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| Open AccessStructural insights into drug transport by an aquaglyceroporin
Pentamidine and melarsoprol are drugs used to treat sleeping sickness caused by Trypanosoma brucei. Here, authors present cryo-EM structures of TbAQP2 with molecular dynamic simulations, revealing mechanisms shaping substrate specificity and drug permeation.
- Wanbiao Chen
- , Rongfeng Zou
- & Chongyuan Wang
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Article
| Open AccessHigh-confidence 3D template matching for cryo-electron tomography
Enabling visual proteomics with high-confidence 3D template matching (TM) in CryoET. 3D TM precisely localizes macromolecular complexes, individual subunits, and different functional states in situ, revealing molecular interactions within cells.
- Sergio Cruz-León
- , Tomáš Majtner
- & Gerhard Hummer
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Article
| Open AccessA nascent riboswitch helix orchestrates robust transcriptional regulation through signal integration
Here the authors unveil an intermediate state during the folding of the manganese riboswitch from L. lactis. This transient state allows the integration of multiple cellular signals including RNA polymerase pausing and transcription factor NusA.
- Adrien Chauvier
- , Shiba S. Dandpat
- & Nils G. Walter
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Article
| Open Access5′UTR G-quadruplex structure enhances translation in size dependent manner
In eukaryotes, G-quadruplex in mRNA (RG4) 5′ UTR inhibit translation initiation. Here the authors employ single molecule assay to show that RG4 in E. coli reporter increases translation efficiency by preventing ribosome dislodging.
- Chun-Ying Lee
- , Meera Joshi
- & Sua Myong
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Article
| Open AccessPhase-separated droplets swim to their dissolution
Here the authors identify a generic coupling in phase-separated liquids between motility and phase equilibria perturbations: phase-separated droplets swim to their dissolution. This suggests alternative transport mechanism for biomolecular condensates.
- Etienne Jambon-Puillet
- , Andrea Testa
- & Eric R. Dufresne
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Article
| Open AccessStructural basis and synergism of ATP and Na+ activation in bacterial K+ uptake system KtrAB
KtrAB complex is essential in K+ uptake for bacteria. Here authors illustrate the synergism of ATP and Na+ in activating K+ uptake of KtrAB from Bacillus subtilis and its gating mechanism, which may also shed light on other Na+-activated K+ channels.
- Wesley Tien Chiang
- , Yao-Kai Chang
- & Nien-Jen Hu
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Article
| Open AccessMechanistic basis of the dynamic response of TWIK1 ionic selectivity to pH
Using computer simulations authors identify the dynamic molecular motions controlling the structural conformation of the TWIK1 ion channel, showing that its ability to transport sodium upon acidification result from the evolution of the classical potassium-selective pore.
- Franck C. Chatelain
- , Nicolas Gilbert
- & Olivier Bignucolo
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Article
| Open AccessPharmacological inhibition of α-synuclein aggregation within liquid condensates
Aggregated forms of α-synuclein are characteristic of Parkinson’s disease. Here the authors show that the condensation-driven aggregation pathway of α-synuclein can be inhibited using small molecules: the aminosterol claramine stabilizes α-synuclein condensates and inhibits α-synuclein primary nucleation in the aggregation process.
- Samuel T. Dada
- , Zenon Toprakcioglu
- & Michele Vendruscolo
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Article
| Open AccessSARS-CoV-2 Mpro responds to oxidation by forming disulfide and NOS/SONOS bonds
The main protease, a key enzyme of SARS-CoV-2, can protect itself from oxidative damage. Here, Reinke, Schubert, and colleagues used XFEL radiation to image the enzyme, revealing the disulfide and NOS/SONOS bonds that form in response to oxygen.
- Patrick Y. A. Reinke
- , Robin Schubert
- & Thomas J. Lane
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Article
| Open AccessCardiac function is regulated by the sodium-dependent inhibition of the sodium-calcium exchanger NCX1
The sodium-calcium exchanger (NCX1) is the primary calcium extrusion mechanism of cardiac myocytes. Here, the authors show that removal of a long questioned allosteric regulation of NCX1 by intracellular sodium alters cardiac excitation-contraction coupling.
