Single-molecule mechanical studies of unstable protein building blocks
The most abundant protein on earth, collagen, is the material building block that forms the basis of our connective tissues and the extracellular matrix that surrounds our cells. It performs important structural and mechanical roles, holding our bodies together and helping our tissues to withstand a wide variety of forces. Surprisingly, collagen proteins are structurally unstable at body temperature.
In this talk, which will be aimed at a very general Physics audience, I will introduce some of the fascinating physical properties of the unique triple-helix structure of collagen and will describe how we are using the techniques of atomic force microscopy and centrifuge force microscopy to study these properties, one molecule at a time. Our work is revealing clues as to how stability is encoded within collagen’s sequence, and how collagen’s triple helix balances structural stability with responsiveness to applied force and its chemical and thermal environment.