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| Open AccessCannabidiol inhibits Nav channels through two distinct binding sites
Cannabidiol (CBD), the nonpsychoactive component in cannabis, is an effective treatment for epilepsy and pain. Here, authors explored the mode of action of CBD on hNav1.7 channels through two distinct binding sites, suggesting a direct stabilization of the inactivated state of channels.
- Jian Huang
- , Xiao Fan
- & Nieng Yan
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Article
| Open AccessN-Acryloylindole-alkyne (NAIA) enables imaging and profiling new ligandable cysteines and oxidized thiols by chemoproteomics
Cysteine is a popular target of covalent drugs and can undergo redox modifications. Here, the authors developed cysteine probes, N-acryloylindole-alkynes, for imaging and chemoproteomics to study cysteine oxidation and to identify targetable hotspots by small molecule compounds.
- Tin-Yan Koo
- , Hinyuk Lai
- & Clive Yik-Sham Chung
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Article
| Open AccessChemoproteomic target deconvolution reveals Histone Deacetylases as targets of (R)-lipoic acid
Lipoic acid is a food supplement and approved neuropathy drug but lacks known molecular targets. Here, Lechner et al. employ chemoproteomic target deconvolution to demonstrate that (R)- but not (S)-lipoic acid stereoselectively inhibits histone deacetylases at physiologically achievable doses.
- Severin Lechner
- , Raphael R. Steimbach
- & Bernhard Kuster
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Article
| Open AccessIsolation of full-length IgG antibodies from combinatorial libraries expressed in the cytoplasm of Escherichia coli
Discovery of full-length antibodies can be slow and labor intensive. Here, the authors describe a robust genetic assay for facile isolation of IgG antibodies from combinatorial libraries expressed in the cytoplasm of redox-engineered bacteria.
- Michael-Paul Robinson
- , Jinjoo Jung
- & Matthew P. DeLisa
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Article
| Open AccessA single-domain green fluorescent protein catenane
Natural proteins exhibit rich structural diversity based on the folds of an invariably linear chain. Here the authors design a single-domain GFP catenane as the counterpart of conventional linear GFP with enhanced thermal resilience and to provide a robust scaffold for making fusion protein catenanes.
- Zhiyu Qu
- , Jing Fang
- & Wen-Bin Zhang
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Article
| Open AccessA flavin-monooxygenase catalyzing oxepinone formation and the complete biosynthesis of vibralactone
Vibralactone is a strong lipase inhibitor and a bicyclic β-lactone containing an oxepinone ring, whose biosynthetic construction was unknown. Here the authors identify an oxepinone-building flavin monooxygenase VibO that is involved in the biosynthesis of vibralactone, and determine its X-ray crystal structure.
- Ke-Na Feng
- , Yue Zhang
- & Ying Zeng
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Article
| Open AccessSystematic detection of tertiary structural modules in large RNAs and RNP interfaces by Tb-seq
Compact RNA structural motifs control many aspects of gene expression, but methods for their identification are lacking. Here the authors present a sequencing-based terbium probing approach to detect complex 3D structural elements, which can be used to pinpoint potential riboregulatory elements.
- Shivali Patel
- , Alec N. Sexton
- & Anna Marie Pyle
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Article
| Open AccessTHRONCAT: metabolic labeling of newly synthesized proteins using a bioorthogonal threonine analog
Incorporating bioorthogonally-modified amino acids into newly synthesized proteins allows studying the nascent proteome, but current methods often require special conditions or are toxic to cells. Here, the authors develop a method that uses β-ethynylserine to label nascent proteins under standard conditions without harming cells.
- Bob J. Ignacio
- , Jelmer Dijkstra
- & Kimberly M. Bonger
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Article
| Open AccessThe preference signature of the SARS-CoV-2 Nucleocapsid NTD for its 5’-genomic RNA elements
SARS-CoV-2 genome turnover is mediated by its N protein, but precise parameters driving the necessary RNA specificity have remained enigmatic. Here, Korn et al. reveal N’s N-terminal domain to distinguish regulatory viral RNA motifs with a preference for transiently folded elements of functional impact.
- Sophie Marianne Korn
- , Karthikeyan Dhamotharan
- & Andreas Schlundt
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Article
| Open AccessNERNST: a genetically-encoded ratiometric non-destructive sensing tool to estimate NADP(H) redox status in bacterial, plant and animal systems
NADP(H) is a crucial cofactor, acting as a reducing agent in numerous pathways in living organisms. Here the authors report a ratiometric biosensor named NERNST, which can be used to estimate the NADP(H) redox status in bacterial, plant and animal cells and organelles.
