Harald Dürr scite author profile

We describe a generic approach to assemble correctly two heavy and two light chains, derived from two existing antibodies, to form human bivalent bispecific IgG antibodies without use of artificial linkers. Based on the knobs-into-holes technology that enables heterodimerization of the heavy chains, correct association of the light chains and their cognate heavy chains is achieved by exchange of heavy-chain and light-chain domains within the antigen binding fragment (Fab) of one half of the bispecific antibody. This “crossover” retains the antigen-binding affinity but makes the two arms so different that light-chain mispairing can no longer occur. Applying the three possible “CrossMab” formats, we generated bispecific antibodies against angiopoietin-2 (Ang-2) and vascular endothelial growth factor A (VEGF-A) and show that they can be produced by standard techniques, exhibit stabilities comparable to natural antibodies, and bind both targets simultaneously with unaltered affinity. Because of its superior side-product profile, the CrossMab CH1-CL was selected for in vivo profiling and showed potent antiangiogenic and antitumoral activity.

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X-Ray Structures of the Sulfolobus solfataricus SWI2/SNF2 ATPase Core and Its Complex with DNA

Dürr¹,

Körner²,

Müller³

et al. 2005

Cell

239

326

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SWI2/SNF2 ATPases remodel chromatin or other DNA:protein complexes by a poorly understood mechanism that involves ATP-dependent DNA translocation and generation of superhelical torsion. Crystal structures of a dsDNA-translocating SWI2/SNF2 ATPase core from Sulfolobus solfataricus reveal two helical SWI2/SNF2 specific subdomains, fused to a DExx box helicase-related ATPase core. Fully base paired duplex DNA binds along a central cleft via both minor groove strands, indicating that SWI2/SNF2 ATPases travel along the dsDNA minor groove without strand separation. A structural switch, linking DNA binding and the active site DExx motif, may account for the stimulation of ATPase activity by dsDNA. Our results suggest that torque in remodeling processes is generated by an ATP-driven screw motion of DNA along the active site cleft. The structures also redefine SWI2/SNF2 functional motifs and uncover unexpected structural correlation of mutations in Cockayne and X-linked mental retardation syndromes.

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An optomechanical transducer in the blue light receptor phototropin from Avena sativa

Salomon

Eisenreich

Dürr

et al. 2001

Proc. Natl. Acad. Sci. U.S.A.

222

247

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The PHOT1 (NPH1) gene from Avena sativa specifies the blue light receptor for phototropism, phototropin, which comprises two FMN-binding LOV domains and a serine͞threonine protein kinase domain. Light exposure is conducive to autophosphorylation of the protein kinase domain. We have reconstituted a recombinant LOV2 domain of A. sativa phototropin with various 13 C͞ 15 N-labeled isotopomers of the cofactor, FMN. The reconstituted protein samples were analyzed by NMR spectroscopy under dark and light conditions. Blue light irradiation is shown to result in the addition of a thiol group (cysteine 450) to the 4a position of the FMN chromophore. The adduct reverts spontaneously in the dark by elimination. The light-driven flavin adduct formation results in conformational modification, which was diagnosed by 1 H and 31 P NMR spectroscopy. This conformational change is proposed to initiate the transmission of the light signal via conformational modulation of the protein kinase domain conducive to autophosphorylation of NPH1. N umerous phenomena in the life cycle of plants, including phototropism, stomatal opening, and circadian periodicity, are modulated by light. Photoreceptors responsive to UV, blue, red, and far red light have been reported. Together, they span the spectral range of about 280-800 nm.Blue light-responsive processes have been known for a long time, but cognate receptors have been characterized only recently. Thus, cryptochromes characterized by sequence similarity to DNA photolyases are now believed to be involved in the synchronization of the circadian clock (1-3). Phototropins are involved in phototropism (4, 5) and have no sequence similarity with the cryptochrome group. FAD and FMN serve as chromophores for cryptochromes and phototropins, respectively (6).Phototropin of Avena sativa is a protein with 923 amino acids specified by the NPH1 gene (ref. 7; for review, see also ref. 8).The protein comprises two FMN-binding LOV domains and a serine͞threonine protein kinase domain.The LOV domains of phototropin are similar to PAS domains involved in light, oxygen, or voltage sensing (4) in a variety of regulatory as well as sensor proteins exhibiting diverse functions (4, 9, 10). Recombinant LOV1 and LOV2 domains of phototropins from different plants have been shown to bind FMN (11). The crystal structure of the LOV2 domain of PHY3 protein of Adiantum capillus-veneris has been published recently (12).In this study, we reconstituted the LOV2 apoprotein from A. sativa with Experimental ProceduresMaterials. Stable isotope-labeled FMN samples were prepared by published procedures (13-15). Recombinant LOV2 Domain of Phototropin.A recombinant fusion protein comprising the calmodulin-binding domain from myosin light chain kinase and the LOV2 domain from NPH1 protein of A. sativa was prepared as described earlier (16,17). The fusion protein is subsequently designated recombinant LOV2 domain.Reconstitution of LOV2 Domain with Isotope-Labeled FMN. Recombinant LOV2 domain (fusion protein) was depleted of FMN and su...

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Harald Dürr

Immunoglobulin domain crossover as a generic approach for the production of bispecific IgG antibodies

X-Ray Structures of the Sulfolobus solfataricus SWI2/SNF2 ATPase Core and Its Complex with DNA

An optomechanical transducer in the blue light receptor phototropin from Avena sativa

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