Chemical biology articles within Nature Communications

Featured

• Article
  29 August 2023 | Open Access

  A portable regulatory RNA array design enables tunable and complex regulation across diverse bacteria

  A lack of composable and tunable gene regulators has hindered efforts to engineer nonmodel bacteria and consortia. Here the authors deliver a tunable gene regulatory platform based on RNA arrays to control gene expression across different microbes.

  • Baiyang Liu
  • , Christian Cuba Samaniego
  •  & James Chappell

• Article
  28 August 2023 | Open Access

  Chemoenzymatic synthesis of genetically-encoded multivalent liquid N-glycan arrays

  Cellular glycosylation is complex and heterogeneous, which is challenging to reproduce synthetically. Here, the authors report on enzymatic remodelling of multivalent glycosylated bacteriophages to produce genetically encoded library of N-glycans which can be used to measure glycan-protein interactions with lectins on the surface of live cells and organs.

  • Chih-Lan Lin
  • , Mirat Sojitra
  •  & Ratmir Derda

• Article
  28 August 2023 | Open Access

  CircRREB1 mediates lipid metabolism related senescent phenotypes in chondrocytes through FASN post-translational modifications

  Osteoarthritis is a prevalent age-related disease. Here, the authors show that that CircRREB1 is highly expressed in second generation chondrocytes and its deficiency can alleviate FASN related senescent phenotypes and osteoarthritis progression.

  • Zhe Gong
  • , Jinjin Zhu
  •  & Shuying Shen

• Article
  25 August 2023 | Open Access

  Visualizing single-molecule conformational transition and binding dynamics of intrinsically disordered proteins

  Intrinsically disordered proteins (IDPs) are highly dynamic and play pivotal roles in cellular processes but can be difficult to study. Here, the authors develop a single-molecule nanocircuit for the real-time monitoring of c-Myc conformational transitions and their interaction with ligands.

  • Wenzhe Liu
  • , Limin Chen
  •  & Xuefeng Guo

• Article
  24 August 2023 | Open Access

  Metal-mediated DNA strand displacement and molecular device operations based on base-pair switching of 5-hydroxyuracil nucleobases

  The development of dynamic DNA nanodevices, whose configuration and function are regulated by specific chemical inputs, represents a rapidly growing area in molecular science. Herein, the authors report the concept of metal-mediated base-pair switching to induce inter- and intramolecular DNA strand displacement in a metal-responsive manner.

  • Yusuke Takezawa
  • , Keita Mori
  •  & Mitsuhiko Shionoya

• Article
  23 August 2023 | Open Access

  Click-electrochemistry for the rapid labeling of virus, bacteria and cell surfaces

  Methods for direct covalent ligation of microorganism surfaces are scarce. Here, the authors developed a rapid electrochemical process for the direct covalent ligation and labelling of the surfaces of virus, bacteria and cells using N-methylluminol, a fully tyrosine-selective protein anchoring group.

  • Sébastien Depienne
  • , Mohammed Bouzelha
  •  & Sébastien G. Gouin

• Article
  23 August 2023 | Open Access

  An integrated proteome and transcriptome of B cell maturation defines poised activation states of transitional and mature B cells

  B cells pursue specific genetic programs to facilitate downstream cellular functions. Here the authors identify, using a combination of proteomic, transcriptomic and functional analyses, a group of mRNAs related to early activation and antibody production that are expressed in B cells without corresponding proteins, hinting a ‘poised’ state of B cells.

  • Fiamma Salerno
  • , Andrew J. M. Howden
  •  & Martin Turner

• Comment
  22 August 2023 | Open Access

  Epichaperomics reveals dysfunctional chaperone protein networks

  Molecular chaperones establish essential protein-protein interaction networks. Modified versions of these assemblies are generally enriched in certain maladies. A study published in Nature Communications used epichaperomics to identify unique changes occurring in chaperone-formed protein networks during mitosis in cancer cells.

  • Mark R. Woodford
  • , Dimitra Bourboulia
  •  & Mehdi Mollapour

• Article
  22 August 2023 | Open Access

  Pyruvate dehydrogenase operates as an intramolecular nitroxyl generator during macrophage metabolic reprogramming

  Nitric oxide has been shown to target mitochondrial aconitase 2 and pyruvate dehydrogenase to reprogramme macrophage metabolism. Here, the authors extend these findings to show that lipoate is used to generate nitroxyl in this process.

