Simon D. Edwards scite author profile

Simon D. Edwards

5Publications

120Citation Statements Received

66Citation Statements Given

How they've been cited

202

115

How they cite others

Affiliations

University of York, Birkbeck, University of London, University of Portsmouth

Publications

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The 2.7 Å Crystal Structure of the Activated FERM Domain of Moesin: An Analysis of Structural Changes on Activation^,

Edwards

Keep

2001

Biochemistry

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Moesin binds to a large range of proteins through its N terminal FERM (band 4.1, ezrin, radixin, moesin) domain. In full-length moesin isolated from cells, this binding is masked by binding to the C-terminal domain of moesin (C-ERMAD). Activation takes place by phosphorylation of Thr 558 in the C-ERMAD, which releases the C-ERMAD. A recently determined crystal structure of a noncovalent complex of the FERM and C-ERMAD domains showed for the first time that the structure of the FERM domain consists of three subdomains, each of which is similar to known structures. The structure reported here also contains a unique 47-residue helix pointing away from the FERM domain at the start of the alpha domain, in agreement with secondary structure predictions. Removal of the C-ERMAD does not result in a huge rearrangement of the FERM domain, but comparison with the activated radixin structure shows a consistent set of small changes. Not surprisingly, the exposed C-ERMAD binding area interacts in crystal contacts. More interestingly, a negatively charged peptide binds to the inositol site in a crystal contact and causes a greater conformational change in the structure than inositol.

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Eight membered ethers via diene metathesis: Synthetic approach to laureatin natural products

Edwards

Lewis

Taylor

1999

Tetrahedron Letters

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Participation in coastal zone management initiatives: a review and analysis of examples from the UK

Edwards

Jones

Nowell

1997

Ocean & Coastal Management

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Structure of isolated FERM domain and first long helix of moesin

Edwards¹,

Keep²

2001

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ChemInform Abstract: Eight Membered Ethers via Diene Metathesis: Synthetic Approach to Laureatin Natural Products.

1999

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Simon D. Edwards

The 2.7 Å Crystal Structure of the Activated FERM Domain of Moesin: An Analysis of Structural Changes on Activation^,

Eight membered ethers via diene metathesis: Synthetic approach to laureatin natural products

Participation in coastal zone management initiatives: a review and analysis of examples from the UK

Structure of isolated FERM domain and first long helix of moesin

ChemInform Abstract: Eight Membered Ethers via Diene Metathesis: Synthetic Approach to Laureatin Natural Products.

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About

Simon D. Edwards

The 2.7 Å Crystal Structure of the Activated FERM Domain of Moesin: An Analysis of Structural Changes on Activation,

Eight membered ethers via diene metathesis: Synthetic approach to laureatin natural products

Participation in coastal zone management initiatives: a review and analysis of examples from the UK

Structure of isolated FERM domain and first long helix of moesin

ChemInform Abstract: Eight Membered Ethers via Diene Metathesis: Synthetic Approach to Laureatin Natural Products.

Contact Info

Product

Resources

About

The 2.7 Å Crystal Structure of the Activated FERM Domain of Moesin: An Analysis of Structural Changes on Activation^,