Structural studies of the vacuolar H(+)-pyrophosphatase: sequence analysis and identification of the residues modified by fluorescent cyclohexylcarbodiimide and maleimide.

We determined the amino acid residues of the H(+)-translocating inorganic pyrophosphatase (H(+)-PPase) of pumpkin which are covalently labeled by two fluorescent labeling reagents; N-cyclohexyl-N'-[4-(dimethyl amino)-alpha-naphthyl] carbodiimide (NCD) and N-pyrenylmaleimide (NPM). NCD and NPM are fluorescent analogues of N,N-dicycrohexylcarbodiimide and N-ethylmaleimide, respectively, and inactivate H(+)-PPase activity. Excess Mg2+ protected the H(+)-PPase from the inactivation by these reagents. Furthermore, we identified the cDNA clone encoding the pumpkin H(+)-PPase in order to determine the position of labeled residues. The nucleotide sequence of the cDNA clone contains a 2,304 bp open reading frame encoding a polypeptide with 768 amino acids. Chemical sequence analysis of fluorescent peptide fragments revealed that Glu749 located in the C-terminal putative transmembrane alpha-helix was a NCD-labeled residue, and Cys632 was a NPM-labeled residue located in a putative cytosolic domain. The amino acid sequence of the region that includes Glu749 is highly conserved in H(+)-PPases from other plants and it also shows some sequence similarity with the region of the carbodiimide-reactive Glu (or Asp) of F0F1-ATPase c-subunit. The reactive glutamic acids in these proteins are located at the last C-terminal transmembrane alpha-helix. We also found that the H(+)-PPase shows significant amino acid sequence similarity to Kdp-ATPase A chain of E. coli. This similarity between the two different proteins suggest that they have evolved from a common ancestor and may utilize a common basic mechanism for ion transport.