Jeffrey Havens scite author profile

Jeffrey Havens

5Publications

67Citation Statements Received

422Citation Statements Given

How they've been cited

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229

393

Affiliations

Defense Threat Reduction Agency, University of Arkansas at Fayetteville, Montana Department of Public Health and Human Services

Publications

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Shiga Toxin–Producing Escherichia coli Infections Associated With Romaine Lettuce—United States, 2018

Bottichio

Keaton

Thomas

et al. 2019

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Background Produce-associated outbreaks of Shiga toxin–producing Escherichia coli (STEC) were first identified in 1991. In April 2018, New Jersey and Pennsylvania officials reported a cluster of STEC O157 infections associated with multiple locations of a restaurant chain. The Centers for Disease Control and Prevention (CDC) queried PulseNet, the national laboratory network for foodborne disease surveillance, for additional cases and began a national investigation. Methods A case was defined as an infection between 13 March and 22 August 2018 with 1 of the 22 identified outbreak-associated E. coli O157:H7 or E. coli O61 pulsed-field gel electrophoresis pattern combinations, or with a strain STEC O157 that was closely related to the main outbreak strain by whole-genome sequencing. We conducted epidemiologic and traceback investigations to identify illness subclusters and common sources. A US Food and Drug Administration–led environmental assessment, which tested water, soil, manure, compost, and scat samples, was conducted to evaluate potential sources of STEC contamination. Results We identified 240 case-patients from 37 states; 104 were hospitalized, 28 developed hemolytic uremic syndrome, and 5 died. Of 179 people who were interviewed, 152 (85%) reported consuming romaine lettuce in the week before illness onset. Twenty subclusters were identified. Product traceback from subcluster restaurants identified numerous romaine lettuce distributors and growers; all lettuce originated from the Yuma growing region. Water samples collected from an irrigation canal in the region yielded the outbreak strain of STEC O157. Conclusions We report on the largest multistate leafy greens–linked STEC O157 outbreak in several decades. The investigation highlights the complexities associated with investigating outbreaks involving widespread environmental contamination.

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Design and use of photoactive ruthenium complexes to study electron transfer within cytochrome bc1 and from cytochrome bc1 to cytochrome c

Millett

Havens

Rajagukguk

et al. 2013

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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The cytochrome bc1 complex (ubiquinone:cytochrome c oxidoreductase) is the central integral membrane protein in the mitochondrial respiratory chain as well as the electron-transfer chains of many respiratory and photosynthetic prokaryotes. Based on X-ray crystallographic studies of cytochrome bc1, a mechanism has been proposed in which the extrinsic domain of the iron-sulfur protein first binds to cytochrome b where it accepts an electron from ubiquinol in the Qo site, and then rotates by 57o to a position close to cytochrome c1 where it transfers an electron to cytochrome c1. This review describes the development of a ruthenium photooxidation technique to measure key electron transfer steps in cytochrome bc1, including rapid electron transfer from the iron-sulfur protein to cytochrome c1. It was discovered that this reaction is rate-limited by the rotational dynamics of the iron-sulfur protein rather than true electron transfer. A conformational linkage between the occupant of the Qo ubiquinol binding site and the rotational dynamics of the iron-sulfur protein was discovered which could play a role in the bifurcated oxidation of ubiquinol. A ruthenium photoexcitation method is also described for the measurement of electron transfer from cytochrome c1 to cytochrome c. This article is part of a special issue entitled: Respiratory Complex III.

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Photoinitiated Electron Transfer within the Paracoccus denitrificans Cytochrome bc₁ Complex: Mobility of the Iron–Sulfur Protein Is Modulated by the Occupant of the Q_o Site

