Дёмин Виктор Витальевич

Кандидат химических наук

Инженер (Лаборатория протеомики)

Тел.: +7 (495) 336-19-88

Эл. почта: vvdem@ibch.ru

Избранные публикации

  1. Tuzikov A.B., Chinarev A.A., Gambaryan A.S., Oleinikov V.A., Klinov D.V., Matsko N.B., Kadykov V.A., Ermishov M.A., Demin I.V., Demin V.V., Rye P.D., Bovin N.V. (2003). Polyglycine II nanosheets: supramolecular antivirals? Chembiochem 4 (2-3), 147–54 [+]

    Tetraantennary peptides [glycine(n)-NHCH(2)](4)C can form stable noncovalent structures by self-assembly through intermolecular hydrogen bonding. The oligopeptide chains assemble as polyglycine II to yield submicron-sized, flat, one-molecule-thick sheets. Attachment of alpha-N-acetylneuraminic acid (Neu5Acalpha) to the terminal glycine residues gives rise to water-soluble assembled glycopeptides that are able to bind influenza virus multivalently and inhibit adhesion of the virus to cells 10(3)-fold more effectively than a monomeric glycoside of Neu5Acalpha. Another antiviral strategy based on virus-promoted assembly of the glycopeptides was also demonstrated. Consequently, the self-assembly principle offers new perspectives on the design of multivalent antivirals.

  2. Ovchinnikov YuA , Demin V.V., Barnakov A.N., Kuzin A.P., Lunev A.V., Modyanov N.N., Dzhandzhugazyan K.N. (1985). Three-dimensional structure of (Na+ + K+)-ATPase revealed by electron microscopy of two-dimensional crystals. FEBS Lett. 190 (1), 73–6 [+]

    Prolonged incubation of membrane fragments containing homogeneous (Na+ + K+)-ATPase with Mg2+, K+ and VO-3 at 4 degrees C resulted in formation of two-dimensional crystals of this enzyme with unit cell parameters: a = 66 A, b = 118 A, gamma = 108 degrees. The crystals correspond to the two-sided plane group p21. By combining tilted electron microscopic views of the crystals, a three-dimensional structure of (Na+ + K+)- ATPase was calculated at approximately 20 A resolution. The unit cell is formed by two (alpha beta)-promoters which are in contact in their central parts. The structure was compared with chemical modification and immunochemical data; the arrangement of intra- and extramembrane domains was proposed.