Jason Behnke scite author profile

Using a microplate-based screening assay, the effects on Pseudomonas aeruginosa PAO1 biofilm formation of several S-substituted cysteine sulfoxides and their corresponding disulfide derivatives were evaluated. From our library of compounds, S-phenyl-L-cysteine sulfoxide and its breakdown product, diphenyl disulfide, significantly reduced the amount of biofilm formation by P. aeruginosa at levels equivalent to the active concentration of 4-nitropyridine-N-oxide (NPO) (1 mM). Unlike NPO, which is an established inhibitor of bacterial biofilms, our active compounds did not reduce planktonic cell growth and only affected biofilm formation. When used in a Drosophila-based infection model, both S-phenyl-L-cysteine sulfoxide and diphenyl disulfide significantly reduced the P. aeruginosa recovered 18 h post infection (relative to the control), and were non-lethal to the fly hosts. The possibility that the observed biofilm inhibitory effects were related to quorum sensing inhibition (QSI) was investigated using Escherichia coli-based reporters expressing P. aeruginosa lasR or rhIR response proteins, as well as an endogenous P. aeruginosa reporter from the lasI/lasR QS system. Inhibition of quorum sensing by S-phenyl-L-cysteine sulfoxide was observed in all of the reporter systems tested, whereas diphenyl disulfide did not exhibit QSI in either of the E. coli reporters, and showed very limited inhibition in the P. aeruginosa reporter. Since both compounds inhibit biofilm formation but do not show similar QSI activity, it is concluded that they may be functioning by different pathways. The hypothesis that biofilm inhibition by the two active compounds discovered in this work occurs through QSI is discussed.

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Microbial biofilms for the removal of Cu2+ from CMP wastewater

Mosier

Behnke

Jin

et al. 2015

Journal of Environmental Management

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C.¹,

Kurt²,

Behnke³

et al.

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Bacterial biofilms for sequestration of Cu<sup>+2</sup> from CMP wastewater

Mosier

Jin

Behnke

et al. 2014

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The process of chemical mechanical planarization (CMP) employed by the semiconductor industry creates large quantities of wastewater containing toxic levels of copper. Use of biomass-based filtration may offer a less expensive and more sustainable means of treating wastewater prior to disposal. We screened a library of microorganisms for ability to bind Cu 2+ from solution and form biofilm within packed bed filtration columns. Filter beds supporting L. casei/P. pastoris biofilms were found to exhibit a two-phase adsorption behavior during flow-through binding experiments. Bound Cu 2+ was able to be recovered via acid wash, and the biomass quickly regenerated and could be reused.

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Investigating Root Cause of a Bubble Formation in Spin on Hardmask

Dar

Behnke

Baumann

et al. 2018

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Through inline processing of a prospective Spin on Hardmask (SOH) material, bubble defects were observed randomly across a wafer. Several complementary FA techniques were utilized to characterize the bubble defects including SEM, TEM, and chemical analysis techniques. The root cause of defect formation was identified as a raw material imperfection in SOH, which led to excessive outgassing. Imperfections within the substrate formed nucleation sites for outgassing of SOH material forming bubbles, which allowed voids to propagate. These findings led to implementation of greater quality control methods by the raw material manufacturer.

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Jason Behnke

Inhibition of Biofilm Formation, Quorum Sensing and Infection in Pseudomonas aeruginosa by Natural Products-Inspired Organosulfur Compounds

Microbial biofilms for the removal of Cu2+ from CMP wastewater

Untitled

Bacterial biofilms for sequestration of Cu<sup>+2</sup> from CMP wastewater

Investigating Root Cause of a Bubble Formation in Spin on Hardmask

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Resources

About

Jason Behnke

Inhibition of Biofilm Formation, Quorum Sensing and Infection in Pseudomonas aeruginosa by Natural Products-Inspired Organosulfur Compounds

Microbial biofilms for the removal of Cu2+ from CMP wastewater

Untitled

Bacterial biofilms for sequestration of Cu<sup>&#x002B;2</sup> from CMP wastewater

Investigating Root Cause of a Bubble Formation in Spin on Hardmask

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Product

Resources

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Bacterial biofilms for sequestration of Cu<sup>+2</sup> from CMP wastewater