et al. 2011

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Domain rotation of the Rieske iron-sulfur protein (ISP) between the cytochrome (cyt) b and cyt c1 redox centers plays a key role in the mechanism of the cyt bc1 complex. Electron transfer within the cyt bc1 complex of P. denitrificans was studied using a ruthenium dimer to rapidly photo-oxidize cyt c1 within 1 μs and initiate the reaction. In the absence of any added quinol or inhibitor of the bc1 complex at pH 8.0, electron transfer from reduced ISP to cyt c1 was biphasic with rate constants of k1f = 6300 ± 3000 s−1 and k1s = 640 ± 300 s−1 and amplitudes of 10 ± 3% and 16 ± 4 % of the total amount of cyt c1 photooxidized. Upon addition of any of the Pm type inhibitors MOA-stilbene, myxothiazol, or azoxystrobin to cyt bc1 in the absence of quinol, the total amplitude increased 2-fold, consistent with a decrease in redox potential of the ISP. In addition, the relative amplitude of the fast phase increased significantly, consistent with a change in the dynamics of the ISP domain rotation. In contrast, addition of the Pf type inhibitors JG-144 and famoxadone decreased the rate constant k1f by 5 to 10-fold, and increased the amplitude over 2-fold. Addition of quinol substrate in the absence of inhibitors led to a two-fold increase in the amplitude of the k1f phase. The effect of QH2 on the kinetics of electron transfer from reduced ISP to cyt c1 was thus similar to that of the Pm inhibitors and very different from that of the Pf inhibitors. The current results indicate that the species occupying the Qo site has a significant conformational influence on the dynamics of the ISP domain rotation.

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The acidic domain of cytochrome c1 in Paracoccus denitrificans, analogous to the acidic subunits in eukaryotic bc1 complexes, is not involved in the electron transfer reaction to its native substrate cytochrome c552

Castellani

Havens

Kleinschroth

et al. 2011

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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The cytochrome bc1 complex is a key component in several respiratory pathways. One of the characteristics of the eukaryotic complex is the presence of a small acidic subunit, which is thought to guide the interaction of the complex with its electron acceptor and facilitate electron transfer. Paracoccus denitrificans represents the only example of a prokaryotic organism in which a highly acidic domain is covalently fused to the cytochrome c1 subunit. In this work, a deletion variant lacking this acidic domain has been produced and purified by affinity chromatography. The complex is fully intact as shown by its X-ray structure, and is a dimer (Kleinschroth et al., subm.) compared to the tetrameric (dimer-of-dimer) state of the wild-type. The variant complex is studied by steady-state kinetics and flash photolysis, showing wild type turnover and a virtually identical interaction with its substrate cytochrome c552.

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Ruthenium Photoinitiation of Electron Transfer in the Rb. Sphaeroides Cytochrome bc1 Complex: Rotational dynamics of the iron-sulfur protein, diffusion of quinone between the Qo and Qi sites, and linkage between the two monomers

Millett

Havens

Yuan

et al. 2012

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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Jeffrey Havens

Shiga Toxin–Producing Escherichia coli Infections Associated With Romaine Lettuce—United States, 2018

Design and use of photoactive ruthenium complexes to study electron transfer within cytochrome bc1 and from cytochrome bc1 to cytochrome c

Photoinitiated Electron Transfer within the Paracoccus denitrificans Cytochrome bc₁ Complex: Mobility of the Iron–Sulfur Protein Is Modulated by the Occupant of the Q_o Site

The acidic domain of cytochrome c1 in Paracoccus denitrificans, analogous to the acidic subunits in eukaryotic bc1 complexes, is not involved in the electron transfer reaction to its native substrate cytochrome c552

Ruthenium Photoinitiation of Electron Transfer in the Rb. Sphaeroides Cytochrome bc1 Complex: Rotational dynamics of the iron-sulfur protein, diffusion of quinone between the Qo and Qi sites, and linkage between the two monomers

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Jeffrey Havens

Shiga Toxin–Producing Escherichia coli Infections Associated With Romaine Lettuce—United States, 2018

Design and use of photoactive ruthenium complexes to study electron transfer within cytochrome bc1 and from cytochrome bc1 to cytochrome c

Photoinitiated Electron Transfer within the Paracoccus denitrificans Cytochrome bc1 Complex: Mobility of the Iron–Sulfur Protein Is Modulated by the Occupant of the Qo Site

The acidic domain of cytochrome c1 in Paracoccus denitrificans, analogous to the acidic subunits in eukaryotic bc1 complexes, is not involved in the electron transfer reaction to its native substrate cytochrome c552

Ruthenium Photoinitiation of Electron Transfer in the Rb. Sphaeroides Cytochrome bc1 Complex: Rotational dynamics of the iron-sulfur protein, diffusion of quinone between the Qo and Qi sites, and linkage between the two monomers

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Photoinitiated Electron Transfer within the Paracoccus denitrificans Cytochrome bc₁ Complex: Mobility of the Iron–Sulfur Protein Is Modulated by the Occupant of the Q_o Site