Samera Mulatu, Georgia Southern University
Findings: My experience at the Fort Johnson REU Program was phenomenal! Towards the end of the program, I was able to retrieve the RXR gene sequences for the Eastern mud snail. While working towards this goal, I was able to get a first hand glimpse of the long and hard steps and techniques taken to retrieve DNA sequences. From generating primers, doing dissections, extracting RNA, making cDNA, and even making PCR products, these listed skills are only just a short list of what I learned during this research experience. Retrieving the RXR gene sequences for the mud snail, was a trial and error process. Sequences were sent in at least five times, and four of those five times did not give good results. This was a big lesson for me, and reminded me that science is a trial and error process because all of it is a learning process.
Now that the RXR gene sequence for the Eastern mud snail was retrieved, the next steps in this project would be to use the sequences to place the mud snail in its proper spot on the phylogenetic tree. Also, now that the gene sequences are retrieved they will be used next fall by Edwina Mathis (a graduate at MUSC who’s doing her research in this topic) and Dr. Demetri Spyropoulos to induce imposex in the Eastern mud snail while exposing the snails to TBT, SPAN 80, and DOSS. Afterwards, they will measure changes in isoform expression.
The significance of the results from this study will hopefully show that mud snail imposex is a sensitive indicator of endocrine disrupting compounds in the environment which may impact human health and the health of other organisms in the ecosystem. This is because high imposex rates in mud snail species could possibly be linked to higher levels of contamination found in that site within the Charleston Harbor. Hopefully this study will further future research on EDCs and their effects on different species.
I would like to give a big thank to Dr. Demetri Spyropoulos for guiding me in my research. Also to the Fort Johnson REU Program, NSF DBI- 1757899, for providing me with the funds to complete this project.
Hotchkiss, A.K, A.G.Leblanc, R.M. Sternberg. 2002. Synchronized expression of Retinoid X Receptor mRNA with Reproductive Tract Recrudescence in an Imposex- Susceptible Mollusc. Environ. Sci Technol. 42: 1345- 1351.
Ravitchandirane, V. S, M.Thangaraj. 2013. Phylogenetic Status of Babylonia Zeylanica (Family Babyloniidae) Based on 18S rRNA GENE FRAGMENT.Annals of West University of Timisoara, ser. Biology. 1(2): 135- 140.
Barron- Vivanco, B.S, D. Dominguez- Ojeda, I.M. Medina- Diaz, A.E. Rojas- Garcia, M.L. Robledo- Marenco. 2014. Exposure to tributyltin chloride induces penis and vas deferns development and increases RXR expression in females of the purple snail (Plicopurpura pansa). Invertebrate Survival Journal. 11: 204-2012.
Horiguchi, T., M. Morita, T. Nishikawa, Y. Ohta, H. Shiraishi. 2007. Retinoid X Receptor gene expression and protein content in tissues of the rock shell Thais clavigera. Aquatic Toxicology. 84: 379-388.