The basic regulatory elements that most temperate phages use for the establishment and maintenance of their lysogeny are the phage-encoded repressor and the cognate operator DNA [1][2][3][4][5][6][7][8][9][10][11][12]. A temperate phage generally enters into the lysogenic life cycle once its repressor inhibits the transcription of the phagespecific lytic genes from the early promoter by binding to the overlapped operator DNA. Repressors of the temperate phages, although varying greatly in size and in primary sequence level, mostly harbor a DNA binding domain and an oligomerization domain. The size and type of the operator DNAs also vary from phage to phage. Although some repressors bind to operators with dyad symmetry [1,[5][6][7][8][9] or operators with direct repeats [10], other repressors bind to asymmetric operators [2,3,[11][12][13] to establish lysogeny. Interestingly, the repressor of Vibrio cholerae phage CTX/ binds to extended operators, stopping lytic growth, as well as ensuring lysogeny of this phage [4]. Although these regulatory elements have enriched both basic and applied molecular biology enormously, they have not been cloned from most temperate phages or characterized in any depth.The temperate Staphylococcus aureus phage /11 [14] harbors the cI and cro genes in a divergent orientation to that in lambdoid phages [1,8]. The sequence of the immunity region of /11, however, differs significantly from those of the lambdoid phages and other temper- The repressor protein and cognate operator DNA of any temperate Staphylococcus aureus phage have not been investigated in depth, despite having the potential to enrich the molecular biology of the staphylococcal system. In the present study, using the extremely pure repressor of temperate Staphylococcus aureus phage /11 (CI), we demonstrate that CI is composed of a-helix and b-sheet to a substantial extent at room temperature, possesses two domains, unfolds at temperatures above 39°C and binds to two sites in the /11 cI-cro intergenic region with variable affinity. The above CI binding sites harbor two homologous 15 bp inverted repeats (O1 and O2), which are spaced 18 bp apart. Several guanine bases located in and around O1 and O2 demonstrate interaction with CI, indicating that these 15 bp sites are used as operators for repressor binding. CI interacted with O1 and O2 in a cooperative manner and was found to bind to operator DNA as a homodimer. Interestingly, CI did not show appreciable binding to another homologous 15 bp site (O3) that was located in the same primary immunity region as O1 and O2. Taken together, these results suggest that /11 CI and the /11 CI-operator complex resemble significantly those of the lambdoid phages at the structural level. The mode of action of /11 CI, however, may be distinct from that of the repressor proteins of k and related phages.Abbreviations CI, repressor of temperate Staphylococcus aureus phage /11; CTD, C-terminal domain; DMS, dimethyl sulfate; DTNB, 5,5¢-dithiobis-(2-nitrobenzoic acid); NTD, N-terminal domain.
