Kelly Townsend, Elmhurst College
The problem: Do you like sea turtles? As for me, I have fallen in love with these cute creatures who occupy parts of the ocean. Seeing them pop their heads up or glide through the water always amazes me, but many species are endangered. A lot of effort has gone into saving them since sea turtles play an important role in the marine ecosystem. The marine ecosystem makes up a part of our world that is deeply loved but also threatened. Sea turtles help marine ecosystems function by limiting the amount of seagrass beds and sponges through consumption (McClenachan et al., 2006). Therefore, sea turtles presence in the environmental community is key to ecosystem restoration where their numbers have dropped and seagrass disease has been able to spread and coral overgrowth has increased. In addition, sea turtles also play an important role in ecotourism. Places like Costa Rica, United States, and Australia use sea turtles as a source of income by promoting tourism in areas where they live or nest, offering turtle walks, and selling souvenirs (Campbell, 2003). Since sea turtles act as an important resource for humans, there has been much effort into rehabilitating injured sea turtles and researching them in order to determine better prognostic indicators and courses of treatment. Sea turtles are important to us environmentally and economically, so saving them from going extinct requires the most reliable research and data possible to make that happen
RNA and plasma proteins are both potential indicators for overall organismal health, but they can degrade quickly if not properly stored. Plasma protein concentrations in sea turtles can help wildlife veterinarians diagnose a disease and create a proper treatment plan (Gicking et al., 2004). Therefore, measuring plasma proteins in archived samples can indicate when or if a . particular disease developed in sea turtles. In addition, RNA concentrations and quality are good indicators of general health. High ratios of RNA/DNA has shown indications of increased cellular protein synthesis along with increased growth potential which means the sea turtle is growing properly (Vieira et al., 2014). However, in order to use archived samples to accurately track health indicators such as plasma proteins and RNA, it is vital to know if storage conditions allowed degradation of these molecules.
This study aims to investigate RNA and plasma protein stability at different temperature treatments over periods of time. Samples will be maintained in favorable conditions along with unfavorable conditions to analyze the difference between the qualities. By knowing what happens on a molecular level to blood when storage conditions go wrong, we hope to eliminate the use of low quality samples used in research. Freezers malfunction, people forget to put samples away, and blood may not be put in the proper place so the results of this study will become a reference to those researchers who experience these tragedies.
I would like to thank Dr. Jennifer Lynch, Jennifer Trevillian, and Jennifer Ness with the National Institute of Standards and Technology for being my supportive and awesome mentors. This project was made possible by the samples collected by Dr. Michael Arendt and the funding from the National Science Foundation (NSF DBI-1757899) supported by the Fort Johnson REU program.
Campbell L. 2003. Contemporary culture, use, and conservation of sea turtles. In: Lutz PL, Musick JA, and Wyneken J (Eds). The biology of sea turtles, volume 2. Boca Raton, FL: CRC Press.
Gicking JC, Foley AM, Harr KE, Raskin RE, Jacobson E. 2004. Plasma protein electrophoresis of the atlantic loggerhead sea turtle, Caretta caretta. Herpetological Medicine and Surgery 14:13-18.
McClenachan L, Jackson JBC, Newman MJH. 2006. Conservation implications of historic sea turtle nesting beach loss. Front Ecol Environ 4:290-296.
Vieira S, Martins S, Hawkes LA, Marco A, Teodosio MA. 2014. Biochemical indices and life traits of loggerhead turtles (Caretta caretta) from cape verde islands. PLoS ONE 9:e112181.