Namik Mehmed oglu Rashydov

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(PROFESSIONAL MEMBERSHIPS)
(Current research interests)
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* Award of the Slovak Academy of Sciences, Bratislava, 2010,  Travel grand to Tunis from HRH Prince Sultan Bin Abdulaziz-2007
 
* Award of the Slovak Academy of Sciences, Bratislava, 2010,  Travel grand to Tunis from HRH Prince Sultan Bin Abdulaziz-2007
  
==Current research interests==
+
==Current research interests and proposed topics:==  
Biophysics aspect curry out light signals from aboveground part of the high plants (pea and soybean) to rhizosphere (root system).
+
Radiobiological effects from chronic irradiation of the radionuclide, which incorporated in living cells of organism and methods of prevention of the menace of, combined toxicity of the transuranic elements. The epigenetic constitute of the adaptation processes for self-sown and cultural plants under influence acute and chronic irradiation. 
Radiobiological effects of radionuclides incorporated in cells of organism and methods of prevention of the menace of combined toxicity of the transuranic elements.  
+
  
The epigenetic constitute of the adaptation processes in plants.
+
Determination epigenetic transgeneration plasticity of plants Crepis tectorum L. different ecotypes self-sown in contaminated areas post accident term on IV bloc of the Chernobyl Nuclear Power Plant.
Determination epigenetic variation of plants ''Crepis tectorum'' L. different ecotypes self-sown in Chernobyl zone during after accident on Chernobyl NPP.
+
  
Influence chronic irradiation to create adaptation processes determinate with methods the quantitative proteomics analysis of developing embryo, endosperm and seed coat in control and Chernobyl-grown plants.  
+
The study influence chronic irradiation to create adaptation perceive mass-spectrometry determinates proteins with methods of the quantitative proteomics analysis of developing seeds and embryo, endosperm and seed coat in control (Chernobyl) and high level contaminated with radionuclide areas (Chistogalovka region), where grown soybean, barley, corn, wheat, rape and flax plants (Together with Dr M. Hajduch from Institute of Plant Genetics and Biotechnology (IPGB) of SA of Slovakia, Nitra). Biophysics aspect curry out light signals from aboveground part of the high plants (pea and soybean) to rhizosphere (root system).
Current research plans includes also a study of behavior radionuclides <sup>137</sup>Cs, <sup>90</sup>Sr, <sup>239+240</sup>Pu, <sup>241</sup>Am: a forward soil-to-plant movement as well as concentration ratios for high plants grown on contaminated soils and an estimate of genetic hazard (chromosome aberration, chlorophyll yields, somatic mutation in Arabidopsis thaliana, hair mutation on ''Tradescantia clone'' 02 and et. al. ) that deals with above mentioned radionuclides which formed dose and risk assessment models. To research the dependence of plant root transfer factor deal with of the level contamination soils.   
+
 +
Current research plans includes also a study of behaviour radionuclides 137Cs, 90Sr, 239+240Pu, 241Am: a forward soil-to-plant movement as well as concentration ratios for high plants grown on contaminated soils and an estimate of genetic hazard (chromosome aberration, chlorophyll yields, somatic mutation in a lot of transgenic lines of the plants Arabidopsis thaliana by help of GUS-gene yields, hair mutation on Tradescantia clone 02, damages on Allium cepa genome and et. al. assays) that deals with above mentioned radionuclides which formed dose and risk assessment models estimated.
  
The role of mitotic crossing-over genome instability and epigenetic factors in the signal transduction of plants, which grown at contamination soils, the micro distribution and localization of the &alpha;-emitting radionuclide <sup>241</sup>Am in meristem tissue cells by microscopic section to be examined.
+
To research the dependence of plant root forms and shoot transfer factor radionuclide 137Cs, 90Sr and 241Am deal with of the several level contamination soils sites in Chernobyl zone.     
 +
 
 +
The role of mitotic crossing-over genome instability and epigenetic factors in the signal transduction of plants, which grown at contamination soils, the micro- and  nano- size radioactivity particles distribution and localization of the alpha-emitting radionuclide 241Am in apex and meristem tissue cells by autoradiographic microscopic section to be examined.
  
