The X-ray Structures of Two Mutant Crystallin Domains Shed Light on the Evolution of Multi-domain Proteins
Overview
Affiliations
We use protein engineering and crystallography to simulate aspects of the early evolution of beta gamma-crystallins by observing how a single domain oligomerizes in response to changes in a sequence extension. The crystal structure of the C-terminal domain of gamma beta-crystallin with its four-residue C-terminal extension shows that the domain does not form a symmetric homodimer analogous to the two-domain pairing in beta gamma-crystallins. Instead the C-terminal extension now forms heterologous interactions with other domains leading to the solvent exposure of the natural hydrophobic interface with a consequent loss in protein solubility. However, this domain truncated by just the C-terminal tyrosine forms a symmetric homodimer of domains in the crystal lattice.
Carver J, Grosas A, Ecroyd H, Quinlan R Cell Stress Chaperones. 2017; 22(4):627-638.
PMID: 28391594 PMC: 5465038. DOI: 10.1007/s12192-017-0789-6.
Explosive expansion of betagamma-crystallin genes in the ancestral vertebrate.
Kappe G, Purkiss A, van Genesen S, Slingsby C, Lubsen N J Mol Evol. 2010; 71(3):219-30.
PMID: 20725717 PMC: 2929430. DOI: 10.1007/s00239-010-9379-2.
Andley U, Hamilton P, Ravi N Biochemistry. 2008; 47(36):9697-706.
PMID: 18700785 PMC: 2642957. DOI: 10.1021/bi800594t.
Mutation of interfaces in domain-swapped human betaB2-crystallin.
Smith M, Bateman O, Jaenicke R, Slingsby C Protein Sci. 2007; 16(4):615-25.
PMID: 17327390 PMC: 2203347. DOI: 10.1110/ps.062659107.
Interdomain side-chain interactions in human gammaD crystallin influencing folding and stability.
Flaugh S, Kosinski-Collins M, King J Protein Sci. 2005; 14(8):2030-43.
PMID: 16046626 PMC: 2279314. DOI: 10.1110/ps.051460505.