Effects of water stress treatment on fluctuations of MtDHDPS1 gene encoding of dihydrodipicolinate synthase in Medicago truncatula
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1.
Hồng HTK, Ngọc Hạnh NT, Hoàng Đinh T, Long Đặng T, Minh Thu NT, Hà NV, Hồng Trang PT. Effects of water stress treatment on fluctuations of MtDHDPS1 gene encoding of dihydrodipicolinate synthase in Medicago truncatula. hueuni-jns [Internet]. 2019Oct.25 [cited 2024Nov.21];128(1E):27-3. Available from: https://jos.hueuni.edu.vn/index.php/hujos-ns/article/view/5434

Abstract

This paper presents the results of the effect of water stress treatment on the fluctuation of the MtDHDPS1 gene encoding dihydrodipicolinate synthase (MtDHDPS, EC 4.2.1.52) in leaves of M. truncatula. Enzyme MtDHDPS plays an important role in the regulation of lysine biosynthesis in the Legume group, in general, and M. truncatula, in particular. The 3-week-old plants were treated with water stress in shortage for 5 days and 10 days, then the samples were corrected for research. The results of quantitative mRNA analysis by RT-PCR technique show that the water stress treatment has changed the expression level of this gene, in which the threshold cycle value (Ct) of MtDHDPS1 gene in both 5-day and 10-day drought-treated samples is lower than the corresponding untreated control water samples, and the level of MtDHDPS1 gene expression in 5-day drought-treated plants is 25.53 ­­­­­= 46.2 times as high as that in the 10-day drought-treated plants.

https://doi.org/10.26459/hueuni-jns.v128i1E.5434
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References

  1. Blickling S, Knäblein J. Feedback inhibition of dihydrodipicolinate synthase enzymes by L-lysine, Biological Chemistry. 1997;207-210.
  2. Ellen E, Pieter VB, Thu TT, Geert A. Medicago truncatula dihydrodipicolinate synthase (DHDPS) enzymes display novel regulatory properties. Plant Molecular Biology. 2013;81:401-415.
  3. Galili G. Regulation of lysine and threonine synthesis. The Plant Cell. 1995; 7:899-906.
  4. Dereppe C, Bold G, Ghisalba O, Ebert E, Schar HP. Purification and characterization of dihydrodipicolinate synthase of pea. Plant Physiology. 1992; 98:813-821.
  5. Frisch D, Gengenbach B, Tommey A, Sellner J, Somers D, Myers D. Isolation and characterization of dihydrodipicolinate synthase from maize. Plant Physiology. 1991; 96:444-452.
  6. Frugoli J. Medicago truncatula as a model system in plant molecular biology. In: Kirti, P.B. (Editor), Handbook of new technologies for genetic improvement of legumes. CRC Press, Taylor & Francis Group, Chapter. 2008;23: 339-352.
  7. Ghislain M, Frankard V, Jacobs M. Dihydrodipicolinate synthase of Nicotiana sylvestris, a chloroplast-localized enzyme of the lysine pathway. Planta. 1990; 180:480-486.
  8. Huguet T, Prosperi JM. Medicago truncatula: a legume model-plant. In: Genier G. (ed.), Prosperi J.M. (ed.). The Genus Medicago in the Mediterranean region: Current situation and prospects in research. Zaragoza : Cihram. 1996; 171-175.
  9. Harrison MJ. Development of the arbuscular mycorrhizal symbiosis. Current Opinion in Plant Biology. 1998; 1:360-365.
  10. Long ĐT, Chương HV, Hồng HTK, Trang NTQ, Yến PTH, Khánh VP. Nghiên cứu tạo dòng và biểu hiện gene mã hóa kháng nguyên glycoprotein c của virus dịch tả vịt phân lập tại Thừa Thiên Huế. Hue University Journal of Science: Natural Science. 2018 09 20;127(1C):21. https://doi.org/10.26459/hueuni-jns.v127i1c.4924
  11. Mantiri FR, Kurdyukov S, Lohar DP, Sharopova N, Saeed NA, Wang XD, VandenBosch KA, Rose RJ. The transcription factor MtSERF1 of the ERF subfamily identified by transcriptional profiling is required for somatic embryogenesis induced by auxin plus cytokinin in Medicago truncatula. Plant Physiology. 2008; 146: 1622-1636.
  12. Hồng HTK, Trang PTH, Long ĐT, Trang NTQ. Cloning and optimizing the expression of the DHDPS gene in the Medicago truncatula. Legume Research. 2019;482: 1-6.
  13. Nolan KE, Rose RJ. Plant regeneration from cultured Medicago truncatula with particular reference to abscisic acid and light treatments. Australian Journal of Botany. 1998; 46: 151-160.
  14. Rose RJ, Rose RJ. Medicago truncatula as a model for understanding plant interactions. Review. Functional Plant Biology, 2008; 35: 253-264.
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