Lars-Olof Hedén scite author profile

A human liver cDNA library enriched for full-length clones was screened for plasminogen cDNA using a synthetic 24nucleotide probe derived from a reported partial cDNA sequence. 12 positive clones were identified and one of these was characterized in detail. The 2.7 kb insert contains the complete coding region. At 5 positions, it gives residues different from those reported in a previous amino acid sequence analysis of the protein. The present results show an extra IIe at position 65. Gln instead of Glu at positions 53 and 342, Asn at position 88 instead of Asp, and Asp at position 453 rather than Asn. In the 3'-non-coding region an extension of 29 bases is found which does not contain any structure compatible with a known polyadenylation signal. Instead, the consensus signal AATAAA is placed at a distance of 46 bases upstream of the poly(A)-tail.

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Molecular characterization of an IgA receptor from group B streptococci: sequence of the gene, identification of a proline‐rich region with unique structure and isolation of N‐terminal fragments with IgA‐binding capacity

Hedén

1991

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Certain strains of group B streptococci express a cell surface protein that binds IgA and acts as a virulence factor. This IgA receptor is referred to here as protein Bac. The gene for protein Bac was cloned and expressed in Escherichia coli, and the complete nucleotide sequence was determined. The deduced amino acid sequence of 1134 residues includes a signal sequence of 37 amino acids and a putative membrane anchor region at the C-terminal end. The processed form of the receptor, 1097 residues, has a calculated molecular weight of 123,786. There are no cysteines in protein Bac, suggesting a fibrillar structure. The C-terminal half of the protein includes a 90 residues long region with a novel type of periodic structure, the "XPZ motif", in which every third amino acid is proline. Unlike other bacterial immunoglobulin-binding proteins, there are no long repeats in protein Bac. Clones which express only part of the protein Bac gene were used to show that IgA-binding takes place in the N-terminal part of the molecule. Protein Bac was originally described as an antigen called beta, but N-terminal fragments that bind IgA do not react with a reference serum against the beta antigen. These and other data indicate that protein Bac can be divided into two regions with different functions: an N-terminal IgA-binding region and a C-terminal region corresponding to the beta antigen. The IgA-binding region of protein Bac does not show any homology to protein Arp, the IgA receptor from group A streptococci, although these receptors have similar binding properties. This indicates that convergent evolution has favored the appearance of these two structurally different streptococcal IgA receptors.

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Extensive sequence homology between IgA receptor and M proteins in Streptococcus pyogenes

Frithz

Hedén

Lindahl

1989

Molecular Microbiology

146

106

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Many strains of Streptococcus pyogenes are known to express a receptor for IgA. The complete nucleotide sequence of the gene for such a receptor, protein Arp4, has been determined. The deduced amino acid sequence of 386 residues includes a signal sequence of 41 amino acids and a putative membrane anchor region, both of which are homologous to similar regions in other streptococcal surface proteins. The processed form of the IgA receptor has a length of 345 amino acids and a calculated molecular weight of 39544. The N-terminal sequence of the processed form is different from that previously found for a similar IgA receptor isolated from a S. pyogenes strain of type M60. The sequence of protein Arp4 shows extensive homology to the C-terminal half of streptococcal M proteins, but not to the streptococcal IgG receptor protein G or staphlyococcal protein A. Apart from the membrane anchor, this homology includes a sequence of 119 amino acid residues containing three repeated units and a 54-residue sequence without repeats. The protein expressed in Escherichia coli is found in the periplasmic space, in which it constitutes the major protein. Protein Arp4 is the first example of a surface protein that has both immunoglobulin-binding capacity and structural features characteristic of M proteins.

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Protein D, an immunoglobulin D-binding protein of Haemophilus influenzae: cloning, nucleotide sequence, and expression in Escherichia coli

et al. 1991

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cDNA clones coding for the β‐subunit of human liver alcohol dehydrogenase have differently sized 3'‐non‐coding regions

et al. 1986

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Three different size classes of cDNA clones coding for the &subunit of human alcohol dehydrogenase (ADH) were characterized from a human liver cDNA library. Clones were identified by hybridization with synthetic oligodeoxyribonucleotides.A total of 2530 nucleotides were determined, covering an ADH-coding region of 1122 nucleotides, a preceding 72-nucleotide segment and 3 types of 3'-non-coding region. The coding nucleotide sequence is in full agreement with the amino acid sequence of the &subunit. Of 8 clones identified, 6 had a short, 213-nucleotide 3'-non-coding region; 1 an intermediate, 590-nucleotide 3'-region; and 1 a long, 1330-nucleotide 3'-region. In addition, 2 unused polyadenylation signals were found. These results suggest that human liver /I-ADH mRNAs occur in several size classes, and that in addition to the consensus sequence AATAAA further signals are important for 3'-end formation.Alcohol dehydrogenase cDNA

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Lars-Olof Hedén

Molecular cloning and characterization of a full‐length cDNA clone for human plasminogen

Molecular characterization of an IgA receptor from group B streptococci: sequence of the gene, identification of a proline‐rich region with unique structure and isolation of N‐terminal fragments with IgA‐binding capacity

Extensive sequence homology between IgA receptor and M proteins in Streptococcus pyogenes

Protein D, an immunoglobulin D-binding protein of Haemophilus influenzae: cloning, nucleotide sequence, and expression in Escherichia coli

cDNA clones coding for the β‐subunit of human liver alcohol dehydrogenase have differently sized 3'‐non‐coding regions

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