Deborah A Hudman scite author profile

Deborah A Hudman

5Publications

63Citation Statements Received

49Citation Statements Given

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142

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A.T. Still University

Publications

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Resazurin-based assay for screening bacteria for radiation sensitivity

Hudman

Sargentini

2013

SpringerPlus

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We report a simple and efficient colorimetric method to screen large numbers of bacterial strains for UV- and X-radiation sensitivity. We used reference radiation-sensitive and control strains of Escherichia coli K-12 to compare our colorimetric method to a standard clonogenic plating method. Our colorimetric method was as accurate as the standard method and was superior in terms of savings in supplies and man-hours.

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Screen for genes involved in radiation survival of Escherichia coli and construction of a reference database

Sargentini

Gularte

Hudman

2016

Mutation Research/Fundamental and Molecular Mechanisms of Mutag

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Role of SigB and Staphyloxanthin in Radiation Survival of Staphylococcus aureus

et al. 2018

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Detection of Borrelia, Ehrlichia, and Rickettsia spp. in ticks in northeast Missouri

Hudman

Sargentini

2016

Ticks and Tick-borne Diseases

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A ΔdinB mutation that sensitizes Escherichia coli to the lethal effects of UV- and X-radiation

Lee¹,

Franco²,

Vargas³

et al. 2014

Mutation Research/Fundamental and Molecular Mechanisms of Mutag

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The DinB (PolIV) protein of Escherichia coli participates in several cellular functions. We investigated a dinB mutation, Δ(dinB-yafN)883(::kan) [referred to as ΔdinB883], which strongly sensitized E. coli cells to both UV- and X-radiation killing. Earlier reports indicated dinB mutations had no obvious effect on UV radiation sensitivity which we confirmed by showing that normal UV radiation sensitivity is conferred by the ΔdinB749 allele. Compared to a wild-type strain, the ΔdinB883 mutant was most sensitive (160-fold) in early to mid-logarithmic growth phase and much less sensitive (twofold) in late log or stationary phases, thus showing a growth phase-dependence for UV radiation sensitivity. This sensitizing effect of ΔdinB883 is assumed to be completely dependent upon the presence of UmuDC protein; since the ΔdinB883 mutation did not sensitize the ΔumuDC strain to UV radiation killing throughout log phase and early stationary phase growth. The DNA damage checkpoint activity of UmuDC was clearly affected by ΔdinB883 as shown by testing a umuC104 ΔdinB883 double-mutant. The sensitivities of the ΔumuDC strain and the ΔdinB883 ΔumuDC double-mutant strain were significantly greater than for the ΔdinB883 strain, suggesting that the ΔdinB883 allele only partially suppresses UmuDC activity. The ΔdinB883 mutation partially sensitized (fivefold) uvrA and uvrB strains to UV radiation, but did not sensitize a ΔrecA strain. A comparison of the DNA sequences of the ΔdinB883 allele with the sequences of the Δ(dinB-yafN)882(::kan) and ΔdinB749 alleles, which do not sensitize cells to UV radiation, revealed ΔdinB883 is likely a “gain-of-function” mutation. The ΔdinB883 allele encodes the first 54 amino acids of wild-type DinB followed by 29 predicted residues resulting from the continuation of the dinB reading frame into an adjacent insertion fragment. The resulting polypeptide is proposed to interfere directly or indirectly with UmuDC function(s) involved in protecting cells against the lethal effects of radiation.

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Deborah A Hudman

Resazurin-based assay for screening bacteria for radiation sensitivity

Screen for genes involved in radiation survival of Escherichia coli and construction of a reference database

Role of SigB and Staphyloxanthin in Radiation Survival of Staphylococcus aureus

Detection of Borrelia, Ehrlichia, and Rickettsia spp. in ticks in northeast Missouri

A ΔdinB mutation that sensitizes Escherichia coli to the lethal effects of UV- and X-radiation

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