Читать книгу Principles of Virology - Jane Flint, S. Jane Flint - Страница 214

Bauer DW, Huffman JB, Homa FL, Evilevitch A. 2013. Herpes virus genome, the pressure is on. J Am Chem Soc 135:11216–11221.

The first experimental measurement of the high internal pressure within a human virus capsid.

Caspar DL, Klug A. 1962. Physical principles in the construction of regular viruses. Cold Spring Harb Symp Quant Biol 27:1–24.

Theoretical principles of quasiequivalence and triangulation number for construction of icosahedral virus particles.

Crick FH, Watson JD. 1956. Structure of small viruses. Nature 177:473–475.

The classic proposal that viruses are built from identical subunits (for genetic economy) arranged with helical or platonic polyhedral symmetry.

Harrison SC, Olson AJ, Schutt CE, Winkler FK, Bricogne G. 1978. Tomato bushy stunt virus at 2.9 Å resolution. Nature 276:368–373.

First X-ray crystal structure of an icosahedral virus and identification of the β-barrel jelly roll topology. Note the high resolution achieved even more than 40 years ago!

Hogle JM, Chow M, Filman DJ. 1985. Three-dimensional structure of poliovirus at 2.9 Å resolution. Science 229:1358–1365.

Rossmann MG, Arnold E, Erickson JW, Frankenberger EA, Griffith JP, Hecht H-J, Johnson JE, Kamer G, Luo M, Mosser AG, Rueckert RR, Sherry B, Vriend G. 1985. Structure of a human common cold virus and functional relationship to other picornaviruses. Nature 317:145–153.

The first three-dimensional structures of human viruses.

Liu H, Jin L, Koh SB, Atanasov I, Schein S, Wu L, Zhou ZH. 2010. Atomic structure of human adenovirus by cryo-EM reveals interactions among protein networks. Science 329:1038–1043.

A milestone in cryo-EM of virus particles, a 3.6-Å resolution structure of human adenovirus type 5, a large virus particle that includes several stabilizing proteins.

Mancini EJ, Clarke M, Gowen BE, Rutten T, Fuller SD. 2000. Cryo-electron microscopy reveals the functional organization of an enveloped virus, Semliki Forest virus. Mol Cell 5:255–266.

This <10-Å resolution cryo-EM structure revealed the organization of transmembrane segments of the viral glycoproteins and contacts between the capsid and glycoproteins.

Massiah MA, Starich MR, Paschall C, Summers MF, Christensen AM, Sundquist WI. 1994. Three-dimensional structure of the human immunodeficiency virus type 1 matrix protein. J Mol Biol 244:198–223.

The first structure of an internal viral protein reported.

Sharma M, Yi M, Dong H, Qin H, Peterson E, Busath DD, Zhou HX, Cross TA. 2010. Insight into the mechanism of the influenza A proton channel from a structure in a lipid bilayer. Science 330:509–512.

Insights into the mechanism of action of a viroporin from structural biology.

Twarock R, Luque A. 2019. Structural puzzles in virology solved with an over-arching icosahedral design principle. Nat Commun 10:4414.

An important generalization and extension of the principle of quasiequivalence.

Varnum SM, Streblow DN, Monroe ME, Smith P, Auberry KJ, Pasa-Tolic L, Wang D, Camp DG II, Rodland K, Wiley S, Britt W, Shenk T, Smith RD, Nelson JA. 2004. Identification of proteins in human cytomegalovirus (HCMV) particles: the HCMV proteome. J Virol 78:10960–10966.

An early example of application of mass spectrometry to virus particles.

Wilson IA, Skehel JJ, Wiley DC. 1981. Structure of the haemagglutinin membrane glycoprotein of influenza virus at 3 Å resolution. Nature 289: 366–373.

X-ray crystal structure of the external domain of this glycoprotein, the first to be determined.