Cryptic genes for cellobiose utilization in natural isolates of Escherichia coli.

The ECOR collection of natural Escherichia coli isolates was screened to determine the proportion of strains that carried functional, cryptic and nonfunctional genes for utilization of the three beta-glucoside sugars, arbutin, salicin and cellobiose. None of the 71 natural isolates utilized any of the beta-glucosides. Each strain was subjected to selection for utilization of each of the sugars. Only five of the isolates were incapable of yielding spontaneous beta-glucoside-utilizing mutants. Forty-five strains yielded cellobiose+ mutants, 62 yielded arbutin+ mutants, and 58 strains yielded salicin+ mutants. A subset of the mutants was screen by mRNA hybridization to determine whether they were expressing either the cel or the bgl beta-glucoside utilization operons of E. coli K12. Two cellobiose+ and two arbutin+-salicin+ strains failed to express either of these known operons. It is concluded that there are at least four gene clusters specifying beta-glucoside utilization functions in E. coli populations, and that all of these are normally cryptic. It is estimated that in any random isolate the probability of any particular cluster having been irreversibly inactivated by the accumulation of random mutations is about 0.5.