Featured
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Article
| Open AccessStructural basis for lysophosphatidylserine recognition by GPR34
GPR34 is a GPCR which has an immunomodulatory role and recognizes lysophosphatidylserine (LysoPS) as a putative endogenous ligand. Here, authors report two cryo-EM structures of human GPR34-Gi complex with one of two ligands bound: either the LysoPS analogue S3E-LysoPS, or its derivative M1.
- Tamaki Izume
- , Ryo Kawahara
- & Osamu Nureki
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Article
| Open AccessCryo-EM structure of the extracellular domain of murine Thrombopoietin Receptor in complex with Thrombopoietin
The haematopoietic cytokine thrombopoietin (Tpo) is the primary regulator of megakaryocyte and platelet numbers. Here authors present a structural and biochemical characterization of how Tpo binds to its receptor to induce signaling.
- Kaiseal T. G. Sarson-Lawrence
- , Joshua M. Hardy
- & Nadia J. Kershaw
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Article
| Open AccessTransport mechanism of human bilirubin transporter ABCC2 tuned by the inter-module regulatory domain
Human ABC transporter ABCC2 transports conjugated bilirubin from hepatocyte to bile duct, dysfunction of which causes Dubin-Johnson syndrome. Here, the authors provide structural insights into the substrate specificity of ABCC2 and the transport mechanism regulated by the R domain.
- Yao-Xu Mao
- , Zhi-Peng Chen
- & Yuxing Chen
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Article
| Open AccessRescue of mitochondrial import failure by intercellular organellar transfer
Mitochondrial biogenesis and maintenance relies on protein import from the cytosol. Here, authors show that import failure impacts organelle structure and dynamics. They also identify a rescue mechanism involving intercellular mitochondrial transfer.
- Hope I. Needs
- , Emily Glover
- & Ian Collinson
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Article
| Open AccessIdentification of potential aggregation hotspots on Aβ42 fibrils blocked by the anti-amyloid chaperone-like BRICHOS domain
This study identifies potential aggregation hotspots on the fibril surface of Alzheimer’s disease associated Aβ42 fibrils, which are blocked by the anti-amyloid chaperone-like domain BRICHOS.
- Rakesh Kumar
- , Tanguy Le Marchand
- & Axel Abelein
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Article
| Open AccessLocation-agnostic site-specific protein bioconjugation via Baylis Hillman adducts
Proteins labelled site-specifically with small molecules are valuable assets for chemical biology and drug development. Here, the authors report Baylis Hillman orchestrated protein aminothiol labelling (BHoPAL), a bioconjugation strategy for specific labelling of the 1,2-aminothiol moiety and combine it with a lipoic acid ligase-based technology to achieve labelling at any desired site within proteins.
- Mudassir H. Mir
- , Sangeeta Parmar
- & Dimpy Kalia
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Article
| Open AccessStructural and functional insights into the lipid regulation of human anion exchanger 2
Anion exchanger 2 (AE2), a widely expressed Cl- /HCO3 - exchanger, participates in the regulation of intracellular pH. Here, the authors present the structures of AE2 and uncover the regulatory mechanism of PIP2.
- Weiqi Zhang
- , Dian Ding
- & Yuxin Yin
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Article
| Open AccessStructure of the M. tuberculosis DnaK−GrpE complex reveals how key DnaK roles are controlled
Cryo-EM analysis reveals that the GrpE dimer of M. tuberculosis undergoes ratcheting motions when bound to an intact DnaK, thereby allosterically regulating DnaK’s nucleotide exchange and substrate release.
- Xiansha Xiao
- , Allison Fay
- & Huilin Li
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Article
| Open AccessMolecular switching in transcription through splicing and proline-isomerization regulates stress responses in plants
Transcription factor DREB2A interacts with Med25 to regulate stress responses. Here, the authors show that DREB2A uses splicing and proline-isomerization for this regulation and that proline cis-trans switching introduces structural frustration facilitating regulator exchange.
