Nguyen Hoai Nguyen
  • Lecturer, Biotechnology, Ho Chi Minh City Open University
Research focus
  • Molecular biology
  • 1 Author merit

Education

PhD, Korea University, Republic of Korea

Publications

• Nguyen, N. H. (2020). HY5, an integrator of light and temperature signals in the regulation of anthocyanins biosynthesis in Arabidopsis. AIMS Molecular Science, 7:70-81
• Nguyen, N. H. (2020). Histone variant H2A.Z and transcriptional activators may antagonistically regulate flavonoid biosynthesis. AIMS Bioengineering,7:55-59.
• Nguyen, N. H. and Van Le, B. (2020). A simple, economical, and high efficient protocol to produce in vitro miniature rose. In Vitro Cellular & Developmental Biology - Plant 56(3): 362-365.
• Nguyen, C., Tran, B. and Nguyen, N. (2020). Homeostasis of histone acetylation is critical for auxin signaling and root morphogenesis. Plant Molecular Biology 103.
• Nguyen, N. H., Tran, G. B. and Nguyen, C. T. (2020). Anti-oxidative effects of superoxide dismutase 3 on inflammatory diseases. J Mol Med (Berl) 98(1): 59-69.
• Nguyen, C. T., Tran, G. B. and Nguyen, N. H. (2019). The MYB-bHLH-WDR interferers (MBWi) epigenetically suppress the MBW's targets. Biol Cell 111(11): 284-291.
• Nguyen, N. H. and Nguyen, C. T. (2019). Pharmacological effects of ginseng on infectious diseases. Inflammopharmacology 27(5): 871-883.
• Do, B. H., Phuong, V. T. B., Tran, G.-B. and Nguyen, N. H. (2019). Emerging functions of chromatin modifications in auxin biosynthesis in response to environmental alterations. Plant Growth Regulation 87(1): 165-174.
• Nguyen, N. H., Jung, C. and Cheong, J. J. (2019). Chromatin remodeling for the transcription of type 2C protein phosphatase genes in response to salt stress. Plant Physiol Biochem 141: 325-331.
• Nguyen, N. H., Nguyen, C. T. T., Jung, C. and Cheong, J.-J. (2019). AtMYB44 suppresses transcription of the late embryogenesis abundant protein gene AtLEA4-5. Biochemical and Biophysical Research Communications 511(4): 931-934.
• Nguyen, N. H. and Cheong, J.-J. (2018). AtMYB44 interacts with TOPLESS-RELATED corepressors to suppress protein phosphatase 2C gene transcription. Biochemical and Biophysical Research Communications 507(1): 437-442.
• Nguyen, N. H. and Cheong, J.-J. (2018). The AtMYB44 promoter is accessible to signals that induce different chromatin modifications for gene transcription. Plant Physiology and Biochemistry 130: 14-19.
• Nguyen, N. H. and Cheong, J. J. (2018). H2A.Z-containing nucleosomes are evicted to activate AtMYB44 transcription in response to salt stress. Biochem Biophys Res Commun 499(4): 1039-1043.
• Joo, J., Oh, N.-I., Nguyen, N. H., Lee, Y. H., Kim, Y.-K., Song, S. I. and Cheong, J.-J. (2017). Intergenic transformation of AtMYB44 confers drought stress tolerance in rice seedlings. Applied Biological Chemistry 60(4): 447-455.
• Nguyen, N. and Lee, H. (2016). Histone modifications mediate the regulation of root growth in response to salt stress conditions. Life Science and Natural Resources Research 24.
• Nguyen, N. H., Jeong, C. Y., Lee, W. J. and Lee, H. (2016). Identification of a novel Arabidopsis mutant showing sensitivity to histone deacetylase inhibitors. Applied Biological Chemistry 59(6): 855-860.
