M. Sikorski scite author profile

Physical, chemical and biological stress factors, such as microbial infection, upregulate the transcription levels of a number of plant genes, coding for the so‐called pathogenesis‐related (PR) proteins. For PR proteins of class‐10 (PR‐10), the biological function remains unclear, despite two decades of scientific research. PR‐10 proteins have a wide distribution throughout the plant kingdom and the class members share size and secondary structure organization. Throughout the years, we and other groups have determined the structures of a number of PR‐10 proteins, both in the crystalline state by X‐ray diffraction and in solution by NMR spectroscopy. Despite the accumulating structural information, our understanding of PR‐10 function is still limited. PR‐10 proteins are rather small (~ 160 amino acids) with a fold consisting of three α helices and seven antiparallel β strands. These structural elements enclose a large hydrophobic cavity that is most probably the key to their functional relevance. Also, the outer surface of these proteins is of extreme interest, as epitopes from a PR‐10 subclass cause allergic reactions in humans.

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Crystal Structure of Vigna radiata Cytokinin-Specific Binding Protein in Complex with Zeatin

Pasternak

et al. 2006

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The cytosolic fraction of Vigna radiata contains a 17-kD protein that binds plant hormones from the cytokinin group, such as zeatin. Using recombinant protein and isothermal titration calorimetry as well as fluorescence measurements coupled with ligand displacement, we have reexamined the K d values and show them to range from ;10 ÿ6 M (for 4PU30) to 10 ÿ4 M (for zeatin) for 1:1 stoichiometry complexes. In addition, we have crystallized this cytokinin-specific binding protein (Vr CSBP) in complex with zeatin and refined the structure to 1.2 Å resolution. Structurally, Vr CSBP is similar to plant pathogenesisrelated class 10 (PR-10) proteins, despite low sequence identity (<20%). This unusual fold conservation reinforces the notion that classic PR-10 proteins have evolved to bind small-molecule ligands. The fold consists of an antiparallel b-sheet wrapped around a C-terminal a-helix, with two short a-helices closing a cavity formed within the protein core. In each of the four independent CSBP molecules, there is a zeatin ligand located deep in the cavity with conserved conformation and protein-ligand interactions. In three cases, an additional zeatin molecule is found in variable orientation but with excellent definition in electron density, which plugs the entrance to the binding pocket, sealing the inner molecule from contact with bulk solvent.

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Lupinus luteus Pathogenesis-Related Protein as a Reservoir for Cytokinin

Fernandes

Pasternak

Bujacz

et al. 2008

Journal of Molecular Biology

108

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Crystal Structures of Two Homologous Pathogenesis-related Proteins from Yellow Lupine

Biesiadka

Bujacz

Sikorski

et al. 2002

Journal of Molecular Biology

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Crystal structure of Hyp-1, a St. John’s wort protein implicated in the biosynthesis of hypericin

Michalska

Fernandes

Sikorski

et al. 2010

Journal of Structural Biology

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M. Sikorski

Structural and functional aspects of PR‐10 proteins

Crystal Structure of Vigna radiata Cytokinin-Specific Binding Protein in Complex with Zeatin

Lupinus luteus Pathogenesis-Related Protein as a Reservoir for Cytokinin

Crystal Structures of Two Homologous Pathogenesis-related Proteins from Yellow Lupine

Crystal structure of Hyp-1, a St. John’s wort protein implicated in the biosynthesis of hypericin

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