- Pamela E. Molinari
- , Adriana R. Krapp
- & Matias D. Zurbriggen
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Article
| Open AccessNative American ataxia medicines rescue ataxia-linked mutant potassium channel activity via binding to the voltage sensing domain
Drugs that rescue function of episodic ataxia 1 (EA1) mutant potassium channels are lacking. Here, Manville et al identify and describe the molecular basis for Native American botanical ataxia remedies that directly rescue EA1 mutant channels.
- Rían W. Manville
- , J. Alfredo Freites
- & Geoffrey W. Abbott
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Article
| Open AccessSystematic literature review reveals suboptimal use of chemical probes in cell-based biomedical research
Chemical probes and their correct use are essential for accurate and robust data. Here, authors show that only 4% of analyzed publications used chemical probes in line with recommendations. This indicates that the best practice with chemical probes is yet to be implemented in research.
- Jayden Sterling
- , Jennifer R. Baker
- & Lenka Munoz
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Article
| Open AccessHydrogenase-based oxidative biocatalysis without oxygen
Currently, NADH oxidases, (NOXs) are the standard regeneration, systems for oxidized nicotinamides but their dependency on O2 limits, their application at industrial scale. Here, the authors established an O2-free system, based on [NiFe] hydrogenase that, regenerates oxidized nicotinamides.
- Ammar Al-Shameri
- , Dominik L. Siebert
- & Volker Sieber
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Article
| Open AccessSynthetic virology approaches to improve the safety and efficacy of oncolytic virus therapies
The large coding potential of vaccinia virus (VV) vectors is a defining feature. Here the authors present vaccinia virus vector-adapted chemogenetic switches enabling temporal and dose control of viral replication and transgene expression, implementation of complex tunable transgene circuitry, and generation of safer, more efficacious vectors.
- Taha Azad
- , Reza Rezaei
- & John C. Bell
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Article
| Open AccessIntracellular RNA and DNA tracking by uridine-rich internal loop tagging with fluorogenic bPNA
Commonly used protein-based tools to monitor intracellular RNA and DNA can impact steric accessibility and native nucleic acid biology. Here, the authors show that fluorogenic uridine-rich internal loop tagging bPNA probes can be used to label nucleic acids in fixed and live cells.
- Yufeng Liang
- , Sydney Willey
- & Dennis Bong
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Article
| Open AccessDiscovery and biosynthesis of tricyclic copper-binding ribosomal peptides containing histidine-to-butyrine crosslinks
Cyclic peptides are important bioactive compounds and drugs, synthesised by enzymatic side-chain macrocyclization of ribosomal peptides, which rarely involves histidine residues. Here, the authors report the discovery and biosynthesis of tricyclic lanthipeptide noursin, constrained by a tri amino acid labionin crosslink and histidine-to-butyrine crosslink, which is important for copper binding of noursin.
- Yuqing Li
- , Yeying Ma
- & Huan Wang
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Article
| Open AccessCo-crystal structures of the fluorogenic aptamer Beetroot show that close homology may not predict similar RNA architecture
The recently discovered aptamer Beetroot is a homodimeric RNA that binds and activates DFAME, a conditional, red-shifted fluorophore derived from GFP. Here the authors determine the Beetroot-DFAME co-crystal structure, which is distinctively different from that of similar RNA aptamer Corn.
- Luiz F. M. Passalacqua
- , Mary R. Starich
- & Adrian R. Ferré-D’Amaré
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Article
| Open AccessSimultaneous sulfide and methane oxidation by an extremophile
Aerobic methanotrophic bacteria oxidize methane in sulfide-rich environments, even though hydrogen sulfide (H2S) inhibits methane oxidation and aerobic respiration. Here, Schmitz et al. show that a single microorganism can oxidize methane and H2S simultaneously, and this is associated with upregulation of a sulfide-insensitive terminal oxidase.
- Rob A. Schmitz
- , Stijn H. Peeters
- & Arjan Pol
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Article
| Open AccessGenetically encoded photocatalytic protein labeling enables spatially-resolved profiling of intracellular proteome
Mapping the subcellular organization of proteins is crucial for understanding their biological functions. Here, the authors develop a genetically encoded photocatalytic labeling method for profiling the subcellular proteome in multiple organelles.
- Fu Zheng
- , Chenxin Yu
- & Peng Zou
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Article
| Open AccessDe novo cholesterol biosynthesis in bacteria
Production of highly modified sterols, such as cholesterol, is essential to eukaryotic physiology but has not been yet reported for bacteria. Here, Lee et al. show that a marine myxobacterium produces cholesterol, and provide evidence for further downstream modifications in this and other bacterial species.
