More Like this

1. Synthesis and Ring-Opening Metathesis Polymerization of a Strained trans -Silacycloheptene and Single-Molecule Mechanics of Its Polymer

   https://doi.org/10.1021/jacs.3c01004  

   Wakefield, Herbert; Kevlishvili, Ilia; Wentz, Kelsie E.; Yao, Yunxin; Kouznetsova, Tatiana B.; Melvin, Sophia J.; Ambrosius, Em G.; Herzog-Arbeitman, Abraham; Siegler, Maxime A.; Johnson, Jeremiah A.; et al (April 2023, Journal of the American Chemical Society)

   The cis- and trans-isomers of a silacycloheptene were selectively synthesized by the alkylation of a silyl dianion, a novel approach to strained cycloalkenes. The trans-silacycloheptene (trans-SiCH) was significantly more strained than the cis isomer, as predicted by quantum chemical calculations and confirmed by crystallographic signatures of a twisted alkene. Each isomer exhibited distinct reactivity toward ring-opening metathesis polymerization (ROMP), where only trans-SiCH afforded high-molar-mass polymer under enthalpy-driven ROMP. Hypothesizing that the introduction of silicon might result in increased molecular compliance at large extensions, we compared poly(trans-SiCH) to organic polymers by single-molecule force spectroscopy (SMFS). Force-extension curves from SMFS showed that poly(trans-SiCH) is more easily overstretched than two carbon-based analogues, polycyclooctene and polybutadiene, with stretching constants that agree well with the results of computational simulations. 

   more » « less
2. Quantifying how the cis / trans ratio of N , N -dimethyl-3,5-dimethylpiperidinium hydroxide impacts the growth kinetics, composition and local structure of SSZ-39

   https://doi.org/10.1039/d4ra08620a  

   Cui, Zheng; Umhey, Charles E; Ukagha, Onyinyechukwu C; Ogunleye, Motunrayo; McEwen, Jean-Sabin; Shantz, Daniel F (March 2025, RSC Advances)

   This work integrates experiments and computational methods to quantify how the cis/trans ratio of the OSDA used in SSZ-39 synthesis impacts the crystallization kinetics, material properties, and final product composition. The crystallization kinetics increase by 30% when increasing the trans isomer content from 14% to 80%. Per prior work, in all cases based on the synthesis gel composition and product yield aluminum is the limiting reagent, and the absence of any amorphous material detected in the time resolved PXRD studies leads us to conclude that FAU dissolution is the rate limiting step in the formation of SSZ-39 in this synthesis protocol. The TGA and NMR results suggest that the trans isomer of OSDA is selectively incorporated into the product. The NMR binding studies, and corresponding DFT-based results show that the trans isomer binds to FAU more strongly than the cis isomer, providing one possible explanation for this enhancement in kinetics and preferential uptake of the trans isomer. The EDS analysis indicates that the Si/Al ratios are between 7.7 and 8.6 at low and high trans OSDA content, indicating zeolite composition is mildly sensitive to the trans isomer content. EDS results show this decrease in aluminum content leads to a corresponding decrease in sodium uptake. DFT-based calculations confirm OSDA–sodium interactions cannot explain any decrease in sodium uptake, reinforcing lower aluminum content as the cause of lower sodium uptake. Preliminary cobalt titration experiments show a surprisingly low cobalt uptake but also show a clear dependence of the cobalt uptake on the solution pH. 

   more » « less
3. Ozonolysis Dissociation Kinetics for the Relative Quantification of Geometrical Phosphatidylcholine Isomers

   https://doi.org/10.1021/acs.analchem.5c00670  

   Scoggins_IV, Troy R; Guo, Yingchan; Zerebinski, Paul; Prentice, Boone M (June 2025, Analytical Chemistry)

