WMU biologist helps settle 50-year-old fish evolution debate
KALAMAZOO, Mich.鈥擥rowing up surrounded by fish tanks and nearby creeks, Dr. Andrew Thompson's passion for aquatic life ignited at an early age. His curiosity led him to spend time learning about different fish species, which eventually paved the way for his career in fish genome research.
Today, as an assistant professor in Western 麻豆传媒应用 University鈥檚 Department of Biological Sciences, Thompson's passion led him to co-author a paper titled 鈥淕enome structures resolve the early diversification of teleost fishes,鈥 recently published in the esteemed journal, Science.
鈥淚t was a relief and exciting to see when it was finally accepted,鈥 says Thompson. 鈥淚t's always a goal to publish in these high-impact journals because they have a lot of readership, so your science is seen by a lot of people from all over the world.鈥
The study sheds new light on a long-standing debate regarding the early evolution of teleost (or 鈥渞ay-finned鈥) fishes. Thompson鈥檚 research confirmed that eels and bony-tongues were the first evolutionary split in teleosts.
鈥淔or years, (researchers) have looked at the DNA sequences, the shape of the animals' bodies and done all these analyses,鈥 says Thompson. 鈥淭hey just keep getting different answers depending on how you look at it.鈥
Thompson sought to finally 鈥渘ail down鈥 the answer about the early evolution of teleost fishes through genome sequencing. Early classifications suggested that the "bony-tongues" were the oldest group, while more recent classifications identified "eels" as the oldest.
鈥淲hen we infer these evolutionary histories, it鈥檚 impossible to know you have the right answer because you can鈥檛 go back in time and see what evolution did,鈥 says Thompson. 鈥淲e can infer them using genetic data.鈥
To finally settle the 50-year debate, the research team sequenced the genomes of several species in the "eel" group, revealing that the "eels" and "bony-tongues" are actually one and the same group, which researchers named "Eloposteoglossocephala." This finding will provide the basis for further studies on the evolution of teleost fishes.
With the age-old teleost debate settled, Thompson is now seeking to understand killifish dormancy. These organisms, which possess embryos that can withstand seasonal dryness, provide unique insight into evolution, development, behavior, cancer and aging. Thompson鈥檚 lab uses them as a model to study the evolution of different traits in harsh environments.
From a childhood hobby in Western Pennsylvania to a professional pursuit of knowledge, Thompson's interest in fish evolution has only grown. He aims to inspire others to find and follow their own passions.
鈥淯se whatever curiosity you have, and your passion for some weird nerdy thing and start early to pursue that,鈥 says Thompson. 鈥淚t鈥檚 never too early to start.鈥
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