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  • Biological and synthetic catalysts often utilize iron in high oxidation states (+IV and greater) to perform challenging molecular transformations. A coordination complex featuring an Fe(VII) ion has now been synthesized through sequential oxidations of nonheme iron–nitrido precursors.

    • Adam T. Fiedler
    • Laxmi Devkota
    News & Views
  • Lack of standardization, transparency and interaction creates information gaps in scientific publications. Through strategies such as voluntary information management, standardization of reaction set-ups, and smart screening approaches, this Perspective gives guidelines on how to improve data management in publications reporting chemical reactions, focusing on reproducibility, standardization and evaluation of synthetic transformations.

    • Malte L. Schrader
    • Felix R. Schäfer
    • Frank Glorius
    Perspective
  • Negatively charged lysine acylations—malonylation, succinylation and glutarylation—impact protein structure and function, which can affect cellular processes. Now temporarily masked thioester derivatives of succinylation and glutarylation can be used for site-specific modification of diverse bacterial and mammalian proteins, which can facilitate the study of how these lysine modifications impact enzymatic activity and control protein–protein and protein–DNA interactions.

    • Maria Weyh
    • Marie-Lena Jokisch
    • Kathrin Lang
    ArticleOpen Access
  • Chiral amines possessing a stereogenic carbon atom bearing three carbon substituents and one nitrogen substituent are challenging structural motifs to prepare enantioselectively. Now, such motifs have been accessed in high enantiopurities by asymmetric Cu-catalysed propargylic amination using sterically confined ligands.

    • Joshua D. Sieber
    News & Views
  • Expansion of the genetic code can enable precise manipulation of proteins through selective functionalization of specific residues. Now, control of tryptophan interactions in proteins can be established by encoding of a vinyl-caged tryptophan analogue that can be selectively decaged to rescue protein activity.

    • Aidan K. Haney
    • T. Ashton Cropp
    News & Views
  • Accessing longer-wavelength emitting organic fluorophores is critical for diagnostic imaging. Here a series of silicon-RosIndolizine fluorophores with emission maxima at 1,300 nm, 1,550 nm and 1,700 nm were synthesized. The fluorophores generate high-resolution in vivo fluorescence images in mice and establish design principles for future shortwave-infrared fluorophore designs.

    • William E. Meador
    • Eric Y. Lin
    • Jared H. Delcamp
    Article
  • Although the light-driven generation of hydrogen from water is a promising approach to renewable fuels, the H–H bond formation step represents a persistent mechanistic question. Now light-harvesting molecular catalysts have been shown to self-assemble into nanoscale aggregates that feature improved efficiency for photoelectrochemical H2 evolution.

    • Isaac N. Cloward
    • Tianfei Liu
    • Alexander J. M. Miller
    Article
  • Time-resolved femtosecond crystallography (TR-SFX) is a powerful technique to monitor structural transitions in protein crystals at the atomic level, but its use in non-protein synthetic materials remains limited. Now TR-SFX has been used to visualize the structural dynamics of metal–organic frameworks, showing the potential of this tool to study the dynamic motion of crystalline porous materials.

    • Jaedong Kang
    • Yunbeom Lee
    • Hyotcherl Ihee
    ArticleOpen Access
  • Ribosomally synthesized and post-translationally modified peptides (RiPPs) can have vast structural diversity and biological functions enabled by disparate post-translational modifications (PTMs). However, unconventional PTMs derived from non-RiPP biosynthesis are rarely reported. Now a class of lipopeptides featuring a distinct fatty-acyl-modified N terminus and the responsible RiPP/fatty-acid hybrid biosynthetic machinery have been characterized.

    • Hengqian Ren
    • Chunshuai Huang
    • Huimin Zhao
    Article
  • We developed a high-throughput, unbiased strategy for the identification of endogenous biomolecular condensates by merging cell volume compression, sucrose density gradient centrifugation and quantitative mass spectrometry. We demonstrated the performance of this strategy by identifying both global condensate proteins and those responding to specific biological processes on a proteome-wide scale.

