Step toward Probing the Nonannular Belt of Membrane Proteins. Academic Article uri icon

abstract

  • Integral membrane proteins are embedded in the biological membrane, where they carry out numerous biological processes. Although lipids present in the membrane are crucial for membrane protein function, it remains difficult to characterize many lipid binding events to membrane proteins, such as those that form the annular belt. Here, we use native mass spectrometry along with the charge-reducing properties of trimethylamine N-oxide (TMAO) to characterize a large number of lipid binding events to the bacterial ammonia channel (AmtB). In the absence of TMAO, significant peak overlap between neighboring charge states is observed, resulting in erroneous abundances for different molecular species. With the addition of TMAO, the weighted average charge state (Zavg) was decreased. In addition, the increased spacing between nearby charge states enabled a higher number of lipid binding species to be observed while minimizing mass spectral peak overlap. These conditions helped us to determine the equilibrium binding constants (Kd) for up to 16 lipid binding events. The binding constants for the first few lipid binding events display the highest affinity, whereas the binding constants for higher lipid binding events converge to a similar value. These findings suggest a transition from nonannular to annular lipid binding to AmtB.

published proceedings

  • Anal Chem

author list (cited authors)

  • Kumar, S., Zhu, Y., Stover, L., & Laganowsky, A.

citation count

  • 2

complete list of authors

  • Kumar, Smriti||Zhu, Yun||Stover, Lauren||Laganowsky, Arthur

publication date

  • October 2022