  • Erika M. Palmieri
  • , Ronald Holewinski
  •  & Daniel W. McVicar

• Article
  19 August 2023 | Open Access

  Metabolic glycan labeling immobilizes dendritic cell membrane and enhances antitumor efficacy of dendritic cell vaccine

  Dendritic cell (DC) vaccines were among the first FDA-approved cancer immunotherapies but have been limited by the modest therapeutic efficacy. Here, authors report a facile metabolic glycan labeling approach to improving the cytotoxic T lymphocyte response and antitumor efficacy of DC vaccines.

  • Joonsu Han
  • , Rimsha Bhatta
  •  & Hua Wang

• Article
  18 August 2023 | Open Access

  Lenalidomide derivatives and proteolysis-targeting chimeras for controlling neosubstrate degradation

  Lenalidomide is effective for treating several hematological cancers but has teratogenic effect on the fetus. Here, the authors identify modifications that make lenalidomide more selective and effective when used as a stand-alone molecular glue or integrated in PROTACs.

  • Satoshi Yamanaka
  • , Hirotake Furihata
  •  & Tatsuya Sawasaki

• Article
  17 August 2023 | Open Access

  Extensive breaking of genetic code degeneracy with non-canonical amino acids

  Genetic code expansion is limited by the degeneracy of the 61 sense codons which encode for only 20 amino acids. Here, the authors show that by combining hyperaccurate ribosomes and in vitro transcribed tRNAs, dramatic and extensive breaking of sense codon degeneracy can be achieved.

  • Clinton A. L. McFeely
  • , Bipasana Shakya
  •  & Matthew C. T. Hartman

• Article
  16 August 2023 | Open Access

  Pharmacological perturbation of the phase-separating protein SMNDC1

  SMNDC1 is a splicing factor that binds arginine methylation with its Tudor domain. Here, the authors study the protein’s phase-separating behavior and develop small-molecule Tudor domain inhibitors that perturb SMNDC1 function.

  • Lennart Enders
  • , Marton Siklos
  •  & Stefan Kubicek

• Article
  15 August 2023 | Open Access

  Quantitative real-time in-cell imaging reveals heterogeneous clusters of proteins prior to condensation

  The nucleation of biomolecular condensates is seldom quantified in living cells. Here, the authors show how protein clusters form before microscopically visible condensation and find a flat free-energy profile with active blocking of cluster growth.

  • Chenyang Lan
  • , Juhyeong Kim
  •  & Thorsten Hugel

• Article
  12 August 2023 | Open Access

  Biosensor Guided Polyketide Synthases Engineering for Optimization of Domain Exchange Boundaries

  Engineering polyketide synthases can be challenging due to the absence of efficient high-throughput methods. Here, the authors used a solubility biosensor to identify stable variants from libraries of modified polyketide synthases.

  • Elias Englund
  • , Matthias Schmidt
  •  & Jay D. Keasling

• Article
  09 August 2023 | Open Access

  Auranofin targets UBA1 and enhances UBA1 activity by facilitating ubiquitin trans-thioesterification to E2 ubiquitin-conjugating enzymes

  Decreased activity of the E1 ubiquitin-activating enzyme UBA1 can contribute to aging and diseases like Alzheimer’s and VEXAS syndrome. Here, the authors found that auranofin, a rheumatoid arthritis drug, can significantly boost UBA1 activity.

  • Wenjing Yan
  • , Yongwang Zhong
  •  & Shengyun Fang

• Article
  09 August 2023 | Open Access

  Catalytic site flexibility facilitates the substrate and catalytic promiscuity of Vibrio dual lipase/transferase

  Vibrio dual lipases/transferases are virulence-related enzymes, with both substrate and catalytic promiscuity. Wang et al reveal their prominent structural flexibility, proposing a catalytic site tuning mechanism underlying enzyme promiscuity.