   The structural diversity of lipids presents significant challenges for accurate identification and characterization, ne-cessitating advanced analytical tools. Among these challenges is the differentiation between cis and trans isomers of lipids, which differ only by the geometry of a carbon-carbon double bond. This study employs ozonolysis kinetics to distinguish these isomers based on the reactivity of their gas phase ions with ozone. To achieve precise differentia-tion, it is essential to use an ion adduct that enhances reactivity, thereby improving the sensitivity of the kinetic assays. We evaluated various ion types, including protonated lipids as well as lipids cationized with lithium, sodium, and potassium, using a modified quadrupole ion trap mass spectrometer. Our results demonstrate that lithium-adducted lipids exhibit the highest reaction efficiency and greatest sensitivity for distinguishing between cis and trans isomers. Subsequent analysis of cis and trans isomer mixtures of PC 18:1/18:1 (Δ9), PC 16:1/16:1 (Δ9), and PC 14:1/14:1 (Δ9) confirmed the method's robustness. 

   more » « less
4. Co(II) Macrocyclic Complexes with Amide‐Glycinate Pendants as ParaCEST and Liposomal CEST Agents

   https://doi.org/10.1002/chem.202401638  

   Raymond, Jaclyn_J; Chowdhury, Md_Saiful_I; Crawley, Matthew_R; Morrow, Janet_R (July 2024, Chemistry – A European Journal)

   Abstract Macrocyclic Co(II) complexes with appended amide‐glycinate groups were prepared to develop paramagnetic Co(II) chemical exchange saturation transfer (CEST) agents of reduced overall charge. Complexes with reduced charge and lowered osmolarity are important for their loading into liposomes and to provide complexes that are highly water soluble and well tolerated in animals. Co(L1) has two non‐coordinating benzyl groups and two amide‐glycinate pendants, whereas Co(L2) has two unsubstituted amide pendants and two amide‐glycinate pendants on cyclam (1,4,8,11‐tetraazacyclododecane). The¹H NMR spectrum of Co(L1) is consistent with a singlecis‐pendant isomer with both amide protons in thetrans‐configuration, as supported by an X‐ray crystal structure. Co(L2) has a mixture of different isomers in solution, including thetrans‐1,4 and 1,8 pendant isomers. The Z‐spectrum of Co(L1) shows one highly‐shifted CEST peak, whereas Co(L2) exhibits six CEST peaks. Encapsulation of 40 mM Co(L1) in a liposome with osmotically‐induced shrinking at 300 mOsm/L produces a liposomal CEST agent with saturation frequency offset of 3 ppm. Addition of the amphiphilic 1,4,7‐triazacyclononane‐based complex Co(L5) to the liposomal bilayer at 18 mM with Co(L1) encapsulated in the liposome at 50 mM changes the sign and increases the magnitude of the saturation frequency offset to −7.5 ppm at 300 mOsm/L. 

   more » « less
5. Molecular switching in transcription through splicing and proline-isomerization regulates stress responses in plants

   https://doi.org/10.1038/s41467-024-44859-2  

   Theisen, Frederik Friis; Prestel, Andreas; Elkjær, Steffie; Leurs, Yannick_H A; Morffy, Nicholas; Strader, Lucia C; O’Shea, Charlotte; Teilum, Kaare; Kragelund, Birthe B; Skriver, Karen (December 2024, Nature Communications)

   Abstract TheArabidopsis thalianaDREB2A transcription factor interacts with the negative regulator RCD1 and the ACID domain of subunit 25 of the transcriptional co-regulator mediator (Med25) to integrate stress signals for gene expression, with elusive molecular interplay. Using biophysical and structural analyses together with high-throughput screening, we reveal a bivalent binding switch in DREB2A containing an ACID-binding motif (ABS) and the known RCD1-binding motif (RIM). The RIM is lacking in a stress-induced DREB2A splice variant with retained transcriptional activity. ABS and RIM bind to separate sites on Med25-ACID, and NMR analyses show a structurally heterogeneous complex deriving from a DREB2A-ABS proline residue populatingcis- andtrans-isomers with remote impact on the RIM. Thecis-isomer stabilizes an α-helix, while thetrans-isomer may introduce energetic frustration facilitating rapid exchange between activators and repressors. Thus, DREB2A uses a post-transcriptionally and post-translationally modulated switch for transcriptional regulation. 

   more » « less