia
AU - Nakano, Tomoyuki
AU - Churchill, Celia K. C.
AU - Speiser, Daniel I.
N1 - KAUST Repository Item: Exported on 2020-10-01
Acknowledged KAUST grant number(s): CRG-1-2012-BER-002, 59130357
Acknowledgements: We are very grateful to Piotr Kuklinski for collecting and preserving Calliostoma zizyphinum and for the photograph of the living animal; Gustav Paulay for collecting Clanculus pharaonius in Saudi Arabia while at KAUST and Michael Berumen and Joey DiBattista for the invitation to STW to visit KAUST. We also thank Lisa Smith and Kevin Hopkins for expert help in the laboratory and Harry Taylor for photographs of specimens. We thank Chiho Ikebe for discussions about qPCR and Menno Schilthuizen, Tim Littlewood, Ana Riesgo, Andrew Parker, David Reid, John Taylor, and Alfried Vogler for comments on text that predated this manuscript and three anonymous reviewers for helpful comments. Finally, we gratefully acknowledge funding from the Life Sciences Department at the Natural History Museum, London, and support from Todd Oakley and the Oakley Laboratory at the University of California Santa Barbara, as well as UCSB's Center for Scientific Computing at the CNSI and MRL. UCSB's Center for Scientific Computing at the CNSI and MRL was a recipient of NSF MRSEC DMR-1121053 and NSF CNS-0960316. DIS was supported by NSF EAGER-10457 and NSF DEB-1355230. STW's visit to KAUST was funded by KAUST awards CRG-1-2012-BER-002 and 59130357 (to M.L. Berumen).
This publication acknowledges KAUST support, but has no KAUST affiliated authors.
PY - 2017/10/30
Y1 - 2017/10/30
N2 - Very little is known about the evolution of molluskan shell pigments, although Mollusca is a highly diverse, species rich, and ecologically important group of animals comprised of many brightly colored taxa. The marine snail genus Clanculus was chosen as an exceptional model for studying the evolution of shell color, first, because in Clanculus margaritarius and Clanculus pharaonius both shell and foot share similar colors and patterns; and second, because recent studies have identified the pigments, trochopuniceus (pink-red), and trochoxouthos (yellow-brown), both comprised of uroporphyrin I and uroporphyrin III, in both shell and colored foot tissue of these species. These unusual characteristics provide a rare opportunity to identify the genes involved in color production because, as the same pigments occur in the shell and colored foot tissue, the same color-related genes may be simultaneously expressed in both mantle (which produces the shell) and foot tissue. In this study, the transcriptomes of these two Clanculus species along with a third species, Calliostoma zizyphinum, were sequenced to identify genes associated with the synthesis of porphyrins. Calliostoma zizyphinum was selected as a negative control as trochopuniceus and trochoxouthos were not found to occur in this species. As expected, genes necessary for the production of uroporphyrin I and III were found in all three species, but gene expression levels were consistent with synthesis of uroporphyrins in mantle and colored foot tissue only in Clanculus. These results are relevant not only to understanding the evolution of shell pigmentation in Clanculus but also to understanding the evolution of color in other species with uroporphyrin pigmentation, including (mainly marine) mollusks soft tissues and shells, annelid and platyhelminth worms, and some bird feathers.
AB - Very little is known about the evolution of molluskan shell pigments, although Mollusca is a highly diverse, species rich, and ecologically important group of animals comprised of many brightly colored taxa. The marine snail genus Clanculus was chosen as an exceptional model for studying the evolution of shell color, first, because in Clanculus margaritarius and Clanculus pharaonius both shell and foot share similar colors and patterns; and second, because recent studies have identified the pigments, trochopuniceus (pink-red), and trochoxouthos (yellow-brown), both comprised of uroporphyrin I and uroporphyrin III, in both shell and colored foot tissue of these species. These unusual characteristics provide a rare opportunity to identify the genes involved in color production because, as the same pigments occur in the shell and colored foot tissue, the same color-related genes may be simultaneously expressed in both mantle (which produces the shell) and foot tissue. In this study, the transcriptomes of these two Clanculus species along with a third species, Calliostoma zizyphinum, were sequenced to identify genes associated with the synthesis of porphyrins. Calliostoma zizyphinum was selected as a negative control as trochopuniceus and trochoxouthos were not found to occur in this species. As expected, genes necessary for the production of uroporphyrin I and III were found in all three species, but gene expression levels were consistent with synthesis of uroporphyrins in mantle and colored foot tissue only in Clanculus. These results are relevant not only to understanding the evolution of shell pigmentation in Clanculus but also to understanding the evolution of color in other species with uroporphyrin pigmentation, including (mainly marine) mollusks soft tissues and shells, annelid and platyhelminth worms, and some bird feathers.
UR - http://hdl.handle.net/10754/626681
UR - http://doi.wiley.com/10.1002/ece3.3552
UR - http://www.scopus.com/inward/record.url?scp=85032738966&partnerID=8YFLogxK
U2 - 10.1002/ece3.3552
DO - 10.1002/ece3.3552
M3 - Article
SN - 2045-7758
VL - 7
SP - 10379
EP - 10397
JO - Ecology and Evolution
JF - Ecology and Evolution
IS - 23
ER -