Abstract
The melibiose permease of Salmonella typhimurium (MelBSt) catalyzes the stoichiometric symport of galactopyranoside with a cation (H+, Li+, or Na+) and is a prototype for Na+-coupled major facilitator superfamily (MFS) transporters presenting from bacteria to mammals. X-ray crystal structures of MelBSt have revealed the molecular recognition mechanism for sugar binding; however, understanding of the cation site and symport mechanism is still vague. To further investigate the transport mechanism and conformational dynamics of MelBSt, we generated a complete single-Cys library containing 476 unique mutants by placing a Cys at each position on a functional Cys-less background. Surprisingly, 105 mutants (22%) exhibit poor transport activities (<15% of Cys-less transport), although the expression levels of most mutants were comparable to that of the control. The affected positions are distributed throughout the protein. Helices I and X and transmembrane residues Asp and Tyr are most affected by cysteine replacement, while helix IX, the cytoplasmic middle-loop, and C-terminal tail are least affected. Single-Cys replacements at the major sugar-binding positions (K18, D19, D124, W128, R149, and W342) or at positions important for cation binding (D55, N58, D59, and T121) abolished the Na+-coupled active transport, as expected. We mapped 50 loss-of-function mutants outside of these substrate-binding sites that suffered from defects in protein expression/stability or conformational dynamics. This complete Cys-scanning mutagenesis study indicates that MelBSt is highly susceptible to single-Cys mutations, and this library will be a useful tool for further structural and functional studies to gain insights into the cation-coupled symport mechanism for Na+-coupled MFS transporters.
Highlights
Transporter Classification Database (TCDB) [1], which is a subgroup of the major facilitator superfamily (MFS) of membrane transporters found from bacteria to mammals
Among 475 mutants, 226 positions (47.58%) showed initial rates greater than 70% of Cys-less melibiose permease of Salmonella typhimurium (MelBSt), which are well tolerated to Cys mutation; 218 mutants (45.89%) showed the accumulation greater than 70% of the control
Cys-scanning mutagenesis has been successfully applied for the studies of structure and function of the H+-coupled lactose permease LacY [28, 40]
Summary
Transporter Classification Database (TCDB) [1], which is a subgroup of the major facilitator superfamily (MFS) of membrane transporters found from bacteria to mammals. The 105 positions are distributed throughout the protein (Fig. 2 and Table 1), 93 mutants located on 12 transmembrane helices including 1 on helix IX, 11 in the extramembrane loops, and 1 at the C-terminal tail.
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