- Frederik Friis Theisen
- , Andreas Prestel
- & Karen Skriver
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Article
| Open AccessCochaperones convey the energy of ATP hydrolysis for directional action of Hsp90
The precise role of cochaperones and ATP hydrolysis in driving Hsp90’s chaperone cycle is largely unclear. Here, the authors use single-molecule FRET to show that several cochaperones are necessary to establish directionality in Hsp90’s conformational cycle.
- Leonie Vollmar
- , Julia Schimpf
- & Thorsten Hugel
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Article
| Open AccessLigand coupling mechanism of the human serotonin transporter differentiates substrates from inhibitors
The serotonin transporter, targeted by several medications, terminates neurotransmission by clearing serotonin from the synaptic cleft. Combining biochemical results with in silico data, the authors show the key interactions that initiate substrate transport.
- Ralph Gradisch
- , Katharina Schlögl
- & Thomas Stockner
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Article
| Open AccessAssembly of a unique membrane complex in type VI secretion systems of Bacteroidota
The type VI secretion system (T6SS) of Gram-negative bacteria is typically anchored to the cell envelope through a membrane complex (MC), but Bacteroidota appear to lack genes encoding canonical MC components. Here, Bongiovanni et al. identify the Bacteroidota MC and study its biogenesis and connections with the conserved T6SS components.
- Thibault R. Bongiovanni
- , Casey J. Latario
- & Eric Durand
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Article
| Open AccessMechanism of anion exchange and small-molecule inhibition of pendrin
Here the authors report structures of pendrin, an anion exchanger, in complex with its substrate Cl−, I−, or HCO3−, which reveal two anion binding sites in each protomer. The authors also identify binding sites of a pendrin inhibitor, niflumic acid.
- Lie Wang
- , Anthony Hoang
- & Ming Zhou
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Article
| Open AccessTon motor conformational switch and peptidoglycan role in bacterial nutrient uptake
Gram-negative bacteria rely on the Ton system for nutrient uptake. Here, authors uncover how the ExbD protein acts as a conformational switch and the function of peptidoglycan in order to energize this transport process across the outer membrane.
- Maximilian Zinke
- , Maylis Lejeune
- & Nadia Izadi-Pruneyre
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Article
| Open AccessThe juxtamembrane linker of synaptotagmin 1 regulates Ca2+ binding via liquid-liquid phase separation
Synaptotagmin (syt) 1 is a calcium sensor for neuronal exocytosis. Here, the authors show that the juxtamembrane linker of this integral membrane protein negatively regulates its calcium sensing activity by mediating self-association via liquid-liquid phase separation.
- Nikunj Mehta
- , Sayantan Mondal
- & Edwin R. Chapman
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Article
| Open AccessHelical reconstruction of VP39 reveals principles for baculovirus nucleocapsid assembly
Baculoviruses are used as insecticides, gene therapy tools, and protein production vectors. Here, the authors report the structure of the Autographa californica MNPV nucleocapsid and its fold conservation across all baculoviruses.
- Friederike M. C. Benning
- , Simon Jenni
- & Luke H. Chao
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Article
| Open AccessAllosteric control of dynamin-related protein 1 through a disordered C-terminal Short Linear Motif
Drp1 is the master regulator of mitochondrial and peroxisomal fission. Here, the authors show that a C-terminal intrinsically disordered motif, named the CT-SLiM, constitutes an allosteric switch that controls Drp1 structure, assembly, and function.
- Isabel Pérez-Jover
- , Kristy Rochon
- & Rajesh Ramachandran
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Article
| Open AccessMolecular mechanism of antihistamines recognition and regulation of the histamine H1 receptor
Histamine receptor H1R has been extensively targeted in the development of antihistamines. Here, Wang et al. determine structures of H1R alone and bound to different antihistamines, providing insights into the structure-based design of next-generation drugs.
- Dandan Wang
- , Qiong Guo
- & Yuyong Tao
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Article
| Open AccessHijacking of internal calcium dynamics by intracellularly residing viral rhodopsins
Rhodopsins are ubiquitous light-driven membrane proteins that have diverse functions in nature, and value as optogenetics tools. Here the authors characterise type 1 viral channelrhodopsins, showing that they regulate intracellular calcium and can be used for the photocontrol of muscle contraction in vivo.