 
==SELECTED PUBLICATIONS:==
 
==SELECTED PUBLICATIONS:==

Revision as of 12:43, 3 February 2013

Contents

Dr.Sc., PhD


Namik Rashydov 2012.JPG

Contacts

Tel.: (+38044) 257-8244, (+38063) 3077835
Fax: (+38044) 258- 1050, (+38044)

E-mail:

nrashydov@yahoo.com

Web sites:

  • www.icbge.org.ua/eng/
  • www.rashidov.org.ua
  • www.biophysics.org.ua

Languages:

  • Azerbaijan (native)
  • English
  • Turkish
  • Russian
  • Ukrainian

Date and Place of Birth:

14 June 1950, Sheki city, Azerbaijan.
Citizen of Ukraine

EDUCATION

1994 Doctor of Biological Sciences (Radiobiology) - R. E. Kavetsky Institute of Experimental Pathology, Oncology and Radiobiology, High Attestation Commission of Ukraine, Kiev
1982 PhD (Biology) - Institute for Theoretical and Experimental Biophysics, Russian Academy of Sciences , Pushino. High Attestation Commission of the USSR, Moscow
1968-1973 Graduated Azerbaijan State University, Baku

CAREER/ EMPLOYMENT (employers, positions and dates)

2003 - present Head of laboratory Biophysics Signal Systems of Plants of the Institute of Cell Biology and Genetic Engineering National Academy Sciences (ICBGE NAS of Ukraine)
2006 - 2010 Deputy Director ICBGE NAS
2000 - 2003 Senior scientific worker in Dept Biophysics and Radiobiology ICBGE NAS
1989 – 2000 Scientific researcher of the Institute of Cell Biology and Genetic Engineering National Academy Sciences of Ukraine, Kiev
1989-present Invited lecturer Kyiv Taras Shevchenko State University
1986-1989 Senior scientific worker in Institute of Breeding and Genetics AS of Azerbaijan, Baku
1985-1986 Scientific worker of the Azerbaijan State University, Baku
1979-1985 Scientific worker of the Institute Agrarian of Azerbaijan, Baku
1976-1979 Graduate student of the Institute Plant physiology AS of Ukraine, Kiev

RESEARCH EXPERIENCE:

Radio isotope analysis, DNA and protein isolation, PCR, plant cytogenetic assays, Tradescantia-SH assay, microscope technique, radiation dosimeters, computer skills

Teaching experience:

Full courses of lectures in Radiobiology at Taras Shevchenko Kyiv State University

Specialization

Radiobiology, Radioecology, Biophysics, environmental monitoring, Plant physiology, cell biology, proteomic research.

INTERNATIONAL TRAININGS/COURSES:

  • Speaker of the training course "Molecular Aspects of Salt and Drought Tolerance in Crops (plants)", Genetic Engineering Research Center (GERC), Faculty of Agriculture, Cairo University, Egypt, 1- 8 September, 2007,
  • Speaker and participant some NATO training courses - 2005, 2006, 2007, 2009, 2010 yrs.

Visiting activities:

Ankara University and Akdeniz University (Antalya) Turkey 1991
Department Experimental Biophysics of Humboldt University, Berlin Germany 1998
Baku State University Azerbaijan 2001
Akdeniz University (Antalya) Turkey 2006, 2007, 2008
Istanbul University Turkey 2006
Cairo University, Giza Egypt 2007
Institute of Genetics and Biotechnology of plants, Nitra Slovakia 2007, 2008, 2009, 2010, 2011, 2012

PROFESSIONAL MEMBERSHIPS

  • Invited Lecturer Kyiv Shevchenko National State University (1989 - present), * Membership of Radiobiological Society of Ukraine (1976 - present),
  • Scientific expert of the International Journal Radiation Biology (2009-present).

I am the member of following Scientific Societies:

  • Radiobiological Society of Russia and Radiobiological Society of Ukraine,
  • Plant Physiology Society of Ukraine and of Azerbaijan,
  • European Society for New methods in Agricultural research (ESNA),
  • European Radiation Research Society.

