Engineering trimeric fibrous proteins based on bacteriophage T4 adhesins

Abstract

The adsorption specificity of bacteriophage T4 is determined by genes 12 and 37, encoding the short tail-fibers (STF) and the distal part of the long tail-fibers (LTF), respectively. Both are trimeric proteins with rod domains made up of similar tandem quasi-repeats, ~ 40 amino acids long. Their assembly requires the viral chaperones gp57A and gp38. Here we report that fusing fragments of gp12 and gp37 to another trimeric T4 fibrous protein, fibritin, facilitates correct assembly, thereby by-passing the chaperone requirement. Fibritin is an α-helical coiled coil protein whose C-terminal part (fibritin E, comprising the last 120 residues) has recently been solved to atomic resolution. Gp12 fragments of 109 and 70 amino acids, corresponding to three and two quasi-repeats respectively, were fused to the C-terminus of fibritin E. A similar chimera was designed for the last 63 residues of gp37, which contain four copies of the pentapeptide Gly-X-His-X-His and assume a narrow rigid structure in the LTF distal tip. Expressed from plasmids, all three chimeras form soluble trimers that are resistant to dissociation by SDS and digestion by trypsin, indicative of correct folding and oligomerization.