Reviews & Analysis

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  • Liquid droplets form in cells to concentrate specific biomolecules (while excluding others) in order to perform specific functions. The molecular mechanisms that determine whether different macromolecules undergo co-partitioning or exclusion has so far remained elusive. Now, two studies uncover key principles underlying this selectivity.

    • Michael Phillips
    • Kingshuk Ghosh
    News & Views
  • Multi-payload antibody–drug conjugates (ADCs) are an emerging class of targeted therapeutics. Comprising a monoclonal antibody with multiple unique payloads attached, these constructs have the potential to produce synergistic anticancer effects with reduced therapeutic resistance. In this Review, methods for generating multi-payload ADCs are discussed, highlighting some key preclinical results.

    • Toby Journeaux
    • Gonçalo J. L. Bernardes
    Review Article
  • X-ray diffraction analysis typically affords the static 3D structures of given compounds or materials, but to understand chemical processes, the visualization of fast structural changes is desirable. Time-resolved femtosecond crystallography has now been used to monitor the structural dynamics of a photoactive metal–organic framework.

    • Lauren E. Hatcher
    • Paul R. Raithby
    News & Views
  • The precision synthesis of cyclic polymers with ultrahigh molar mass (UHMM) and circularity is challenging. Now, a method that involves superbase-mediated living linear-chain growth followed by macromolecular cyclization triggered by protic quenching enables the on-demand production of UHMM cyclic polymers with a narrow dispersity and closed-loop chemical recyclability.

    Research Briefing
  • Chlorine-containing waste streams pose potential risks to human health and the environment, so their remediation represents a significant challenge. Now, chlorinated wastes have been successfully repurposed as chlorinating reagents for use in the preparation of organic chemicals and pharmaceutical ingredients.

    • Andrew Jordan
    News & Views
  • Understanding the ways by which metal-containing catalysts carry out a reaction is a chemical puzzle. Now, investigations of a multi-metallic molecular system uncover how the self-assembly of molecular catalysts facilitates cooperation between active species and improves the conversion of water to hydrogen gas.

    • Ana Sonea
    • Jeffrey J. Warren
    News & Views
  • A non-radical proximity labelling platform — BAP-seq — is presented that uses subcellular-localized BS2 esterase to convert unreactive enol-based probes into highly reactive acid chlorides in situ to label nearby RNAs. When paired with click-handle-mediated enrichment and sequencing, this chemistry enables high-resolution spatial mapping of RNAs across subcellular compartments.

    Research Briefing
  • Surface heterogeneities lead to friction between droplets and solid surfaces, limiting the performance of the latter in a number of applications. A combination of friction force measurements and atomistic molecular dynamics simulations now sheds light on the influence of molecular scale heterogeneities on droplet friction.

    • Abhinav Naga
    • Doris Vollmer
    News & Views
  • Ether-based electrolytes are desired for lithium metal batteries owing to their low reduction potentials; however, they suffer from low anodic stability. Strategic methylation of ether solvents is shown to extend their electrochemical stability and facilitate the formation of LiF-rich interphases, enabling high-voltage lithium metal batteries while avoiding the use of fluorinated solvents.

    Research Briefing
  • 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
  • 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
  • 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
  • Nanopore label-free sequencing of DNA and RNA at the single-molecule level offers rapid readout, high accuracy, low cost and portability. This Review surveys technologies underpinning commercial and academic nanopore sequencing, and examines how underlying biochemical advances can fuel future developments in nanopore-based protein sequencing.

    • Adam Dorey
    • Stefan Howorka
    Review Article
  • Single-particle cryo-electron microscopy and all-atom molecular dynamics simulations provide atomic details of ATP hydrolysis in the multimeric enzyme p97.

    • Nadia Elghobashi-Meinhardt
    News & Views
  • Although generally perceived as an old-fashioned and unselective tool to build molecules, the photochemistry community is now re-discovering the power of UV light and is using key mechanistic information to develop new catalytic processes driven by visible light. This Perspective discusses the progress and impact of UV light in organic synthesis.

    • Giulio Goti
    • Kavyasree Manal
    • Luca Dell’Amico
    Perspective
  • Electrocatalytic transformations often involve the concerted transfer of electrons and protons at electrode interfaces; however, these processes are not well understood. Now, experiments on an electrode that features well-defined molecular sites deepen fundamental understanding of such transfers to pave the way for future catalysts.

    • Siyuan L. Xie
    • Eva M. Nichols
    News & Views