Per Antonsson scite author profile

We have determined the primary structure of a 59 kd collagen binding protein which is present in many types of connective tissues, e.g. cartilage, tendon, skin, sclera and cornea. The amino acid sequence, deducted from a 2662 bp cDNA clone, predicts a 42 kd protein with a high content of leucine residues. Most of the protein consists of homologous 23 amino acid residues repeats with predominantly leucine residues in conserved positions. Similar leucine rich repeats have been identified in a number of proteins including the small interstitial proteoglycans decorin and PG‐S1. The 59 kd protein and the two proteoglycans are homologous in their entire sequences suggesting that they have evolved from a common ancestral gene. The 59 kd protein and decorin are also functionally related in that both bind to collagen type I and II, and affect their fibrillogenesis. The substitution with glycosaminoglycan chains appears to be a feature shared by all three members of this family of leucine rich motif extracellular proteins, since the 59 kd protein isolated from cartilage is substituted with at least one keratan sulfate chain.

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The crystal structure of staphylococcal enterotoxin type D reveals Zn2+-mediated homodimerization.

Sundström¹,

Abrahmsén²,

Antonsson³

et al. 1996

The EMBO Journal

107

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Bacterial superantigens, including the staphylococcal enterotoxins, are the most potent activators of T cells known and have been suggested as a causative factor in Gram‐positive shock in humans. Staphylococcal enterotoxin D (SED) is dependent upon Zn2+ for high affinity interactions with MHC class II molecules and thus SED was co‐crystallized with Zn2+. The crystal structure of SED has been determined in two different space groups, at 2.3 and 3.0 A resolution respectively. The three‐dimensional structure of SED is similar to structures of other bacterial superantigens, although this study has revealed that SED has the unique capability of forming dimers in the presence of Zn2+. The high affinity Zn2+ site used in dimer formation is located on the surface of the beta‐sheet in the C‐terminal domain. Two bound metal ions are coordinated by residues from both molecules in the dimer interface and thus contribute directly to formation of the dimer. A second Zn2+ site is located on the surface close to the domain interface of the molecule. The unique feature of SED in forming a Zn2+‐dependent homodimer seems to facilitate novel and biologically relevant multimeric interactions with MHC class II molecules, as shown by the induction of cytokine mRNA in human monocytes when exposed to SED and SED mutants.

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Cartilage matrix proteins. An acidic oligomeric protein (COMP) detected only in cartilage.

Hedbom¹,

Antonsson²,

Hjerpe³

et al. 1992

Journal of Biological Chemistry

467

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The crystal structure of staphylococcal enterotoxin H: implications for binding properties to MHC class II and TcR molecules

Håkansson

Petersson

Nilsson

et al. 2000

Journal of Molecular Biology

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Selective Chain Recognition in the C-terminal α-Helical Coiled-coil Region of Laminin

Kammerer

Antonsson

Schulthess

et al. 1995

Journal of Molecular Biology

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Per Antonsson

A collagen-binding 59-kd protein (fibromodulin) is structurally related to the small interstitial proteoglycans PG-S1 and PG-S2 (decorin).

The crystal structure of staphylococcal enterotoxin type D reveals Zn2+-mediated homodimerization.

Cartilage matrix proteins. An acidic oligomeric protein (COMP) detected only in cartilage.

The crystal structure of staphylococcal enterotoxin H: implications for binding properties to MHC class II and TcR molecules

Selective Chain Recognition in the C-terminal α-Helical Coiled-coil Region of Laminin

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