Abstract

The structure of the sucrose-specific porin (ScrY) from Salmonella typhimurium has been elucidated by X-ray crystallography to consist of 18 antiparallel beta-strands, associated as a trimer complex similar to ion-transport channels. However, the 71-amino-acid-residue N-terminal periplasmic domain was not determined from the crystal structure due to the absence of sufficient electron density. The N-terminal polypeptide contains a coiled-coil structural motif and has been assumed to play a role in the sugar binding of ScrY porin. In this study the proteolytic stability and a specific proteolytic truncation site at the N-terminal domain were identified by the complete primary structure characterization of ScrY porin, using MALDI mass spectrometry and post-source-decay fragmentation. The secondary structure and supramolecular association of the coiled-coil N-terminal domain were determined by chemical synthesis of the complete N-terminal polypeptide and several partial sequences and their spectroscopic, biophysical, and mass spectrometric characterization. Circular dichroism spectra revealed predominant alpha-helical conformation for the putative coiled-coil domain comprising residues 4-46. Specific association to both dimer and trimer complexes was identified by electrospray ionization mass spectra and was ascertained by dynamic light scattering and electrophoresis data. The role of the N-terminal domain in sugar binding was examined by comparative TR-NOE-NMR spectroscopy of the complete ScrY porin and a recombinant mutant, ScrY(delta1-62), lacking the N-terminal polypeptide. The TR-NOE-NMR data showed a strong influence of ScrY porin on the sugar-binding affinity and suggested a possible function of the periplasmic N terminus for supramolecular stabilization and low-affinity sugar binding.

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