Sample Preparation using a Lipid Monolayer Method for Electron Crystallographic Studies

“…Additionally, advances in HPF technology allow for the light and electrical stimulation of samples moments before freezing 7 While the improvements in imaging capabilities and sample preparation instruments have been a major driving force behind the advancements in the field of cryoEM, a major hurdle in this research continues to be the hands-on preparation of samples. Truong et al 9 present a method that takes advantage of lipid monolayer formation at the air/ water interface. A lipid layer forms on the TEM grid and acts as a scaffold for the membrane proteins of interest.…”

CryoEM Status Update and Innovative Developments

“…Additionally, advances in HPF technology allow for the light and electrical stimulation of samples moments before freezing 7 While the improvements in imaging capabilities and sample preparation instruments have been a major driving force behind the advancements in the field of cryoEM, a major hurdle in this research continues to be the hands-on preparation of samples. Truong et al 9 present a method that takes advantage of lipid monolayer formation at the air/ water interface. A lipid layer forms on the TEM grid and acts as a scaffold for the membrane proteins of interest.…”

CryoEM Status Update and Innovative Developments

“…Additionally, advances in HPF technology allow for the light and electrical stimulation of samples moments before freezing 7 While the improvements in imaging capabilities and sample preparation instruments have been a major driving force behind the advancements in the field of cryoEM, a major hurdle in this research continues to be the hands-on preparation of samples. Truong et al 9 present a method that takes advantage of lipid monolayer formation at the air/ water interface. A lipid layer forms on the TEM grid and acts as a scaffold for the membrane proteins of interest.…”

CryoEM Status Update and Innovative Developments