Add to ORKGIt has been observed in azurin [1], plastocyanin, and stellacyanin (unpublished work) that a redox potential shift occurs when these proteins are exposed to non-denaturing concentrations of GuHCl. This shift is caused by a GuHCl-protein complex that interrupts the secondary and/or tertiary structures surrounding the Cu2+ ion. This disruption seems to cause these proteins to conform to a common redox potential. We are currently examining this phenomenon with respect to stellacyanin in an effort to determine if this default redox potential is common throughout the entire cupredoxin family. We are additionally utilizing site directed mutagenesis to probe the Cu2+ coordinating ligands as well as a tryptophan residue (uniquely conserved in all b...
Electrochemical measurements show that there are high-potential states of two copper proteins, Pseud...
The reduction potentials of blue copper sites vary between 180 and about 1000 mV. It has been sugges...
The cupredoxin amicyanin possesses a single tryptophan residue, Trp45. Its fluorescence is quenched ...
Stellacyanin is a small blue copper protein of unknown biological function. It contains a copper bin...
Detailed electronic and geometric structural descriptions of the blue copper sites in wild-type (WT)...
The metal sites of electron transfer proteins are tuned for function. The type 1 copper site is one ...
Cofactors extend the chemistry of life. Redox reactions in photosynthesis, nitrogen fixation, and ot...
Stellacyanin is a blue copper-binding protein of unknown biological function. We propose to combine ...
Stellacyanin is a mucoprotein of molecular weight approximately 20,000 containing one copper atom in...
AbstractThe metal cofactor determines the thermal stability in cupredoxins, but how the redox state ...
The electronic spectrum of the azurin Met121Gln mutant, a model of the blue copper protein stellacya...
Azurin belongs to a family of small blue copper proteins or cupredoxins which participate in electro...
It is conceivable that eukaryotes posses DNA proof-reading proteins that sense the difference in con...
The goal of this research is to study the role tryptophan 48 plays in the oxidation-reduction chemis...
Complete assignments of the electronic spectra of stellacyanin, plastocyanin, and azurin have been m...
Electrochemical measurements show that there are high-potential states of two copper proteins, Pseud...
The reduction potentials of blue copper sites vary between 180 and about 1000 mV. It has been sugges...
The cupredoxin amicyanin possesses a single tryptophan residue, Trp45. Its fluorescence is quenched ...
Stellacyanin is a small blue copper protein of unknown biological function. It contains a copper bin...
Detailed electronic and geometric structural descriptions of the blue copper sites in wild-type (WT)...
The metal sites of electron transfer proteins are tuned for function. The type 1 copper site is one ...
Cofactors extend the chemistry of life. Redox reactions in photosynthesis, nitrogen fixation, and ot...
Stellacyanin is a blue copper-binding protein of unknown biological function. We propose to combine ...
Stellacyanin is a mucoprotein of molecular weight approximately 20,000 containing one copper atom in...
AbstractThe metal cofactor determines the thermal stability in cupredoxins, but how the redox state ...
The electronic spectrum of the azurin Met121Gln mutant, a model of the blue copper protein stellacya...
Azurin belongs to a family of small blue copper proteins or cupredoxins which participate in electro...
It is conceivable that eukaryotes posses DNA proof-reading proteins that sense the difference in con...
The goal of this research is to study the role tryptophan 48 plays in the oxidation-reduction chemis...
Complete assignments of the electronic spectra of stellacyanin, plastocyanin, and azurin have been m...
Electrochemical measurements show that there are high-potential states of two copper proteins, Pseud...
The reduction potentials of blue copper sites vary between 180 and about 1000 mV. It has been sugges...
The cupredoxin amicyanin possesses a single tryptophan residue, Trp45. Its fluorescence is quenched ...