  • Chongyang Wang
  • , Changshui Liu
  •  & Qingjun Ma

• Article
  09 August 2023 | Open Access

  Small molecule branched-chain ketoacid dehydrogenase kinase (BDK) inhibitors with opposing effects on BDK protein levels

  Branched chain ketoacid dehydrogenase kinase (BDK) inhibits the activity of branched chain ketoacid dehydrogenase and branched chain amino acid degradation, implicated in several diseases. Here, the authors discover a BDK inhibitor and degrader that shows efficacy in rodent metabolism and heart failure models, as well as another class of BDK inhibitors that stabilizes BDK.

  • Rachel J. Roth Flach
  • , Eliza Bollinger
  •  & Kevin J. Filipski

• Article
  03 August 2023 | Open Access

  Molecular basis of the pleiotropic effects by the antibiotic amikacin on the ribosome

  Here the authors use fast kinetics, X-ray crystallography, and cryo-EM to uncover the mechanism of ribosome inhibition by amikacin and kanamycin. They find that amikacin binds near the P-site tRNA, offering new strategies to fight antibiotic resistance.

  • Savannah M. Seely
  • , Narayan P. Parajuli
  •  & Matthieu G. Gagnon

• Article
  02 August 2023 | Open Access

  Nitroalkanes as thioacyl equivalents to access thioamides and thiopeptides

  Replacement of oxoamide units with thioamides in peptide therapeutics is a valuable tactic to improve biological activity and resistance to enzymatic hydrolysis. Here, the authors develop a direct coupling of readily available nitroalkane and amines with elemental sulfur and base and provide an efficient way to form thioamides and thiopeptides.

  • Xiaonan Wang
  • , Silong Xu
  •  & Jing Li

• Article
  31 July 2023 | Open Access

  Chemically programmed STING-activating nano-liposomal vesicles improve anticancer immunity

  Agonists of the cytosolic DNA-sensing STING pathway potently remodel the tumour immune microenvironment to support anti-tumour adaptive immunity, but at the expense of adverse systemic inflammation. Here authors exchange the STING agonist MSA-2 with its prodrugs that are suitable for nano-liposomal delivery and thus achieve increased efficiency and decreased toxicity.

  • Xiaona Chen
  • , Fanchao Meng
  •  & Hangxiang Wang

• Article
  29 July 2023 | Open Access

  Pathway selectivity in Frizzleds is achieved by conserved micro-switches defining pathway-determining, active conformations

  Signaling pathway selectivity downstream of GPCRs is not fully understood. Here, authors perform functional analysis of Frizzled mutants to uncover state-stabilizing residues or ‘micro-switches’ mediating selectivity towards Disheveled over G proteins.

  • Lukas Grätz
  • , Maria Kowalski-Jahn
  •  & Gunnar Schulte

• Article
  28 July 2023 | Open Access

  Subunit gating resulting from individual protonation events in Kir2 channels

  Here, authors introduced negative charges in the transmembrane helices in Kir2.2 channels generating pH-dependent sub-conductances. Molecular dynamics simulations show how protonation results in step-wise alterations of ion pooling and hence conductance, appearing as gated substates.

  • Grigory Maksaev
  • , Michael Bründl-Jirout
  •  & Colin G. Nichols

• Article
  27 July 2023 | Open Access

  The Gram-positive bacterium Romboutsia ilealis harbors a polysaccharide synthase that can produce (1,3;1,4)-β-d-glucans

  (1,3;1,4)-β-d-Glucans are widely distributed in many organisms, but little is known about the enzymes responsible for their synthesis outside the grasses. Here, the authors report on the presence of (1,3;1,4)-β-d-glucans in the exopolysaccharides of the Gram-positive bacterium Romboutsia ilealis and identify and characterize the (1,3;1,4)-β-d-glucan synthase RiGT2.

  • Shu-Chieh Chang
  • , Mu-Rong Kao
  •  & Yves S. Y. Hsieh

• Article
  27 July 2023 | Open Access

  A small molecule inhibitor of PTP1B and PTPN2 enhances T cell anti-tumor immunity

  Here, the authors demonstrate that inhibition of PTP1B and PTPN2 in tumor cells and T-cells with a small molecule inhibitor represses the growth of immunogenic and cold tumors, and enhances response to anti-PD-1 immunotherapy without promoting immune-related toxicities.

