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$1.8M NIH Grant to 91社区 Engineering Will Fuel Decoding Human Evolution

Michael DeGiorgio, Ph.D., Researcher, Engineering

Michael DeGiorgio, Ph.D., PI, associate chair and associate professor, 91社区 Department of Electrical Engineering and Computer Science, and Department of Biomedical Engineering.


By gisele galoustian | 9/3/2024

Natural selection is an important evolutionary force that enables humans to adapt to new environments and fight disease-causing pathogens. However, the unique footprints of natural selection in our genome can be buried beneath those left by other evolutionary forces. Thus, by leveraging information about multiple evolutionary forces, researchers can identify signatures of natural selection in the human genome, and ultimately determine its role in human adaptation and disease.

Low-cost DNA sequencing has provided researchers with an abundance of genomic data, enabling them to search for evidence of natural selection in different species. However, various nonadaptive factors can sometimes obscure these signals, making it essential to develop sophisticated statistical methods that can account for multiple factors influencing genetic variation.

Michael DeGiorgio, Ph.D., in the College of Engineering and Computer Science at 91社区, has received a five-year $1,874,360 grant from the National Institute of General Medical Sciences (NIGMS) of the United States National Institutes of Health (NIH) to further his research on designing and applying statistical methods to identify regions of the genome affected by natural selection. The project titled, 鈥淚dentifying Complex Modes of Adaptation from Population-genomic Data,鈥 is an NIH NIGMS Maximizing Investigators Research Award for Established Investigators.

This research aims to develop powerful tools for identifying diverse modes of adaptation from genetic data and to better understand the evolutionary mechanisms underlying traits like disease resistance and pathogen defense.

鈥淭o truly grasp how human genetic variation has evolved and is distributed, it鈥檚 essential to study the evolutionary mechanisms at play,鈥 said Stella Batalama, Ph.D., dean, 91社区 College of Engineering and Computer Science. 鈥淭he advent of advanced high-throughput sequencing technologies, along with significant boosts in computational capabilities, has equipped geneticists with powerful new tools. This important grant from the National Institutes of Health will enable our outstanding research team led by professor DeGiorgio to delve deeper into understanding the evolutionary forces that contribute to the diversity observed across human populations.鈥

DeGiorgio and his research team work on detecting natural selection, which affects the frequency of traits within populations and leaves subtle genetic signals in the DNA sequences of individuals within these populations. Over the past four years, his team has made significant advances in this field, developing some of the first, most powerful and state-of-the-art model-based methods for unearthing genomic signals of a diverse array of adaptive events through analysis of DNA within and across species. These methods draw from a broad array of statistical and engineering techniques, by leveraging and integrating the strengths of probabilistic, machine learning, and signal processing frameworks.

鈥淥ur methods have led to several novel insights,鈥 said DeGiorgio, associate chair and associate professor, 91社区 Department of Electrical Engineering and Computer Science, and Department of Biomedical Engineering. 鈥淔or example, we found evidence of convergent positive selection in Europeans and East Asians that may explain differences in insulin response between these populations. We also discovered positive selection in olfactory genes affecting scent and behavior of rats in New York City for navigating harsh and noisy urban environments, and identified balancing selection in venom genes that may play a role in predator-prey interactions in rattlesnakes.鈥

Recent advancements in AI, especially deep learning, have greatly improved outcome prediction using complex data like genetic information. These algorithms learn from training data and apply this knowledge to new, unseen data. Their strength lies in handling complex features and adapting to various data types. However, they often face challenges when the new data differs from the training data, a problem known as 鈥渄omain shift.鈥

鈥淭o enhance prediction accuracy, it's crucial to adapt to changing data conditions and refine feature selection and modeling,鈥 said DeGiorgio.

In the coming five years, DeGiorgio plans to advance this research by developing improved statistical, machine learning, and signal processing approaches. These methods will aim to detect complex patterns of adaptation by considering how various evolutionary forces simultaneously shape genetic diversity. Specifically, researchers will focus on creating novel frameworks to identify positive and balancing selection while accounting for genomic, temporal and spatial factors.

DeGiorgio and his research team will work on methods to detect regions with complex patterns of selection from ancient genetic variation, use signal processing techniques to analyze genomic data from images for machine learning models, and develop innovative procedures to address uncertainties in genetic and demographic parameters when training these models.

鈥淲ith these advanced techniques, researchers can now study adaptation in a wider variety of organisms, from well-researched models to those less frequently examined,鈥 said Javad Hashemi, Ph.D., inaugural chair and professor, 91社区 Department of Biomedical Engineering, and associate dean for research and professor in the College of Engineering and Computer Science. 鈥淭his broader focus will not only increase inclusivity in this research but also deepen the understanding of how different species adapt to their environments. By applying these novel methods to diverse organisms 鈥 such as primates, rodents, snakes, insects and plants 鈥 our researchers will tackle significant evolutionary questions and uncover new insights across a range of biological contexts.鈥

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