Transcriptional regulation of nitric oxide reduction in Ralstonia eutropha H16

Nitric oxide reduction in Ralstonia eutropha H16 is catalysed by the quinol-dependent NO reductase NorB. norB and the adjacent norA form an operon that is controlled by the σ54-dependent transcriptional activator NorR in response to NO. A NorR derivative containing MalE in place of the N-terminal domain binds to a 73 bp region upstream of norA that includes three copies of the putative upstream activator sequence GGT-(N7)-ACC. Mutations altering individual bases of this sequence resulted in an 80–90% decrease in transcriptional activation by wild-type NorR. Similar motifs are present in several proteobacteria upstream of genes encoding proteins of NO metabolism. The N-terminal domain of NorR contains a GAF module and is hypothesized to interact with a signal molecule. A NorR derivative lacking this domain activates the norAB promoter constitutively. Amino acid exchanges within the GAF module identified a cysteine residue that is essential for promoter activation by NorR. Signal sensing by NorR is negatively modulated by the iron-containing protein NorA.

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Ultra-Low Amounts of Palladium (0.005-0.05 Wt% Pd) Supported on Titania: Remarkable Low-Temperature Activity for NO Reduction with CO and Structure-Function Property Relationships in Methane Oxidation

10.26434/chemrxiv.13489380.v1 ◽

2020 ◽

Author(s):

Konstantin Khivantsev ◽

Libor Kovarik ◽

Nicholas R. Jaegers ◽

János Szanyi ◽

Yong Wang

Keyword(s):

Nitric Oxide ◽

Carbon Monoxide ◽

Methane Oxidation ◽

Steam Reforming ◽

Methane Steam Reforming ◽

Oxide Reduction ◽

Water Steam ◽

Methane Steam ◽

Anatase Titania ◽

Nitric Oxide Reduction

Atomically dispersed Pd +2 cations with ultra-dilute loading of palladium (0.005-0.05 wt%) were anchored on anatase titania and characterized with FTIR, microscopy and catalytic tests. CO infrared adsorption produces a sharp, narrow mono-carbonyl Pd(II)-CO band at ~2,130 cm-1 indicating formation of highly uniform and stable Pd+2 ions on anatase titania. The 0.05 wt% Pd/TiO2 sample was evaluated for methane combustion under dry and wet (industrially relevant) conditions in the presence and absence of carbon monoxide. Notably, we find the isolated palladium atoms respond dynamically upon oxygen concentration modulation (switching-on and switching off). When oxygen is removed from the wet methane stream, palladium ions are reduced to metallic state by methane and catalyze methane steam reforming instead of complete methane oxidation. Re-admission of oxygen restores Pd+2 cations and switches off methane steam reforming activity. Moreover, 0.05 wt% Pd/TiO2 is a competent CO oxidation catalyst in the presence of water steam with 90% CO conversion and TOF ~ 4,000 hr-1 at 260 ⁰C. More importantly, we find that diluting 0.05 wt% Pd/titania sample with titania to ultra-low 0.005 wt% palladium loading produces a remarkably active material for nitric oxide reduction with carbon monoxide under industrially relevant conditions with >90% conversion of nitric oxide at 180 ⁰C (~460 ppm NO and 150 L/g*hr flow rate in the presence of >2% water steam) and TOF ~6,000 hr-1. Pd thus outperforms state-of-the-art rhodium containing catalysts with (15-20 times higher rhodium loading; rhodium is ~ 3 times more expensive than palladium). Furthermore, palladium catalysts are more selective towards nitrogen and produce significantly less ammonia relative to the more traditional rhodium catalysts due to lower Pd amount nd lower water-gas-shift activity. Our study is the first example of utilizing ultra-low (0.05 wt% and less) noble metal (Pd) amounts to produce heterogeneous catalysts with extraordinary activity for nitric oxide reduction. This opens up a pathway to study other Pd, Pt and Rh containing materials with ultra-low loadings of expensive noble metals dispersed on titania or titania-coated oxides for industrially relevant nitric oxide abatement.

