Tero Pihlajamaa scite author profile

Mutations in type 3 repeats of cartilage oligomeric matrix protein (COMP) cause two skeletal dysplasias, pseudoachondroplasia (PSACH) and multiple epiphyseal dysplasia (MED). We expressed recombinant wildtype COMP that showed structural and functional properties identical to COMP isolated from cartilage. A fragment encompassing the eight type 3 repeats binds 14 calcium ions with moderate affinity and high cooperativity and presumably forms one large disulfidebonded folding unit. A recombinant PSACH mutant COMP in which Asp-469 was deleted (D469⌬) and a MED mutant COMP in which Asp-361 was substituted by Tyr (D361Y) were both secreted into the cell culture medium of human cells. Circular dichroism spectroscopy revealed only small changes in the secondary structures of D469⌬ and D361Y, demonstrating that the mutations do not dramatically affect the folding and stability of COMP. However, the local conformations of the type 3 repeats were disturbed, and the number of bound calcium ions was reduced to 10 and 8, respectively. In addition to collagen I and II, collagen IX also binds to COMP with high affinity. The PSACH and MED mutations reduce the binding to collagens I, II, and IX and result in an altered zinc dependence. These interactions may contribute to the development of the patient phenotypes and may explain why MED can also be caused by mutations in collagen IX genes.

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An Allele of COL9A2 Associated with Intervertebral Disc Disease

Annunen¹,

Paassilta²,

Lohiniva³

et al. 1999

Science

333

200

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Intervertebral disc disease is one of the most common musculoskeletal disorders. A number of environmental and anthropometric risk factors may contribute to it, and recent reports have suggested the importance of genetic factors as well. The COL9A2 gene, which codes for one of the polypeptide chains of collagen IX that is expressed in the intervertebral disc, was screened for sequence variations in individuals with intervertebral disc disease. The analysis identified a putative disease-causing sequence variation that converted a codon for glutamine to one for tryptophan in six out of the 157 individuals but in none of 174 controls. The tryptophan allele cosegregated with the disease phenotype in the four families studied, giving a lod score (logarithm of odds ratio) for linkage of 4.5, and subsequent linkage disequilibrium analysis conditional on linkage gave an additional lod score of 7.1.

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Conformation sensitive gel electrophoresis for simple and accurate detection of mutations: Comparison with denaturing gradient gel electrophoresis and nucleotide sequencing

Körkkö

Annunen

Pihlajamaa

et al. 1998

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

197

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Previously, an assay called conformation sensitive gel electrophoresis (CSGE) was developed for scanning PCR products for the presence of single-base and larger base mismatches in DNA. The assay was based on the assumption that mildly denaturing solvents in an appropriate buffer can accentuate the conformational changes produced by single-base mismatches in double-stranded DNA and thereby increase the differential migration in electrophoretic gels of heteroduplexes and homoduplexes. Here the sensitivity of assays by CSGE was improved by limiting the maximal size of the PCR products to 450 bp and making several changes in the conditions for PAGE. With the improved conditions, CSGE detected all 76 previously identified single-base changes in a large series of PCR products from collagen genes that contain multiple exons with highly repetitive and GC-rich sequences. In a survey of 736 alleles of collagen genes, CSGE detected 223 unique single-base mismatches that were confirmed by nucleotide sequencing. CSGE has the advantage over other methods for scanning PCR products in that it is simple, requires no special preparation of PCR products, has a large capacity, and does not use radioactivity.Single-base changes are the most commonly occurring mutations in eukaryotic genomes and in genetic diseases. Many of the mutations, however, are in large and complex genes. Also, most disease-causing mutations are private in the sense that unrelated individuals may have one of several hundred different mutations in the same gene that produce similar disease phenotypes (1, 2). As a result, detection of single-base changes in large and complex genes remains a formidable technical challenge, and there has been a continuing search for rapid and efficient methods for detecting such mutations (see refs. 3-7).The most commonly used strategy for detecting single-base mutations in large and complex genes is to amplify sequences of genes of interest by PCR, scan the PCR products for the presence of mutations by a rapid procedure, and then sequence the PCR products that were positive by the scanning technique. The scanning techniques most commonly used for PCR products are single-strand conformation polymorphism (8), enzymatic or chemical cleavage of mismatched base pairs (3, 9-14), and differential unfolding of homoduplexes and heteroduplexes by denaturing gradient gel electrophoresis (DGGE) (15,16). Because the sequence context of a nucleotide change has an important effect on the sensitivity of detection by any of the commonly used methods, a large number of sequence contexts need to be assayed to ensure that a given PCR scanning procedure can detect all possible nucleotide changes. In addition, the scanning technique for PCR products must be simple and practical for the screening of a large number of samples under highly reproducible conditions. Of the currently available techniques for scanning PCR products, single-strand conformation polymorphism (8) is among the most commonly used. However, the assay is not reliable with fra...

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Heterozygous glycine substitution in the COL11A2 gene in the original patient with the Weissenbacher-Zweym�ller syndrome demonstrates its identity with heterozygous OSMED (nonocular Stickler syndrome)

Pihlajamaa

Prockop

Faber³

et al. 1998

Am. J. Med. Genet.

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The original patient with the Weissenbacher-Zweymüller syndrome was analyzed for mutations in two candidate genes expressed in cartilage (COL2A1 and COL11A2). No mutations were found in the COL2A1 gene but the COL11A2 gene contained a single-base mutation that converted a codon for an obligate glycine to a codon for glutamate at position alpha 2-955 (G955E). The results here and those published previously indicate that the Weissenbacher-Zweymüller syndrome (heterozygous OSMED), nonocular Stickler syndrome, and homozygous OSMED are all caused by mutations in the COL11A2 gene.

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The layered fold of the TSR domain of P. falciparum TRAP contains a heparin binding site

et al. 2006

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Thrombospondin-related anonymous protein, TRAP, has a critical role in the hepatocyte invasion step of Plasmodium sporozoites, the transmissible form of the parasite causing malaria. The extracellular domains of this sporozoite surface protein interact with hepatocyte surface receptors whereas its intracellular domain acts as a link to the sporozoite actomyosin motor system. Liver heparan sulfate proteoglycans have been identified as potential ligands for TRAP. Proteoglycan binding has been associated with the A-and TSR domains of TRAP. We present the solution NMR structure of the TSR domain of TRAP and a chemical shift mapping study of its heparin binding epitope. The domain has an elongated structure stabilized by an array of tryptophan and arginine residues as well as disulfide bonds. The fold is very similar to those of thrombospondin type-1 (TSP-1) and F-spondin TSRs. The heparin binding site of TRAP-TSR is located in the N-terminal half of the structure, the layered side chains forming an integral part of the site. The smallest heparin fragment capable of binding to TRAP-TSR is a tetrasaccharide.

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Tero Pihlajamaa

Mutations in Cartilage Oligomeric Matrix Protein Causing Pseudoachondroplasia and Multiple Epiphyseal Dysplasia Affect Binding of Calcium and Collagen I, II, and IX

An Allele of COL9A2 Associated with Intervertebral Disc Disease

Conformation sensitive gel electrophoresis for simple and accurate detection of mutations: Comparison with denaturing gradient gel electrophoresis and nucleotide sequencing

Heterozygous glycine substitution in the COL11A2 gene in the original patient with the Weissenbacher-Zweym�ller syndrome demonstrates its identity with heterozygous OSMED (nonocular Stickler syndrome)

The layered fold of the TSR domain of P. falciparum TRAP contains a heparin binding site

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