Measuring pico-Newton Forces with Lipid Anchors as Force Sensors in Molecular Dynamics Simulations

Binding forces between biomolecules are ubiquitous in nature but sometimes as weak as a few pico-Newtons (pN). In many cases, the binding partners are attached to biomembranes with the help of a lipid anchor. One important example are glycolipids that promote membrane adhesion through weak carbohydrate-carbohydrate binding between adjacent membranes. Here, we use molecular dynamics (MD) simulations to quantify the forces generated by bonds involving membrane-anchored molecules. We introduce a method in which the protrusion of the lipid anchors from the membrane acts as the force sensor. Our results with two different glycolipids reveal binding forces of up to 20 pN and corroborate the recent notion that carbohydrate- carbohydrate interactions are generic rather than specific.

Automated summary

Binding forces between biomolecules are common in nature and can be as weak as a few pico-Newtons (pN). In this study, we used molecular dynamics simulations to measure the forces generated by bonds involving membrane-anchored molecules. Our results demonstrate binding forces of up to 20 pN and support the idea that carbohydrate-carbohydrate interactions are generic.