- Ana-Sofia Eria-Oliveira
- , Mathilde Folacci
- & Michel Vivaudou
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Article
| Open AccessHuman apical-out nasal organoids reveal an essential role of matrix metalloproteinases in airway epithelial differentiation
Airway organoids made in Matrigel are in basal-out orientation. Here, authors present apical-out nasal organoids using a biochemically defined hydrogel system, revealing that matrix metalloproteinases are required for normal epithelial development.
- Liyue Li
- , Linyi Jiao
- & Chunwei Li
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Article
| Open AccessMolecular basis of human trace amine-associated receptor 1 activation
hTA1 is a drug target for several neuropsychiatric disorders. Using cryo-EM and pharmacological assays, the authors illuminate hTA1’s similarity to neurotransmitter receptors and discover that the antipsychotic asenapine potently activates the receptor.
- Gregory Zilberg
- , Alexandra K. Parpounas
- & Daniel Wacker
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Article
| Open AccessRemodeling of the ribosomal quality control and integrated stress response by viral ubiquitin deconjugases
Here, the authors show how the vDUB from the large tegument protein from the human herpes virus can reprogram translation in host cells by modulating the activity of the ribosome quality machinery and activating the integrated stress response.
- Jiangnan Liu
- , Noemi Nagy
- & Maria G. Masucci
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Article
| Open AccessMolecular mechanism of phospholipid transport at the bacterial outer membrane interface
Maintenance of lipid asymmetry in the bacterial outer membrane (OM) is mediated by the OmpC-Mla system, but mechanistic details remain to be elucidated. Here, the authors show that electrostatic interactions, conformational dynamics, and membrane thinning may facilitate spontaneous retrograde phospholipid transfer at the OM.
- Jiang Yeow
- , Min Luo
- & Shu-Sin Chng
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Article
| Open AccessStructure and activation mechanism of the Makes caterpillars floppy 1 toxin
The bacterial toxin Makes caterpillars floppy 1 promotes apoptosis in insects. Combining single-particle cryo-EM and biochemistry, the authors determined the molecular architecture of the toxin and revealed its autoproteolytic activation mechanism.
- Alexander Belyy
- , Philipp Heilen
- & Stefan Raunser
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Article
| Open AccessUnravelling the mechanism of neurotensin recognition by neurotensin receptor 1
GPCRs include inactive and active states. 19F-NMR and stopped-flow fluorescence kinetic assays reveal that neurotensin activates the prototypical peptide-binding GPCR, neurotensin receptor 1, through an induced-fit mechanism, where ligand binding precedes receptor conformational changes.
- Kazem Asadollahi
- , Sunnia Rajput
- & Paul R. Gooley
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Article
| Open AccessStructures of human prostaglandin F2α receptor reveal the mechanism of ligand and G protein selectivity
Cryo-EM structures reveal the molecular mechanism of ligands and G protein selectivity for prostaglandin F2α receptor, providing guidance for development of better postpartum hemorrhage drugs.
- Xiuqing Lv
- , Kaixuan Gao
- & Xiangyu Liu
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Article
| Open AccessCharacterization of nucleolar SUMO isopeptidases unveils a general p53-independent checkpoint of impaired ribosome biogenesis
Ribosome biogenesis is tightly coordinated with cell-cycle progression. By characterizing the SUMO isopeptidases SENP3/SENP5, Doenig et al. identify a long-sought p53-independent impaired ribosome checkpoint that converges on downregulation of CDK6.
- Judith Dönig
- , Hannah Mende
- & Stefan Müller
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Article
| Open AccessPhospholipids are imported into mitochondria by VDAC, a dimeric beta barrel scramblase
Mitochondria depend on phospholipids supplied by the endoplasmic reticulum. Here, using biochemical assays and molecular dynamics simulations, authors identify VDAC as a scramblase-type lipid transporter that catalyze lipid entry.
- Helene Jahn
- , Ladislav Bartoš
- & Anant K. Menon
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Article
| Open AccessTransmembrane coupling of liquid-like protein condensates
Using a freestanding planar lipid membrane system, the authors show that liquid-like protein condensates on one side of a lipid membrane colocalize with those on the opposite side, suggesting a mechanism of information transfer across biological membranes.