  • Shuwei Liang
  • , Eric Tran
  •  & Tony Tiganis

• Article
  27 July 2023 | Open Access

  DNA framework-engineered chimeras platform enables selectively targeted protein degradation

  The lack of a universal platform for PROTAC development remains a major bottleneck. Here, the authors report modular DNA framework-based PROTACs (DbTACs) that enable precise control of the linker length and selective degradation of diverse targets in different cellular compartments using various warheads.

  • Li Zhou
  • , Bin Yu
  •  & Yi Ma

• Article
  25 July 2023 | Open Access

  Supersulphides provide airway protection in viral and chronic lung diseases

  The physiological roles of supersulphides and the enzymes that trigger their production in various airway diseases are not fully understood. Here, the authors show in animal models of viral and chronic lung diseases that supersulphide production can mitigate lung pathology and lethal effects, highlighting their protective role and potential as a therapeutic target.

  • Tetsuro Matsunaga
  • , Hirohito Sano
  •  & Takaaki Akaike

• Article
  19 July 2023 | Open Access

  An unconventional proanthocyanidin pathway in maize

  Maize has an unconventional proanthocyanidin (PA) biosynthetic pathway which produces rare stereoisomers of PA monomers and dimers, highlighting an opportunity for further improving the nutritional value of maize.

  • Nan Lu
  • , Ji Hyung Jun
  •  & Richard A. Dixon

• Article
  19 July 2023 | Open Access

  Targeting an allosteric site in dynamin-related protein 1 to inhibit Fis1-mediated mitochondrial dysfunction

  Dynamin-related protein 1 (Drp1) mediates physiological and pathological mitochondrial fission, and the latter can be selectively blocked by a peptide inhibitor. Here, the authors identify a small molecule that mimics the benefits of this peptide inhibitor in cells and a mouse model of endotoxemia.

  • Luis Rios
  • , Suman Pokhrel
  •  & Daria Mochly-Rosen

• Article
  19 July 2023 | Open Access

  Architecture of the human G-protein-methylmalonyl-CoA mutase nanoassembly for B₁₂ delivery and repair

  B₁₂-dependent human methylmalonly-CoA mutase (MMUT) requires the chaperone MMAA. The authors report the crystal structure of MMUT-MMAA, which shows a MMAA-driven conformational change in MMUT involved n B₁₂ loading and repair and helps explain the effects of disease-causing MMAA-MMUT interface mutations.

  • Romila Mascarenhas
  • , Markus Ruetz
  •  & Ruma Banerjee

• Article
  18 July 2023 | Open Access

  Conformational restriction shapes the inhibition of a multidrug efflux adaptor protein

  Multidrug efflux protein pumps are key players in bacterial antimicrobial resistance. Here, the authors show how dynamics of a periplasmic pump component can be targeted for efflux inhibition.

  • Benjamin Russell Lewis
  • , Muhammad R. Uddin
  •  & Eamonn Reading

• Article
  17 July 2023 | Open Access

  Enabling programmable dynamic DNA chemistry using small-molecule DNA binders

  The binding of small molecules to the double stranded DNA may significantly alter its stability and functionality, which is the basis for many therapeutic and sensing applications. Here, the authors report that DNA binders can be used to program reaction pathways of a dynamic DNA reaction, where DNA strand displacement can be tuned quantitatively according to the affinity, charge, and concentrations of a given DNA binder.

  • Junpeng Xu
  • , Guan Alex Wang
  •  & Feng Li

• Article
  14 July 2023 | Open Access

  HypoRiPPAtlas as an Atlas of hypothetical natural products for mass spectrometry database search

  A gap exists between large-scale genome mining and mass spectral datasets for natural product discovery. Here the authors bridge the gap by developing HypoRiPPAtlas, an Atlas of hypothetical natural product structures, which is ready-to-use for in silico database search of tandem mass spectra.

  • Yi-Yuan Lee
  • , Mustafa Guler
  •  & Hosein Mohimani

• Article
  13 July 2023 | Open Access

  Affinity and cooperativity modulate ternary complex formation to drive targeted protein degradation

  Targeted protein degradation using proteolysis targeting chimeras (PROTACs) represents an emergent therapeutic modality, however, the design of PROTACs is challenging due to multiple steps involved in PROTAC-induced degradation. Here, the authors establish a predictive framework to guide the design of potent degraders.