- Kyle Scranton
- , Scott John
- & Michela Ottolia
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Article
| Open AccessDeciphering DED assembly mechanisms in FADD-procaspase-8-cFLIP complexes regulating apoptosis
Here the authors structurally and mechanistically characterize the assembly of FADD, procaspase-8, and cFLIP through their death-effector domains (DEDs), providing insights into the regulation of apoptotic and necroptotic signalling.
- Chao-Yu Yang
- , Chia-I Lien
- & Su-Chang Lin
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Article
| Open AccessGiant organelle vesicles to uncover intracellular membrane mechanics and plasticity
The biophysical properties of cellular organelles are difficult to study directly. Here, the authors generate and characterize osmotically-expanded giant vesicles of several organelles, which maintain some of their functional properties.
- Alexandre Santinho
- , Maxime Carpentier
- & Abdou Rachid Thiam
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Article
| Open AccessAnomalous dynamics of a passive droplet in active turbulence
The fluctuating dynamics of a passive object suspended in an active fluid can provide fundamental insight into the fundamental non-equilibrium behavior of the fluid. Singh and Chaudhuri theoretically investigate the dynamics of a passive deformable droplet in active nematic turbulence and show how the motion of the droplet is influenced by the interplay of spatial correlations of the flow and the size of the droplet.
- Chamkor Singh
- & Abhishek Chaudhuri
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Article
| Open AccessStructural mechanism of voltage-gated sodium channel slow inactivation
Inactivation is an intrinsic property of NaV channel, but the mechanism for slow inactivation is not fully understood. Here, authors show a NaVEh structure in a potential slow-inactivated state, elucidating structural basis for slow inactivation.
- Huiwen Chen
- , Zhanyi Xia
- & Daohua Jiang
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Matters Arising
| Open AccessOn the statistical foundation of a recent single molecule FRET benchmark
- Ayush Saurabh
- , Lance W. Q. Xu
- & Steve Pressé
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Matters Arising
| Open AccessReply to: On the statistical foundation of a recent single molecule FRET benchmark
- Markus Götz
- , Anders Barth
- & Sonja Schmid
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Article
| Open AccessStress-shape misalignment in confluent cell layers
When studying nematic ordering of cells in a monolayer, it is commonly assumed that the principal stress and cell shape axes are tightly coupled. Here, the authors measure cell shape and cell-generated contractile stresses and show that cells in monolayers form correlated, dynamic domains in which the stresses are systematically misaligned with the cell bodies.
- Mehrana R. Nejad
- , Liam J. Ruske
- & Julia M. Yeomans
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Article
| Open AccessProbing the surface charge of condensates using microelectrophoresis
The surface charge and ζ-potential of biomolecular condensates is key to their interactions with membranes and proteins. Here, the authors developed a method to determine the ζ-potential of condensates using microelectrophoresis and single-droplet tracking.
- Merlijn H. I. van Haren
- , Brent S. Visser
- & Evan Spruijt
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Article
| Open AccessDisordered clock protein interactions and charge blocks turn an hourglass into a persistent circadian oscillator
Many clock proteins contain intrinsically disordered regions, but how these regions mediate protein interactions is poorly understood. Here, the authors identify charge blocks within a disordered clock protein that regulate circadian timing.
- Meaghan S. Jankowski
- , Daniel Griffith
- & Jennifer M. Hurley
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Article
| Open AccessNMR characterization of RNA binding property of the DEAD-box RNA helicase DDX3X and its implications for helicase activity
DDX3X is a member of the RNA helicase family, which remodels RNA structures. Using solution NMR, here the authors show that DDX3X preferentially binds to single-stranded RNA, which underlies its unwinding activity toward various structured RNA substrates.
