Systematic Heterodinuclear Complexes with MM′(μ-meppp) Centers That Tune the Properties of a Nesting Hydride (M = Ni, Pd, Pt; M′ = Rh, Ir; H₂meppp = <i>meso</i>-1,3-Bis[... by Bunsho Kure (1536136)

“…The reaction is assumed to involve an alkenyl complex, [Ni­(μ-meppp)­RhCp*­(CHCHPh)]­NO₃ (<b>9a</b>), formed through an insertion of phenylacetylene into the metal–hydride bond. …”

Systematic Heterodinuclear Complexes with MM′(μ-meppp) Centers That Tune the Properties of a Nesting Hydride (M = Ni, Pd, Pt; M′ = Rh, Ir; H₂meppp = <i>meso</i>-1,3-Bis[... by Bunsho Kure (1536136)

“…The reaction is assumed to involve an alkenyl complex, [Ni­(μ-meppp)­RhCp*­(CHCHPh)]­NO₃ (<b>9a</b>), formed through an insertion of phenylacetylene into the metal–hydride bond. …”

The Permian Watershed tungsten deposit (northeast Queensland, Australia): fluid inclusion and stable isotope constraints by J. A. Poblete (19519683)

“…Early, D_1–2 scheelite mineralisation in Carboniferous monzonite and skarn-altered conglomerate formed during regional prograde metamorphism, which reached upper greenschist to lower amphibolite facies conditions. …”

Hydrogen-Bonded Networks of Ammonium Bis- and Tetrakisphosphonates—Synthesis, High-Throughput Screening and Structural Trends by Monika Plabst (2329927)

“…Four different motifs of hydrogen bonding between the phosphonate groups could be observed: a single hydrogen bond, a dimeric <i>R</i>₂²(8) ring motif, the association of two bisphosphonate units into a dimer by two 2-fold hydrogen bonds, and an intramolecular hydrogen bond forming a six-membered ring. Cross-linking of the bisphosphonate groups via [O−H···O] bridges between phosphonates and in some cases solvent molecules generates two-dimensional networks. …”

Hydrogen-Bonded Networks of Ammonium Bis- and Tetrakisphosphonates—Synthesis, High-Throughput Screening and Structural Trends by Monika Plabst (2329927)

“…Four different motifs of hydrogen bonding between the phosphonate groups could be observed: a single hydrogen bond, a dimeric <i>R</i>₂²(8) ring motif, the association of two bisphosphonate units into a dimer by two 2-fold hydrogen bonds, and an intramolecular hydrogen bond forming a six-membered ring. Cross-linking of the bisphosphonate groups via [O−H···O] bridges between phosphonates and in some cases solvent molecules generates two-dimensional networks. …”

Hydrogen-Bonded Networks of Ammonium Bis- and Tetrakisphosphonates—Synthesis, High-Throughput Screening and Structural Trends by Monika Plabst (2329927)

“…Four different motifs of hydrogen bonding between the phosphonate groups could be observed: a single hydrogen bond, a dimeric <i>R</i>₂²(8) ring motif, the association of two bisphosphonate units into a dimer by two 2-fold hydrogen bonds, and an intramolecular hydrogen bond forming a six-membered ring. Cross-linking of the bisphosphonate groups via [O−H···O] bridges between phosphonates and in some cases solvent molecules generates two-dimensional networks. …”

Hydrogen-Bonded Networks of Ammonium Bis- and Tetrakisphosphonates—Synthesis, High-Throughput Screening and Structural Trends by Monika Plabst (2329927)

“…Four different motifs of hydrogen bonding between the phosphonate groups could be observed: a single hydrogen bond, a dimeric <i>R</i>₂²(8) ring motif, the association of two bisphosphonate units into a dimer by two 2-fold hydrogen bonds, and an intramolecular hydrogen bond forming a six-membered ring. Cross-linking of the bisphosphonate groups via [O−H···O] bridges between phosphonates and in some cases solvent molecules generates two-dimensional networks. …”

Image 1_Investigating the regulation of the miR-199a-3p/TGF-β/Smad signaling pathway by BSHXF drug-containing serum combined with ADSCs for delaying intervertebral disc degeneratio... by Enxu Liu (21190403)

“…BSHXF, a classical traditional Chinese medicine formula, demonstrates dual pharmacological actions: tonifying kidneys, strengthening bones, activating blood circulation, and resolving stasis. It has been widely used in IDD management. …”

PKD1 association with nNOS is enhanced by kinase activation in a PDZ-ligand independent manner. by Lucía Sánchez-Ruiloba (552971)

“…Analysis of nNOS immunoprecipitates showed that PKD1/nNOS complexes are still formed after deletion of PKD1 PDZ-ligand. Representative images from three independent experiments are shown in panels A, B, C and D. …”

Hydrogen-Bonded Networks of Ammonium Bis- and Tetrakisphosphonates—Synthesis, High-Throughput Screening and Structural Trends by Monika Plabst (2329927)

