Hooman Shadnia scite author profile

Background: PILR␣ is an inhibitory receptor predominantly expressed in myeloid cells. Results: NPDC1 and COLEC12 are novel PILR␣ ligands. PILR␣ arginine residues 133 (mouse) and 126 (human) are critical contact residues. Conclusion: PILR␣/ligand interactions involve a conserved domain in PILR␣ and a sialylated protein domain in the ligand. Significance: PILR␣ interacts with various ligands to alter myeloid cell function.

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Stability of carbon‐centered radicals: Effect of functional groups on the energetics of addition of molecular oxygen

Wright

2008

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In this paper we examine a series of hydrocarbons with structural features which cause a weakening of the C-H bond. We use theoretical calculations to explore whether the carbon-centered radicals R(*) which are created after breaking the bond can be stabilized enough so that they resist the addition of molecular oxygen, i.e. where the reaction R(*) + O(2) --> ROO(*) becomes energetically unfavorable. Calculations using a B3LYP-based method provide accurate bond dissociation enthalpies (BDEs) for R-H and R-OO(*) bonds, as well as Gibbs free energy changes for the addition reaction. The data show strong correlations between R-OO(*) and R-H BDEs for a wide variety of structures. They also show an equally strong correlation between the R-OO(*) BDE and the unpaired spin density at the site of addition. Using these data we examine the major functional group categories proposed in several experimental studies, and assess their relative importance. Finally, we combine effects to try to optimize resistance to the addition of molecular oxygen, an important factor in designing carbon-based antioxidants.

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Design, synthesis, and biological evaluation of substituted 2-alkylthio-1,5-diarylimidazoles as selective COX-2 inhibitors

Navidpour

Shadnia

Shafaroodi

et al. 2007

Bioorganic & Medicinal Chemistry

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Synthesis, antibacterial activity, and quantitative structure–activity relationships of new (Z)-2-(nitroimidazolylmethylene)-3()-benzofuranone derivatives

Hadj-esfandiari

Navidpour

Shadnia

et al. 2007

Bioorganic & Medicinal Chemistry Letters

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Rational Design, Synthesis, and Optical Properties of Film‐Forming, Near‐Infrared Absorbing, and Fluorescent Chromophores with Multidonors and Large Heterocyclic Acceptors

Luo

Shadnia

Qian

et al. 2009

Chemistry A European J

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A new series of film-forming, low-bandgap chromophores (1 a,b and 2 a,b) were rationally designed with aid of a computational study, and then synthesized and characterized. To realize absorption and emission above the 1000 nm wavelength, the molecular design focuses on lowering the LUMO level by fusing common heterocyclic units into a large conjugated core that acts an electron acceptor and increasing the charge transfer by attaching the multiple electron-donating groups at the appropriate positions of the acceptor core. The chromophores have bandgap levels of 1.27-0.71 eV, and accordingly absorb at 746-1003 nm and emit at 1035-1290 nm in solution. By design, the relatively high molecular weight (up to 2400 g mol(-1)) and non-coplanar structure allow these near-infrared (NIR) chromophores to be readily spin-coated as uniform thin films and doped with other organic semiconductors for potential device applications. Doping with [6,6]-phenyl-C(61) butyric acid methyl ester leads to a red shift in the absorption only for 1 a and 2 a. An interesting NIR electrochromism was found for 2 a, with absorption being turned on at 1034 nm when electrochemically switched (at 1000 mV) from its neutral state to a radical cation state. Furthermore, a large Stokes shift (256-318 nm) is also unique for this multidonor-acceptor type of chromophore, indicating a significant structural difference between the ground state and the excited state. Photoluminescence of the film of 2 a was further probed at variable temperatures and the results strongly suggest that the restriction of bond rotations certainly helps to diminish non-radiative decay and thus enhance the luminescence of these large chromophores.

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Hooman Shadnia

Evolutionarily Conserved Paired Immunoglobulin-like Receptor α (PILRα) Domain Mediates Its Interaction with Diverse Sialylated Ligands

Stability of carbon‐centered radicals: Effect of functional groups on the energetics of addition of molecular oxygen

Design, synthesis, and biological evaluation of substituted 2-alkylthio-1,5-diarylimidazoles as selective COX-2 inhibitors

Synthesis, antibacterial activity, and quantitative structure–activity relationships of new (Z)-2-(nitroimidazolylmethylene)-3()-benzofuranone derivatives

Rational Design, Synthesis, and Optical Properties of Film‐Forming, Near‐Infrared Absorbing, and Fluorescent Chromophores with Multidonors and Large Heterocyclic Acceptors

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