Solution NMR structure and functional analysis of the integral membrane protein YgaP from Escherichia coli.

Cédric Eichmann, Christos Tzitzilonis, Enrica Bordignon, Innokentiy Maslennikov, Senyon Choe, Roland Riek

The Journal of biological chemistry 2014 Aug 22

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The solution NMR structure of the α-helical integral membrane protein YgaP from Escherichia coli in mixed 1,2-diheptanoyl-sn-glycerol-3-phosphocholine/1-myristoyl-2-hydroxy-sn-glycero-3-phospho-(1'-rac-glycerol) micelles is presented. In these micelles, YgaP forms a homodimer with the two transmembrane helices being the dimer interface, whereas the N-terminal cytoplasmic domain includes a rhodanese-fold in accordance to its sequence homology to the rhodanese family of sulfurtransferases. The enzymatic sulfur transfer activity of full-length YgaP as well as of the N-terminal rhodanese domain only was investigated performing a series of titrations with sodium thiosulfate and potassium cyanide monitored by NMR and EPR. The data indicate the thiosulfate concentration-dependent addition of several sulfur atoms to the catalytic Cys-63, which process can be reversed by the addition of potassium cyanide. The catalytic reaction induces thereby conformational changes within the rhodanese domain, as well as on the transmembrane α-helices of YgaP. These results provide insights into a potential mechanism of YgaP during the catalytic thiosulfate activity in vivo. © 2014 by The American Society for Biochemistry and Molecular Biology, Inc.

Citation

Cédric Eichmann, Christos Tzitzilonis, Enrica Bordignon, Innokentiy Maslennikov, Senyon Choe, Roland Riek. Solution NMR structure and functional analysis of the integral membrane protein YgaP from Escherichia coli. The Journal of biological chemistry. 2014 Aug 22;289(34):23482-503