Structure-function relationships of domains of the delta subunit in Escherichia coli adenosine triphosphatase.

The topology of the and subunit of the Escherichia coli adenosinetriphosphatase (ECF1) has been explored by proteinase digestion and chemical labeling methods. The delta subunit of ECF1 could be cleaved selectively by reaction of the enzyme complex with very low amounts of trypsin (1:5000, w/w). Cleavage of the delta subunit occurred serially from the C-terminus. The N-terminal fragments of the delta subunit remained bound to the core ECF1 complex through sucrose gradient centrifugation, indicating that part of the binding of this subunit involves the N-terminal segment. ECF1, in which around 20 amino acids had been removed from the C-terminus of delta, still bound to ECF0 but DCCD sensitivity of the ATPase activity was lost. When ECF1 was reacted with N-ethyl[14C]maleimide ([14C]NEM) in the native state, only one of the two Cys residues on the delta subunit was modified. This residue, Cys-140, was also labeled in ECF1F0. Cys-140 was shown to be involved in the disulfide bridge between alpha and delta subunits that is generated when ECF1 is treated with CuCl2. Thus, the C-terminal part of the delta subunit around Cys-140 can interact with the core ECF1 complex. These results suggest a model for the delta subunit in which the central part of polypeptide is a part of the stalk, with both N- and C-termini associated with ECF1.