QuickTime movies of HK97 Capsid Expansion

Movie player software that can play the mp4 format is needed.

For best results copy the movies to a hard drive before playing.


OUTSIDE.MP4 and INSIDE.MP4 were the first movies of viral capsid maturation. They were included as Supplemental Data to (Lata, et al.,2000), Cell 100, pp. 253-263 [ online @ http://www.cell.com/cgi/content/full/100/2/253/DC1.

OUTSIDE.MP4 Mp4 Video (2.2 MB) Dynamic visualization of maturation ("expansion") of bacteriophage HK97 capsid, as induced in vitro by acidification. The icosahedral capsid is viewed from the outside along a 2-fold symmetry axis. The video is based on cryo-EM 3D reconstructions at ~25 Angstrom resolution of the initial state (Prohead II), final state (Head), and three transitional states--Expansion Intermediates I, II, and III. When expansion is induced in vitro by switching to pH 4.18, the three intermediates are abundant at 5, 37, and 130 min, respectively (labels, upper right). The experimental images of these conformational states are connected by morphing. Thus, the movie does not represent the acid-induced expansion event in real time, but may more closely emulate the time course of capsid expansion in vivo.

INSIDE.MP4 Mp4 video (1.9 MB) Dynamic visualization of maturation ("expansion") of bacteriophage HK97 capsid, as induced in vitro by acidification. The icosahedral capsid is viewed along a 2-fold symmetry axis. The front half of the 3D map has been removed, exposing the inner surface. The video is based on 3D cryo-EM reconstructions at ~25 Angstrom resolution of the initial state (Prohead II), final state (Head), and three transitional states--Expansion Intermediates I, II, and III. When expansion is induced in vitro by acidification to pH 4.18, the three intermediates are abundant at 5, 37, and 130 min, respectively (labels, upper right). The experimental images of these conformational states are connected by morphing. Thus, the movie does not represent the acid-induced expansion event in real time, but may more closely emulate the time course of capsid expansion in vivo.



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