- Yuki Toyama
- & Ichio Shimada
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Article
| Open AccessDenaturing mass photometry for rapid optimization of chemical protein-protein cross-linking reactions
Choosing best chemical cross-linking (XL) reagents and conditions for studying protein-protein interactions in structural biology is laborious and lacks in accuracy. The authors develop here an accurate, fast, robust and quantiative denaturing mass photometry approach for screening of XL conditions.
- Hugo Gizardin-Fredon
- , Paulo E. Santo
- & Sarah Cianférani
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Article
| Open AccessThe antimicrobial fibupeptide lugdunin forms water-filled channel structures in lipid membranes
The fibupeptide lugdunin has shown activity against antibiotic-resistant bacteria. Here, authors disclose its mechanism of action in lipid membranes and demonstrate that it assembles into nanotubes facilitating the translocation of monovalent cations.
- Dominik Ruppelt
- , Marius F. W. Trollmann
- & Claudia Steinem
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Article
| Open AccessIFT cargo and motors associate sequentially with IFT trains to enter cilia of C. elegans
Intraflagellar transport is essential for the formation and function of cilia. Here, the authors use single-molecule imaging in live C. elegans to show that transport trains are formed by the sequential attachment of proteins before departing into the cilium.
- Aniruddha Mitra
- , Elizaveta Loseva
- & Erwin J. G. Peterman
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Article
| Open AccessF-actin architecture determines the conversion of chemical energy into mechanical work
F-actin architecture modulates transmission and generation of stresses in cells, yet its impact on myosin ATP hydrolysis remains unknown. The authors perform experiments measuring myosin ATP hydrolysis rates, showing that F-actin architecture can control myosin energy consumption.
- Ryota Sakamoto
- & Michael P. Murrell
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Article
| Open AccessIn situ captured antibacterial action of membrane-incising peptide lamellae
Inspired by the alternating chirality backbone pattern of some effective peptide antimicrobials, here authors design lysine-rich heterochiral peptides that show antimicrobial activity.
- Kamal el Battioui
- , Sohini Chakraborty
- & Tamás Beke-Somfai
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Article
| Open AccessBiomolecular condensates form spatially inhomogeneous network fluids
Here, the authors use small angle neutron scattering and coarse-grained molecular dynamics simulations to demonstrate that condensates based on the granular components of nucleoli are network fluids.
- Furqan Dar
- , Samuel R. Cohen
- & Rohit V. Pappu
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Article
| Open AccessGENESIS CGDYN: large-scale coarse-grained MD simulation with dynamic load balancing for heterogeneous biomolecular systems
Here, the authors report the development of heterogeneous domain decomposition with load balancing for large biological molecular dynamics simulations using residue-level coarse-grained models.
- Jaewoon Jung
- , Cheng Tan
- & Yuji Sugita
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Article
| Open AccessMembrane to cortex attachment determines different mechanical phenotypes in LGR5+ and LGR5- colorectal cancer cells
The mechanical properties of heterogeneous cell populations in colorectal tumors and the relevance to cancer metastasis remain not fully understood. Here, the authors suggest that the variations in malignant phenotypes between LGR5-positive cancer stem cells and LGR5-negative cells could be due to their distinct mechanical phenotypes observed in vitro, determined by the membrane to cortex attachment proteins Ezrin/Radixin/Moesin.
- Sefora Conti
- , Valeria Venturini
- & Xavier Trepat
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Article
| Open AccessLocal environment in biomolecular condensates modulates enzymatic activity across length scales
Here, the authors show that biomolecular condensates can enhance enzymatic rates by creating distinct solvent environments compared to the surrounding solution, and this emergent property can manifest within assemblies as small as nanometers.
- Marcos Gil-Garcia
- , Ana I. Benítez-Mateos
- & Paolo Arosio
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Article
| Open AccessRapid evolutionary change in trait correlations of single proteins
Trait correlations impact evolvability as selection on one trait can influence others. Here, the authors examine trait correlation in two proteins, a fluorescent protein & an antibiotic resistance enzyme, observing rapid evolution of trait correlations through changes in the biophysical properties of these proteins.
