Joan C. Dunbar scite author profile

The PvuII restriction-modification system is a type II system, which means that its restriction endonuclease and modification methyltransferase are independently active proteins. The PvuII system is carried on a plasmid, and its movement into a new host cell is expected to be followed initially by expression of the methyltransferase gene alone so that the new host's DNA is protected before endonuclease activity appears. Previous studies have identified a regulatory gene (pvuIIC) between the divergently oriented genes for the restriction endonuclease (pvuIIR) and modification methyltransferase (pvuIIM), with pvuIIC in the same orientation as and partially overlapping pvuIIR. The product of pvuIIC, C ⅐ PvuII, was found to act in trans and to be required for expression of pvuIIR. In this study we demonstrate that premature expression of pvuIIC prevents establishment of the PvuII genes, consistent with the model that requiring C ⅐ PvuII for pvuIIR expression provides a timing delay essential for protection of the new host's DNA. We find that the opposing pvuIIC and pvuIIM transcripts overlap by over 60 nucleotides at their 5 ends, raising the possibility that their hybridization might play a regulatory role. We furthermore characterize the action of C ⅐ PvuII, demonstrating that it is a sequence-specific DNA-binding protein that binds to the pvuIIC promoter and stimulates transcription of both pvuIIC and pvuIIR into a polycistronic mRNA. The apparent location of C ⅐ PvuII binding, overlapping the ؊10 promoter hexamer and the pvuIICR transcriptional starting points, is highly unusual for transcriptional activators.The bacterial type II restriction-modification systems include a DNA modification methyltransferase (MTase) and a restriction endonuclease (REase), both of which act independently on the same DNA sequence (65). The REase cleaves duplex DNA sequences in the absence of sequence-specific DNA modification by the MTase. These systems can defend bacterial cells against viral infection, although other functional roles have also been proposed (45). Restriction-modification systems have provided an important focus for studies of molecular recognition. Biochemical and crystallographic analyses are yielding significant insights into the mechanisms of sequence recognition and catalytic activity of these proteins (3,18,50,66).

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Genetic Diversity through the Looking Glass: Effect of Enrichment Bias

Dunbar¹,

White²,

Forney³

1997

Appl Environ Microbiol

151

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The effect of enrichment bias on the diversity of 2,4-dichlorophenoxyacetate (2,4-D)-degrading (2,4-D ؉) bacteria recovered from soil was evaluated by comparing the diversity of isolates obtained by direct plating to the diversity of isolates obtained from 85 liquid batch cultures. By the two methods, a total of 159 isolates were purified from 1 g of soil and divided into populations based on repeated extragenic palindromic sequence PCR (rep-PCR) genomic fingerprints. Approximately 42% of the direct-plating isolates hybridized with the tfdA and tfdB genes from Alcaligenes eutrophus JMP134(pJP4), 27% hybridized with the tfdA and tfdB genes from Burkholderia sp. strain RASC, and 30% hybridized with none of the probes. In contrast, the enrichment isolates not only represented fewer populations than the isolates obtained by direct plating but also exhibited, almost exclusively, a single hybridization pattern with 2,4-D catabolic gene probes. Approximately 98% of the enrichment isolates possessed pJP4-type tfdA and tfdB genes, whereas isolates containing RASC-type tfdA and tfdB genes were obtained from only 2 of the 85 enrichment cultures. The skewed occurrence of the pJP4-type genes among the isolates obtained by enrichment suggests that the competitive fitness of 2,4-D ؉ populations during growth with 2,4-D may be influenced either by specific tfd alleles or by genetic factors linked to these alleles. Moreover, the results indicate that evaluation of the diversity and distribution of catabolic pathways in nature can be highly distorted by the use of enrichment culture techniques.

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The temperature-dependent dissociation of spectrin

Ralston

Dunbar

White

1977

Biochimica et Biophysica Acta (BBA) - Protein Structure

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Role of glandular kallikreins as growth factor processing enzymes: Structural and evolutionary considerations

Isackson

Dunbar

Bradshaw

1987

J of Cellular Biochemistry

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Hormones and growth factors are generally released from larger precursors by limited proteolysis. The causative agents remain poorly defined with respect to location and properties. One subset of proteases, the glandular kallikreins, have been implicated in a few cases, in part because of their specific association with mature forms of some hormones. However, limited distribution and low copy number in some species cast doubt on this hypothesis, and they may well play other physiological functions that remain to be elucidated.

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The identification of a functional nuclear localization signal in the Huntington disease protein

Bessert¹,

Gutridge²,

Dunbar³

et al. 1995

Molecular Brain Research

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Joan C. Dunbar

Role and Mechanism of Action of C · Pvu II, a Regulatory Protein Conserved among Restriction-Modification Systems

Genetic Diversity through the Looking Glass: Effect of Enrichment Bias

The temperature-dependent dissociation of spectrin

Role of glandular kallikreins as growth factor processing enzymes: Structural and evolutionary considerations

The identification of a functional nuclear localization signal in the Huntington disease protein

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