Add to ORKGAuthor Institution: Department of Physics, The Ohio State University, Columbus, OH 43210Myoglobin (Mb), a heme containing protein, is involved in the storage and release of ligands. We report here our studies of resonance energy transfer in Mb using an intrinsic tryptophan (Trp) and the prosthetic heme as an energy transfer pair. With site-directed mutagenesis, we placed one-at-a-time a single Trp donor into four locations on the A-helix. Utilizing the femtosecond up-conversion method, we examined a series of energy transfer dynamics in Mb. A molecular dynamics (MD) simulation was also used to infer structure and dipole orientation fluctuations for specific Trp. Both methodologies were used to characterize the local dynamic nature of...
Conformational fluctuations in proteins were initially invoked to explain the observation that diffu...
The kinetic energy relaxation of photolyzed heme in myoglobin was investigated using molecular dynam...
International audienceDetermining the initial pathway for ultrafast energy redistribution within bio...
Author Institution: Department of Physics, The Ohio State University, Columbus, OH 43210Myoglobin (M...
ii Proteins are dynamical in nature. Their ability to function relies on their overall flexibility. ...
Our recent linear dichroism study of heme transitions (Gryczynski, Z., E. Bucci, and J. Kusba. 1993....
In this paper we demonstrate how the potential energy surface of a protein, which determines its con...
We have studied ultrafast dynamics in two systems: heme proteins and small de novo peptides. Heme re...
The development of optical multidimensional spectroscopic techniques has opened up new possibilities...
The hemoprotein myoglobin is a model system for the study of protein dynamics. We used time-resolved...
Structure and dynamics determine the function of proteins. This contribution discusses two aspects o...
In a previous molecular dynamics simulation study, the kinetic energy relaxation of photolyzed heme ...
Author Institution: Department of Physics, The Ohio-State UniversityHere we report our direct probin...
Over the last half century, myoglobin (Mb) has been an excellent model system to test a number of co...
Molecular dynamics simulations of 2-ns duration were performed on carbonmonoxymyoglobin and deoxymyo...
Conformational fluctuations in proteins were initially invoked to explain the observation that diffu...
The kinetic energy relaxation of photolyzed heme in myoglobin was investigated using molecular dynam...
International audienceDetermining the initial pathway for ultrafast energy redistribution within bio...
Author Institution: Department of Physics, The Ohio State University, Columbus, OH 43210Myoglobin (M...
ii Proteins are dynamical in nature. Their ability to function relies on their overall flexibility. ...
Our recent linear dichroism study of heme transitions (Gryczynski, Z., E. Bucci, and J. Kusba. 1993....
In this paper we demonstrate how the potential energy surface of a protein, which determines its con...
We have studied ultrafast dynamics in two systems: heme proteins and small de novo peptides. Heme re...
The development of optical multidimensional spectroscopic techniques has opened up new possibilities...
The hemoprotein myoglobin is a model system for the study of protein dynamics. We used time-resolved...
Structure and dynamics determine the function of proteins. This contribution discusses two aspects o...
In a previous molecular dynamics simulation study, the kinetic energy relaxation of photolyzed heme ...
Author Institution: Department of Physics, The Ohio-State UniversityHere we report our direct probin...
Over the last half century, myoglobin (Mb) has been an excellent model system to test a number of co...
Molecular dynamics simulations of 2-ns duration were performed on carbonmonoxymyoglobin and deoxymyo...
Conformational fluctuations in proteins were initially invoked to explain the observation that diffu...
The kinetic energy relaxation of photolyzed heme in myoglobin was investigated using molecular dynam...
International audienceDetermining the initial pathway for ultrafast energy redistribution within bio...