  • Ryan P. Wurz
  • , Huan Rui
  •  & Amit Vaish

• Article
  13 July 2023 | Open Access

  Hidden modes of DNA binding by human nuclear receptors

  Nuclear receptors (NR) are drug-responsive master regulators. Here, authors map DNA binding profiles of all human NRs. Their MinSeq Find algorithm identifies masked NR binding sites in genomes and maps ~10% of orphan SNPs linked to numerous diseases.

  • Devesh Bhimsaria
  • , José A. Rodríguez-Martínez
  •  & Aseem Z. Ansari

• Article
  13 July 2023 | Open Access

  Cryo-EM structures of full-length integrin αIIbβ3 in native lipids

  The structural basis of integrin signaling in health and disease is not fully understood. Here, the authors determine the cryoEM structure of full-length platelet integrin αIIbβ3 in its apo and eptifibatide-bound conformations in a native membrane environment.

  • Brian D. Adair
  • , Jian-Ping Xiong
  •  & M. Amin Arnaout

• Article
  12 July 2023 | Open Access

  Deciphering intercellular signaling complexes by interaction-guided chemical proteomics

  Systematic profiling of the indirect cell–cell interactions remains challenging. Here, the authors report a chemical proteomics method to identify ligand-receptor complexes formed between cell surface receptors and secreted proteins from neighboring cells.

  • Jiangnan Zheng
  • , Zhendong Zheng
  •  & Ruijun Tian

• Article
  12 July 2023 | Open Access

  Membranes prime the RapGEF EPAC1 to transduce cAMP signaling

  EPAC1 is a cAMP-activated guanine nucleotide exchange factor (GEF) for Rap GTPases and a major transducer of cAMP signaling. Here, the authors show anionic membranes can activate EPAC1 independently of cAMP, increase its affinity for cAMP by two orders of magnitude, and synergize with cAMP to yield maximal GEF activity.

  • Candice Sartre
  • , François Peurois
  •  & Jacqueline Cherfils

• Article
  10 July 2023 | Open Access

  Bioinspired one-pot furan-thiol-amine multicomponent reaction for making heterocycles and its applications

  Homogeneous engineering of proteins is promising to study biological functions and for the development of therapeutic conjugates. Here, the authors report a one-pot multicomponent Furan-Thiol-Amine reaction for diverse applications, including labelling of peptides, synthesis of macrocyclic and stapled peptides, selective modification of different proteins with varying payloads, and labelling of lysine and cysteine in a complex human proteome.

  • Yuwen Wang
  • , Patrick Czabala
  •  & Monika Raj

• Article
  07 July 2023 | Open Access

  Lateral membrane organization as target of an antimicrobial peptidomimetic compound

  The mechanism of action of the antibacterial tripeptide AMC-109 is unclear. Here, Melcrová et al. show that AMC-109 self-assembles into stable aggregates with a cationic surface, and then individual peptides insert into the bacterial membrane and disrupt membrane nanodomains, thus affecting membrane function without forming pores.

  • Adéla Melcrová
  • , Sourav Maity
  •  & Wouter H. Roos

• Article
  06 July 2023 | Open Access

  Molecular insights into the catalytic promiscuity of a bacterial diterpene synthase

  Diterpene synthase VenA catalyses the synthesis of venezuelaene A with a unique 5-5-6-7 tetracyclic skeleton from geranylgeranyl pyrophosphate. Here, the authors report crystal structures of apo- and holo-VenA, provide mechanistic insights into its substrate selectivity and promiscuity, and engineer VenA into a sesterterpene synthase.

  • Zhong Li
  • , Lilan Zhang
  •  & Shengying Li

• Article
  05 July 2023 | Open Access

  Modular synthesis of clickable peptides via late-stage maleimidation on C(7)-H tryptophan

  Cyclic peptides are of interest due to their application in pharmaceutical industry, but currently there are limited methodologies for their synthesis. Here, the authors report an efficient and direct peptide cyclization via rhodium(III)-catalysed C(7)-H maleimidation.

