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Identification in Collagen Type I of an Integrin α2β1-binding Site Containing an Essential GER Sequence
The collagen type I-derived fragment α 1 (I)CB3 is known to recognize the platelet collagen receptor integrin α 2 β 1 as effectively as the parent collagen, although it lacks platelet-aggregatory activity. We have synthesized the fragment as seven overlapping peptides that spontaneously assemble...
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| Published in: | The Journal of biological chemistry 1998-12, Vol.273 (50), p.33287 |
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| Main Authors: | , , , , , , , , |
| Format: | Article |
| Language: | English |
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| container_issue | 50 |
| container_start_page | 33287 |
| container_title | The Journal of biological chemistry |
| container_volume | 273 |
| creator | C. Graham Knight Laurence F. Morton David J. Onley Anthony R. Peachey Anthea J. Messent Peter A. Smethurst Danny S. Tuckwell Richard W. Farndale Michael J. Barnes |
| description | The collagen type I-derived fragment α 1 (I)CB3 is known to recognize the platelet collagen receptor integrin α 2 β 1 as effectively as the parent collagen, although it lacks platelet-aggregatory activity. We have synthesized the fragment
as seven overlapping peptides that spontaneously assemble into triple helices. On the basis of their capacity to bind purified
α 2 β 1 and the recombinant α 2 A-domain, and their ability to support α 2 β 1 -mediated cell adhesion, we identified two peptides, CB3(I)-5 and -6, which contain an α 2 β 1 recognition site. Synthesis of the peptide CB3(I)-5/6, containing the overlap sequence between peptides 5 and 6, allowed
us to locate the binding site within the 15-residue sequence, GFP*GERGVEGPP*GPA (where P* represents hydroxyproline), corresponding
to residues 502â516 of the collagen type I α 1 chain. The Glu and Arg residues in the GER triplet were found to be essential for recognition since substitution of either
residue with Ala caused a loss of α 2 A-domain binding. By contrast, substitution of the Glu in GVE did not reduce binding, but rather enhanced it slightly. We
were unable to detect significant recognition of α 2 β 1 by the peptide CB3(I)-2 containing the putative α 2 β 1 recognition sequence DGEA. Peptides CB3(I)-1 to -6, together with peptide CB3(I)-5/6, exhibited good platelet-aggregatory
activity, in some cases better than collagen. However, peptide CB3(I)-7 was inactive, suggesting the presence of an inhibitory
element that might account for the lack of aggregatory activity of the parent α 1 (I)CB3 fragment. |
| doi_str_mv | 10.1074/jbc.273.50.33287 |
| format | article |
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as seven overlapping peptides that spontaneously assemble into triple helices. On the basis of their capacity to bind purified
α 2 β 1 and the recombinant α 2 A-domain, and their ability to support α 2 β 1 -mediated cell adhesion, we identified two peptides, CB3(I)-5 and -6, which contain an α 2 β 1 recognition site. Synthesis of the peptide CB3(I)-5/6, containing the overlap sequence between peptides 5 and 6, allowed
us to locate the binding site within the 15-residue sequence, GFP*GERGVEGPP*GPA (where P* represents hydroxyproline), corresponding
to residues 502â516 of the collagen type I α 1 chain. The Glu and Arg residues in the GER triplet were found to be essential for recognition since substitution of either
residue with Ala caused a loss of α 2 A-domain binding. By contrast, substitution of the Glu in GVE did not reduce binding, but rather enhanced it slightly. We
were unable to detect significant recognition of α 2 β 1 by the peptide CB3(I)-2 containing the putative α 2 β 1 recognition sequence DGEA. Peptides CB3(I)-1 to -6, together with peptide CB3(I)-5/6, exhibited good platelet-aggregatory
activity, in some cases better than collagen. However, peptide CB3(I)-7 was inactive, suggesting the presence of an inhibitory
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as seven overlapping peptides that spontaneously assemble into triple helices. On the basis of their capacity to bind purified
α 2 β 1 and the recombinant α 2 A-domain, and their ability to support α 2 β 1 -mediated cell adhesion, we identified two peptides, CB3(I)-5 and -6, which contain an α 2 β 1 recognition site. Synthesis of the peptide CB3(I)-5/6, containing the overlap sequence between peptides 5 and 6, allowed
us to locate the binding site within the 15-residue sequence, GFP*GERGVEGPP*GPA (where P* represents hydroxyproline), corresponding
to residues 502â516 of the collagen type I α 1 chain. The Glu and Arg residues in the GER triplet were found to be essential for recognition since substitution of either
residue with Ala caused a loss of α 2 A-domain binding. By contrast, substitution of the Glu in GVE did not reduce binding, but rather enhanced it slightly. We
were unable to detect significant recognition of α 2 β 1 by the peptide CB3(I)-2 containing the putative α 2 β 1 recognition sequence DGEA. Peptides CB3(I)-1 to -6, together with peptide CB3(I)-5/6, exhibited good platelet-aggregatory
activity, in some cases better than collagen. However, peptide CB3(I)-7 was inactive, suggesting the presence of an inhibitory
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as seven overlapping peptides that spontaneously assemble into triple helices. On the basis of their capacity to bind purified
α 2 β 1 and the recombinant α 2 A-domain, and their ability to support α 2 β 1 -mediated cell adhesion, we identified two peptides, CB3(I)-5 and -6, which contain an α 2 β 1 recognition site. Synthesis of the peptide CB3(I)-5/6, containing the overlap sequence between peptides 5 and 6, allowed
us to locate the binding site within the 15-residue sequence, GFP*GERGVEGPP*GPA (where P* represents hydroxyproline), corresponding
to residues 502â516 of the collagen type I α 1 chain. The Glu and Arg residues in the GER triplet were found to be essential for recognition since substitution of either
residue with Ala caused a loss of α 2 A-domain binding. By contrast, substitution of the Glu in GVE did not reduce binding, but rather enhanced it slightly. We
were unable to detect significant recognition of α 2 β 1 by the peptide CB3(I)-2 containing the putative α 2 β 1 recognition sequence DGEA. Peptides CB3(I)-1 to -6, together with peptide CB3(I)-5/6, exhibited good platelet-aggregatory
activity, in some cases better than collagen. However, peptide CB3(I)-7 was inactive, suggesting the presence of an inhibitory
element that might account for the lack of aggregatory activity of the parent α 1 (I)CB3 fragment.</abstract><pub>American Society for Biochemistry and Molecular Biology</pub><pmid>9837901</pmid><doi>10.1074/jbc.273.50.33287</doi></addata></record> |
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| ispartof | The Journal of biological chemistry, 1998-12, Vol.273 (50), p.33287 |
| issn | 0021-9258 1083-351X |
| language | eng |
| recordid | cdi_highwire_biochem_273_50_33287 |
| source | ScienceDirect Journals |
| title | Identification in Collagen Type I of an Integrin α2β1-binding Site Containing an Essential GER Sequence |
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