L Heffernan scite author profile

Expression of the L-arabinose regulon in Escherichia coli B/r requires, among other things, cyclic adenosine-3',5'-monophosphate (cAMP) and the cAMP receptor protein (CRP). Mutants deficient in adenyl cyclase (cya-), the enzyme which synthesizes cAMP, or CRP (crp-) are unable to utilize a variety of carbohydrates, including L-arabinose. Ara+ revertants of a cya-crp-strain were isolated on 0.2% minimal L-arabinose plates, conditions which require the entire ara regulon to be activated in the absence of cAMP and CRP. Evidence from genetic and physiological studies is consistent with placing these mutations in the araC regulatory gene. Deletion mapping with one mutant localized the site within either araO or araC, and complementation tests indicated the mutants acted trans to confer the ability to utilize L-arabinose in a cyacrp-genetic background. Since genetic analysis supports the conclusion that the mutant sites are in the araC regulatory gene, the mutants were designated araCi, indicating a mutation in the regulatory gene affecting the cAMP-CRP requirement. Physiological analysis of one mutant, araC'1, illustrates the transacting nature of the mutation. In a cya-crpgenetic background, araC1l promoted synthesis of both isomerase, a product of the araBAD operon, and permease, a product of the araE operon. Isomerase and permease levels in araCi1 cya+ crp+ were hyperinducible, and the sensitivity of each to cAMP was altered. Two models are presented that show the possible mutational lesion in the araCi strains.

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Isolation of ara-lac gene fusions in Salmonella typhimurium LT2 by using transducing bacteriophage Mu d (Apr lac)

Lee¹,

Heffernan²,

Wilcox³

1980

J Bacteriol

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A specialized Mu transducing phage containing a gene encoding ampicillin resistance and the lac structural genes without the lac promoter [Mu d(Apr lac)] has been constructed and used to create gene fusions in Escherichia coli (M. J. Casadaban and S. N. Cohen, Proc. Natl. Acad. Sci. U.S.A. 76:4530-4533, 1979). Transposition of the Mu d(Apr lac) phage to chromosomal sites can result in lac expression being controlled by a chromosomal promoter. We have constructed an Escherichia coli K-12 strain in which the Mu d(Apr lac) phage is integrated into an F factor. The F+::Mu d(Apr lac) was then transferred by conjugation into a Salmonella typhimurium strain that was sensitive to L-arabinose. Strains containing gene fusions were selected as L-arabinose-resistant colonies after partial induction of the phage. Two classes of ara-lac fusion strains were isolated: (i) araC-lac fusions in which the expression of,-galactosidase synthesis was constitutive and not inducible by L-arabinose; and (ii) fusion of the lac genes to the ara structural genes in which the expression of fl-galactosidase synthesis was induced 263-fold by L-arabinose.

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The site for catabolite deactivation in the L-arabinose BAD operon in Escherichia coli B/r

et al. 1976

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A series of deletions beginning in the leu operon and continuing into the araC gene and also into the ara controlling site region were analyzed in reciprocal merodiploids, e.g., F' A2Cc67/B24delta719, F' B24delta719/A2Cc67, for their effects on catabolite deactivation (CD). The results of these experiments are consistent with placing the catabolite gene activator-cyclic AMP sensitive site in the controlling site region between araB and araO. With a deletion mutant, delta1109, that places araBAD under leu control when transcription begins at leuP, the araBAD operon is immune to CD even though araCGA, araP and araI are intact and functional. To focus attention on the fine structure and related functions of this region we propose that the three proteins that function therein have separate sites of action: araI (initiator-site for activator), araP (promoter-site for RNA polymerase) and ara(CGA) (catabolite gene activator-site for CGA-cAMP). None of the eighteen initiator constitutive mutants (Ic) tested have any significant effect on catabolite derepression or on the maximal level of expression of the operon supporting the view that the araI site may be distinct from araP and ARA(CGA). A series of constitutive mutants in the araC gene (Cc) also have no pronounced effect on catabolite deactivation.

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Evidence that polygalacturonase is a virulence determinant in Erwinia carotovora

Lei¹,

Lin²,

Heffernan³

et al. 1985

J Bacteriol

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Polygalacturonase (PG) was purified from Erwinia carotovora EC. A hybrid cosmid, pSH711, that encodes PG activity but not pectate lyase activity was identified from an E. carotovora genomic library by an immunological screening method. A cell extract of Escherichia coli cells containing pSH711 was able to produce plant tissue maceration when spotted on carrot, potato, or turnip slices. In addition, the E. coli strain containing this plasmid was able to macerate carrot, potato, and turnip slices. Our results suggest that PG plays an important role in soft-rot disease.

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Deoxyribonucleic Acid-Ribonucleic Acid Hybridization Studies on the l -Arabinose Operon of Escherichia coli B/r

1971

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L Heffernan

Mutations affecting catabolite repression of the L-arabinose regulon in Escherichia coli B/r

Isolation of ara-lac gene fusions in Salmonella typhimurium LT2 by using transducing bacteriophage Mu d (Apr lac)

The site for catabolite deactivation in the L-arabinose BAD operon in Escherichia coli B/r

Evidence that polygalacturonase is a virulence determinant in Erwinia carotovora

Deoxyribonucleic Acid-Ribonucleic Acid Hybridization Studies on the l -Arabinose Operon of Escherichia coli B/r

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