Dr. Oleg V. Gradov

Senior Researcher
Department of Dynamics of Chemical and Biological Processes, Semenov Institute of Chemical Physics, Moscow, Russia

My URL
https://livedna.org/712.14905

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Area of Interest:

Molecular Sciences
Systems Biology
Structural Computational Biology
Geometric Modeling
Morphogenesis

Selected Publications

  1. Orekhov, F.K. and O.V. Gradov, 2016. Comparative labs-on-a-chip for dairy product analysis with automatic calibration using spectrophotometric or colorimetric temperature and tuple chemometric analyte systematization. J. Adv. Dairy Res., 4: 24-24.

  2. Orehov, T.C. and O.V. Gradov, 2016. Hybridization of COBAC, QSPR/QSAR and SBGN technologies: The unity of theory and practice for biomedical technique design and biochemical diagnostic information analysis. J. Med. Bioeng., 5: 128-132.
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  3. Gradov, O.V., 2016. Is it possible to consider “kinetomics” and “argyromics” as novel trends of functional morphology and systems biology of parasitic and nonparasitic Protozoa? A brief analytical review. J. Biomed. Technol., 1: 1-15.
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  4. Gradov, O.V., 2016. Can graphene Bilayers be the membrane mimetic materials? Rensit, 8: 25-38.
    CrossRef  |  

  5. Gradov, O.V. and M.A. Gradova, 2016. Methods of electron microscopy of biological and abiogenic structures in artificial gas atmospheres. Surface Eng. Applied Electrochem., 52: 117-125.
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  6. Gradov, O.V. and M.A. Gradova, 2016. Can graphene Bilayers be the membrane mimetic materials? Simulation of ion channels. Rensit, 8: 154-170.
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  7. Gradov, O., V. Krukowskikh and F. Orehov, 2016. [Polymeromics as an approach for biopolymer sequencing and analysis of protobiopolymer codes and templates. Part I. Polymeromics of semantides and episemsntides as a novel way for information carrier evolution research (Invited analytical review)]. Biomics, 8: 246-265, (In Russian).

  8. Adamovic, E.D., P.L. Aleksandrov, O.V. Gradov, L.M. Mamalyga and M.L. Mamalyga, 2016. Correction of the recording artifacts and detection of the functional deviations in ECG by means of syndrome decoding with an automatic burst error correction of the cyclic codes using periodograms for determination of code component spectral range. Cardiometry, 8: 39-46.
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  9. Orehov, F.C. and O.V. Gradov, 2015. On-line/real time compatibility of COBAC analysis, QSPR, QSAR and SBGN big data mining as a novel tool for physiochemical prognostics in the biomedicine-assisted screening and experimental toxicology and allergology. J. Data Mining Genomics Proteomics, Vol. 6. 10.4172/2153-0602.C1.003.
    CrossRef  |  Direct Link  |  

  10. Orehov, F.C. and O.V. Gradov, 2015. In situ/real time analysis in frame of COBAC, QSPR, QSAR and SBGN as a novel tool for the biosimilarity studies and physio-chemical prognostics in the biomedicine-assisted screening and experimental toxicology and allergology. J. Bioanal. Biomed., Vol. 7. 10.4172/1948-593X.C1.018.
    CrossRef  |  

  11. Gradov, O. and M. Gradova, 2015. "MS-patch-clamp" or the possibility of mass spectrometry hybridization with patch-clamp setups for single cell metabolomics and channelomics. Adv. Biochem., 3: 66-71.
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  12. Adamoviс, E.D., P.L. Aleksandrov, O.V. Gradov, L.M. Mamalyga and M.L. Mamalyga, 2015. Correction of the recording artifacts and detection of the functional deviations in ECG by means of syndrome decoding with an automatic burst error correction of the cyclic codes using periodograms for determination of the code component spectral range. Part 1: Basic principles of the novel approach. Cardiometry, 6: 65-76.
    CrossRef  |  Direct Link  |  

  13. Gradov, O.V., 2014. [Chromatographic auxanometry and GC-MS-auxanometry in forest plant species vegetation phenological monitoring based on flavor and gas chemistry principles with automatic pattern recognition (climatic, meteorological, taxonomic and henospectral)]. Optim. Protect. Ecosyst., 10: 30-45, (In Ukrainian).

  14. Gradov, O.V. and M.A. Gradova, 2014. Cryo-electron microscopy as a functional instrument for systems biology, structural analysis and experimental manipulations with living cells. A comprehensive analytical review of the current works. Problems Cryobiol. Cryomed., 24: 193-211.
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  15. Gradov, O., 2014. [Complex cross-correlated approach of aquarium plants: From hydrochemistry and biophysics to automation]. AQUAFLORA, 5: 47-51, (In Russian).

  16. Gradov, O., 2014. Novel “phenospectral auxanometry” using complexation of optical spectroscopy and chromatographic auxanometry or gc-ms-auxanometry in forest plant species vegetation phenological monitoring based on gas and flavor chemistry principles. J. Green Herb. Chem. Sect. A: Green Chem., 3: 555-579.

  17. Notchenko, A.V. and O.V. Gradov, 2013. Elementary morphometric labs-on-a-chip based on hemocytometric chambers with radiofrequency culture identification and relay of spectrozonal histochemical monitoring. Visualization Image Process. Comput. Biomed., Vol. 2. 10.1615/VisualizImageProcComputatBiomed.2013005968.
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  18. Notchenko, A.V. and O.V. Gradov, 2013. A five-axis arm-manipulator laser system and an algorithm for digital processing of output data for recording and morpho-topological identification of cell and tissue structures in histomorphogenesis. Visualization Image Process. Comput. Biomed., Vol. 2. 10.1615/VisualizImageProcComputatBiomed.2013005967.
    CrossRef  |  Direct Link  |  

  19. Gradov, O.V., 2013. [Laser rheogoniometer for Weissenberg effect observation in condensed milk products as simple liquids with nonnewtonian viscosity]. Diary Farm J., 2: 36-56, (In Russian).

  20. Gradov, O.V., 2013. Experimental setups for ozonometric microscopy. Biomed. Eng., 46: 260-264.
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  21. Gradov O.V., 2013. [The design of simple optical fiber laser polaristrobometer and DIY- spectropolarimeter for multivariate analysis of milk and diary products properties. Part I]. Diary Farm J., 2: 57-77, (In Russian).
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  22. Notchenko, A. and O. Gradov, 2012. [Accessible morphohistochemical labs-on-a-chip based on different counting chambers' grids: Microfluidic morphodynamical workstations]. Morphologia, 6: 5-19, (In Ukrainian).

  23. Gradov, O.V., 2012. [Laser-illuminated videoscopic freezing point depression milliosmometer for precision kinetic cryoscopic studies of milk and milk-like products]. Diary Farm J., 3: 46-56, (In Russian)..

  24. Gradov, O.V. and A.V. Notchenko, 2012. [Semiautomatic dendrochronography for research on morphogenesis and teratomorphosis on the saw cuts of higher plants]. For. Eng. J., 4: 47-57.
Member since June, 2017