V. Rimsa scite author profile

Siah1 is an E3 ubiquitin ligase that contributes to proteasome-mediated degradation of multiple targets in key cellular processes and which shows promise as a therapeutic target in oncology. Structures of a truncated Siah1 bound to peptide-based inhibitors have been reported. Here, new crystallization conditions have allowed the determination of a construct encompassing dual zinc-finger subdomains and substrate-binding domains at significantly higher resolution. Although the crystals appear isomorphous, two structures present distinct states in which the spatial orientation of one zinc-finger subdomain differs with respect to the rest of the dimeric protein. Such a difference, which is indicative of conformational freedom, infers potential biological relevance related to recognition of binding partners. The crystallization conditions and improved models of Siah1 may aid future studies investigating Siah1-ligand complexes.

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High-resolution structure of the M14-type cytosolic carboxypeptidase fromBurkholderia cenocepaciarefined exploitingPDB_REDOstrategies

Rimsa

Eadsforth

Joosten

et al. 2014

Acta Cryst D Biol Crystallogr

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A potential cytosolic metallocarboxypeptidase from Burkholderia cenocepacia has been crystallized and a synchrotronradiation microfocus beamline allowed the acquisition of diffraction data to 1.9 Å resolution. The asymmetric unit comprises a tetramer containing over 1500 amino acids, and the high-throughput automated protocols embedded in PDB_REDO were coupled with model-map inspections in refinement. This approach has highlighted the value of such protocols for efficient analyses. The subunit is constructed from two domains. The N-terminal domain has previously only been observed in cytosolic carboxypeptidase (CCP) proteins. The C-terminal domain, which carries the Zn 2+ -containing active site, serves to classify this protein as a member of the M14D subfamily of carboxypeptidases. Although eukaryotic CCPs possess deglutamylase activity and are implicated in processing modified tubulin, the function and substrates of the bacterial family members remain unknown. The B. cenocepacia protein did not display deglutamylase activity towards a furylacryloyl glutamate derivative, a potential substrate. Residues previously shown to coordinate the divalent cation and that contribute to peptide-bond cleavage in related enzymes such as bovine carboxypeptidase are conserved. The location of a conserved basic patch in the active site adjacent to the catalytic Zn 2+ , where an acetate ion is identified, suggests recognition of the carboxy-terminus in a similar fashion to other carboxypeptidases. However, there are significant differences that indicate the recognition of substrates with different properties. Of note is the presence of a lysine in the S1 0 recognition subsite that suggests specificity towards an acidic substrate.

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Structure of the SCAN Domain of Human Paternally Expressed Gene 3 Protein

2013

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Human paternally expressed gene 3 protein (PEG3) is a large multi-domain entity with diverse biological functions, including acting as a transcription factor. PEG3 contains twelve Cys2-His2 type zinc finger domains, extended regions of predicted disorder and at the N-terminus a SCAN domain. PEG3 has been identified as partner of the E3 ubiquitin-protein ligase Siah1, an association we sought to investigate. An efficient bacterial recombinant expression system of the human PEG3-SCAN domain was prepared and crystals appeared spontaneously when the protein was being concentrated after purification. The structure was determined at 1.95 Å resolution and reveals a polypeptide fold of five helices in an extended configuration. An extensive dimerization interface, using almost a quarter of the solvent accessible surface, and key salt bridge interactions explain the stability of the dimer. Comparison with other SCAN domains reveals a high degree of conservation involving residues that contribute to the dimer interface. The PEG3-SCAN domain appears to constitute an assembly block, enabling PEG3 homo- or heterodimerization to control gene expression in a combinatorial fashion.

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The role of Co²⁺in the crystallization of human SENP1 and comments on the limitations of automated refinement protocols

2011

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PDB References: SENP1, 2xph; 2xre.Metal ions often stabilize intermolecular contacts between macromolecules, thereby promoting crystallization. When interpreting a medium-resolution electron-density map of the catalytic domain of human sentrin-specific protease 1 (SENP1), a strong feature indicative of an ordered divalent cation was noted. This was assigned as Co 2+ , an essential component of the crystallization mixture. The ion displays tetrahedral coordination by Glu430 and His640 from one molecule and the corresponding residues from a symmetry-related molecule. Analysis of the data derived from a previous structure of SENP1 suggested that Co 2+ had been overlooked and re-refinement supported this conclusion. Highthroughput automated re-refinement protocols also failed to mark the Co 2+ position, supporting the requirement for the incorporation of as much information as possible to enhance the value of such protocols.

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Crystal structure of metallo-carboxypeptidase from Burkholderia cenocepacia

Rimsa¹,

Eadsforth²,

Joosten³

et al. 2013

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V. Rimsa

Two high-resolution structures of the human E3 ubiquitin ligase Siah1

High-resolution structure of the M14-type cytosolic carboxypeptidase fromBurkholderia cenocepaciarefined exploitingPDB_REDOstrategies

Structure of the SCAN Domain of Human Paternally Expressed Gene 3 Protein

The role of Co²⁺in the crystallization of human SENP1 and comments on the limitations of automated refinement protocols

Crystal structure of metallo-carboxypeptidase from Burkholderia cenocepacia

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V. Rimsa

Two high-resolution structures of the human E3 ubiquitin ligase Siah1

High-resolution structure of the M14-type cytosolic carboxypeptidase fromBurkholderia cenocepaciarefined exploitingPDB_REDOstrategies

Structure of the SCAN Domain of Human Paternally Expressed Gene 3 Protein

The role of Co2+in the crystallization of human SENP1 and comments on the limitations of automated refinement protocols

Crystal structure of metallo-carboxypeptidase from Burkholderia cenocepacia

Contact Info

Product

Resources

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The role of Co²⁺in the crystallization of human SENP1 and comments on the limitations of automated refinement protocols