“…Four different motifs of hydrogen bonding between the phosphonate groups could be observed: a single hydrogen bond, a dimeric <i>R</i>₂²(8) ring motif, the association of two bisphosphonate units into a dimer by two 2-fold hydrogen bonds, and an intramolecular hydrogen bond forming a six-membered ring. Cross-linking of the bisphosphonate groups via [O−H···O] bridges between phosphonates and in some cases solvent molecules generates two-dimensional networks. …”

The recombinant CgPst2^<i>R174A</i> and CgPst2-CΔ^{<i>R174-F198</i>} proteins do not exhibit NADH:quinone oxidoreductase activity. by Anamika Battu (10197220)

“…</b> proteins, along with the flow through, were resolved on 12% SDS-PAGE, and stained with Coomassie Brilliant Blue. …”

Hydrogen-Bonded Networks of Ammonium Bis- and Tetrakisphosphonates—Synthesis, High-Throughput Screening and Structural Trends by Monika Plabst (2329927)

“…Four different motifs of hydrogen bonding between the phosphonate groups could be observed: a single hydrogen bond, a dimeric <i>R</i>₂²(8) ring motif, the association of two bisphosphonate units into a dimer by two 2-fold hydrogen bonds, and an intramolecular hydrogen bond forming a six-membered ring. Cross-linking of the bisphosphonate groups via [O−H···O] bridges between phosphonates and in some cases solvent molecules generates two-dimensional networks. …”

Synthesis, Characterization, and Chiral Behavior of S-Bridged Co^IIIPt^IICo^III Trinuclear Complexes Composed of Bis(thiolato)-Type Octahedral Units <... by Hirokazu Honda (2964768)

“…Complex [<b>1</b>]⁴⁺ formed both racemic (ΔΔ/ΛΛ) and meso (ΔΛ) forms, which were separated and optically resolved by cation-exchange column chromatography. …”

Creative methods and practices to mobilising public health knowledge webinar by Joe Langley (2382391)

“…</p><p dir="ltr">In the field of public health, mobilising evidence and other forms of knowledge is essential to developing effective, equitable, and sustainable interventions. …”

Stereoselectivity in the Formation of Metallomacrocycles from [Mo(NO){HB(3,5-Me₂C₃HN₂)₃}I₂] and Ditopic Proligands:  The X-ra... by Ferida S. McQuillan (2962425)

“…These binuclear complexes are formed under kinetic control so that <i>syn</i>-[Mo(NO)(tp*){1,4-(OCH₂)₂C₆H₄}]₂, <b>2s</b>, forms more rapidly than <i>anti</i>-[Mo(NO)(tp*){1,4-(OCH₂)₂C₆H₄}]₂, <b>2a</b>, but in lower yield. …”

New Series of Dinuclear Ruthenium(II) Complexes Synthesized Using Photoisomerization for Efficient Water Oxidation Catalysis by Masanari Hirahara (1558075)

“…Bulk electrolysis of the <i>p</i>,<i>p</i>-<b>Ru</b>_<b>2</b><b>(OH)­(OH</b>_<b>2</b><b>)</b> solution corroborated the electrocatalytic cycle involving the Ru^III–OH:Ru^III–OH state species as a resting state. …”

New Series of Dinuclear Ruthenium(II) Complexes Synthesized Using Photoisomerization for Efficient Water Oxidation Catalysis by Masanari Hirahara (1558075)

“…Bulk electrolysis of the <i>p</i>,<i>p</i>-<b>Ru</b>_<b>2</b><b>(OH)­(OH</b>_<b>2</b><b>)</b> solution corroborated the electrocatalytic cycle involving the Ru^III–OH:Ru^III–OH state species as a resting state. …”

New Series of Dinuclear Ruthenium(II) Complexes Synthesized Using Photoisomerization for Efficient Water Oxidation Catalysis by Masanari Hirahara (1558075)

“…Bulk electrolysis of the <i>p</i>,<i>p</i>-<b>Ru</b>_<b>2</b><b>(OH)­(OH</b>_<b>2</b><b>)</b> solution corroborated the electrocatalytic cycle involving the Ru^III–OH:Ru^III–OH state species as a resting state. …”

Syntheses of the Uranium Complexes [U{N(SiMe₃)₂}₂{N(SiMe₃)(SiMe₂CH₂B(C₆F₅)₃)}] an... by Matthias Müller (19649)

“…The complex [U{N(SiMe₃)₂}₂{N(SiMe₃)(SiMe₂CH₂B(C₆F₅)₃)}] (<b>1</b>) is formed in the reaction between the hydride complex [U{N(SiMe₃)₂}₃(H)] and B(C₆F₅)₃, and H₂ is evolved. …”

Supporting Information tables, figures, and text. by Jerome Deval (432310)

“…Three binding metrics were computed for each docking pose: 1) RMSD (Å) to the natural CDP ligand; 2) number of hydrogen bonds formed with the crystallographically resolved water molecule anticipated to catalyze the formation of the new phosphodiester bond to the incoming nucleotide; and 3) number of hydrogen bonds formed with the RNA template (B) Docked binding modes for 2'F-2'Me-, 2'F-4'ClCH₂-, and 2'F-4'N₃-CDP were overlaid with the CDP (yellow) X-ray binding mode for reference. …”