Phage G is recognized as having a remarkably large genome and capsid size among isolated, propagated phages. Negative stain electron microscopy of the host-phage G interaction reveals tail sheaths that are contracted towards the distal tip and decoupled from the head-neck region. This is different from the typical myophage tail contraction, where the sheath contracts upward, while being linked to the head-neck region. Our cryo-EM structures of the non-contracted and contracted tail sheath show that: (1) The protein fold of the sheath protein is very similar to its counterpart in smaller, contractile phages such as T4 and phi812; (2) Phage G's sheath structure in the non-contracted and contracted states are similar to phage T4's sheath structure. Similarity to other myophages is confirmed by a comparison-based study of the tail sheath's helical symmetry, the sheath protein's evolutionary timetree, and the organization of genes involved in tail morphogenesis. Atypical phase G tail contraction could be due to a missing anchor point at the upper end of the tail sheath that allows the decoupling of the sheath from the head-neck region. Explaining the atypical tail contraction requires further investigation of the phage G sheath anchor points.
Keywords: anchor; myophage; tail contraction; tail sheath.