- Pouria Dasmeh
- , Jia Zheng
- & Andreas Wagner
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Article
| Open AccessMmcA is an electron conduit that facilitates both intracellular and extracellular electron transport in Methanosarcina acetivorans
Methanogens conserve energy through methane generation, however the biochemical details of anaerobic respiration in methanogens remain unclear. Here, authors show a multiheme c-type cytochrome, MmcA, plays a critical role in methanogenesis and anaerobic respiration.
- Dinesh Gupta
- , Keying Chen
- & Dipti D. Nayak
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Article
| Open AccessCryo-EM structures of adenosine receptor A3AR bound to selective agonists
Adenosine A3 receptor (A3AR) holds promise for treating inflammatory and cancer conditions. Here, Cai et al. present cryo-EM structures of A3AR bound to agonists CF101 and CF102, offering insights into its activation and ligand interaction, crucial for developing targeted therapies.
- Hongmin Cai
- , Shimeng Guo
- & H. Eric Xu
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Article
| Open AccessTertiary structure and conformational dynamics of the anti-amyloidogenic chaperone DNAJB6b at atomistic resolution
Adupa et al show how the anti-amyloidogenic molecular chaperone DNAJB6 adopts three conformational states that determine the accessibility of its substrate binding domain. In all states, interactions with HSP70 are shielded, suggesting that functional interactions only may occur upon substrate binding.
- Vasista Adupa
- , Elizaveta Ustyantseva
- & Patrick R. Onck
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Article
| Open AccessFunctional protein dynamics in a crystal
Work by Klyshko and Kim et al. lays the foundation for simulating pump-probe experiments and demonstrates how the dynamic behaviour of proteins extends to the crystal environment, emphasizing the need for an ensemble view in understanding functional motions.
- Eugene Klyshko
- , Justin Sung-Ho Kim
- & Sarah Rauscher
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Article
| Open AccessKdpD is a tandem serine histidine kinase that controls K+ pump KdpFABC transcriptionally and post-translationally
KdpD is known as the sensory histidine kinase of two-component system KdpDE that controls the transcription of the kdpFABC genes. Here, the authors show that KdpD acts as atypical serine kinase, which post-translationally regulates KdpFABC.
- Jakob M. Silberberg
- , Sophie Ketter
- & Inga Hänelt
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Article
| Open AccessRemote loop evolution reveals a complex biological function for chitinase enzymes beyond the active site
Loop regions play a key role in protein evolution. Herein the authors demonstrate how GH19 chitinase acquired additional antifungal activity by introducing remote loops, without compromising its original function. This work offers an innovative approach to expand enzyme function.
- Dan Kozome
- , Adnan Sljoka
- & Paola Laurino
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Article
| Open AccessOptogenetic control of mRNA condensation reveals an intimate link between condensate material properties and functions
Biomolecular condensates play important roles in diverse cellular activities. Here the authors employ optogenetic tool and single-molecule mRNA imaging, showing that sequestering target mRNAs into condensates lead to translation inhibition.
- Min Lee
- , Hyungseok C. Moon
- & Yongdae Shin
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Article
| Open AccessDynamic inter-domain transformations mediate the allosteric regulation of human 5, 10-methylenetetrahydrofolate reductase
Here the authors present the cryo-EM structure of active and inhibited human MTHFR, revealing a dynamic inhibitory mechanism dependent on dual SAM binding. The resulting closed conformation features an autoinhibitory element effectively blocking enzymatic activity.
- Linnea K. M. Blomgren
- , Melanie Huber
- & Thomas J. McCorvie
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Article
| Open AccessReciprocating RNA Polymerase batters through roadblocks
During transcription, RNA polymerases may encounter protein roadblocks along template DNA. Here, Qian et al. use magnetic tweezers to show that RNA polymerases can backtrack and ram into longer lived roadblocks to transit through them.
