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Global Picture of Protein Regulation in Response to Dibutyl Phthalate (DBP) Stress of Two Brassica parachinensis Cultivars Differing in DBP Accumulation.

Hai-Ming ZhaoHe-Biao HuangHuan DuLei XiangCe-Hui MoYan-Wen LiQuan-Ying CaiHui LiJie-Sheng LiuDong-Mei ZhouMing-Hung Wong
Published in: Journal of agricultural and food chemistry (2018)
iTRAQ analysis was used to map the proteomes of two Brassica parachinensis cultivars that differed in dibutyl phthalate (DBP) accumulation. A total of 5699 proteins were identified to obtain 152 differentially regulated proteins, of which 64 and 48 were specific to a high- and a low-DBP-accumulation cultivar, respectively. Genotype-specific biological processes were involved in coping with DBP stress, accounting for the variation in DBP tolerance and accumulation. Formation of high DBP accumulation in B. parachinensis might attribute to the more effective regulation of protein expression in physiology and metabolism, including (a) enhanced cell wall biosynthesis and modification, (b) better maintenance of photosynthesis and energy balance, (c) greatly improved total capacity for antioxidation and detoxification, and (d) enhanced cellular transport and signal transduction. Our novel findings contribute to a global picture of DBP-induced alterations of protein profiles in crops and provide valuable information for the development of molecular-assisted breeds of low-accumulation cultivars.
Keyphrases
  • cell wall
  • healthcare
  • oxidative stress
  • high glucose
  • stress induced
  • social media
  • social support
  • health information
  • genome wide analysis