Bianca Krafft scite author profile

Retinal arrestin is the essential protein for the termination of the light response in vertebrate rod outer segments. It plays an important role in quenching the light-induced enzyme cascade by its ability to bind to phosphorylated light-activated rhodopsin (P-Rh*). Arrestins are found in various G-protein-coupled amplification cascades. Here we report on the three-dimensional structure of bovine arrestin (relative molecular mass, 45,300) at 3.3 A resolution. The crystal structure comprises two domains of antiparallel beta-sheets connected through a hinge region and one short alpha-helix on the back of the amino-terminal fold. The binding region for phosphorylated light-activated rhodopsin is located at the N-terminal domain, as indicated by the docking of the photoreceptor to the three-dimensional structure of arrestin. This agrees with the interpretation of binding studies on partially digested and mutated arrestin.

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Production and Characterization of Saratin, an Inhibitor of von Willebrand Factor-Dependent Platelet Adhesion to Collagen

Barnes¹,

Krafft²,

Frech³

et al. 2001

Semin Thromb Hemost

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Platelets tether to collagen in both a von Willebrand factor (vWF)-dependent and a vWF-independent manner. We have recently characterized a recombinant protein, saratin, isolated from the saliva of the leech Hirudo medicinalis, expressed it in Hansenula polymorpha, and studied its effect on direct and indirect platelet-collagen interactions. Saratin dose dependently inhibited the binding of purified human vWF to human type I and III collagens (IC(50)= 0.23 +/- 0.004 and 0.81 +/- 0.04 microg mL(-1), respectively) and to calf skin collagen (IC(50)= 0.44 +/- 0.008 microg mL(-1)). Furthermore, saratin showed a similar inhibitory potency against the binding of human, rodent, and porcine plasma vWF to these collagens. In a flow chamber under conditions of elevated shear (2700 s(-1)), saratin dose dependently and potently inhibited platelet aggregate formation on a collagen-coated surface (IC(50)= 0.96 +/- 0.25 microg mL(-1)), but at reduced shear (1300 s(-1)) a rightward shift in the dose-response curve was noted (IC(50)= 5.2 +/- 1.4 microg mL(-1)). Surface plasmon resonance analysis revealed both high and low affinity binding sites for saratin on human collagen type III (K(d) 5 x 10(-8) M and 2 x 10(-6) M, respectively). Although low concentrations of saratin, which inhibited platelet adhesion under increased shear (i.e., saturation of high-affinity binding sites), had no effect on vWF-independent collagen-induced platelet aggregation, high concentrations (i.e., saturation of low-affinity binding sites) were found to inhibit platelet aggregation. These data demonstrate that saratin is a potent inhibitor of vWF-dependent platelet adhesion to collagen and hence may have therapeutic potential as an antithrombotic agent.

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One‐step purification of the NADH dehydrogenase fragment of the Escherichia coli complex I by means of Strep‐tag affinity chromatography

Bungert¹,

Krafft²,

Schlesinger³

et al. 1999

FEBS Letters

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The proton-pumping NADH:ubiquinone oxidoreductase, also called complex I, is the first energy-transducing complex of many respiratory chains. Complex I of Escherichia coli can be split into three fragments. One of these fragments, the soluble NADH dehydrogenase fragment, represents the electron input part of complex I. It comprises the subunits NuoE, F and G and harbors one flavin mononucleotide and up to six iron-sulfur clusters. Here, we report the one-step purification of this fragment by means of affinity chromatography on StrepTactin. This was achieved by fusing the Strep-tag II peptide to the Cterminus of NuoF or NuoG. Fusion of this peptide to the Nterminus of either NuoE or NuoF disturbed the assembly of the NADH dehydrogenase fragment.z 1999 Federation of European Biochemical Societies.

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N-terminal and C-terminal Domains of Arrestin Both Contribute in Binding to Rhodopsin†

Skegro¹,

Pulvermüller²,

Krafft³

et al. 2007

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Visual arrestin terminates the signal amplification cascade in photoreceptor cells by blocking the interaction of light activated phosphorylated rhodopsin with the G-protein transducin. Although crystal structures of arrestin and rhodopsin are available, it is still unknown how the complex of the two proteins is formed. To investigate the interaction sites of arrestin with rhodopsin various surface regions of recombinant arrestin were sterically blocked by different numbers of fluorophores (Alexa 633). The binding was recorded by time-resolved light scattering. To accomplish site-specific shielding of protein regions, in a first step all three wild-type cysteines were replaced by alanines. Nevertheless, regarding the magnitude and specificity of rhodopsin binding, the protein is still fully active. In a second step, new cysteines were introduced at selected sites to allow covalent binding of fluorophores. Upon attachment of Alexa 633 to the recombinant cysteines we observed that these bulky labels residing in the concave area of either the N- or the C-terminal domain do not perturb the activity of arrestin. By simultaneously modifying both domains with one Alexa 633 the binding capacity was reduced. The presence of two Alexa 633 molecules in each domain prevented binding of rhodopsin to arrestin. This observation indicates that both concave sites participate in binding.

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Crystallization and preliminary X‐ray analysis of arrestin from bovine rod outer segment

Wilden¹,

Choe²,

Krafft³

et al. 1997

FEBS Letters

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Bianca Krafft

X-ray crystal structure of arrestin from bovine rod outer segments

Production and Characterization of Saratin, an Inhibitor of von Willebrand Factor-Dependent Platelet Adhesion to Collagen

One‐step purification of the NADH dehydrogenase fragment of the Escherichia coli complex I by means of Strep‐tag affinity chromatography

N-terminal and C-terminal Domains of Arrestin Both Contribute in Binding to Rhodopsin†

Crystallization and preliminary X‐ray analysis of arrestin from bovine rod outer segment

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