Extragenic Pleiotropic Mutations That Repress Glycosyl Hydrolase Expression in the Hyperthermophilic Archaeon Sulfolobus solfataricus

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Extragenic Pleiotropic Mutations That Repress Glycosyl Hydrolase Expression in the Hyperthermophilic Archaeon Sulfolobus solfataricus

Cynthia Haseltine^a, Rafael Montalvo-Rodriguez^a, Audrey Carl^a, Elisabetta Bini^a, and Paul Blum^a
^a George Beadle Center for Genetics, School of Biological Sciences, University of Nebraska, Lincoln, Nebraska 68588-0666

Corresponding author: Paul Blum, E234 Beadle Ctr., University of Nebraska, Lincoln, NE 68588-0666., pblum{at}biocomp.unl.edu (E-mail)

Communicating editor: C. J. DANIELS

The hyperthermophilic archaeon Sulfolobus solfataricus employsa catabolite repression-like regulatory system to control enzymesinvolved in carbon and energy metabolism. To better understandthe basis of this system, spontaneous glycosyl hydrolase mutantswere isolated using a genetic screen for mutations, which reducedexpression of the lacS gene. The specific activities of threeglycosyl hydrolases, including an ${alpha}$ -glucosidase (malA), a ß-glycosidase(lacS), and the major secreted ${alpha}$ -amylase, were measured in themutant strains using enzyme activity assays, Western blot analysis,and Northern blot analysis. On the basis of these results themutants were divided into two classes. Group I mutants exhibiteda pleiotropic defect in glycosyl hydrolase expression, whilea single group II mutant was altered only in lacS expression.PCR, Southern blot analysis, comparative heterologous expressionin Escherichia coli, and DNA sequence analysis excluded cis-actingmutations as the explanation for reduced lacS expression ingroup I mutants. In contrast lacS and flanking sequences weredeleted in the group II mutant. Revertants were isolated fromgroup I mutants using a lacS-specific screen and selection.These revertants were pleiotropic and restored glycosyl hydrolaseactivity either partially or completely to wild-type levelsas indicated by enzyme assays and Western blots. The lacS mutationin the group II mutant, however, was nonrevertible. The existenceof group I mutants and their revertants reveals the presenceof a trans-acting transcriptional regulatory system for glycosylhydrolase expression.

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