Abstract
Sod2 is the plasma membrane Na(+)/H(+) exchanger of the fission yeast Schizosaccharomyces pombe. It provides salt tolerance by removing excess intracellular sodium (or lithium) in exchange for protons. We examined the role of amino acid residues of transmembrane segment IV (TM IV) ((126)FPQINFLGSLLIAGCITSTDPVLSALI(152)) in activity by using alanine scanning mutagenesis and examining salt tolerance in sod2-deficient S. pombe. Two amino acids were critical for function. Mutations T144A and V147A resulted in defective proteins that did not confer salt tolerance when reintroduced into S. pombe. Sod2 protein with other alanine mutations in TM IV had little or no effect. T144D and T144K mutant proteins were inactive; however, a T144S protein was functional and provided lithium, but not sodium, tolerance and transport. Analysis of sensitivity to trypsin indicated that the mutations caused a conformational change in the Sod2 protein. We expressed and purified TM IV (amino acids 125-154). NMR analysis yielded a model with two helical regions (amino acids 128-142 and 147-154) separated by an unwound region (amino acids 143-146). Molecular modeling of the entire Sod2 protein suggested that TM IV has a structure similar to that deduced by NMR analysis and an overall structure similar to that of Escherichia coli NhaA. TM IV of Sod2 has similarities to TM V of the Zygosaccharomyces rouxii Na(+)/H(+) exchanger and TM VI of isoform 1 of mammalian Na(+)/H(+) exchanger. TM IV of Sod2 is critical to transport and may be involved in cation binding or conformational changes of the protein.
Highlights
Sod2 is the salt tolerance protein of Schizosaccharomyces pombe
Growth characteristics are indicated as follows: ϩϩϩ, growth essentially equivalent to that supported by wild type Sod2; ϩϩ, growth slightly reduced compared with wild type Sod2; ϩ, growth greatly reduced compared with wild type Sod2 but still greater than that of Sod2 knock-out; Ϫ, growth essentially equivalent to Sod2 knock-out yeast
Group refers to the following groupings: I, no effect of mutation on salt tolerance; II, very mild effect; III, marked effect on NaCl and LiCl tolerance; IV, marked effect on NaCl tolerance only; and V, intermediate effect on NaCl and LiCl tolerance
Summary
Sod is the salt tolerance protein of Schizosaccharomyces pombe. Results: Alanine scanning mutagenesis and structural analysis demonstrated that amino acids 144 –147 are in an extended region of transmembrane segment IV and are critical for function. Conclusion: Mutations in transmembrane segment IV affect Sod cation transport. We examined the role of amino acid residues of transmembrane segment IV (TM IV) (126FPQINFLGSLLIAGCITSTDPVLSALI152) in activity by using alanine scanning mutagenesis and examining salt tolerance in sod2-deficient S. pombe. Mutations T144A and V147A resulted in defective proteins that did not confer salt tolerance when reintroduced into S. pombe. Analysis of sensitivity to trypsin indicated that the mutations caused a conformational change in the Sod protein. TM IV of Sod is critical to transport and may be involved in cation binding or conformational changes of the protein
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