The concentration dependence of toxicogenomic responses and the synergistic effects of low doses by Lixin Yang (41431)

“…</p><p></p> Embryos were exposed to decreasing concentrations of Cd (a, lane 1, 5 mg/l: lane 2, 2.5 mg/l; lane 3, 0.5 mg/l), or MeHg (b, lane 1, 60 μg/l; lane 2, 30 μg/l; lane 3, 6 μg/l) or TCDD (c, lane 1, 500 ng/l; lane 2, 250 ng/l; lane 3, 50 ng/l). …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The product of the first elementary step of the reaction, which is either a hydrocarbon radical or a surface ether, is found to be strictly dependent on the spin multiplicity of the catalyst, although energies of the initial state are spin-degenerate. …”

Low doses of IL-4 and IL-13 enhance cellular proliferation. by Quentin D’Arcy (13919516)

“…<p><b>A, B.</b> N1 and SFT1 prostate fibroblasts and HLF primary lung fibroblasts were cultured in serum-free defined media supplemented with vehicle or increasing doses (1–100 ng) of human recombinant IL-4 (<b>A</b>) or IL-13 (<b>B</b>) for 24 hours. …”

MGBG inhibited sOPN levels and gene expression in cultured human monocytes. by Xia Jin (170912)

“…<p>1 day cultured monocytes were collected for total RNA extraction and iOPN expression, and culture supernatants for OPN ELISA; quantitative real-time PCR was performed for OPN gene expression. iOPN expression was measured by flow cytometry. MGBG decreased OPN gene expression and sOPN level in a dose-dependent manner. …”

The abundance of glycine increases with age in <i>C</i>. <i>elegans</i>. by Yasmine J. Liu (6433946)

“…<p><b>(A)</b> Glycine metabolic pathways in <i>C</i>. …”

DataSheet1_Using robot-assisted stiffness perturbations to evoke aftereffects useful to post-stroke gait rehabilitation.PDF by Vaughn Chambers (14326038)

“…Post-stroke gait normally presents as one of or a combination of unilaterally shortened step length, decreased dorsiflexion during swing phase, and decreased walking speed. …”