Proteomic changes in leaves of sorghum exposed to copper stress in sorghum

  • Roy, Swapan Kumar (Department of Crop Science, Chungbuk National University) ;
  • Kwon, Soo Jeong (Department of Crop Science and Biotechnology, Chonbuk National University) ;
  • Cho, Seong-Woo (Department of Crop Science and Biotechnology, Chonbuk National University) ;
  • Kamal, Abu Hena Mostafa (Department of Chemistry and Biochemistry, University of Texas at Arlington) ;
  • Kim, Sang-Woo (Department of Crop Science, Chungbuk National University) ;
  • Sarker, Kabita (Department of Crop Science, Chungbuk National University) ;
  • Jeong, Hae-Ryong (Department of Crop Science, Chungbuk National University) ;
  • Lee, Moon-Soon (Department of Industrial Plant Science & Technology, Chungbuk National University) ;
  • Chung, Keun-Yook (Department of Environmental & Biological Chemistry, Chungbuk National University) ;
  • Woo, Sun-Hee (Department of Crop Science, Chungbuk National University)
  • 발행 : 2017.06.04

초록

Copper (Cu) is very toxic to plant cells due to its inhibitory effects on many physiological and biochemical processes. In spite of its potential physiological and economic significance, molecular characterization after Cu stress has so far been grossly overlooked in sorghum. To explore the molecular alterations that occur in response to copper stress, the present study was executed in ten-day-old Cu-exposed leaves of sorghum seedlings. The growth of shoots was markedly reduced, and ionic alterations were prominently observed in the leaves when the seedlings were exposed to different concentrations (0, 100, and $150{\mu}M$) of $CuSO_4$. Using two-dimensional gels with silver staining, 643 differentially expressed protein spots (${\geq}1.5-fold$) were identified as either significantly increased or reduced in abundance. Of these spots, a total of 24 protein spots (${\geq}1.5-fold$) from Cu-exposed sorghum leaves were successfully analyzed by MALDI-TOF-TOF mass spectrometry. Of the 24 differentially expressed proteins from Cu-exposed sorghum leaves, a total of 13 proteins were up-regulated, and 11 proteins were down-regulated. The abundance of most identified protein species, which function in carbohydrate metabolism, stress defense, and protein translation, was significantly enhanced, while that of another protein species involved in energy metabolism, photosynthesis and growth and development were severely reduced. The resulting differences in protein expression patterns together with related morpho-physiological processes suggested that these results could help to elucidate plant adaptation to Cu stress and provide insights into the molecular mechanisms of Cu responses in $C_4$ plants. The over-expression of GAPDH plays a significant role in assisting Sorghum bicolor to attenuate the adverse effects of oxidative stress caused by Cu, and the proteins involved in resistance to stress helped the sorghum plants to tolerate high levels of Cu.

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