R. Karthikeyan scite author profile

Extracellular electron uptake (EEU) is the ability of microbes to take up electrons from solid-phase conductive substances such as metal oxides. EEU is performed by prevalent phototrophic bacterial genera, but the electron transfer pathways and the physiological electron sinks are poorly understood. Here we show that electrons enter the photosynthetic electron transport chain during EEU in the phototrophic bacterium Rhodopseudomonas palustris TIE-1. Cathodic electron flow is also correlated with a highly reducing intracellular redox environment. We show that reducing equivalents are used for carbon dioxide (CO2) fixation, which is the primary electron sink. Deletion of the genes encoding ruBisCO (the CO2-fixing enzyme of the Calvin-Benson-Bassham cycle) leads to a 90% reduction in EEU. This work shows that phototrophs can directly use solid-phase conductive substances for electron transfer, energy transduction, and CO2 fixation.

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Graphene decorated with MoS₂ nanosheets: a synergetic energy storage composite electrode for supercapacitor applications

Thangappan

et al. 2016

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The two-dimensional (2D) transition metal dichalcogenide nanosheet-carbon composite is an attractive material for energy storage because of its high Faradaic activity, unique nanoconstruction and electronic properties. In this work, a facile one step preparation of a molybdenum disulfide (MoS2) nanosheet-graphene (MoS2/G) composite with the in situ reduction of graphene oxide is reported. The structure, morphology and composition of the pure MoS2 and composites were comparatively analyzed by various characterization techniques. The electrochemical performance of the pure MoS2, graphene oxide and the MoS2/G composite electrode materials was evaluated by cyclic voltammogram, galvanostatic charge-discharge and electrochemical impedance spectroscopy. The MoS2/G composite showed a higher specific capacitance (270 F g(-1) at a current density of 0.1 A g(-1)) compared to the pure MoS2 (162 F g(-1)) in a neutral aqueous electrolyte. Moreover, the energy density of the composite electrode is also higher (12.5 Wh kg(-1)) with a high power density (2500 W kg(-1)) compared to the pure MoS2. In addition, the MoS2/G composite electrode showed excellent cyclic stability even after 1000 cycles. The enhancement in specific capacitance, excellent cyclic stability and high energy density of the composite electrode are mainly due to the interconnected conductive network of the composite as well as the synergetic effect of the pure MoS2 and graphene. The experimental results demonstrated that the MoS2/G composite is a promising electrode material for high-performance supercapacitors.

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Interfacial electron transfer and bioelectrocatalysis of carbonized plant material as effective anode of microbial fuel cell

Karthikeyan

Wang

Xuan

et al. 2015

Electrochimica Acta

136

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Single-step synthesis and catalytic activity of structure-controlled nickel sulfide nanoparticles

et al. 2015

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Nanoparticle single-phase nickel sulfides such as NiS, NiS 2 , Ni 3 S 4 , and Ni 7 S 6 were prepared from elemental sulfur and nickel nitrate hexahydrate, using a temperature-controlled precursor injection method. The initial ratio of the concentrations of the sources was used to control the size and phase of the final product.Phase control was confirmed using X-ray diffraction and transmission electron microscopy. The synthesized nickel sulfide phases, which had metallic characteristics, were used to study the catalytic reduction of 4-nitrophenol. The results showed that the catalytic activity of the NiS nanoparticles in the reduction of 4-nitrophenol to 4-aminophenol was higher than those of the other nickel sulfide phases. In addition, the nanocrystals showed good separation ability and reusability for reduction of 4-nitrophenol.

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Towards sustainable bioplastic production using the photoautotrophic bacterium Rhodopseudomonas palustris TIE-1

Ranaivoarisoa

Singh

Karthikeyan

et al. 2019

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Bacterial synthesis of polyhydroxybutyrates (PHBs) is a potential approach for producing biodegradable plastics. This study assessed the ability of Rhodopseudomonas palustris TIE-1 to produce PHBs under various conditions. We focused on photoautotrophy using a poised electrode (photoelectroautotrophy) or ferrous iron (photoferroautotrophy) as electron donors. Growth conditions were tested with either ammonium chloride or dinitrogen gas as the nitrogen source. Although TIE-1’s capacity to produce PHBs varied fairly under different conditions, photoelectroautotrophy and photoferroautotrophy showed the highest PHB electron yield and the highest specific PHB productivity, respectively. Gene expression analysis showed that there was no differential expression in PHB biosynthesis genes. This suggests that the variations in PHB accumulation might be post-transcriptionally regulated. This is the first study to systematically quantify the amount of PHB produced by a microbe via photoelectroautotrophy and photoferroautotrophy. This work could lead to sustainable bioproduction using abundant resources such as light, electricity, iron, and carbon dioxide.Electronic supplementary materialThe online version of this article (10.1007/s10295-019-02165-7) contains supplementary material, which is available to authorized users.