- Jin Qian
- , Allison Cartee
- & Laura Finzi
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Article
| Open AccessKinetic trapping organizes actin filaments within liquid-like protein droplets
Here the authors perform modelling to reveal that the timescale of actin-VASP interactions plays a critical role in actin ring formation and filament length determines droplet deformation in VASP droplets: predictions from the model were tested against VASP GAB mutant.
- Aravind Chandrasekaran
- , Kristin Graham
- & Padmini Rangamani
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Article
| Open AccessHydrophobic mismatch drives self-organization of designer proteins into synthetic membranes
The organization of membrane proteins is critical to cellular function. Here the authors explore how computational protein design, MD simulation, and cell-free systems can be combined to elucidate how membrane-protein hydrophobic mismatch affects protein folding and organization in synthetic lipid membranes.
- Justin A. Peruzzi
- , Jan Steinkühler
- & Neha P. Kamat
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Article
| Open AccessTension activation of mechanosensitive two-pore domain K+ channels TRAAK, TREK-1, and TREK-2
TRAAK, TREK-1 and TREK-2 are mechanosensitive potassium channels involved in action potential propagation among other roles. Here, authors quantify their tension response and show ultrasound can generate tension to activate ion channels.
- Ben Sorum
- , Trevor Docter
- & Stephen G. Brohawn
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Article
| Open AccessAn adaptive biomolecular condensation response is conserved across environmentally divergent species
Cells must respond to environmental changes. In three fungal species adapted to different temperatures, cellular responses are conserved yet tuned to each organism’s thermal niche, including the formation of adaptive biomolecular condensates.
- Samantha Keyport Kik
- , Dana Christopher
- & D. Allan Drummond
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Article
| Open AccessPathogenic mutations of human phosphorylation sites affect protein–protein interactions
Here the authors characterise the impact of phosphorylation site mutations in intrinsically disordered regions (IDRs) on protein-protein interactions, highlighting the critical role of phosphorylation of IDRs in health and disease.
- Trendelina Rrustemi
- , Katrina Meyer
- & Matthias Selbach
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Article
| Open AccessFuzzy recognition by the prokaryotic transcription factor HigA2 from Vibrio cholerae
Here, the authors dissect the fuzzy interaction between the prokaryote transcription factor HigA2 and its DNA target and show that specific, transient interactions drive specificity despite HigA2 remaining mostly disordered.
- San Hadži
- , Zala Živič
- & Remy Loris
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Article
| Open AccessA subgroup of light-driven sodium pumps with an additional Schiff base counterion
Light-driven sodium-pumping rhodopsins are unique ion transporters. Here, authors present a characterization of such rhodopsins with a modified active center allowing for efficient sodium transport under various environmental conditions.
- E. Podoliak
- , G. H. U. Lamm
- & K. Kovalev
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Article
| Open AccessThe assembly platform FimD is required to obtain the most stable quaternary structure of type 1 pili
Type 1 pili are crucial cell surface bacterial virulence factors. Here, the authors show that FimD is required to assemble the most stable quaternary pilus structure by ensuring that the resulting protein polymer is free of structural defects.
- Dawid S. Zyla
- , Thomas Wiegand
- & Rudi Glockshuber
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Article
| Open AccessCryo-EM structure of the human Asc-1 transporter complex
The human Asc-1-4F2hc complex plays an important role in the neural development and stability. Here, authors determine the cryo-EM structures of Asc-1-4F2hc complex in three states, revealing its substrate recognition and transport mechanism.
- Yaning Li
- , Yingying Guo
- & Renhong Yan
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Article
| Open AccessEngineering an artificial catch bond using mechanical anisotropy
Catch bonds are unique protein-protein interactions where the bond lifetime increases under external pulling forces. Here, the authors engineer an artificial catch bond based on a non-catch bonding human gut bacterial adhesion protein complex.
- Zhaowei Liu
- , Haipei Liu
- & Michael A. Nash