Add to ORKGRelatively little is known about the folding and stability of membrane proteins. Conventional thermal or chemical unfolding techniques probe the average behavior of large numbers of molecules and thus cannot resolve co-existing minor and major unfolding pathways and intermediates. Here, I applied single-molecule force measurements based on an atomic force microscope (AFM) to characterize the stability of the membrane protein bacteriorhodopsin (BR). In these mechanical unfolding experiments, an external pulling force played the role of the denaturant and lead to unfolding of the three-dimensional structure of individual proteins. It was found that single BRs unfold step-wise in a well-defined sequence of stable intermediates and in different...
Single-molecule force spectroscopy methods, such as AFM and magnetic tweezers, have proved extremely...
The Atomic Force Microscope (AFM) is a 20 years old instrument that has proven valuable for the ultr...
Single-amino-acid mutations provide quantitative insight into the energetics that underlie the dynam...
Relatively little is known about the folding and stability of membrane proteins. Conventional therma...
AbstractRecent advances in atomic force microscopy allowed globular and membrane proteins to be mech...
AbstractThe folding and stability of transmembrane proteins is a fundamental and unsolved biological...
AbstractThe combination of high-resolution atomic force microscopy imaging and single-molecule force...
AbstractIn the last decade atomic force microscopy has been used to measure the mechanical stability...
AbstractMechanical single-molecule techniques offer exciting possibilities to investigate protein fo...
SummarySelecting an individual membrane protein and probing its mechanical properties has become pos...
Membrane proteins carry great importance in cellular functions, such as nutrient uptake, transport o...
The combination of high-resolution atomic force microscopy imaging and single-molecule force spectro...
Single-molecule force spectroscopy (SMFS) with atomic force microscope (AFM) has advanced our knowle...
Single-molecule force spectroscopy (SMFS) with atomic force microscope (AFM) has advanced our knowle...
Atomic force microscopy (AFM) is a powerful technique that enables to study biological macromolecule...
Single-molecule force spectroscopy methods, such as AFM and magnetic tweezers, have proved extremely...
The Atomic Force Microscope (AFM) is a 20 years old instrument that has proven valuable for the ultr...
Single-amino-acid mutations provide quantitative insight into the energetics that underlie the dynam...
Relatively little is known about the folding and stability of membrane proteins. Conventional therma...
AbstractRecent advances in atomic force microscopy allowed globular and membrane proteins to be mech...
AbstractThe folding and stability of transmembrane proteins is a fundamental and unsolved biological...
AbstractThe combination of high-resolution atomic force microscopy imaging and single-molecule force...
AbstractIn the last decade atomic force microscopy has been used to measure the mechanical stability...
AbstractMechanical single-molecule techniques offer exciting possibilities to investigate protein fo...
SummarySelecting an individual membrane protein and probing its mechanical properties has become pos...
Membrane proteins carry great importance in cellular functions, such as nutrient uptake, transport o...
The combination of high-resolution atomic force microscopy imaging and single-molecule force spectro...
Single-molecule force spectroscopy (SMFS) with atomic force microscope (AFM) has advanced our knowle...
Single-molecule force spectroscopy (SMFS) with atomic force microscope (AFM) has advanced our knowle...
Atomic force microscopy (AFM) is a powerful technique that enables to study biological macromolecule...
Single-molecule force spectroscopy methods, such as AFM and magnetic tweezers, have proved extremely...
The Atomic Force Microscope (AFM) is a 20 years old instrument that has proven valuable for the ultr...
Single-amino-acid mutations provide quantitative insight into the energetics that underlie the dynam...