Jack W. Szostak
Department of Genetics
Department of Molecular Biology
Center for Computational and Integrative Biology
Simches Research Ctr CPZN# 7250
185 Cambridge St
Boston, MA 02114
Lab Members: 7 postdoctoral fellows, 4 graduate students
Visit my lab page here.
My laboratory is interested in the related challenges of understanding the origin of life on the early earth, and constructing synthetic cellular life in the laboratory. Focusing on artificial life frees us to explore novel chemical systems, but what we learn from these systems helps us to understand possible pathways leading to the origin of life. Our basic design for a synthetic cell involves the encapsulation of a spontaneously replicating nucleic acid, which acts as the genetic material, within a spontaneously replicating membrane vesicle, which provides spatial localization. We are using chemical synthesis to make nucleic acids with modified nucleobases and sugar-phosphate backbones. Our goal is generate a nucleic acid system that can replicate accurately and rapidly, without enzymatic assistance. We have developed a membrane vesicle system that allows for repeated growth and division, without the involvement of any biochemical machinery. When we combine the nucleic and membrane systems, we can see limited nucleic acid replication within the membrane vesicles. Once we achieve repeated cycles of replication of the combined system, we expect to see evolutionary forces come into play, leading to the spontaneous emergence of nucleic acid sequences that contribute to the fitness of the artificial cell. We are now considering the kinds of innovations that could most easily arise and confer a selective advantage at the cellular level.
Subject areas for rotation projects:
1) Explore prebiotic nucleic acid replication using a chemical model system.
2) Explore the biophysics of our replicating vesicles.
For a complete listing of publications click here.
Last Update: 8/6/2012