    Research Briefing
  • Enantioenriched α-disubstituted α-ethynylamines are valuable synthons to chiral α-tertiary amines and azacycles, but their facile access remains challenging. Now, sterically confined pyridinebisoxazoline ligands have been developed to facilitate highly enantioselective Cu(I)-catalysed propargylic amination of both aliphatic and aryl ketone-derived propargylic carbonates to give α-tertiary ethynylamines. Related tandem sequences are reported to synthesize quaternary azacycles.

    • Zheng Zhang
    • Ying Sun
    • Jian Zhou
    Article
  • The spontaneous recombination of photogenerated radicals surrounded by solvent molecules is an important energy-wasting elementary step in photoredox reactions. Now the decisive role that cage escape plays in these reactions is shown in three benchmark photocatalytic reactions, with quantitative correlations observed between photoredox product formation rates and cage escape quantum yields.

    • Cui Wang
    • Han Li
    • Oliver S. Wenger
    ArticleOpen Access
  • High-throughput proteome-wide methods for identifying endogenous proteins that phase separate or partition into condensates during certain physiological events are needed but remain a challenge. Now, a high-throughput, unbiased and quantitative strategy can identify endogenous biomolecular condensates and screen proteins involved in phase separation on a proteome-wide scale.

    • Pengjie Li
    • Peng Chen
    • Yiwei Li
    Article
  • The underlying mechanism for how heterotypic protein–RNA interactions modulate the liquid to amyloid transition of hnRNPA1A, a protein involved in amyotrophic lateral sclerosis, has so far remained elusive. Now characterization of hnRNPA1A condensate formation and aggregation in vitro reveals that the RNA/protein stoichiometry affects the molecular pathways leading to amyloid formation.

    • Chiara Morelli
    • Lenka Faltova
    • Paolo Arosio
    ArticleOpen Access
  • The insertion of metal atoms and heteroaromatic units provides a way to tune the optical, electronic and magnetic properties of graphene nanoribbons. Now the synthesis of a porphyrin-fused graphene nanoribbon with a narrow bandgap and high charge mobility has been achieved, and this material used to fabricate field-effect and single-electron transistors.

    • Qiang Chen
    • Alessandro Lodi
    • Harry L. Anderson
    ArticleOpen Access
  • Although hydrogels with complex, heterogeneous and reconfigurable structures are promising materials for use in intelligent systems, fabricating such hydrogels is challenging. Now it has been shown that they can be fabricated by reversibly gluing different hydrogel units using a photocontrolled metallopolymer adhesive. This method can be used to design hydrogels with customized functions.

    • Jiahui Liu
    • Yun-Shuai Huang
    • Si Wu
    ArticleOpen Access
  • Atomistic simulations have a broad range of applications from drug design to materials discovery. Machine learning interatomic potentials (MLIPs) have become an efficient alternative to computationally expensive ab initio simulations. Now a general reactive MLIP (called ANI-1xnr) has been developed and validated against a broad range of condensed-phase reactive systems.

    • Shuhao Zhang
    • Małgorzata Z. Makoś
    • Justin S. Smith
    ArticleOpen Access
  • Becoming an assistant professor brings with it several challenges, one of which is developing new relationships that can be professionally and personally beneficial. Shira Joudan reflects on getting to know people at a new institution, having different types of relationships, and how they help with happiness and success.

    • Shira Joudan
    Thesis
  • Ciro Romano, Jack I. Mansell, and David J. Procter have explored the versatility and selectivity of samarium diiodide, and its use as a radical relay catalyst.

    • Ciro Romano
    • Jack I. Mansell
    • David J. Procter
    In Your Element
  • A previous investigation of the anti-aromatic dianion of [18]annulene concluded that it consists of a mixture of two isomers. Now it has been shown that this dianion exists as a single isomer, with a different geometry from neutral [18]annulene, and that it can be reduced further to an aromatic tetraanion.

    • Wojciech Stawski
    • Yikun Zhu
    • Harry L. Anderson
    ArticleOpen Access