Afp14 is involved in regulating the length of Anti-feeding prophage (Afp).

Abstract

The anti-feeding prophage (Afp), a phage-tail-like particle that causes cessation of feeding in the New Zealand grass grub, Costelytra zealandica, is encoded by 18 open reading frames (afp1-18). C-terminal truncations of afp14 resulted in shortened Afp particles, suggesting that Afp14 is involved in Afp length determination. We constructed an Afp assembly system (afp1-18), wherein Afp14 was truncated after the N-terminal 88 residues. This construct, when expressed in trans in Escherichia coli expressing a N-terminal 98-amino acid Afp14 construct, yielded fully assembled Afp but no assembled Afp was detected in the case of a N-terminal 96-amino acid Afp14 construct. These results suggested that the 98 N-terminal, amino acid residues of Afp14 is crucial for the initiation of Afp assembly via baseplate formation. Trans-based expression of wild-type afp14 resulted in Afp particles of varying lengths, all of which were shorter than the wild-type Afp particle. On the other hand, similar expression of Afp14 harboring a C-terminal extension (KLLEH(6)) resulted in elongated Afp particles. This information, combined with bioinformatics data, allowed us to propose a model delineating the mechanism and role of Afp14 in the maturation of the Afp particle.