Objective: This study was mainly focused on styudy on he
proteome profile change between exposure to
1-Bromopropane (1-BP) and 1-BP
poisoning. Methods: The samples of serums from exposure to 1-BP and 1-BP
poisoning were collected and analyzed through Label free
proteome technology platform. The differently expressed
proteins between the two groups were quantified and identified, followed by function analysis by bioinformatics. Results: 127
proteins over 2 fold-change were selected, in which 39
proteins were up-regulated and 88
proteins were down-regulated. These different-ly expressed
proteins were mainly involved in the process of
enzyme active regulation, inflammatory reaction,
protein modification, stress response, coagulation, transport. Conclusion: The differently expressed
proteins provided the potential
protein biomarkers for the early diagnosis of 1-BP
poisoning and was beneficial for clinical diagnosis of 1-BP and understanding of the mechanism of 1-BP
poisoning.