Grass Evo-Devo: Growth Suppression and Ancient Genetic Programs in Grass Sex Determination
September 18, 2023 @ 12:10 pm to 01:10 pm
Madelaine Bartlett, University of Massachusetts, Amherst
108 Wartik Laboratory
University Park
Research Summary:
Plants have evolved diverse morphological solutions to diverse ecological problems: cacti survive in deserts, tiny duckweeds float on water, and carnivorous plants get their nitrogen from prey lured into elaborate traps. Despite immense morphological diversity, plants are constructed from homologous organs, using deeply conserved genes. Understanding how the processes of evolution remixed, refashioned, and recast conserved components to generate diversity will provide transformative blueprints and strategies for innovation in synthetic biology, crop engineering, and biomimetics. To get there, we must first understand how complex morphological traits arise and change over deep time. We must also understand how evolutionary change to deeply conserved regulators affects development. The Bartlett lab works to identify the genes that regulate the development of complex traits, define how these genes function together in development, and determine how evolutionary change in these genes affects the evolution of organismal form. We focus specifically on the grasses. The grass family has diversified to occupy almost every terrestrial niche, and dominates ecosystems. Multiple experimental systems in the family allow us to dissect the molecular underpinnings of this diversity, and to reconstruct molecular and morphological evolution of key genes and traits. We integrate genetics, genomics, molecular evolution, and machine learning-enabled quantitative phenotyping to provide an integrative and multi-scale view of evolution. The grass traits I will be discussing in my seminar are the evolution and development of organ elaborations called awns, and the evolution and development of floral sexuality. Both awns and floral sexuality directly impact plant fitness and crop yield. Thus, our work not only reveals the fundamentals of organismal evolution, but has important implications for agriculture.
About the Speaker:
Dr. Bartlett received her BSc in Molecular Biology from the University of the Witwatersrand (South Africa), her PhD in Plant Biology from the University of California Berkeley, and performed postdoctoral research in maize genetics at Brigham Young University before setting up her lab at UMass in 2014. At UMass, Dr. Bartlett has established an innovative research program at the nexus of plant developmental and evolutionary biology. The Bartlett lab integrates cutting-edge technology in imaging, genome editing, and genomics to connect molecular and morphological change in plant evolution. Critically, because of her focus on grasses and grass crops, Dr. Bartlett’s work both reveals the fundamentals of plant developmental evolution, and has translational consequences in agriculture. Her lab’s work has been recognized by multiple awards, including the 2018 Emerging Leader award from the Botanical Society of America, and the 2022 Marcus Rhoades early career award from the Maize Genetics Cooperative.
Contact
Tanya Renner
trenner@psu.edu