- Alysha K. Lee
- , Jeremy H. Wei
- & Paula V. Welander
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Article
| Open AccessCharacterisation of IL-23 receptor antagonists and disease relevant mutants using fluorescent probes
The single nucleotide polymorphism C115Y in the IL-23 receptor is associated with autoinflammatory diseases. Here the authors demonstrate that this mutation prevents the binding of a fluorescent cyclic peptide and IL-23 to the IL-23 receptor.
- Charles S. Lay
- , Albert Isidro-Llobet
- & Stephen J. Hill
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Article
| Open AccessHigh-affinity peptides developed against calprotectin and their application as synthetic ligands in diagnostic assays
A peptide was developed that binds to calprotectin, a marker of major inflammatory disorders, and found to be suited for diagnostic tests. The use of synthetic peptides in assays is of great interest due to their high precision, robustness and low price.
- Cristina Díaz-Perlas
- , Benjamin Ricken
- & Christian Heinis
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Article
| Open AccessElucidating the molecular programming of a nonlinear non-ribosomal peptide synthetase responsible for fungal siderophore biosynthesis
Fungal siderophores are biosynthesised by nonribosomal peptide synthetases (NRPSs) with highly unusual domain architectures. Here, the authors characterise cryptic programming events occurring within SidC NRPS, responsible for ferricrocin biosynthesis in Aspergillus nidulans.
- Matthew Jenner
- , Yang Hai
- & Yi Tang
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Article
| Open AccessStructural analysis and architectural principles of the bacterial amyloid curli
Using Alpha fold modelling and cryo-EM reconstruction the authors reveal the structural and architectural principles of the bacterial functional amyloid curli, encompassing the continuous stacking of β-solenoid pseudo repeats within and across subunits.
- Mike Sleutel
- , Brajabandhu Pradhan
- & Han Remaut
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Article
| Open AccessTurn air-captured CO2 with methanol into amino acid and pyruvate in an ATP/NAD(P)H-free chemoenzymatic system
The use of gaseous and air-captured CO2 for technical biosynthesis is highly desired but challenging due to high energy demands. Here, the authors present an ATP and NAD(P)H-free chemoenzymatic system for glycine, serine, and pyruvate biosynthesis by coupling methanol with gaseous and air-captured CO2.
- Jianming Liu
- , Han Zhang
- & An-Ping Zeng
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Article
| Open AccessSpatial metabolomics reveals glycogen as an actionable target for pulmonary fibrosis
Spatial metabolomics are used to describe the location and chemistry of small molecules involved in metabolic phenotypes. Here, Conroy et al. present a bioinformatic pipeline to analyze MALDI data and show that it can be used to identify actionable targets such as glycogen in fibrotic lungs of both human and mice.
- Lindsey R. Conroy
- , Harrison A. Clarke
- & Ramon C. Sun
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Article
| Open AccessMonoterpenoid aryl hydrocarbon receptor allosteric antagonists protect against ultraviolet skin damage in female mice
The aryl hydrocarbon receptor regulates the expression of genes involved in many cell processes and its dysregulation has been implicated in different diseases. Here, the authors identify dietary monoterpenoid carvone as an atypical non-competitive antagonist of human aryl hydrocarbon receptor and demonstrate that it can protect against ultraviolet skin damage in female mice.
- Karolína Ondrová
- , Iveta Zůvalová
- & Zdeněk Dvořák
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Article
| Open AccessCap analogs with a hydrophobic photocleavable tag enable facile purification of fully capped mRNA with various cap structures
Removing immunogenic uncapped mRNA from transcribed mRNA can be challenging, but is critical in mRNA research and clinical applications such as vaccines. Here, authors develop hydrophobic photocaged tag-modified cap analogs, which can be used to separate capped mRNA from uncapped mRNA, with subsequent tag removal using photo-irradiation.
- Masahito Inagaki
- , Naoko Abe
- & Hiroshi Abe
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Article
| Open AccessInositol pyrophosphates activate the vacuolar transport chaperone complex in yeast by disrupting a homotypic SPX domain interaction
Pipercevic et al resolve how inositol molecules activate the VTC protein complex. The VTC complex stores phosphate in yeast and is controlled by SPX domains. The inositol molecules break an interaction between SPX domains to activate the complex.
