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1. Mild decarboxylation of neat muconic acid to levulinic acid: a combined experimental and computational mechanistic study

   https://doi.org/10.1039/D4RA05226A  

   Bhardwaj, Siddhant; Patel, Deep M; Forrester, Michael J; Roling, Luke T; Cochran, Eric W (December 2024, RSC Advances)

   This work shows the complete, solvent-free conversion of lignin-derivedcis–cis-muconic acid, a platform biochemical, into levulinic acid. 

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2. Apparent nitrous acid dissociation across environmentally relevant temperatures in freshwater and seawater

   https://doi.org/10.1002/lno.12714  

   Borer, Benedict; Bi, Eric; Woosley, Ryan_J; Babbin, Andrew_R (October 2024, Limnology and Oceanography)

   Abstract Nitrite is a ubiquitous compound found across aquatic systems and an intermediate in both the oxidative and reductive metabolisms transforming fixed nitrogen in the environment. Yet, the abiotic cycling of nitrite is often overlooked in favor of biologically mediated reactions. Here we quantify the apparent acid dissociation constant (pK_a) between nitrous acid and its conjugate base nitrite in both freshwater and seawater systems across a range of environmentally relevant temperatures (5–35°C) using potentiometric‐based titration. In freshwater, we measured a pK_a,NBSof 3.14 at 25°C and a pK_a,Tof 2.87 for seawater at the same temperature. We quantify substantial effects of both salinity and temperature on the pK_a, with colder and fresher water manifesting higher values and thus a greater proportion of protonated nitrite at any given pH. Because nitrous acid is unstable and decomposes to nitric oxide, the implications for the nitrous acid dissociation constant on ecosystem function are broad. 

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3. Jasmonic acid and salicylic acid play minor roles in stomatal regulation by CO ₂ , abscisic acid, darkness, vapor pressure deficit and ozone

   https://doi.org/10.1111/tpj.15430  

   Zamora, Olena; Schulze, Sebastian; Azoulay‐Shemer, Tamar; Parik, Helen; Unt, Jaanika; Brosché, Mikael; Schroeder, Julian I.; Yarmolinsky, Dmitry; Kollist, Hannes (August 2021, The Plant Journal)

   SUMMARY Jasmonic acid (JA) and salicylic acid (SA) regulate stomatal closure, preventing pathogen invasion into plants. However, to what extent abscisic acid (ABA), SA and JA interact, and what the roles of SA and JA are in stomatal responses to environmental cues, remains unclear. Here, by using intact plant gas‐exchange measurements in JA and SA single and double mutants, we show that stomatal responsiveness to CO₂, light intensity, ABA, high vapor pressure deficit and ozone either did not or, for some stimuli only, very slightly depended upon JA and SA biosynthesis and signaling mutants, includingdde2, sid2, coi1,jai1,myc2andnpr1alleles. Although the stomata in the mutants studied clearly responded to ABA, CO₂, light and ozone, ABA‐triggered stomatal closure innpr1‐1was slightly accelerated compared with the wild type. Stomatal reopening after ozone pulses was quicker in thecoi1‐16mutant than in the wild type. In intact Arabidopsis plants, spraying with methyl‐JA led to only a modest reduction in stomatal conductance 80 min after treatment, whereas ABA and CO₂induced pronounced stomatal closure within minutes. We could not document a reduction of stomatal conductance after spraying with SA. Coronatine‐induced stomatal opening was initiated slowly after 1.5–2.0 h, and reached a maximum by 3 h after spraying intact plants. Our results suggest that ABA, CO₂and light are major regulators of rapid guard cell signaling, whereas JA and SA could play only minor roles in the whole‐plant stomatal response to environmental cues in Arabidopsis andSolanum lycopersicum(tomato). 

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4. Improved Photodecarboxylation Properties in Zinc Photocages Constructed Using m‐ Nitrophenylacetic Acid Variants**

   https://doi.org/10.1002/cptc.202200102  

   Shigemoto, Austin_K; Bhattacharjee, Avik; Hickey, Erin_E; Boyd, Hallee_Jade; McCormick, Theresa_M; Burdette, Shawn_C (June 2022, ChemPhotoChem)

   Abstract The methoxy‐ and fluoro‐derivatives ofmeta‐nitrophenylacetic acid (mNPA) chromophores undergo photodecarboxylation with comparable quantum yields (Φ) to unsubstitutedmNPA, but uncage at red‐shifted excitation wavelengths. This observation prompted us to investigate DPAdeCageOMe (2‐[bis(pyridin‐2‐ylmethyl)amino]‐2‐(4‐methoxy‐3‐nitrophenyl)acetic acid) and DPAdeCageF (2‐[bis(pyridin‐2‐ylmethyl)amino]‐2‐(4‐fluoro‐3‐nitrophenyl)acetic acid) as Zn²⁺photocages. DPAdeCageOMe has a high Φ and exhibits other photophysical properties comparable to XDPAdeCage ({bis[(2‐pyridyl)methyl]amino}(9‐oxo‐2‐xanthenyl) acetic acid), the best preforming Zn²⁺photocage reported to date. Since the synthesis of DPAdeCageOMe is more straightforward than XDPACage, the new photocage will be a highly competitive tool for biological applications. 

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5. ortho ‐Boronic Acid Carbonyl Compounds and Their Applications in Chemical Biology**

   https://doi.org/10.1002/chem.202302485  

   Haggett, Jack_G; Domaille, Dylan_W (December 2023, Chemistry – A European Journal)

   Abstract Iminoboronates and diazaborines are related classes of compounds that feature an imineorthoto an arylboronic acid (iminoboronate) or a hydrazone that cyclizes with anorthoarylboronic acid (diazaborine). Rather than acting as independent chemical motifs, the arylboronic acid impacts the rate of imine/hydrazone formation, hydrolysis, and exchange with competing nucleophiles. Increasing evidence has shown that the imine/hydrazone functionality also impacts arylboronic acid reactivity toward diols and reactive oxygen and nitrogen species (ROS/RNS). Untangling the communication between C=N linked functionalities and arylboronic acids has revealed a powerful and tunable motif for bioconjugation chemistries and other applications in chemical biology. Here, we survey the applications of iminoboronates and diazaborines in these fields with an eye toward understanding their utility as a function of neighboring group effects. 

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