Add to ORKGMultiphoton excitation is a process in which two or more photons are absorbed nearly simultaneously by a target molecule in order to excite an electron to a higher energy state. The Shear lab uses a mode-locked, Ti:S, femtosecond pulse laser system to initiate multiphoton excitation of a particular class of molecule called a photosensitizer, which undergoes a chemical reaction in the process of releasing energy. As the laser scans over a small volume of photosensitizer and protein in a buffer solution, the photosensitizer produces high-energy free radicals which diffuse and cause covalent crosslinking between the proteins to occur, creating a crosslinked solid structure within the focal volume. Because this reaction happens only wi...
Protein micropatterning is a powerful tool for studying the effects of extracellular signals on cell...
As ubiquitous and diverse biopolymers, proteins are dynamic molecules that are constantly engaging i...
Protein micropatterning is a powerful tool for studying the effects of extracellular signals on cell...
Micron-scale protein cross-linking or microfabrication has been carried out using an Nd3+–YAG laser ...
Several recent improvements in microscopy have been driven by advances in ultrafast laser technology...
textLaser-based techniques have become essential tools for probing biological molecules in systems t...
This study reports the pico- and femtosecond laser-induced photocrosslinking of protein microstructu...
Two-photon excitation photochemical crosslinking is an efficient and rapid approach to freely fabric...
Poster PresentationPhotochemical crosslinking is effective in enhancing long-term stability of prote...
This work develops a two-pronged approach to using multiphoton microscopy for the study of protein f...
[EN] The properties of triplet excited states are markedly medium-dependent, which turns this specie...
Single-molecule fluorescence imaging is often incompatible with physiological protein concentrations...
textTo understand the chemistry of life processes in detail is largely a challenge of resolving them...
textUnderstanding microscale biological processes as cells develop into tissues is one of the most i...
Despite the remarkable progress in micro/nano-scale fabrication that has occurred over the last deca...
Protein micropatterning is a powerful tool for studying the effects of extracellular signals on cell...
As ubiquitous and diverse biopolymers, proteins are dynamic molecules that are constantly engaging i...
Protein micropatterning is a powerful tool for studying the effects of extracellular signals on cell...
Micron-scale protein cross-linking or microfabrication has been carried out using an Nd3+–YAG laser ...
Several recent improvements in microscopy have been driven by advances in ultrafast laser technology...
textLaser-based techniques have become essential tools for probing biological molecules in systems t...
This study reports the pico- and femtosecond laser-induced photocrosslinking of protein microstructu...
Two-photon excitation photochemical crosslinking is an efficient and rapid approach to freely fabric...
Poster PresentationPhotochemical crosslinking is effective in enhancing long-term stability of prote...
This work develops a two-pronged approach to using multiphoton microscopy for the study of protein f...
[EN] The properties of triplet excited states are markedly medium-dependent, which turns this specie...
Single-molecule fluorescence imaging is often incompatible with physiological protein concentrations...
textTo understand the chemistry of life processes in detail is largely a challenge of resolving them...
textUnderstanding microscale biological processes as cells develop into tissues is one of the most i...
Despite the remarkable progress in micro/nano-scale fabrication that has occurred over the last deca...
Protein micropatterning is a powerful tool for studying the effects of extracellular signals on cell...
As ubiquitous and diverse biopolymers, proteins are dynamic molecules that are constantly engaging i...
Protein micropatterning is a powerful tool for studying the effects of extracellular signals on cell...