- Joka Pipercevic
- , Bastian Kohl
- & Sebastian Hiller
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Article
| Open AccessEngineered repeat proteins as scaffolds to assemble multi-enzyme systems for efficient cell-free biosynthesis
Multi-enzymatic cascades benefit from precise nanometric organization but achieving this using available scaffolds is challenging. Here the authors present strategy for organizing multienzymatic systems using a protein scaffold based on TRAP domains, and demonstrate improved catalytic output.
- Alba Ledesma-Fernandez
- , Susana Velasco-Lozano
- & Aitziber L. Cortajarena
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Article
| Open AccessChemical imaging reveals diverse functions of tricarboxylic acid metabolites in root growth and development
Chemical imaging of maize roots reveals differential patterns of TCA cycle metabolites along the axis of development. Root growth is affected in distinct ways by exogenous treatments and tissue-specific genetic manipulation of TCA metabolites.
- Tao Zhang
- , Sarah E. Noll
- & Alexandra J. Dickinson
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Article
| Open AccessUnveiling an indole alkaloid diketopiperazine biosynthetic pathway that features a unique stereoisomerase and multifunctional methyltransferase
Diketopiperazine (DKP) natural products have diverse structures and biological functions. Here, the authors elucidate the biosynthetic pathway for indole alkaloid DKP nocardioazine B which includes DKP stereoisomerization by an unusual aspartate/glutamate racemase homolog and N- and C-methylation by a dual function methyltransferase.
- Garrett Deletti
- , Sajan D. Green
- & Amy L. Lane
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Article
| Open AccessPulcherriminic acid modulates iron availability and protects against oxidative stress during microbial interactions
Microbes often produce molecules (termed siderophores) that bind iron and then are taken up using specific receptors for iron acquisition. Here, the authors show that a compound produced by Bacillus subtilis plays a more complex role, by modulating iron availability and conferring protection against oxidative stress during inter-species competition.
- Vincent Charron-Lamoureux
- , Lounès Haroune
- & Pascale B. Beauregard
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Review Article
| Open AccessEngineering protein-based therapeutics through structural and chemical design
Ebrahimi and Samanta review the key advances in the chemical and structural modification of proteins that have enabled their rise as indispensable tools in medicine and outline emerging protein engineering strategies that can potentially unlock structures with improved therapeutic properties.
- Sasha B. Ebrahimi
- & Devleena Samanta
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Article
| Open AccessChemical evolution of an autonomous DNAzyme with allele-specific gene silencing activity
Low activity currently prevents the wider use of DNA enzymes (DNAzymes). Here the authors report the chemical evolution of a DNAzyme with high catalytic activity under near physiological conditions: the enzyme achieves ~65 turnovers in 30 minutes.
- Kim Nguyen
- , Turnee N. Malik
- & John C. Chaput
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Article
| Open AccessDesigned Rubredoxin miniature in a fully artificial electron chain triggered by visible light
Living organisms regulate their energy demand by managing electron trafficking in complex transport chains. Here, the authors pioneer a fully artificial electron chain triggered by visible light using designed proteins, unlocking possibilities in bioengineering.
- Marco Chino
- , Luigi Franklin Di Costanzo
- & Vincenzo Pavone
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Article
| Open AccessSiglec-6 mediates the uptake of extracellular vesicles through a noncanonical glycolipid binding pocket
Siglec-glycolipid interactions are often studied outside the context of a lipid bilayer. Here, the authors combine a variety of chemical biology techniques to demonstrate a unique and physiologically relevant ability of Siglec-6 to recognize glycolipids in a membrane.
- Edward N. Schmidt
- , Dimitra Lamprinaki
- & Matthew S. Macauley
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Article
| Open AccessTranscription tuned by S-nitrosylation underlies a mechanism for Staphylococcus aureus to circumvent vancomycin killing
Antibiotic resistance in Staphylococcus aureus is increasingly emerging. Here, Shu et al demonstrate that transcriptional regulation by S-nitrosylation underlies vancomycin resistance.
- Xueqin Shu
- , Yingying Shi
- & Baolin Sun
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Article
| Open AccessLncRNA modulates Hippo-YAP signaling to reprogram iron metabolism
Iron metabolism dysregulation is associated with various diseases including cancer. Here, the authors show that one iron-triggered lncRNA LncRIM regulates cellular iron metabolism effectively by wiring up the Hippo-YAP signaling pathway and promotes breast cancer development.
- Xin-yu He
- , Xiao Fan
- & Aifu Lin
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Article
| Open AccessAllosteric role of the citrate synthase homology domain of ATP citrate lyase
ATP citrate lyase (ACLY) is the main nucleocytosolic source of acetyl-CoA and the enzyme contains citrate synthase homology (CSH) and acyl-CoA synthetase homology (ASH) domains. Here, the authors report data on an ACLY mutant that supports an allosteric role for the CSH domain in ACLY catalysis.