HONORS AND AWARDS:

  • Deputy Chairman of the Ukrainian Society for Radiation Biology (2001 - present);
  • Award SAIA, Nitra, Slovakia- (September, 1 – November, 30) 2007, 2011;
  • Award of the Slovak Academy of Sciences, Bratislava, 2010, Travel grand to Tunis from HRH Prince Sultan Bin Abdulaziz-2007

Current research interests and proposed topics:

Radiobiological effects from chronic irradiation of the radionuclide, which incorporated in living cells of organism and methods of prevention of the menace of, combined toxicity of the transuranic elements. The epigenetic constitute of the adaptation processes for self-sown and cultural plants under influence acute and chronic irradiation.

Determination epigenetic transgeneration plasticity of plants Crepis tectorum L. different ecotypes self-sown in contaminated areas post accident term on IV bloc of the Chernobyl Nuclear Power Plant.

The study influence chronic irradiation to create adaptation perceive mass-spectrometry determinates proteins with methods of the quantitative proteomics analysis of developing seeds and embryo, endosperm and seed coat in control (Chernobyl) and high level contaminated with radionuclide areas (Chistogalovka region), where grown soybean, barley, corn, wheat, rape and flax plants (Together with Dr M. Hajduch from Institute of Plant Genetics and Biotechnology (IPGB) of SA of Slovakia, Nitra). Biophysics aspect curry out light signals from aboveground part of the high plants (pea and soybean) to rhizosphere (root system).

Current research plans includes also a study of behaviour radionuclides 137Cs, 90Sr, 239+240Pu, 241Am: a forward soil-to-plant movement as well as concentration ratios for high plants grown on contaminated soils and an estimate of genetic hazard (chromosome aberration, chlorophyll yields, somatic mutation in a lot of transgenic lines of the plants Arabidopsis thaliana by help of GUS-gene yields, hair mutation on Tradescantia clone 02, damages on Allium cepa genome and et. al. assays) that deals with above mentioned radionuclides which formed dose and risk assessment models estimated.

To research the dependence of plant root forms and shoot transfer factor radionuclide 137Cs, 90Sr and 241Am deal with of the several level contamination soils sites in Chernobyl zone.

The role of mitotic crossing-over genome instability and epigenetic factors in the signal transduction of plants, which grown at contamination soils, the micro- and nano- size radioactivity particles distribution and localization of the alpha-emitting radionuclide 241Am in apex and meristem tissue cells by autoradiographic microscopic section to be examined.

SELECTED PUBLICATIONS:

