AbstractA 42 amino acid synthetic peptide corresponding to a newly defined cysteine/histidine-rich protein motif called B-box, from the Xenopus protein XNF7 has been characterised. The metal-binding stoichiometry and dissociation constant for zinc were determined by competition with the chromophoric chelator Br2BAPTA, demonstrating that one zinc atom binds per molecule of peptide despite the presence of seven putative metal ligands, and represents the first application of this method to measuring zinc stoichiometry of proteins and/or peptides. Cobalt binding studies indicate that the motif binds zinc more tightly than cobalt, that cysteines are used as ligands and that the cation is co-ordinated tetrahedrally. Circular dichroism and NMR stu...
The structure of the unique metal-binding protein, metallothionein (MT), consists of two metal-thiol...
Structure-based protein design tests our understanding of the minimal determinants of protein struct...
More than 25% of proteins require metal ion cofactors for structure or function. The interactions be...
AbstractThe recently determined structure of a zinc binding peptide reveals that a particular sequen...
International audienceZinc fingers are ubiquitous small protein domains which have a Zn(Cys)(4-x)(Hi...
AbstractMany different zinc binding modules have been identified. Their abundance and variety sugges...
Zinc modulates the biological function of histidine-rich glycoprotein (HRG) through binding to its H...
Zinc is the second most abundant metal ion incorporated in proteins, and is in many cases a crucial ...
International audienceTwo peptides, L(TC) and L(TC)(T) have been synthesised to model the treble-cle...
International audienceA new peptide design has been introduced to model the tetracysteinate zinc sit...
Peptides corresponding to Cys2His2 zinc finger domains from which one amino acid has been deleted ha...
Zinc finger domains are structures that mediate sequence recognition for a large number of DNA-bindi...
AbstractUV spectroscopy demonstrated that chicken mononucleosomes bind Co(II) and Zn(II) ions at sub...
Metals are the most commonly encountered protein cofactors, and they play important structural and f...
The "zinc finger" model [Miller, J., McLachlan, A.D. & Klug, A. (1985) EMBO J. 4, 1609-1614; Brown, ...
The structure of the unique metal-binding protein, metallothionein (MT), consists of two metal-thiol...
Structure-based protein design tests our understanding of the minimal determinants of protein struct...
More than 25% of proteins require metal ion cofactors for structure or function. The interactions be...
AbstractThe recently determined structure of a zinc binding peptide reveals that a particular sequen...
International audienceZinc fingers are ubiquitous small protein domains which have a Zn(Cys)(4-x)(Hi...
AbstractMany different zinc binding modules have been identified. Their abundance and variety sugges...
Zinc modulates the biological function of histidine-rich glycoprotein (HRG) through binding to its H...
Zinc is the second most abundant metal ion incorporated in proteins, and is in many cases a crucial ...
International audienceTwo peptides, L(TC) and L(TC)(T) have been synthesised to model the treble-cle...
International audienceA new peptide design has been introduced to model the tetracysteinate zinc sit...
Peptides corresponding to Cys2His2 zinc finger domains from which one amino acid has been deleted ha...
Zinc finger domains are structures that mediate sequence recognition for a large number of DNA-bindi...
AbstractUV spectroscopy demonstrated that chicken mononucleosomes bind Co(II) and Zn(II) ions at sub...
Metals are the most commonly encountered protein cofactors, and they play important structural and f...
The "zinc finger" model [Miller, J., McLachlan, A.D. & Klug, A. (1985) EMBO J. 4, 1609-1614; Brown, ...
The structure of the unique metal-binding protein, metallothionein (MT), consists of two metal-thiol...
Structure-based protein design tests our understanding of the minimal determinants of protein struct...
More than 25% of proteins require metal ion cofactors for structure or function. The interactions be...