<i>Tnks</i> DKO leads to decreased Wnt/β-catenin signaling activity. by Pan Ye (2902336)

Controlling the Temperature and Speed of the Phase Transition of VO₂ Microcrystals by Joonseok Yoon (1419355)

Cyclopropane as an Unsaturation “Effect Isostere”: Lowering the Melting Points in Lipid-like Ionic Liquids by Richard A. O’Brien (1538818)

“…The data indicate there is considerable structural latitude possible when designing highly lipophilic ionic liquids that exhibit low melting points. While cyclopropanation of the lipid-like ionic liquids provides more resistance to aerobic degradation than their olefin analogs, the impact on the melting point decrease is not as pronounced. …”

S1 Data - by Mahmoud A. Alomari (14780446)

“…</p><p>Results</p><p>The prevalence of smoking was 33.3%, 46.1%, and 21.1% for cigarettes (Cg), waterpipe (Wp), and E-cigarettes (ECg), respectively. Among the smokers, 38.5–45.8% reported a “no-change,” while 32.1–41.7% reported a “decrease” in SH during confinement. …”

Prevalence of changes in smoking habit during COVID19 (n = 851). by Mahmoud A. Alomari (14780446)

The participant demographic (n = 1844). by Mahmoud A. Alomari (14780446)

“…</p><p>Results</p><p>The prevalence of smoking was 33.3%, 46.1%, and 21.1% for cigarettes (Cg), waterpipe (Wp), and E-cigarettes (ECg), respectively. Among the smokers, 38.5–45.8% reported a “no-change,” while 32.1–41.7% reported a “decrease” in SH during confinement. …”

Prevalence of smoking during COVID19 (n = 1844). by Mahmoud A. Alomari (14780446)

“…</p><p>Results</p><p>The prevalence of smoking was 33.3%, 46.1%, and 21.1% for cigarettes (Cg), waterpipe (Wp), and E-cigarettes (ECg), respectively. Among the smokers, 38.5–45.8% reported a “no-change,” while 32.1–41.7% reported a “decrease” in SH during confinement. …”

Confinement information due to COVID19 (n = 1844). by Mahmoud A. Alomari (14780446)

In-hospital morality decreases with increasing absolute frequency of a procedure. by Bronislava Bashinskaya (306030)

Depletion of Atg5 increases the accumulation of APP in response to IDN5706. by Viviana A. Cavieres (500139)

Tafamidis polyneuropathy amelioration requires modest increases in transthyretin stability even though increases in plasma native TTR and decreases in non-native TTR do not predict... by Cecília Monteiro (13888010)

Protease treatment decreases binding of LGTV to A549 cells. by Raquel Rodrigues (221129)

Preincubation with papaverine leads to decreases in phosphorylation of the mypt1 in HSV. by Kyle M. Hocking (402156)

Translation of Rot and Protein A is decreased in the absence of ClpX. by Lotte Jelsbak (168171)

<i>Il-17c</i> deletion decreases the expression of inflammatory cytokines. by Giovanna Vella (6413774)

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>). …”