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4PLR

Crystal Structures of Designed Armadillo Repeat Proteins: Implications of Construct Design and Crystallization Conditions on Overall Structure.

Summary for 4PLR
Entry DOI10.2210/pdb4plr/pdb
Related4PLQ
DescriptorArm00008, CALCIUM ION (3 entities in total)
Functional Keywordsdesigned armadillo repeat proteins, protein engineering, peptide binding protein
Biological sourcesynthetic construct
Total number of polymer chains2
Total formula weight61134.22
Authors
Reichen, C.,Madhurantakam, C.,Plueckthun, A.,Mittl, P. (deposition date: 2014-05-19, release date: 2014-08-27, Last modification date: 2023-12-20)
Primary citationReichen, C.,Madhurantakam, C.,Pluckthun, A.,Mittl, P.R.
Crystal structures of designed armadillo repeat proteins: Implications of construct design and crystallization conditions on overall structure.
Protein Sci., 23:1572-1583, 2014
Cited by
PubMed Abstract: Designed armadillo repeat proteins (dArmRP) are promising modular proteins for the engineering of binding molecules that recognize extended polypeptide chains. We determined the structure of a dArmRP containing five internal repeats and 3rd generation capping repeats in three different states by X-ray crystallography: without N-terminal His6 -tag and in the presence of calcium (YM5 A/Ca(2+) ), without N-terminal His6 -tag and in the absence of calcium (YM5 A), and with N-terminal His6 -tag and in the presence of calcium (His-YM5 A/Ca(2+)). All structures show different quaternary structures and superhelical parameters. His-YM5 A/Ca(2+) forms a crystallographic dimer, which is bridged by the His6 -tag, YM5 A/Ca(2+) forms a domain-swapped tetramer, and only in the absence of calcium and the His6 -tag, YM5 A forms a monomer. The changes of superhelical parameters are a consequence of calcium binding, because calcium ions interact with negatively charged residues, which can also participate in the modulation of helix dipole moments between adjacent repeats. These observations are important for further optimizations of dArmRPs and provide a general illustration of how construct design and crystallization conditions can influence the exact structure of the investigated protein.
PubMed: 25132085
DOI: 10.1002/pro.2535
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (2.1 Å)
Structure validation

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