Feng Hong scite author profile

This paper reviews recent progress made in identifying electrocatalysts for carbon dioxide (CO2) reduction to produce low-carbon fuels, including CO, HCOOH/HCOO(-), CH2O, CH4, H2C2O4/HC2O4(-), C2H4, CH3OH, CH3CH2OH and others. The electrocatalysts are classified into several categories, including metals, metal alloys, metal oxides, metal complexes, polymers/clusters, enzymes and organic molecules. The catalyts' activity, product selectivity, Faradaic efficiency, catalytic stability and reduction mechanisms during CO2 electroreduction have received detailed treatment. In particular, we review the effects of electrode potential, solution-electrolyte type and composition, temperature, pressure, and other conditions on these catalyst properties. The challenges in achieving highly active and stable CO2 reduction electrocatalysts are analyzed, and several research directions for practical applications are proposed, with the aim of mitigating performance degradation, overcoming additional challenges, and facilitating research and development in this area.

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Highly Potent, Selective, and Low Cost Bis-tetrahydroaminacrine Inhibitors of Acetylcholinesterase

Pang

Quiram

Jelacic

et al. 1996

Journal of Biological Chemistry

364

294

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We report highly potent, selective, and low cost bifunctional acetylcholinesterase (AChE) inhibitors developed by our two-step prototype optimization strategy utilizing computer modeling of ligand docking with target proteins: 1) identify low affinity sites normally missed by x-ray crystallography; and 2) design bifunctional analogs capable of simultaneous binding at the computer-determined low affinity site and the x-rayidentified high affinity site. Applying this strategy to 9-amino-1,2,3,4-tetrahydroacridine (THA), a drug for Alzheimer's disease, we obtained alkylene linked bis-THA analogs. These analogs were up to 10,000-fold more selective and 1,000-fold more potent than THA in inhibiting rat AChE and yet required one simple reaction to synthesize. Additionally, alkylene linked benzyl-THA analogs were developed to examine the specificity of the docking-derived low affinity THA peripheral site in AChE. The present work and our previous computational studies strongly suggest that a low affinity THA peripheral site exists in AChE. This peripheral site provides a structural basis for design of improved cholinesterase ligands for treating Alzheimer's disease and for other health-related purposes.

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mTOR-Raptor Binds and Activates SGK1 to Regulate p27 Phosphorylation

et al. 2008

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The cell-cycle effects of mTORC1 are not fully understood. We provide evidence that mTOR-raptor phosphorylates SGK1 to modulate p27 function. Cellular mTOR activation, by refeeding of amino acid-deprived cells or by TSC2 shRNA, activated SGK1 and p27 phosphorylation at T157, and both were inhibited by short-term rapamycin treatment and by SGK1 shRNA. mTOR overexpression activated both Akt and SGK1, causing TGF-beta resistance through impaired nuclear import and cytoplasmic accumulation of p27. Rapamycin or raptor shRNA impaired mTOR-driven p70 and SGK1 activation, but not that of Akt, and decreased cytoplasmic p27. mTOR/raptor/SGK1 complexes were detected in cells. mTOR phosphorylated SGK1, but not SGK1-S422A, in vitro. SGK1 phosphorylated p27 in vitro. These data implicate SGK1 as an mTORC1 (mTOR-raptor) substrate. mTOR may promote G1 progression in part through SGK1 activation and deregulate the cell cycle in cancers through both Akt- and SGK-mediated p27 T157 phosphorylation and cytoplasmic p27 mislocalization.

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RSK1 drives p27^Kip1phosphorylation at T198 to promote RhoA inhibition and increase cell motility

Larrea

Hong

Wander

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

133

158

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p90 ribosomal S6 kinase (RSK1) is an effector of both Ras/MEK/MAPK and PI3K/PDK1 pathways. We present evidence that RSK1 drives p27 phosphorylation at T198 to increase RhoA-p27 binding and cell motility. RSK1 activation and p27pT198 both increase in early G 1. As for many kinase-substrate pairs, cellular RSK1 coprecipitates with p27. siRNA to RSK1 and RSK1 inhibition both rapidly reduce cellular p27pT198. RSK1 overexpression increases p27pT198, p27-cyclin D1-Cdk4 complexes, and p27 stability. Moreover, RSK1 transfectants show mislocalization of p27 to cytoplasm, increased motility, and reduced RhoA-GTP, phospho-cofilin, and actin stress fibers, all of which were reversed by shRNA to p27. Phosphorylation by RSK1 increased p27pT198 binding to RhoA in vitro, whereas p27T157A/ T198A bound poorly to RhoA compared with WTp27 in cells. Coprecipitation of cellular p27-RhoA was increased in cells with constitutive PI3K activation and increased in early G 1. Thus T198 phosphorylation not only stabilizes p27 and mislocalizes p27 to the cytoplasm but also promotes RhoA-p27 interaction and RhoA pathway inhibition. These data link p27 phosphorylation at T198 and cell motility. As for other PI3K effectors, RSK1 phosphorylates p27 at T198. Because RSK1 is also activated by MAPK, the increased cell motility and metastatic potential of cancer cells with PI3K and/or MAPK pathway activation may result in part from RSK1 activation, leading to accumulation of p27T198 in the cytoplasm, p27:RhoA binding, inhibition of RhoA/Rock pathway activation, and loss of actomyosin stability. p27 phosphorylation ͉ PI3K ͉ actin cytoskeleton

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Feng Hong

A review of catalysts for the electroreduction of carbon dioxide to produce low-carbon fuels

Highly Potent, Selective, and Low Cost Bis-tetrahydroaminacrine Inhibitors of Acetylcholinesterase

mTOR-Raptor Binds and Activates SGK1 to Regulate p27 Phosphorylation

RSK1 drives p27^Kip1phosphorylation at T198 to promote RhoA inhibition and increase cell motility

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About

Feng Hong

A review of catalysts for the electroreduction of carbon dioxide to produce low-carbon fuels

Highly Potent, Selective, and Low Cost Bis-tetrahydroaminacrine Inhibitors of Acetylcholinesterase

mTOR-Raptor Binds and Activates SGK1 to Regulate p27 Phosphorylation

RSK1 drives p27Kip1phosphorylation at T198 to promote RhoA inhibition and increase cell motility

Contact Info

Product

Resources

About

RSK1 drives p27^Kip1phosphorylation at T198 to promote RhoA inhibition and increase cell motility