Add to ORKGMajor urinary protein (MUP) is a pheromone-carrying protein of the lipocalin family. Previous studies by isothermal titration calorimetry (ITC) show that the affinity of MUP for the pheromone 2-methoxy-3-isobutylpyrazine (IBMP) is mainly driven by enthalpy, with a small unfavourable entropic contribution. Entropic terms can be attributed in part to changes in internal motions of the protein upon binding. Slow internal motions can lead to correlated or anti-correlated modulations of the isotropic chemical shifts of carbonyl C′ and amide N nuclei. Correlated chemical shift modulations (CSM/CSM) in MUP have been determined by measuring differences of the transverse relaxation rates of zero- and double-quantum coherences ZQC{C′N} and DQC{C′N}, ...
International audience ; Multiple quantum relaxation in proteins reveals unexpected relationships be...
Myoglobin, a simppe dioxygen-storage protein, is a good laboratory for the investigation of the conn...
In the present study we examine the thermodynamics of binding of two related pyrazine-derived ligand...
AbstractThe mouse major urinary protein (MUP) has proved to be an intriguing test bed for detailed s...
The internal dynamics of recombinant Major Urinary Protein (rMUP) have been investigated by monitori...
Complex networks of protein-ligand interactions underpin cellular function and communication. Diseas...
Molecular Dynamics (MD) and Quartz Crystal Microbalance (QCM) techniques can provide unique insights...
AbstractRecently, two independent 15N NMR relaxation studies indicated that in contrast to the decre...
Cross-correlated fluctuations of isotropic chemical shifts can provide evidence for slow motions in ...
The mouse Major Urinary Proteins (MUPs) contain a conserved β-barrel structure with a characteristic...
In the present study we examine the enthalpy of binding of 2-methoxy-3-isobutylpyrazine (IBMP) to th...
A novel NMR expt. allows one to characterize slow motion in macromols. The method exploits the fact ...
The slowly relaxing local structure (SRLS) approach is applied to <sup>15</sup>N–H relaxation from t...
A simple method designed to measure autorelaxation rates of double- and zero-quantum coherences DQC/...
Protein-ligand interactions are of paramount importance to the field of biochemistry. They are ubiqu...
International audience ; Multiple quantum relaxation in proteins reveals unexpected relationships be...
Myoglobin, a simppe dioxygen-storage protein, is a good laboratory for the investigation of the conn...
In the present study we examine the thermodynamics of binding of two related pyrazine-derived ligand...
AbstractThe mouse major urinary protein (MUP) has proved to be an intriguing test bed for detailed s...
The internal dynamics of recombinant Major Urinary Protein (rMUP) have been investigated by monitori...
Complex networks of protein-ligand interactions underpin cellular function and communication. Diseas...
Molecular Dynamics (MD) and Quartz Crystal Microbalance (QCM) techniques can provide unique insights...
AbstractRecently, two independent 15N NMR relaxation studies indicated that in contrast to the decre...
Cross-correlated fluctuations of isotropic chemical shifts can provide evidence for slow motions in ...
The mouse Major Urinary Proteins (MUPs) contain a conserved β-barrel structure with a characteristic...
In the present study we examine the enthalpy of binding of 2-methoxy-3-isobutylpyrazine (IBMP) to th...
A novel NMR expt. allows one to characterize slow motion in macromols. The method exploits the fact ...
The slowly relaxing local structure (SRLS) approach is applied to <sup>15</sup>N–H relaxation from t...
A simple method designed to measure autorelaxation rates of double- and zero-quantum coherences DQC/...
Protein-ligand interactions are of paramount importance to the field of biochemistry. They are ubiqu...
International audience ; Multiple quantum relaxation in proteins reveals unexpected relationships be...
Myoglobin, a simppe dioxygen-storage protein, is a good laboratory for the investigation of the conn...
In the present study we examine the thermodynamics of binding of two related pyrazine-derived ligand...