• Nguyen, N. H., Kim, J. H., Kwon, J., Jeong, C. Y., Lee, W., Lee, D., Hong, S. W. and Lee, H. (2016). Characterization of Arabidopsis thaliana FLAVONOL SYNTHASE 1 (FLS1) -overexpression plants in response to abiotic stress. Plant Physiol Biochem 103: 133-142
• Nguyen, N. H. and Lee, H. (2016). MYB-related transcription factors function as regulators of the circadian clock and anthocyanin biosynthesis in Arabidopsis. Plant signaling & behavior 11(3): e1139278-e1139278.
• Nguyen, N. H., Jeong, C. Y., Kang, G. H., Yoo, S. D., Hong, S. W. and Lee, H. (2015). MYBD employed by HY5 increases anthocyanin accumulation via repression of MYBL2 in Arabidopsis. Plant J 84(6): 1192-1205.
• Kim, J. H., Hyun, W. Y., Nguyen, H. N., Jeong, C. Y., Xiong, L., Hong, S. W. and Lee, H. (2015). AtMyb7, a subgroup 4 R2R3 Myb, negatively regulates ABA-induced inhibition of seed germination by blocking the expression of the bZIP transcription factor ABI5. Plant Cell Environ 38(3): 559-571.
• Vu, T. T., Jeong, C. Y., Nguyen, H. N., Lee, D., Lee, S. A., Kim, J. H., Hong, S. W. and Lee, H. (2015). Characterization of Brassica napus Flavonol Synthase Involved in Flavonol Biosynthesis in Brassica napus L. J Agric Food Chem 63(35): 7819-7829.
• Nguyen, H. N., Kim, J. H., Hyun, W. Y., Nguyen, N. T., Hong, S. W. and Lee, H. (2013). TTG1-mediated flavonols biosynthesis alleviates root growth inhibition in response to ABA. Plant Cell Rep 32(4): 503-514.
• Nguyen, H. N., Kim, J. H., Jeong, C. Y., Hong, S. W. and Lee, H. (2013). Inhibition of histone deacetylation alters Arabidopsis root growth in response to auxin via PIN1 degradation. Plant Cell Rep 32(10): 1625-1636.
• Kim, J. H., Nguyen, N. H., Nguyen, N. T., Hong, S. W. and Lee, H. (2013). Loss of all three calreticulins, CRT1, CRT2 and CRT3, causes enhanced sensitivity to water stress in Arabidopsis. Plant Cell Rep 32(12): 1843-1853.
• Kim, J. H., Nguyen, N. H., Jeong, C. Y., Nguyen, N. T., Hong, S. W. and Lee, H. (2013). Loss of the R2R3 MYB, AtMyb73, causes hyper-induction of the SOS1 and SOS3 genes in response to high salinity in Arabidopsis. J Plant Physiol 170(16): 1461-1465.
• Kwon, Y., Kim, J. H., Nguyen, H. N., Jikumaru, Y., Kamiya, Y., Hong, S. W. and Lee, H. (2013). A novel Arabidopsis MYB-like transcription factor, MYBH, regulates hypocotyl elongation by enhancing auxin accumulation. J Exp Bot 64(12): 3911-3922.
• jun hyeok, K., Nguyen, N., Kiên, V., Nguyen, N., Jang, Y.-S., Lee, H. and Hong, S.-W. (2013). Induction of Oxidative Stress by Overexpression of alpha-zein cDNA with Mutation in Signal Peptide in Arabidopsis. Journal of the Korean Society for Applied Biological Chemistry 56.
1 Protocol published
A Detailed and Radioisotope-free Protocol for Electrophoretic Mobility Shift Assay (EMSA)
Author:  Nguyen Hoai Nguyen, date: 08/20/2020, view: 478, Q&A: 0
To comprehensively characterize the functions of a transcription factor (TF), it is required to analyze the interaction of this TF with its targeted loci. Several methods such as β-glucuronidase (GUS) or luciferase reporter, yeast one-hybrid (Y1H), ...
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