Keyword search (4,163 papers available)

"Electron transfer" Keyword-tagged Publications:

Title Authors PubMed ID
1 Capacitive bimetallic redox cycles and ligand-to-metal charge transfer to Boost denitrification with Ni sup II /sup /Fe sup II /sup -Gallic acid phenolic networks Yu S; Jin Y; Guo T; Li H; Liu W; Chen Z; Wang X; Guo J; 41707775
ENCS
2 Engineered iron-sulfur carriers for efficient mixotrophic and sulfur autotrophic denitrification in low carbon to nitrogen ratio municipal wastewater: Mechanisms of biofilm enhancement and electron transfer promotion Yu S; Zhang X; Guo T; Li H; Liu W; Chen Z; Wang X; Ren B; Guo J; 40712941
ENCS
3 Study on the mechanism of regulating micromolar Fe utilization and promoting denitrification by guanosine monophosphate (GMP) based multi-signal functional material Hematin@Fe/GMP Hao Y; Guo T; Li H; Liu W; Chen Z; Wang X; Guo J; 39657473
ENCS
4 Amorphous Cu/Fe nanoparticles with tandem intracellular and extracellular electron capacity for enhancing denitrification performance and recovery of co-contaminant suppressed denitrification Fu J; Guo T; Li H; Liu W; Chen Z; Wang X; Guo J; 39542060
ENCS
5 Fe/GMP functional nanomaterial enhancing the denitrification efficiency by bi-signal regulation: Electron transfer and microbial community Hao Y; Guo T; Li H; Liu W; Chen Z; Zhang W; Wang X; Guo J; 39326537
ENCS
6 Photoactivation and conformational gating for manganese binding and oxidation in bacterial reaction centers Samaei A; Deshmukh SS; Protheroe C; Nyéki S; Tremblay-Ethier RA; Kálmán L; 36216075
PHYSICS
7 Te(IV) bioreduction in the sulfur autotrophic reactor: Performance, kinetics and synergistic mechanism He Y; Guo J; Song Y; Chen Z; Lu C; Han Y; Li H; Hou Y; 35228038
ENCS
8 Bioinspired facilitation of intrinsically conductive polymers: Mediating intra/extracellular electron transfer and microbial metabolism in denitrification Guo T; Lu C; Chen Z; Song Y; Li H; Han Y; Hou Y; Zhong Y; Guo J; 35124084
ENCS
9 Multifaceted synergistic electron transfer mechanism for enhancing denitrification by clay minerals Zhang Y; Lu C; Chen Z; Song Y; Li H; Han Y; Hou Y; Guo J; 34915014
ENCS
10 Acceleration mechanism of bioavailable Fe(Ⅲ) on Te(IV) bioreduction of Shewanella oneidensis MR-1: Promotion of electron generation, electron transfer and energy level. He Y, Guo J, Song Y, Chen Z, Lu C, Han Y, Li H, Hou Y, Zhao R 32853890
ENCS
11 Tuning the redox potential of the primary electron donor in bacterial reaction centers by manganese binding and light-induced structural changes. Deshmukh SS, Kálmán L 32777306
PHYSICS
12 Bound detergent molecules in bacterial reaction centers facilitate detection of tetryl explosive. Modafferi D, Zazubovich V, Kálmán L 32632533
PHYSICS
13 Effect and ameliorative mechanisms of polyoxometalates on the denitrification under sulfonamide antibiotics stress. Guo H, Chen Z, Lu C, Guo J, Li H, Song Y, Han Y, Hou Y 32145698
ENCS
14 Enhanced denitrification performance and biocatalysis mechanisms of polyoxometalates as environmentally-friendly inorganic redox mediators. Guo H, Chen Z, Guo J, Lu C, Song Y, Han Y, Li H, Hou Y 31344631
ENCS

 

Title:Bound detergent molecules in bacterial reaction centers facilitate detection of tetryl explosive.
Authors:Modafferi DZazubovich VKálmán L
Link:https://www.ncbi.nlm.nih.gov/pubmed/32632533?dopt=Abstract
DOI:10.1007/s11120-020-00770-7
Publication:Photosynthesis research
Keywords:Bacterial reaction centerConformational changesElectrochromismElectron transferExplosive detectionPhotosynthesis
PMID:32632533 Category:Photosynth Res Date Added:2020-07-08
Dept Affiliation: PHYSICS
1 Department of Physics, Concordia University, 7141 Sherbrooke Street West, Montreal, QC, H4B 1R6, Canada.
2 Department of Chemical Engineering, McGill University, Montreal, QC, Canada.
3 Department of Physics, Concordia University, 7141 Sherbrooke Street West, Montreal, QC, H4B 1R6, Canada. valter.zazubovits@concordia.ca.
4 Department of Physics, Concordia University, 7141 Sherbrooke Street West, Montreal, QC, H4B 1R6, Canada. laszlo.kalman@concordia.ca.

Description:

Bound detergent molecules in bacterial reaction centers facilitate detection of tetryl explosive.

Photosynth Res. 2020 Jul 06;:

Authors: Modafferi D, Zazubovich V, Kálmán L

Abstract

Bacterial reaction centers (BRC) from Rhodobacter sphaeroides were found to accelerate, about 100-fold, the reaction between tetryl (2,4,6-trinitrophenylmethylnitramine) explosive and n-lauryl-N-N-dimethylamine-N-oxide (LDAO) that results in the formation of picric acid-like product with characteristic UV-VIS absorption spectrum with peaks at 345 and 415 nm. Moreover, this product also affects the spectra of BRC cofactors in the NIR spectral region and stabilizes the conformational changes associated with slow charge recombination. The evolution of the NIR absorption changes correlated with the kinetics of the product formation. Comparison between the wild-type and the R26 carotenoid-less strain indicates that tetryl-LDAO reaction is roughly five times faster for R26, which allows for identifying the carotenoid binding site as the optimal reaction site. Another, less-defined reaction site is located in the BRC's hydrophobic cavity. These effects are highly selective for tetryl and not observed for several other widespread nitric explosives; slowed-down charge recombination allows for distinguishing between tetryl and QB-site herbicides. The current limit of detection is in the ppb range or?~?100 nM. Details of the molecular mechanisms of the reactions and perspectives of using these effects in bioassays or biosensors for explosives detection are also discussed.

PMID: 32632533 [PubMed - as supplied by publisher]




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