- Xuepeng Wei
- , Kollin Schultz
- & Ronen Marmorstein
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Article
| Open AccessDisrupting the α-synuclein-ESCRT interaction with a peptide inhibitor mitigates neurodegeneration in preclinical models of Parkinson’s disease
ESCRT-III is involved in the endolysosomal system and disturbed in neurodegenerative diseases. Here the authors show that disruption of an interaction between ESCRT-III member CHMP2B and α-synuclein by a peptide inhibitor mitigates neurodegeneration in Parkinson’s disease models.
- Satra Nim
- , Darren M. O’Hara
- & Philip M. Kim
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Article
| Open AccessControlling protein stability with SULI, a highly sensitive tag for stabilization upon light induction
Tools for the spatiotemporal control of protein abundance are valuable in studying diverse complex biological processes. Here, authors engineered a protein tag which is stabilized upon light induction but which quickly degrades the protein of interest in the dark, demonstrating control of protein stability in yeast and zebrafish.
- Miaowei Mao
- , Yajie Qian
- & Yi Yang
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Article
| Open AccessRepurposing host-guest chemistry to sequester virulence and eradicate biofilms in multidrug resistant Pseudomonas aeruginosa and Acinetobacter baumannii
Rapid antibiotic resistance in bacteria is putting pressure on both existing therapies as well as the development pipeline. Here, the authors present a dual-acting anti-virulence treatment that evades antibiotic resistance mechanisms and remains effective against Top Priority pathogens.
- Christopher Jonkergouw
- , Ngong Kodiah Beyeh
- & Markus B. Linder
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Article
| Open AccessConstrained catecholamines gain β2AR selectivity through allosteric effects on pocket dynamics
Constrained catecholamines gain β2AR selectivity. Although the orthosteric pockets are identical in β1AR and β2AR, surrounding residues allosterically modify the pockets and contribute to the β2AR selectivity of the constrained catecholamines.
- Xinyu Xu
- , Jeremy Shonberg
- & Peter Gmeiner
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Article
| Open AccessBi-terminal fusion of intrinsically-disordered mussel foot protein fragments boosts mechanical strength for protein fibers
High-yield production of well-performing protein materials is challenging due to their high molecular weights and repetitive sequences. Here the authors develop a method to boost the strength of low molecular-weight protein materials by bi-terminal fusion of intrinsically-disordered mussel foot protein fragments, while achieving high yield.
- Jingyao Li
- , Bojing Jiang
- & Fuzhong Zhang
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Article
| Open AccessProgramming bacteria for multiplexed DNA detection
DNA is a universal and programmable signal of living organisms. Here, the authors develop cell-based DNA sensors by engineering the naturally competent bacterium Bacillus subtilis to detect specific DNA sequences in the environment.
- Yu-Yu Cheng
- , Zhengyi Chen
- & Ophelia S. Venturelli
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Review Article
| Open AccessTrimming the genomic fat: minimising and re-functionalising genomes using synthetic biology
Naturally evolved genomes tend to be unnecessarily large and redundant, and are not optimised for biotechnological or research applications. In this review, the authors explore genome minimization and re-functionalisation approaches, and discuss their potential for industrial applications.
- Xin Xu
- , Felix Meier
- & Thomas C. Williams
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Article
| Open AccessSegmentation strategy of de novo designed four-helical bundles expands protein oligomerization modalities for cell regulation
New protein assemblies can be introduced through the fusion of selected proteins with di/oligomerization domains, which interact specifically with their partners but not with other cellular proteins. Here the authors demonstrate that a single four-helical bundle protein can be segmented into several different parts, defining up to four interacting molecules for enzyme reconstitution, gene expression, or CAR-T cell regulation.
- Estera Merljak
- , Benjamin Malovrh
- & Roman Jerala
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Article
| Open AccessCollateral sensitivity profiling in drug-resistant Escherichia coli identifies natural products suppressing cephalosporin resistance
Collateral sensitivity (CS), whereby resistance to one drug is accompanied by increased sensitivity to another, provides new opportunities for antimicrobial drug discovery. Here, Liu et al. screen large chemical libraries across 29 drug-resistant E. coli strains to identify multiple CS interactions, including natural products with potent CS activities against cephalosporin-resistant strains.
- Dennis Y. Liu
- , Laura Phillips
- & Roger G. Linington
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