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1. Functionalized Cyclic Poly(α‐Hydroxy Acids) via Controlled Ring‐Opening Polymerization of O‐Carboxyanhydrides

   https://doi.org/10.1002/anie.202423973  

   Huo, Ziyu; Xie, Xiaoyu; Mahmud, Nadim; Worch, Joshua_C; Tong, Rong (April 2025, Angewandte Chemie International Edition)

   Abstract Linear poly(α‐hydroxy acids) are important degradable polymers, and they can be efficiently prepared by ring‐opening polymerization of O‐carboxyanhydrides with pendant functional groups. However, attempts to prepare cyclic poly(α‐hydroxy acids) have been plagued by side reactions, including epimerization and uncontrolled intramolecular chain transfers or termination, that prevent the synthesis of high‐molecular‐weight stereoregular cyclic polyesters. Herein, we report a scalable method for the synthesis of high‐molecular‐weight (>100 kDa) stereoregular functionalized cyclic poly(α‐hydroxy acids) by means of controlled polymerization of O‐carboxyanhydrides using a catalytic system consisting of a lanthanum complex with a sterically bulky ligand and a manganese silylamide. Additionally, using this system, we could readily prepare cyclic block poly(α‐hydroxy acids) by means of sequential addition of O‐carboxyanhydrides. The obtained cyclic polyesters and their cyclic block copolyesters exhibit distinctive physicochemical properties—including elevated phase transition temperature, improved toughness, and reduced viscosity—compared to their linear counterparts. 

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2. Photocatalyst-Independent Photoredox Ring-Opening Polymerization of O-Carboxyanhydrides: Stereocontrol and Mechanism

   https://doi.org/10.1039/D0SC05550F  

   Zhong, Yongliang; Feng, Quanyou; wang, xiaoqian; Yang, Lei; Korovich, Andrew G; Madsen, Louis A; Tong, Rong (January 2021, Chemical Science)

   null (Ed.)

   Photoredox ring-opening polymerization of O -carboxyanhydrides allows for the synthesis of polyesters with precisely controlled molecular weights, molecular weight distributions, and tacticities. While powerful, obviating the use of precious metal-based photocatalysts would be attractive from the perspective of simplifying the protocol and enabling unexpected reactivity. Herein, we report the Co and Zn catalysts that are activated by external light to mediate efficient ring-opening polymerization of O -carboxyanhydrides, without the use of exogenous precious metal-based photocatalysts. Our methods allow for the synthesis of isotactic polyesters with high molecular weights (>200 kDa) and narrow molecular weight distributions ( M w / M n < 1.1). Mechanistic studies indicate that light activates the oxidative status of Co III intermediate that is generated from the regioselective ring-opening of the O -carboxyanhydride. We also demonstrate that the use of Zn or Hf complexes together with Co can allow for stereoselective photoredox ring-opening polymerizations of multiple racemic O -carboxyanhydrides to synthesize syndiotactic and stereoblock copolymers, which vary widely in their glass transition temperatures. 

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3. Open-air synthesis of oligo(ethylene glycol)-functionalized polypeptides from non-purified N -carboxyanhydrides

   https://doi.org/10.1039/d1bm00223f  

   Tan, Zhengzhong; Song, Ziyuan; Xue, Tianrui; Zheng, Lining; Jiang, Lei; Jiang, Yunjiang; Fu, Zihuan; Nguyen, Anh; Leal, Cecilia; Cheng, Jianjun (January 2021, Biomaterials Science)

   null (Ed.)

   With PEG-like properties, such as hydrophilicity and stealth effect against protein absorption, oligo(ethylene glycol) (OEG)-functionalized polypeptides have emerged as a new class of biomaterials alternative to PEG with polypeptide-like properties. Synthesis of this class of materials, however, has been demonstrated very challenging, as the synthesis and purification of OEG-functionalized N -carboxyanhydrides (OEG-NCAs) in high purity, which is critical for the success in polymerization, is tedious and often results in low yield. OEG-functionalized polypeptides are therefore only accessible to a few limited labs with expertise in this specialized NCA chemistry and materials. Here, we report the controlled synthesis of OEG-functionalized polypeptides in high yield directly from the OEG-functionalized amino acids via easy and reproducible polymerization of non-purified OEG-NCAs. The prepared amphiphilic block copolypeptides can self-assemble into narrowly dispersed nanoparticles in water, which show properties suitable for drug delivery applications. 

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4. Scalable and Selective β‐Hydroxy‐α‐Amino Acid Synthesis Catalyzed by Promiscuous l ‐Threonine Transaldolase ObiH

   https://doi.org/10.1002/cbic.202100577  

   Doyon, Tyler_J; Kumar, Prasanth; Thein, Sierra; Kim, Maeve; Stitgen, Abigail; Grieger, Abbigail_M; Madigan, Cormac; Willoughby, Patrick_H; Buller, Andrew_R (November 2021, ChemBioChem)

   Abstract Enzymes from secondary metabolic pathways possess broad potential for the selective synthesis of complex bioactive molecules. However, the practical application of these enzymes for organic synthesis is dependent on the development of efficient, economical, operationally simple, and well‐characterized systems for preparative scale reactions. We sought to bridge this knowledge gap for the selective biocatalytic synthesis of β‐hydroxy‐α‐amino acids, which are important synthetic building blocks. To achieve this goal, we demonstrated the ability of ObiH, anl‐threonine transaldolase, to achieve selective milligram‐scale synthesis of a diverse array of non‐standard amino acids (nsAAs) using a scalable whole cell platform. We show how the initial selectivity of the catalyst is high and how the diastereomeric ratio of products decreases at high conversion due to product re‐entry into the catalytic cycle. ObiH‐catalyzed reactions with a variety of aromatic, aliphatic and heterocyclic aldehydes selectively generated a panel of β‐hydroxy‐α‐amino acids possessing broad functional‐group diversity. Furthermore, we demonstrated that ObiH‐generated β‐hydroxy‐α‐amino acids could be modified through additional transformations to access important motifs, such as β‐chloro‐α‐amino acids and substituted α‐keto acids. 

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5. Tunable, biodegradable grafting-from glycopolypeptide bottlebrush polymers

   https://doi.org/10.1038/s41467-021-26808-5  

   Clauss, Zachary S.; Wardzala, Casia L.; Schlirf, Austin E.; Wright, Nathaniel S.; Saini, Simranpreet S.; Onoa, Bibiana; Bustamante, Carlos; Kramer, Jessica R. (November 2021, Nature Communications)

   Abstract The cellular glycocalyx and extracellular matrix are rich in glycoproteins and proteoglycans that play essential physical and biochemical roles in all life. Synthetic mimics of these natural bottlebrush polymers have wide applications in biomedicine, yet preparation has been challenged by their high grafting and glycosylation densities. Using one-pot dual-catalysis polymerization of glycan-bearing α-amino acidN-carboxyanhydrides, we report grafting-from glycopolypeptide brushes. The materials are chemically and conformationally tunable where backbone and sidechain lengths were precisely altered, grafting density modulated up to 100%, and glycan density and identity tuned by monomer feed ratios. The glycobrushes are composed entirely of sugars and amino acids, are non-toxic to cells, and are degradable by natural proteases. Inspired by native lipid-anchored proteoglycans, cholesterol-modified glycobrushes were displayed on the surface of live human cells. Our materials overcome long-standing challenges in glycobrush polymer synthesis and offer new opportunities to examine glycan presentation and multivalency from chemically defined scaffolds. 

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