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Nitric Oxide Reduction with Hydrogen, Carbon Monoxide, and Hydrocarbons over Gold Catalysts

Gold Bulletin ◽

10.1007/bf03214783 ◽

1999 ◽

Vol 32 (1) ◽

pp. 3-11 ◽

Cited By ~ 138

Author(s):

Atsushi Ueda ◽

Masatake Haruta

Keyword(s):

Nitric Oxide ◽

Carbon Monoxide ◽

Gold Catalysts ◽

Oxide Reduction ◽

Nitric Oxide Reduction

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Nitric Oxide Reduction in Methyl Nitrite Pyrolysis and the Transition from Isothermal Decomposition to Adiabatic Flame

Nature ◽

10.1038/188056a0 ◽

1960 ◽

Vol 188 (4744) ◽

pp. 56-56 ◽

Cited By ~ 11

Author(s):

PETER GRAY ◽

A. WILLIAMS

Keyword(s):

Nitric Oxide ◽

Isothermal Decomposition ◽

Oxide Reduction ◽

Methyl Nitrite ◽

Nitric Oxide Reduction

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Mechanisms of the various nitric oxide reduction reactions on a platinum-rhodium (100) alloy single crystal surface

Surface Science ◽

10.1016/0039-6028(92)90463-g ◽

1992 ◽

Vol 262 (1-2) ◽

pp. 97-112 ◽

Cited By ~ 62

Author(s):

H. Hirano ◽

T. Yamada ◽

K.I. Tanaka ◽

J. Siera ◽

P. Cobden ◽

...

Keyword(s):

Nitric Oxide ◽

Single Crystal ◽

Crystal Surface ◽

Alloy Single Crystal ◽

Single Crystal Surface ◽

Oxide Reduction ◽

Reduction Reactions ◽

Nitric Oxide Reduction

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A DNA Region Recognized by the Nitric Oxide-Responsive Transcriptional Activator NorR Is Conserved in β- and γ-Proteobacteria

Journal of Bacteriology ◽

10.1128/jb.186.23.7980-7987.2004 ◽

2004 ◽

Vol 186 (23) ◽

pp. 7980-7987 ◽

Cited By ~ 20

Author(s):

Andrea Büsch ◽

Anne Pohlmann ◽

Bärbel Friedrich ◽

Rainer Cramm

Keyword(s):

Nitric Oxide ◽

Transcriptional Activation ◽

Target Genes ◽

Ralstonia Eutropha ◽

Upstream Region ◽

Nitric Oxide Reductase ◽

Wild Type ◽

Genome Database ◽

Nitric Oxide Metabolism ◽

Signaling Domain

ABSTRACT The σ54-dependent regulator NorR activates transcription of target genes in response to nitric oxide (NO) or NO-generating agents. In Ralstonia eutropha H16, NorR activates transcription of the dicistronic norAB operon that encodes NorA, a protein of unknown function, and NorB, a nitric oxide reductase. A constitutively activating NorR derivative (NorR′), in which the N-terminal signaling domain was replaced by MalE, specifically bound to the norAB upstream region as revealed by gel retardation analysis. Within a 73-bp DNA segment protected by MalE-NorR′ in a DNase I footprint assay, three conserved inverted repeats, GGT-(N7)-ACC (where N is any base), that we consider to be NorR-binding boxes were identified. Mutations altering the spacing or the base sequence of these repeats resulted in an 80 to 90% decrease of transcriptional activation by wild-type NorR. Genome database analyses demonstrate that the GT-(N7)-AC core of the inverted repeat is found in several proteobacteria upstream of gene loci encoding proteins of nitric oxide metabolism, including nitric oxide reductase (NorB), flavorubredoxin (NorV), NO dioxygenase (Hmp), and hybrid cluster protein (Hcp).

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