In molecular biology, the hexon protein is a major coat protein found in Adenoviruses. Hexon coat proteins are synthesised during late infection and form homo-trimers. The 240 copies of the hexon trimer that are produced are organised so that 12 lie on each of the 20 facets. The central 9 hexons in a facet are cemented together by 12 copies of polypeptide IX. The penton complex, formed by the peripentonal hexons and base hexon (holding in place a fibre), lie at each of the 12 vertices.[1] The hexon coat protein is a duplication consisting of two domains with a similar fold packed together like the nucleoplasmin subunits. Within a hexon trimer, the domains are arranged around a pseudo 6-fold axis. The domains have a beta-sandwich structure consisting of 8 strands in two sheets with a jelly-roll topology; each domain is heavily decorated with many insertions.[2] Some hexon proteins contain a distinct C-terminal domain.
In a recent paper (Bremner et al., 2009) it was shown that hexon directly recruits the cellular motor protein dynein in a pH-dependent manner. The dynein-regulatory protein, dynactin, was found to play a clear role in regulating the dynein-adenovirus complex transport to the nucleus.[3]
References
^Athappilly FK, Murali R, Rux JJ, Cai Z, Burnett RM (September 1994). "The refined crystal structure of hexon, the major coat protein of adenovirus type 2, at 2.9 A resolution". J. Mol. Biol. 242 (4): 430–55. doi:10.1006/jmbi.1994.1593. PMID7932702.
^"Adenovirus Transport via Direct Interaction of Cytoplasmic Dynein with the Viral Capsid Hexon Subunit". doi:10.1016/j.chom.2009.11.006. {{cite journal}}: Cite journal requires |journal= (help)