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Single-Molecule Observation of Selenoenzyme Intermediates in a Semisynthetic Seleno-α-Hemolysin Nanoreactor.

Xiaojia JiangTiezheng PanChao LangChao ZengJinxing HouJiayun XuQuan LuoChunxi HouJunqiu Liu
Published in: Analytical chemistry (2022)
The development of monitoring methods to capture short-lived intermediates is crucial for kinetic mechanism validation of enzymatic reaction steps. In this work, a semisynthetic selenoenzyme nanoreactor was constructed by introducing the unnatural amino acid (Sec) into the lumen of the α-hemolysin (αHL) nanopore. This nanoreactor not only created a highly confined space to trap the enzyme-substrate complex for a highly efficient antioxidant activity but also provided a single channel to characterize a series of selenoenzyme intermediates in the whole catalytic cycle through electrochemical analysis. In particular, the unstable intermediate of SeOH can be clearly detected by the characteristic blocking current. The duration time corresponding to the lifetime of each intermediate that stayed within the nanopore was also determined. This label-free approach showed a high detection sensitivity and temporal-spatial resolution to scrutinize a continuous enzymatic process, which would facilitate uncovering the mysteries of selenoenzyme catalysis at the single-molecule level.
Keyphrases
  • single molecule
  • label free
  • highly efficient
  • amino acid
  • hydrogen peroxide
  • living cells
  • atomic force microscopy
  • wastewater treatment
  • nitric oxide
  • mass spectrometry
  • quantum dots
  • sensitive detection