Natural and altered induction of the L-fucose catabolic enzymes in Klebsiella aerogenes

Abstract: Mutants of Klebsiella aerogenes W70 were isolated that had gained the ability to utilize the uncommon pentose D-arabinose as their sole source of carbon and energy. In contrast to the D-arabinose-negative, parent strain, these mutants were found to be either constitutive for certain enzymes of the L-fucose catabolic pathway or inducible for such enzymes when incubated in the presence of D-arabinose. The mutants used L-fucose isomerase to convert D-arabinose to D-ribulose, which is an intermediate and inducer o… Show more

“…Further, we hypothesized that adaptation routinely begins with the overexpression of ambiguous and/or promiscuous enzymes. Anecdotal evidence in support of this hypothesis includes early experiments showing that the enzymes of fucose metabolism could be recruited for the catabolism of L-1,2propanediol (Cocks et al 1974) and D-arabinose (St Martin and Mortlock 1976). Campbell, Hall, and Hartl also demonstrated that a repressor mutation enabling constitutive expression of a cryptic β-galactosidase, Ebg, was critical for its ability to suppress E. coli lacZ mutants (Hall 2003).…”

Multicopy Suppression Underpins Metabolic Evolvability

“…Further, we hypothesized that adaptation routinely begins with the overexpression of ambiguous and/or promiscuous enzymes. Anecdotal evidence in support of this hypothesis includes early experiments showing that the enzymes of fucose metabolism could be recruited for the catabolism of L-1,2propanediol (Cocks et al 1974) and D-arabinose (St Martin and Mortlock 1976). Campbell, Hall, and Hartl also demonstrated that a repressor mutation enabling constitutive expression of a cryptic β-galactosidase, Ebg, was critical for its ability to suppress E. coli lacZ mutants (Hall 2003).…”

Multicopy Suppression Underpins Metabolic Evolvability

Regulation of Enzyme Synthesis in the Bacteria: A Comparative and Evolutionary Study

The Development of Catabolic Pathways for the Uncommon Aldopentoses