Linyong Shen scite author profile

A novel kind of quantum dots, sulfur quantum dots (S dots), is synthesized by simply treating sublimated sulfur powders with alkali using polyethylene glycol-400 as passivation agents. The synthesized S dots exhibit excellent aqueous dispersibility, eminent photostability and temperature dependent photoluminescence (PL). An "assemble-fission" mechanism is proposed for the S dots formation in which "assembling" and "fission" are involved and contest each other. The ultimate morphologies of the S dots are dependent on the balance of the two forces. Guided by the assemble-fission mechanism, weakening the assembling effect is beneficial for obtaining monodisperse S dots, which can be achieved by pretreating of sulfur powder with nitric acid. PL wavelength of the S dots has been successfully tuned between green and blue light (from 550 to 440 nm) by simply controlling reaction time. A satisfactory quantum yield of 3.8% is obtained. Significant electrochemiluminescence of the S dots is observed in an annihilation reaction. Chemiluminescence from the S dots has been observed by direct oxidation. Taking advantage of unique and inherent antimicrobial activity of the sulfur particles, it is believed that this new emerging luminescent nanomaterial is highly promising in the development of new types of optoelectronic devices and tracer for live cells, in vivo imaging and diagnostics.

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Rgs1 regulates multiple Gα subunits in Magnaporthe pathogenesis, asexual growth and thigmotropism

Líu

Suresh

Willard

et al. 2007

EMBO J

150

214

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Regulators of G-protein signaling (RGS proteins) negatively regulate heterotrimeric G-protein cascades that enable eukaryotic cells to perceive and respond to external stimuli. The rice-blast fungus Magnaporthe grisea forms specialized infection structures called appressoria in response to inductive surface cues. We isolated Magnaporthe RGS1 in a screen for mutants that form precocious appressoria on non-inductive surfaces. We report that a thigmotropic cue is necessary for initiating appressoria and for accumulating cAMP. Similar to an RGS1-deletion strain, magA G187S (RGSinsensitive Ga s ) and magA Q208L (GTPase-dead) mutants accumulated excessive cAMP and elaborated appressoria on non-inductive surfaces, suggesting that Rgs1 regulates MagA during pathogenesis. Rgs1 was also found to negatively regulate the Ga i subunit MagB during asexual development. Deficiency of MAGB suppressed the hyper-conidiation defect in RGS1-deletion strain, whereas magB G183S and magB Q204L mutants produced more conidia, similar to the RGS1-deletion strain. Rgs1 physically interacted with GDP . AlF 4 À -activated forms of MagA, MagB and MagC (a Ga II subunit). Thus, Rgs1 serves as a negative regulator of all Ga subunits in Magnaporthe and controls important developmental events during asexual and pathogenic development.

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Spin-Spin Relaxation in LaF3

1966

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Electrochemical impedance spectroscopy for study of aptamer–thrombin interfacial interactions

Shen

Zhang

et al. 2008

Biosensors and Bioelectronics

152

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Linyong Shen

Assembling of Sulfur Quantum Dots in Fission of Sublimed Sulfur

Rgs1 regulates multiple Gα subunits in Magnaporthe pathogenesis, asexual growth and thigmotropism

Spin-Spin Relaxation in LaF3

Electrochemical impedance spectroscopy for study of aptamer–thrombin interfacial interactions

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