Поварова Наталья Владимировна


Аспирант (Лаборатория биофотоники)

Тел.: +7 (915) 0447115

Эл. почта: povarovanv@gmail.com

Образование

Период обученияСтрана, городУчебное заведениеДополнительная информация
2006–2011 Россия, Москва биологический факультет МГУ им. М.В. Ломоносова

Избранные публикации

  1. Povarova N.V., Bozhanova N.G., Sarkisyan K.S., Gritcenko R., Baranov M.S., Yampolsky I.V., Lukyanov K.A., Mishin A.S. (2016). Docking-guided identification of protein hosts for GFP chromophore-like ligands. J. Mater. Chem. C 4, 3036–3040 [+]

    Synthetic analogs of the Green Fluorescent Protein (GFP) chromophore emerge as promising fluorogenic dyes for labeling in living systems. Here, we report the computational identification of protein hosts capable of binding to and enhancing fluorescence of GFP chromophore derivatives. Automated docking of GFP-like chromophores to over 3000 crystal structures of Escherichia coli proteins available in the Protein Data Bank allowed the identification of a set of candidate proteins. Four of these proteins were tested experimentally in vitro for binding with the GFP chromophore and its red-shifted Kaede chromophore-like analogs. Two proteins were found to possess sub-micromolar affinity for some Kaede-like chromophores and activate fluorescence of these fluorogens.

    ID:1407
  2. Povarova N.V., Baranov M.S., Kovalchuk S.N., Semiletova I.V., Lukyanov K.A., Kozhemyak V.B. (2015). Novel Water-Soluble Substrate for Silicateins. Bioorg. Khim. 41 (3), 380–2 [+]

    We suggested to use tetrakis(2-hydroxyethyl)orthosilicate (THEOS) as a substrate for silicateins--an enzyme family playing a key role in formation of skeleton in marine sponges. We compared THEOS with tetraethylorthosilicate (TEOS)--a commonly used substrate for silicateins. These substrates were tested in reaction of amorphous silica formation in vitro catalyzed by silicatein Al from sponge Latrunculia oparinae. It was found that reaction with THEOS occurs more efficiently than with TEOS, probably due to high water solubility and higher hydrolysis rate of THEOS.

    ID:1417