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Digitale Medien

Oligomerization of profilins from birch, man and yeast. Profilin, a ligand for itself? (1998)

Mittermann, Irene ; Fetrow, Jacquelyn S. ; Schaak, Diana L. ; [weitere]

Springer

Sexual plant reproduction 11 (1998), S. 183-191

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ISSN: 1432-2145

Schlagwort(e): Key words Profilin ; Pollen ; Cytoskeleton ; Type I allergy ; Oligomerization

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract Profilins are structurally well conserved low molecular weight (12–15 kDa) eukaryotic proteins which interact with a variety of physiological ligands: (1) cytoskeletal components, e.g., actin; (2) polyphosphoinositides, e.g., phosphatidylinositol-4,5-bisphosphate; (3) proline-rich proteins, e.g., formin homology proteins and vasodilatator-stimulated phosphoprotein. Profilins may thus link the microfilament system with signal transduction pathways. Plant profilins have recently been shown to be highly crossreactive allergens which bind to IgE antibodies of allergic patients and thus cause symptoms of type I allergy. We expressed and purified from Escherichia coli profilins from birch pollen (Betula verrucosa), humans (Homo sapiens) and yeast (Schizosaccharomyces pombe) and demonstrated that each of these profilins is able to form stable homo- and heteropolymers via disulphide bonds in vitro. Circular dichroism analysis of oxidized (polymeric) and reduced (monomeric) birch pollen profilin indicates that the two states have similar secondary structures. Using 125I-labeled birch pollen, yeast and human profilin in overlay experiments, we showed that disulphide bond formation between profilins can be disrupted under reducing conditions, while reduced as well as oxidized profilin states bind to actin and profilin-specific antibodies. Exposure of profilin to oxidizing conditions, such as when pollen profilins are liberated on the surface of the mucosa of atopic patients, may lead to profilin polymerization and thus contribute to the sensitization capacity of profilin as an allergen.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/s004970050140

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Digitale Medien

Deletions and replacements of omega loops in yeast iso-1-cytochrome c (1989)

Fetrow, Jacquelyn S. ; Cardillo, Thomas S. ; Sherman, Fred

New York, NY : Wiley-Blackwell

Proteins: Structure, Function, and Genetics 6 (1989), S. 372-381

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ISSN: 0887-3585

Schlagwort(e): cytochromec ; Saccharomyces cerevisiae ; protein secondary structures ; protein design ; protein engineering ; protein folding ; protein evolution ; modular exchange ; loop swap ; Chemistry ; Biochemistry and Biotechnology

Quelle: Wiley InterScience Backfile Collection 1832-2000

Thema: Medizin

Notizen: Ω(Omega)-loops are protein secondary structural elements having small distance between segment termini. It should be possible to delete or replace certain of these Ω-loops without greatly distorting the overall structure of the remaining portion of the molecule. Functional requirements of regions of iso-1-cytochrome c from the yeast Saccharomyces cerevisiae were in investigated by determining the biosynthesis and activity in vivo of mutant forms in which four different Ω-loops were individually deleted, or in which one Ω-loop was replaced with five different segments. Deletion encompassing amino acid positions 27-33 and79-83 either prevented synthesis of the holoprotein, or produced highly labile iso-1-cytochromes c, whereas deletions encompassing position 42-45 and 48-55 allowed partial synthesis and activity. These two latter regions, therefore, are not absolutely required for any biosynthetic process such as heme attachment, mitochondrial import, or for enzymatic interactions. All replacements in Loop A (residue position 24-33) with the same size (10 amino acid residues), longer (13 and 15 amino acid residues), or shorter segments (6 amino acid residues), resulted in strains having at least partial levels of iso-1-cytochrome c; however, the relative activities ranged from zero to almost the normal level. Thus, Loop A does not appear to be essential for such biosynthetic steps as heme attachment and mitochondrial import. In contrast, the full range of relative activities suggest that this region interacts with physiological partners to carry out efficient electron transport.

Zusätzliches Material: 5 Ill.