Figure 2. Antimicrobial resistance for veterinary strains. by Marine Pottier (14099133)

Competitive C−H Bond Activation and β-Hydride Elimination at Platinum(II) by Susan M. Kloek (2499007)

“…Thermolysis of the five-coordinate Pt(IV) complex (AnIm)Pt(CH₃)₃ (<b>1b</b>) (AnIm = [<i>o-</i>C₆H₄{N(C₆H₃<i>ⁱ</i>Pr₂)}(CH=NC₆H₃<i>ⁱ</i>Pr₂)]^-) in benzene-<i>d</i>₆ at 60 °C yields a new Pt(II) olefin hydride complex (<b>2b</b>-<b><i>d</i></b><b>₂₇</b>). …”

Competitive C−H Bond Activation and β-Hydride Elimination at Platinum(II) by Susan M. Kloek (2499007)

“…Thermolysis of the five-coordinate Pt(IV) complex (AnIm)Pt(CH₃)₃ (<b>1b</b>) (AnIm = [<i>o-</i>C₆H₄{N(C₆H₃<i>ⁱ</i>Pr₂)}(CH=NC₆H₃<i>ⁱ</i>Pr₂)]^-) in benzene-<i>d</i>₆ at 60 °C yields a new Pt(II) olefin hydride complex (<b>2b</b>-<b><i>d</i></b><b>₂₇</b>). …”

Eucommia ulmoides extract attenuates angiotensin II-induced cardiac microvascular endothelial cell dysfunction by inactivating p53 by Liye Hu (14837104)

“…AngII induced CMVEC dysfunction in a concentration-dependent manner. EUE enhanced the proliferative, migratory, and angiogenic capacities and NO, MnSOD, and eNOS levels but repressed apoptosis and vWF and ET-1 levels in AngII-induced dysfunctional CMVECs. …”

Supplementary Material for: Comparative phosphoproteomic profiling in the prefrontal cortex of prenatally stressed male offspring rats by He W. (3346106)

“…The prefrontal cortex (PFC) has been shown to play a role in susceptibility to stress during fetal development; thus, we focused our attention on differential protein phosphorylation in this region of PS-S(Susceptibility to PS) offspring rats. …”

Microarray analyses identified 528 human orthologs which were differentially expressed between Ames and Sterne infected AMs. by Felicia D. Langel (584878)

“…<p>AMs obtained from five rhesus macaque donors were infected with Ames or Sterne spores at an MOI of 10 for indicated time points. …”

Effect of Oxidation and Protonation States on [2Fe–2S] Cluster Nitrosylation Giving {Fe(NO)₂}⁹ Dinitrosyl Iron Complexes (DNICs) by Christine E. Schiewer (6112373)

“…Peripheral ligand protonation leads to a blue shift of the NO stretching vibrations by about 23 cm^–1 and a significant shift of the reduction potential to less negative values (Δ<i>E</i>_1/2 = 0.26 V), but no effect on ⁵⁷Fe Mössbauer parameters is observed. …”

Effect of Oxidation and Protonation States on [2Fe–2S] Cluster Nitrosylation Giving {Fe(NO)₂}⁹ Dinitrosyl Iron Complexes (DNICs) by Christine E. Schiewer (6112373)

“…Peripheral ligand protonation leads to a blue shift of the NO stretching vibrations by about 23 cm^–1 and a significant shift of the reduction potential to less negative values (Δ<i>E</i>_1/2 = 0.26 V), but no effect on ⁵⁷Fe Mössbauer parameters is observed. …”

Effect of Oxidation and Protonation States on [2Fe–2S] Cluster Nitrosylation Giving {Fe(NO)₂}⁹ Dinitrosyl Iron Complexes (DNICs) by Christine E. Schiewer (6112373)

“…Peripheral ligand protonation leads to a blue shift of the NO stretching vibrations by about 23 cm^–1 and a significant shift of the reduction potential to less negative values (Δ<i>E</i>_1/2 = 0.26 V), but no effect on ⁵⁷Fe Mössbauer parameters is observed. …”

Effect of Oxidation and Protonation States on [2Fe–2S] Cluster Nitrosylation Giving {Fe(NO)₂}⁹ Dinitrosyl Iron Complexes (DNICs) by Christine E. Schiewer (6112373)

“…Peripheral ligand protonation leads to a blue shift of the NO stretching vibrations by about 23 cm^–1 and a significant shift of the reduction potential to less negative values (Δ<i>E</i>_1/2 = 0.26 V), but no effect on ⁵⁷Fe Mössbauer parameters is observed. …”

Effect of Oxidation and Protonation States on [2Fe–2S] Cluster Nitrosylation Giving {Fe(NO)₂}⁹ Dinitrosyl Iron Complexes (DNICs) by Christine E. Schiewer (6112373)