  • Peng Wang
  • , Jiang Liu
  •  & Yuguo Zheng

• Article
  05 July 2023 | Open Access

  Direct mapping of kidney function by DCE-MRI urography using a tetrazinanone organic radical contrast agent

  Current clinical methods for assessing kidney function report an aggregate value for both kidneys, and lack the ability to say which kidney is dysfunctioning or even to localize the dysfunction to a region of renal pathology. Here, the authors show that an injectable dye can be used to map kidney function by magnetic resonance imaging, offering a safer alternative than existing dyes for the spatial evaluation of kidney health.

  • Nicholas D. Calvert
  • , Alexia Kirby
  •  & Adam J. Shuhendler

• Article
  04 July 2023 | Open Access

  Ozone-enabled fatty acid discovery reveals unexpected diversity in the human lipidome

  Fatty acids are fundamental biomolecular building blocks that are characterized by extraordinary structural diversity and present a formidable analytical challenge. Here the authors introduce a discovery workflow for de novo identification that adds more than 100 fatty acids to the human lipidome.

  • Jan Philipp Menzel
  • , Reuben S. E. Young
  •  & Stephen J. Blanksby

• Article
  01 July 2023 | Open Access

  Targeted protein degradation reveals BET bromodomains as the cellular target of Hedgehog pathway inhibitor-1

  Understanding the cellular target of hit compounds from phenotypic screens presents a major challenge yet is essential in the development of chemical probes. Here, the authors reveal the target of Hedgehog Pathway Inhibitor-1, by converting it to a bifunctional degrader, to be BET bromodomains.

  • Meropi Bagka
  • , Hyeonyi Choi
  •  & Sascha Hoogendoorn

• Article
  30 June 2023 | Open Access

  Fast-exchanging spirocyclic rhodamine probes for aptamer-based super-resolution RNA imaging

  Live-cell RNA imaging with high spatial and temporal resolution remains a major challenge. Here the authors design spirocyclic rhodamine probes that enable a fluorescent light-up aptamer system suitable for visualizing RNAs in live or fixed cells with two different super-resolution microscopy modalities SMLM and STED.

  • Daniel Englert
  • , Eva-Maria Burger
  •  & Murat Sunbul

• Article
  24 June 2023 | Open Access

  An unnatural enzyme with endonuclease activity towards small non-coding RNAs

  Endonucleases play crucial roles in various biological processes but endonucleases that target small non-coding RNAs have not been reported. Here, the authors combined the metal binding non-canonical amino acid BpyAla and a high affinity binder to engineer a catalyst that degrades small non-coding RNAs.

  • Noreen Ahmed
  • , Nadine Ahmed
  •  & John Paul Pezacki

• Article
  23 June 2023 | Open Access

  Systems-level analyses of protein-protein interaction network dysfunctions via epichaperomics identify cancer-specific mechanisms of stress adaptation

  Epichaperomics allow the study of protein-protein interactions and their alterations, but probes have been limited to capturing HSP90 epichaperomes. Here, the authors introduce and validate a toolset of HSP70 epichaperome ligands, and use them in epichaperomics to identify a mechanism with which cancer cells can enhance the fitness of mitotic protein networks.

  • Anna Rodina
  • , Chao Xu
  •  & Gabriela Chiosis

• Article
  23 June 2023 | Open Access

  Rapid and reversible optical switching of cell membrane area by an amphiphilic azobenzene

  The surface area of living cells is tightly regulated. Here, authors show that the surface area and shape of cells can be reversibly manipulated with light using amphiphilic molecular photoswitches that enter and leave the membrane.

  • Fabian Höglsperger
  • , Bart E. Vos
  •  & Bart Jan Ravoo

• Article
  20 June 2023 | Open Access

  Discovery of extended product structural space of the fungal dioxygenase AsqJ

  The fungal dioxygenase AsqJ catalyses the conversion of benzo[1,4]diazepine-2,5-diones into quinolone antibiotics, and can also catalyse the production of quinazolinones. Here, the authors perform comprehensive substrate promiscuity mapping of AsqJ revealing its large tolerance towards various substrates, giving biocatalytic access to a plethora of biomedically valuable heterocyclic frameworks.

  • Manuel Einsiedler
  •  & Tobias A. M. Gulder