Research Symposium
26th annual Undergraduate Research Symposium, April 1, 2026
Christian Renken Poster Session 4: 3:00 pm - 4:00 pm / Poster #231
BIO
Christian is majoring in exercise physiology with the goal of attending dental school. He is from Port St. Lucie, Florida and is a member of the FSU Pre-Dental Society and Anne’s College Student Leadership Council.
Searching for Regions Under Selection in Turkeys with Different Levels of Human Association
Authors: Christian Renken, Dr. Amanda BeckmanStudent Major: exercise physiology
Mentor: Dr. Amanda Beckman
Mentor's Department: Biological Sciences Mentor's College: Arts and Sciences Co-Presenters: Amelia Kuehn, Francesco Nicolucci, Vincent Ochoa, Alberto Alonso, Bruno Horbach Schneider
Abstract
Domestication exposes animals to a variety of novel environments, including differences in the diseases they encounter. Studying the evolutionary processes involved in domestication is important as many modern wild animals are experiencing some degree of pressure to adapt to human-dominated landscapes. Major histocompatibility complex (MHC) genes must rapidly evolve as they play an important role in immune responses and are shaped by pathogen exposure. This project investigated selection in wild versus domesticated turkeys (Meleagris gallopavo) and whether the amount of human interaction influences allele frequencies. We used a Whole Genome Sequencing (WGS) dataset of turkeys that experienced different levels of human association (wild, urban, feral, backyard domestic, and commercial domestic populations). After identifying genetic variants, we used VCFtools to analyze allele frequencies on Chromosome 18. We used FST, a measure of population differentiation, to identify regions with the greatest divergence. We expect differences in MHC-related allele frequencies between domesticated and wild turkeys, suggesting human environments influence immune-related genetic variation. Identifying these regions may highlight genomic regions shaped by selection. Overall, this project helps explain how domestication affects immune gene diversity. Future research could analyze additional turkey populations from different environments and examine allele frequencies on other chromosomes. Further work could also explore genomic differences in other domesticated avian species to better understand the impact of domestication on immune responses.
Keywords: Turkeys, selection, domestication, genomics, association