about
Tritium planigraphy study of structural alterations in the coat protein of Potato virus X induced by binding of its triple gene block 1 protein to virions.In situ spatial organization of Potato virus A coat protein subunits as assessed by tritium bombardment.Spatial structure peculiarities of influenza A virus matrix M1 protein in an acidic solution that simulates the internal lysosomal medium.Label Distribution in Tissues of Wheat Seedlings Cultivated with Tritium-Labeled Leonardite Humic Acid.Collagen tissue treated with chitosan solutions in carbonic acid for improved biological prosthetic heart valves.Analysis of the role of the coat protein N-terminal segment in Potato virus X virion stability and functional activity.Tritium planigraphy comparative structural study of tobacco mosaic virus and its mutant with altered host specificity.Effect of tritium on luminous marine bacteria and enzyme reactions.Humic substances enhance growth and respiration in the basidiomycetes Trametes maxima under carbon limited conditions.Fluorescent coelenteramide-containing protein as a color bioindicator for low-dose radiation effects.Chitosan coatings with enhanced biostability in vivo.Atomic tritium as an instrument for study of protein behavior at the air-water interface.Liquid Scintillation Spectrometry of Tritium in Studying Lysozyme Behavior in Aqueous/Organic Liquid Systems. The Influence of the Organic PhaseHomogeneous solutions of hydrophilic enzymes in nonpolar organic solvents. New systems for fundamental studies and biocatalytic transformationsStudying the spatial organization of membrane proteins by means of tritium stratigraphy: bacteriorhodopsin in purple membraneInteraction of tumor and normal blood cells with ethylene oxide and propylene oxide block copolymersCytotoxicity and chemosensitizing activity of amphiphilic poly(glycerol)-poly(alkylene oxide) block copolymersOn the mechanism of biological activation by tritiumBehavior of humic substances in the liquid-liquid system directly measured using tritium label
P50
Q30381974-F49D52A9-02AA-452B-B158-27CACCE3DC64Q33846540-A118544F-569E-4ECD-AC4F-99733EA11108Q34045278-3A4B1402-A3E8-45ED-B0D6-E5996BA16D0CQ37044977-C5FE9B96-BDB7-4563-8EFE-878933E47BCDQ42806054-9E6D3518-BFC1-47D3-B118-35CAA8F8D4A8Q44324026-4C89EDCE-9DC3-48F8-B0BE-E25B4A2EB5F0Q45722358-AAAA0E1A-E609-40B4-BACA-0E8C681BF467Q46884658-46DE4E87-D493-4378-9C3C-31123D153867Q46890336-6DA24B7C-8228-4A08-8D9E-EFC9BC802EE1Q48034172-656488DD-5F0B-4BF4-8320-D4870A18D260Q48301770-6E4A28F0-1015-4F07-8C9A-0CC5EDF59FD6Q51155337-931D56B2-4354-4BC0-A7DB-09EBBFA726CBQ63341670-949987D8-1810-4203-9C13-778F3D0BDC38Q68070665-0700117E-1203-40D0-90E6-8120531FED90Q74093425-BAE2FD6C-FBAA-48A9-8D21-D220F181533BQ74664398-2F531184-D34C-4969-828C-7B1AEB5C897FQ88073679-58377099-91DA-4466-9E3E-82DB8B38E071Q89101745-F927911F-7844-46A9-A5FE-1C2CF66E13D9Q93037604-E5579FA2-EC9B-4383-8219-AB58D83B9EBC
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Gennadi Alexandrowitsch Badun
@de
Gennadii A Badun
@ast
Gennadii A Badun
@es
Gennadii A Badun
@nl
Gennadii Badun
@en
Геннадий Александрович Бадун
@ru
type
label
Gennadi Alexandrowitsch Badun
@de
Gennadii A Badun
@ast
Gennadii A Badun
@es
Gennadii A Badun
@nl
Gennadii Badun
@en
Геннадий Александрович Бадун
@ru
altLabel
Gennadi Badun
@de
Gennadii A Badun
@en
Gennady Aleksandrovich Badun
@en
Gennady Badun
@en
prefLabel
Gennadi Alexandrowitsch Badun
@de
Gennadii A Badun
@ast
Gennadii A Badun
@es
Gennadii A Badun
@nl
Gennadii Badun
@en
Геннадий Александрович Бадун
@ru
P106
P1153
35461336600
P21
P31
P496
0000-0002-9792-8432