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Photoferrotrophs Produce a PioAB Electron Conduit for Extracellular Electron Uptake

Gupta

Sutherland

Karthikeyan

et al. 2019

mBio

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Some anoxygenic phototrophs use soluble iron, insoluble iron minerals (such as rust), or their proxies (poised electrodes) as electron donors for photosynthesis. However, the underlying electron uptake mechanisms are not well established. Here, we show that these phototrophs use a protein complex made of an outer membrane porin and a periplasmic decaheme cytochrome (electron transfer protein) to harvest electrons from both soluble iron and poised electrodes. This complex has two unique characteristics: (i) it lacks an extracellular cytochrome c, and (ii) the periplasmic decaheme cytochrome c undergoes proteolytic cleavage to produce a functional electron transfer protein. These characteristics are conserved in phototrophs harboring homologous proteins.

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Evidence from mutational specificity studies that yeast DNA polymerases δ and ϵ replicate different DNA strands at an intracellular replication fork 1 1Edited by A. R. Fersht

Karthikeyan

Vonarx

Straffon

et al. 2000

Journal of Molecular Biology

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Linalool prevents oxidative stress activated protein kinases in single UVB-exposed human skin cells

et al. 2017

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Ultraviolet-B radiation (285–320 nm) elicits a number of cellular signaling elements. We investigated the preventive effect of linalool, a natural monoterpene, against UVB-induced oxidative imbalance, activation of mitogen-activated protein kinase (MAPK) and nuclear factor kappa-B (NF-κB) signaling in HDFa cells. We observed that linalool treatment (30 μM) prevented acute UVB-irradiation (20 mJ/cm2) mediated loss of activities of antioxidant enzymes in HDFa cells. The comet assay results illustrate that linalool significantly prevents UVB-mediated 8-deoxy guanosine formation (oxidative DNA damage) rather than UVB-induced cyclobutane pyrimidine (CPD) formation. This might be due to its ability to prevent UVB-induced ROS formation and to restore the oxidative imbalance of cells. This has been reflected in UVB-induced overexpression of MAPK and NF-κB signaling. We observed that linalool inhibited UVB-induced phosphorylation of ERK1, JNK and p38 proteins of MAPK family. Linalool inhibited UVB-induced activation of NF-κB/p65 by activating IκBa. We further observed that UVB-induced expression of TNF-α, IL6, IL-10, MMP-2 and MMP-9 was modulated by linalool treatment in HDFa cells. Thus, linalool protects the human skin cells from the oxidative damages of UVB radiation and modulates MAPK and NF-κB signaling in HDFa cells. The present findings substantiate that linalool may act as a photoprotective agent against UVB-induced skin damages.

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R. Karthikeyan

Phototrophic extracellular electron uptake is linked to carbon dioxide fixation in the bacterium Rhodopseudomonas palustris

Graphene decorated with MoS₂ nanosheets: a synergetic energy storage composite electrode for supercapacitor applications

Interfacial electron transfer and bioelectrocatalysis of carbonized plant material as effective anode of microbial fuel cell

Single-step synthesis and catalytic activity of structure-controlled nickel sulfide nanoparticles

Towards sustainable bioplastic production using the photoautotrophic bacterium Rhodopseudomonas palustris TIE-1

Photoferrotrophs Produce a PioAB Electron Conduit for Extracellular Electron Uptake

Evidence from mutational specificity studies that yeast DNA polymerases δ and ϵ replicate different DNA strands at an intracellular replication fork 1 1Edited by A. R. Fersht

Linalool prevents oxidative stress activated protein kinases in single UVB-exposed human skin cells

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R. Karthikeyan

Phototrophic extracellular electron uptake is linked to carbon dioxide fixation in the bacterium Rhodopseudomonas palustris

Graphene decorated with MoS2 nanosheets: a synergetic energy storage composite electrode for supercapacitor applications

Interfacial electron transfer and bioelectrocatalysis of carbonized plant material as effective anode of microbial fuel cell

Single-step synthesis and catalytic activity of structure-controlled nickel sulfide nanoparticles

Towards sustainable bioplastic production using the photoautotrophic bacterium Rhodopseudomonas palustris TIE-1

Photoferrotrophs Produce a PioAB Electron Conduit for Extracellular Electron Uptake

Evidence from mutational specificity studies that yeast DNA polymerases δ and ϵ replicate different DNA strands at an intracellular replication fork 1 1Edited by A. R. Fersht

Linalool prevents oxidative stress activated protein kinases in single UVB-exposed human skin cells

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Graphene decorated with MoS₂ nanosheets: a synergetic energy storage composite electrode for supercapacitor applications