  1. Rashydov N.M., Berezhna V.V., Grodzinsky D.M. Radiobiological effects of 241Am incorporated in cells of organism and methods of prevention of the menace of combined toxicity of the transuranic elements //. In book: Aycik, Gul Asiye. New techniques for the detection of nuclear and radioactive agents. Springer Verlag, 2009. – 27.
  2. Danchenko, M., Škultéty, L., Berezhna, V.V. , Rashydov, N.M. , Preťová, A. , Hajduch, M. Twenty one years since Chernobyl disaster; What seed protein can tell us? Cordova, Spain, 2008, p.38.
  3. Rashydov N.M., Berezhna V.V., Grodzinsky D.M. Radiobiological effects of 241Am incorporated in cells of organism and methods of prevention of the menace of combined toxicity of the transuranic elements //. NATO ATC “New techniques for the detection of nuclear and radioactive agents”. – Mugla, Turkey. – May, 26-30, 2008. – P. 65.
  4. Rashydov N.M. et al. The genetic effects of plants in the zone of the Chernobyl. Naukova dumka, Kiev, Ukraine, 2008, 345 p.
  5. Kutsokon N.K., Rashydov N.M., Grodzinsky D.M. Radiation induction of multiaberrant cells in Allium cepa L. Proceedings of International Conference on Radioecology and Environmental Radioactivity, Norway, Bergen, 15-20 June, 2008. - P. 271-277.
  6. Rashydov N.M., Berezhna V.V., Kutsokon N.K. Risk assessment of wastewater contaminated with radionuclides using Arabidopsis thaliana L. plants. Wastewater reuse – risk assessment, decision-making and environmental security. (Edited by Mohammed K.Zaidi) Springer 2007. p. 121-130.
  7. Rashydov N.M., Berezhna V., Kutsokon N. Evolution of water and soil genotoxicity with bioassays in sites contaminated with radionuclides. Proceedings “Sustainable Water Management” MEDA Water International Conference, Tunis, 2007 p, 307-313.
  8. Grodzinsky D.M., Dmitriyev A.P., Rashydov N.M., and et al. UV-radiation and plants: Mechanisms of damage and protection. Kyiv, Fitosostsentr, Ukraine, 2007, 151 p.
  9. Emelyanov V.I., Rashydov N.M., Romanenko P.A., Sakada V.I., Grodzinsky D.M. Plants able to provide light to rhizosphere. Reports of the National Academy of Science of Ukraine, 2007, N 11, p. 151-157.
  10. Rashydov N., Grodzinsky D., Berezhna V., Sakada V. The study of adaptation responses under γ-irradiation of transgenic lines Arabidopsis thaliana L. Current problems of radiation research. Proceedings of the 35th Annual Meeting of the European Radiation Research Society, Kyiv, Ukraine (Edited by D. Grodzinsky & A. Dmitriev) 2006, p. 227-235.
  11. Rashydov N., Grodzinsky D. Berezhna V., Kutsokon N. Risk assessment approach contaminated with radionuclides wastewater using the transgenic lines Arabidopsis thaliana L. plants. NATO ARW, Wastewater reuse-risk assessment, decision-making and environmental security, Istanbul, Turkey, (12-16 October) 2006, p. 55.
  12. Emelyanov V.I., Romanenko P.A., Rashydov N.M., Grodzinsky D.M., Sakada V.I. The study light signals transduction from underground parts of root of the higher plants. European radiation research, 2006, Kyiv, Ukraine 2006, Supplement, p. 244.
  13. Rashydov N., Grodzinsky D., Berezhna V., Sakada V. The study adaptation responses under gamma-irradiation of transgenic lines Arabidopsis thaliana L. plants. European radiation research 2006, Kyiv, Ukraine 2006, p. 54.
  14. Rashydov N., Kutsokon N., Grodzinsky D., Berezhna V. Genotoxicity of water polluted by radionuclide wastes evaluated with the using Arabidopsis thaliana L. European radiation research 2006, Kyiv, Ukraine 2006, p. 50.
  15. Kutsokon N., Rashydov N.M., Berezhna V., Grodzinsky D. Biotesting of radiation pollutions genotoxicity with the plants bioassays. Radiation safety problems in the Caspian region. Kluwer Academic Publishers. 2004. P. 51 – 56.
  16. N.K. Kutsokon, L.M. Lazarenko, V.F. Bezrukov, N.M. Rashydov, D.M. Grodzinsky. Number of aberration per cell as a parameter of chromosome instability. 2. Comparative analysis of the factors of different nature. Cytology and genetics c/c of Tsitologiia i genetika. Allerton press Inc. USA. 2004, Vol 38; Part 1, pages 50-62.
  17. N.K. Kutsokon, N.M. Rashydov, D.M. Grodzinsky., V.F. Bezrukov, L.M. Lazarenko. Number of aberrations in an abnormal cell as a parameter of chromosomal instability. 1. Characteristics of Dosage Dependences. Cytology and genetics c/c of Tsitologiia i genetika.. Allerton press Inc. USA. 2003, Vol 37; Part 4, pages 17-23.
  18. Kutsokon N.K, Rashydov N.M., Grodzinsky D.M. Unidentified multiaberrant cells as evidence of γ -irradiation in Allium cepa L. Proceedlings of Sixth International Symposium on Environmental Contamination in Central and Eastern Europe and the Commonwealth of Independent States. – 2003. - Prague, Czech Republic. (Electronic version ISBN 0-9748192-0-4, Florida State University, USA, 2003, Paper No 222, P. 1-6.
  19. Rashydov N.M., Kutsokon N.K., Berezhna V.V., Grodzinsky D.M. Tradescantia-SH and Allium-assay as biomonitors of the radiation pollutions genotoxicity. Abstracts of Workshop on “Radiation safety problems in the Caspian region”. – Baku (Azerbaijan). - 2003. – P. 33.
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