Dr. Nagib Ahsan
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Dr. Nagib Ahsan

Director of Proteomics
University of Oklahoma, Norman, Oklahoma, USA


Highest Degree
Ph.D. in Proteomics from Kyungpook National University, Korea

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Area of Interest:

Plant and Soil Sciences
100%
Plant Biotechnology
62%
Plant Stress Adaptation
90%
Plant Genetics
75%
Plant Biology
55%

Research Publications in Numbers

Books
0
Chapters
3
Articles
57
Abstracts
0

Selected Publications

  1. Hashiguchi, A., N. Ahsan and S. Komatsu, 2010. Proteomics application of crops in the context of climatic changes. Food Res. Int., 43: 1803-1813.
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  2. Ahsan, N., Y. Nanjo, H. Sawada, Y. Kohno and S. Komatsu, 2010. Ozone stress-induced proteomic changes in leaf total soluble and chloroplast proteins of soybean reveal that carbon allocation is involved in adaptation in the early developmental stage. Proteomics, 10: 2605-2619.
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  3. Ahsan, N., T. Nakamura and S. Komatsu, 2010. Differential responses of microsomal proteins and metabolites in two contrasting cadmium (Cd)-accumulating soybean cultivars under Cd stress. Amino Acids, (In Press). 10.1007/s00726-010-0809-7.
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  4. Ahsan, N., T. Donnart, M.Z. Nouri and S. Komatsu, 2010. Tissue-specific defense and thermo-adaptive mechanisms of soybean seedlings under heat stress revealed by proteomic approach. J. Proteome Res., 9: 4189-4204.
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  5. Ahsan, N., D.G. Lee, K.H. Kim, I. Alam and S.H. Lee et al., 2010. Analysis of arsenic stress-induced differentially expressed proteins in rice leaves by two-dimensional gel electrophoresis coupled with mass spectrometry. Chemosphere, 78: 224-231.
    PubMed  |  Direct Link  |  
  6. Renaut, J., S. Bohler, J.F. Hausman, L. Hoffmann and K. Sergeant et al., 2009. The impact of atmospheric composition on plants: A case study of ozone and poplar. Mass Spectrom. Rev., 28: 495-516.
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  7. Razavizadeh, R., A.A. Ehsanpour, N. Ahsan and S. Komatsu, 2009. Proteome analysis of tobacco leaves under salt stress. Peptides, 30: 1651-1659.
    PubMed  |  Direct Link  |  
  8. Lee, D.G., N. Ahsan, S.H. Lee, J.J. Lee, J.D. Bahk, K.Y. Kang and B.H. Lee, 2009. Chilling stress-induced proteomic changes in rice roots. J. Plant Physiol., 166: 1-11.
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  9. Komatsu, S. and N. Ahsan, 2009. Soybean proteomics and its application to functional analysis. J. Proteomics, 72: 325-336.
    PubMed  |  Direct Link  |  
  10. Ahsan, N., J. Renaut and S. Komatsu, 2009. Recent developments in the application of proteomics to the analysis of plant responses to heavy metals. Proteomics, 9: 2602-2621.
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  11. Ahsan, N. and S. Komatsu, 2009. Comparative analyses of the proteomes of leaves and flowers at various stages of development reveal organ-specific functional differentiation of proteins in soybean. PROTEOMICS, 9: 4889-4907.
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  12. Afroz, A., R. Khan, N. Ahsan and S. Komatsu, 2009. Comparative proteomic analysis of bacterial wilt susceptible and resistant tomato cultivars. Peptides, 3: 1600-1607.
    PubMed  |  Direct Link  |  
  13. Lee, K.W., N. Ahsan, S.H. Lee, D.G. Lee and K.H. Kim et al., 2008. Responses of MxPPO transgenic tall fescue plants to two diphenyl-ether herbicides, oxiflurofen and aciflurofen. Acta Physiol. Plant., 30: 745-754.
    CrossRef  |  
  14. Ahsan, N., D.G. Lee, S.H. Lee, K.Y. Kang, J.J. Lee and B.H. Lee, 2008. Glyphosate induced oxidative stress in rice leaves revealed by proteomic approach. Plant Physiol. Biochem., 46: 1062-1070.
    PubMed  |  Direct Link  |  
  15. Ahsan, N., D.G. Lee, I. Alam, P.J. Kim and Y.O. Ahn et al., 2008. Comparative proteomic study of arsenic induced differentially expressed proteins in rice roots reveals glutathione plays a central role during as stress. PROTEOMICS, 8: 3561-3576.
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  16. Lee, S.H., N. Ahsan, K.W. Lee, D.H. Kim and D.G. Lee et al., 2007. Simultaneous overexpression of both CuZn superoxide dismutase and ascorbate peroxidase in transgenic tall fescue plants confers increased tolerance to a wide range of abiotic stresses. J. Plant Physiol., 164: 1626-1638.
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  17. Lee, D.G., N. Ahsan, S.H. Lee, K.Y. Kang, J.J. Lee and B.H. Lee, 2007. An approach to identify cold induced low-abundant proteins in rice leaf. C. R. Biol., 330: 215-225.
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  18. Lee, D.G., N. Ahsan, S.H. Lee, K.Y. Kang, J.D. Bahk, I.J. Lee and B.H. Lee, 2007. A proteomic approach in analyzing heat-responsive proteins in rice leaves. Proteomics, 7: 3369-3383.
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  19. Ahsan, N., S.H. Lee, D.G. Lee, M. Anisuzzaman and M.F. Alam et al., 2007. The effects of wounding type, preculture, infection method and cocultivation temperature on the Agrobacterium-mediated gene transfer in tomatoes. Ann. Applied Biol., 151: 363-372.
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  20. Ahsan, N., S.H. Lee, D.G. Lee, K.W. Lee, D.H. Kim, J.D. Bahka and B.H. Lee, 2007. Physiological and protein profiles alternation of germinating rice seedlings exposed to acute cadmium toxicity. Comptes Rendus Biol., 330: 735-746.
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  21. Ahsan, N., D.G. Lee, S.H. Lee, K.Y. Kang and J.J. Lee et al., 2007. Excess copper induced physiological and proteomic changes in germinating rice seeds. Chemosphere, 67: 1182-1193.
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  22. Ahsan, N., D.G. Lee, S.H. Lee, K.Y. Kang and J.D. Bahk et al., 2007. A comparative proteomic analysis of tomato leaves in response to waterlogging stress. Physiol. Plant., 131: 555-570.
    CrossRef  |  
  23. Ahsan, N., D.G. Lee, S.H. Lee, K.W. Lee, K.Y. Kang, J.D. Bhak and B.H. Lee, 2007. A proteomic screen and identification of waterlogging-regulated proteins in tomato roots. Plant Soil, 295: 37-51.
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  24. Lee, S.H., D.G. Lee, H.S. Woo, K.W. Lee and D.H. Kim et al., 2006. Production of transgenic orchardgrass via Agrobacterium-mediated transformation of seed-derived callus tissues. Plant Sci., 171: 408-414.
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  25. Ahsan, N., H.S. Yoon and J. Jo, 2005. Molecular cloning of a BcPGIP cDNA from Brassica campestris and its expression to several stresses. Plant Sci., 169: 1081-1089.
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