“…Peripheral ligand protonation leads to a blue shift of the NO stretching vibrations by about 23 cm^–1 and a significant shift of the reduction potential to less negative values (Δ<i>E</i>_1/2 = 0.26 V), but no effect on ⁵⁷Fe Mössbauer parameters is observed. …”

Effect of Oxidation and Protonation States on [2Fe–2S] Cluster Nitrosylation Giving {Fe(NO)₂}⁹ Dinitrosyl Iron Complexes (DNICs) by Christine E. Schiewer (6112373)

“…Peripheral ligand protonation leads to a blue shift of the NO stretching vibrations by about 23 cm^–1 and a significant shift of the reduction potential to less negative values (Δ<i>E</i>_1/2 = 0.26 V), but no effect on ⁵⁷Fe Mössbauer parameters is observed. …”

Effect of Oxidation and Protonation States on [2Fe–2S] Cluster Nitrosylation Giving {Fe(NO)₂}⁹ Dinitrosyl Iron Complexes (DNICs) by Christine E. Schiewer (6112373)

“…Peripheral ligand protonation leads to a blue shift of the NO stretching vibrations by about 23 cm^–1 and a significant shift of the reduction potential to less negative values (Δ<i>E</i>_1/2 = 0.26 V), but no effect on ⁵⁷Fe Mössbauer parameters is observed. …”

Effect of Oxidation and Protonation States on [2Fe–2S] Cluster Nitrosylation Giving {Fe(NO)₂}⁹ Dinitrosyl Iron Complexes (DNICs) by Christine E. Schiewer (6112373)

“…Peripheral ligand protonation leads to a blue shift of the NO stretching vibrations by about 23 cm^–1 and a significant shift of the reduction potential to less negative values (Δ<i>E</i>_1/2 = 0.26 V), but no effect on ⁵⁷Fe Mössbauer parameters is observed. …”

Effect of Oxidation and Protonation States on [2Fe–2S] Cluster Nitrosylation Giving {Fe(NO)₂}⁹ Dinitrosyl Iron Complexes (DNICs) by Christine E. Schiewer (6112373)

“…Peripheral ligand protonation leads to a blue shift of the NO stretching vibrations by about 23 cm^–1 and a significant shift of the reduction potential to less negative values (Δ<i>E</i>_1/2 = 0.26 V), but no effect on ⁵⁷Fe Mössbauer parameters is observed. …”

Effect of Oxidation and Protonation States on [2Fe–2S] Cluster Nitrosylation Giving {Fe(NO)₂}⁹ Dinitrosyl Iron Complexes (DNICs) by Christine E. Schiewer (6112373)

“…Peripheral ligand protonation leads to a blue shift of the NO stretching vibrations by about 23 cm^–1 and a significant shift of the reduction potential to less negative values (Δ<i>E</i>_1/2 = 0.26 V), but no effect on ⁵⁷Fe Mössbauer parameters is observed. …”

Effect of Oxidation and Protonation States on [2Fe–2S] Cluster Nitrosylation Giving {Fe(NO)₂}⁹ Dinitrosyl Iron Complexes (DNICs) by Christine E. Schiewer (6112373)

“…Peripheral ligand protonation leads to a blue shift of the NO stretching vibrations by about 23 cm^–1 and a significant shift of the reduction potential to less negative values (Δ<i>E</i>_1/2 = 0.26 V), but no effect on ⁵⁷Fe Mössbauer parameters is observed. …”

Effect of Oxidation and Protonation States on [2Fe–2S] Cluster Nitrosylation Giving {Fe(NO)₂}⁹ Dinitrosyl Iron Complexes (DNICs) by Christine E. Schiewer (6112373)

“…Peripheral ligand protonation leads to a blue shift of the NO stretching vibrations by about 23 cm^–1 and a significant shift of the reduction potential to less negative values (Δ<i>E</i>_1/2 = 0.26 V), but no effect on ⁵⁷Fe Mössbauer parameters is observed. …”

Effect of Oxidation and Protonation States on [2Fe–2S] Cluster Nitrosylation Giving {Fe(NO)₂}⁹ Dinitrosyl Iron Complexes (DNICs) by Christine E. Schiewer (6112373)

“…Peripheral ligand protonation leads to a blue shift of the NO stretching vibrations by about 23 cm^–1 and a significant shift of the reduction potential to less negative values (Δ<i>E</i>_1/2 = 0.26 V), but no effect on ⁵⁷Fe Mössbauer parameters is observed. …”

Effect of Oxidation and Protonation States on [2Fe–2S] Cluster Nitrosylation Giving {Fe(NO)₂}⁹ Dinitrosyl Iron Complexes (DNICs) by Christine E. Schiewer (6112373)

“…Peripheral ligand protonation leads to a blue shift of the NO stretching vibrations by about 23 cm^–1 and a significant shift of the reduction potential to less negative values (Δ<i>E</i>_1/2 = 0.26 V), but no effect on ⁵⁷Fe Mössbauer parameters is observed. …”