Nitric Oxide Oxidatively Nitrosylates Ni(I) and Cu(I) <i>C</i>-Organonitroso Adducts by Stefan Wiese (1626535)

“…[Me₂NN]Cu(NCMe) reacts with 0.5 equiv of ArNO in ether to give the dinuclear adducts {[Me₂NN]Cu}₂(μ-η²:η¹-ONAr) (<b>2a</b> and <b>2b</b>), which exhibit η² and η¹ bonding of the ArNO moiety with separate [Me₂NN]Cu fragments possessing N−O distances of 1.375(6) Å (<b>2a</b>) and 1.368(2) Å (<b>2b</b>). …”

Nitric Oxide Oxidatively Nitrosylates Ni(I) and Cu(I) <i>C</i>-Organonitroso Adducts by Stefan Wiese (1626535)

“…[Me₂NN]Cu(NCMe) reacts with 0.5 equiv of ArNO in ether to give the dinuclear adducts {[Me₂NN]Cu}₂(μ-η²:η¹-ONAr) (<b>2a</b> and <b>2b</b>), which exhibit η² and η¹ bonding of the ArNO moiety with separate [Me₂NN]Cu fragments possessing N−O distances of 1.375(6) Å (<b>2a</b>) and 1.368(2) Å (<b>2b</b>). …”

Nitric Oxide Oxidatively Nitrosylates Ni(I) and Cu(I) <i>C</i>-Organonitroso Adducts by Stefan Wiese (1626535)

“…[Me₂NN]Cu(NCMe) reacts with 0.5 equiv of ArNO in ether to give the dinuclear adducts {[Me₂NN]Cu}₂(μ-η²:η¹-ONAr) (<b>2a</b> and <b>2b</b>), which exhibit η² and η¹ bonding of the ArNO moiety with separate [Me₂NN]Cu fragments possessing N−O distances of 1.375(6) Å (<b>2a</b>) and 1.368(2) Å (<b>2b</b>). …”

Nitric Oxide Oxidatively Nitrosylates Ni(I) and Cu(I) <i>C</i>-Organonitroso Adducts by Stefan Wiese (1626535)

“…[Me₂NN]Cu(NCMe) reacts with 0.5 equiv of ArNO in ether to give the dinuclear adducts {[Me₂NN]Cu}₂(μ-η²:η¹-ONAr) (<b>2a</b> and <b>2b</b>), which exhibit η² and η¹ bonding of the ArNO moiety with separate [Me₂NN]Cu fragments possessing N−O distances of 1.375(6) Å (<b>2a</b>) and 1.368(2) Å (<b>2b</b>). …”

Nitric Oxide Oxidatively Nitrosylates Ni(I) and Cu(I) <i>C</i>-Organonitroso Adducts by Stefan Wiese (1626535)

“…[Me₂NN]Cu(NCMe) reacts with 0.5 equiv of ArNO in ether to give the dinuclear adducts {[Me₂NN]Cu}₂(μ-η²:η¹-ONAr) (<b>2a</b> and <b>2b</b>), which exhibit η² and η¹ bonding of the ArNO moiety with separate [Me₂NN]Cu fragments possessing N−O distances of 1.375(6) Å (<b>2a</b>) and 1.368(2) Å (<b>2b</b>). …”

The TSS diversity of a gene generally decreases with the gene expression level. by Chuan Xu (293667)

Resveratrol decreases cell proliferation in a time and dose dependent manner. by Mehtap Kilic Eren (591048)

Wnt signaling decreases the recruitment of RAB8a to basal bodies. by Cheng Yuan (160315)

EtOH decreased ΔΨm in a subset of esophageal keratinocytes. by Prasanna M. Chandramouleeswaran (3176268)

Conditional <i>Aff4</i> knockout decreases fat mass in mice. by Yaqian Chen (1711576)

Expression of vTR harboring the mutant template (AU5) decreases cell proliferation of an avian cancer cell line. by Benedikt B. Kaufer (341018)

JBPOS0101 decreased Amyloid Beta (Aβ) aggregates in the cortex and hippocampal regions in 5xFAD mouse brains. by Jihoon Jeong (4852690)

C1INH significantly decreased renal C5a cleavage and limited C3b deposition in kidneys subjected to IRI. by Juan S. Danobeitia (4386205)

Participants characteristics. by Sakiko Fukui (387048)

Subjects:

24 h fasting decreases mARC protein levels and <i>N</i>-reductive activity in mice. by Heyka H. Jakobs (619421)

At E9.5 Actb^−/− neural crest cells show a significant decrease of cadherin-11 expression. by Davina Tondeleir (426905)

“…<p>(A) Quantification of N-cadherin intensities in Actb^+/+ and Actb^−/− migratory cells adjacent to the neural tube at E8.5 and E9.5 (left graph, Y-axis: relative intensities) and colocalization of N-cadherin with p75 in migratory cells at E8.5 and E9.5 (right graph, Y-axis: colocalization index on a scale from 0 to 1). …”

rVλ6Wil fibrils cause a decrease in cardiomyocytes MTT reduction without inducing cell death. by Helen P. McWilliams-Koeppen (116503)

“…(C) Cell number, quantified using crystal violet (black) did not decrease over 72 h of incubation with 1 μM rVλ6Wil fibrils despite a decrease in MMT reduction (grey; n = 3 samples per time point). …”

Transcriptional and translational markers of syncytialization and biochemical differentiation are significantly decreased by rotenone. by O’Llenecia S. Walker (8486163)

RUE decreases the level of alcohol-induced liver damage markers. by Jeong Hoon Pan (844624)

Removal of the A-B linker did not decrease PIP₂ affinity. <i>A.-</i> by Paloma Aivar (124885)