Oriented Insertion of ESR-Containing Hybrid Proteins in Proteoliposomes

Int J Mol Sci. 2023 Apr 17;24(8):7369. doi: 10.3390/ijms24087369.

Abstract

Microbial rhodopsins comprise a diverse family of retinal-containing membrane proteins that convert absorbed light energy to transmembrane ion transport or sensory signals. Incorporation of these proteins in proteoliposomes allows their properties to be studied in a native-like environment; however, unidirectional protein orientation in the artificial membranes is rarely observed. We aimed to obtain proteoliposomes with unidirectional orientation using a proton-pumping retinal protein from Exiguobacterium sibiricum, ESR, as a model. Three ESR hybrids with soluble protein domains (mCherry or thioredoxin at the C-terminus and Caf1M chaperone at the N-terminus) were obtained and characterized. The photocycle of the hybrid proteins incorporated in proteoliposomes demonstrated a higher pKa of the M state accumulation compared to that of the wild-type ESR. Large negative electrogenic phases and an increase in the relative amplitude of kinetic components in the microsecond time range in the kinetics of membrane potential generation of ESR-Cherry and ESR-Trx indicate a decrease in the efficiency of transmembrane proton transport. On the contrary, Caf-ESR demonstrates a native-like kinetics of membrane potential generation and the corresponding electrogenic stages. Our experiments show that the hybrid with Caf1M promotes the unidirectional orientation of ESR in proteoliposomes.

Keywords: fusion protein; photocycle; photoelectric potential generation; proteoliposomes; proton pump; retinal protein.

MeSH terms

  • Bacillaceae* / metabolism
  • Proton Pumps / metabolism
  • Protons*
  • Rhodopsins, Microbial / metabolism

Substances

  • Protons
  • proteoliposomes
  • Proton Pumps
  • Rhodopsins, Microbial