- Yohan Lee
- , Sujin Park
- & Jeanne C. Stachowiak
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Article
| Open AccessStructural basis of antibody inhibition and chemokine activation of the human CC chemokine receptor 8
CCR8 is a promising target in cancer immunotherapy. Here, authors generated mAb1, an antagonist antibody against CCR8 and determined structures of CCR8 in complex with mAb1 or the agonist CCL1, providing insights into CCR8 inhibition and activation.
- Dawei Sun
- , Yonglian Sun
- & Matthieu Masureel
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Matters Arising
| Open AccessReply to: How carvedilol does not activate β2-adrenoceptors
- Evi Kostenis
- , Jesus Gomeza
- & Stefan Schulz
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Article
| Open AccessDistinct activation mechanisms of β-arrestin-1 revealed by 19F NMR spectroscopy
The molecular basis for the functional versatility of β-arrestins in the G-protein coupled receptor signaling pathway is not well understood. Here, the authors use19F NMR spectroscopy to show that different binding partners activate β-arrestin-1 through distinct mechanisms.
- Ruibo Zhai
- , Zhuoqi Wang
- & Yunfei Hu
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Article
| Open AccessDiscovery of a novel cardiac-specific myosin modulator using artificial intelligence-based virtual screening
Modulation of the myosin molecular motor has emerged as a potential therapeutic target for both heart disease and heart failure. Here, the authors use AI-based virtual high throughput screening to identify compounds that acts as a cardiac-specific myosin modulators.
- Priyanka Parijat
- , Seetharamaiah Attili
- & Thomas Kampourakis
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Article
| Open AccessBioE3 identifies specific substrates of ubiquitin E3 ligases
Here, the authors describe BioE3, a biotin-based method to discriminate direct substrates of ubiquitin E3 ligases of interest from mere interactors using proximity proteomics. BioE3 responds to chemical treatments, and works with RING- and HECT-type E3s, as well as ubiquitin-likes (e.g., SUMO).
- Orhi Barroso-Gomila
- , Laura Merino-Cacho
- & James D. Sutherland
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Article
| Open AccessOrthosteric and allosteric modulation of human HCAR2 signaling complex
Hydroxycarboxylic acid receptor 2 (HCAR2) has been implicated in cardiovascular and neuroinflammatory diseases. Here, the authors present cryo-EM structures of HCAR2-Gi1 complexes bound to different ligands and provide insights into the mechanisms of both orthosteric and allosteric modulation of HCAR2.
- Chunyou Mao
- , Mengru Gao
- & Yan Zhang
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Article
| Open AccessActivation and substrate specificity of the human P4-ATPase ATP8B1
Asymmetric phospholipid distribution in cell membranes is vital for cellular function. Here, authors reveal how ATP8B1, a P4-ATPase, can transport different lipids, including phosphatidylinositol.
- Thibaud Dieudonné
- , Felix Kümmerer
- & Poul Nissen
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Article
| Open AccessThe GET insertase exhibits conformational plasticity and induces membrane thinning
Tail-anchored (TA) membrane protein biogenesis is mediated by the GET insertase. Here, authors present cryo-EM and X-ray structures, MD simulations and functional data for human and fungal insertases showing membrane remodeling for TA insertion.
- Melanie A. McDowell
- , Michael Heimes
- & Irmgard Sinning
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Article
| Open AccessStructural basis of bile salt extrusion and small-molecule inhibition in human BSEP
BSEP (ABCB11) is expressed in hepatocytes and extrudes bile salts into the canaliculi of the liver. Here, authors report cryo-EM structures of BSEP providing structural and functional insight into the mechanism of bile salt extrusion and small-molecule inhibition.
- Hongtao Liu
- , Rossitza N. Irobalieva
- & Kaspar P. Locher
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Article
| Open AccessMultiple E3 ligases control tankyrase stability and function
The poly(ADP-ribosyl)transferases, tankyrase 1 and 2, are regulated by RNF146-mediated K48-linked polyubiquitylation and degradation. Here the authors show that this is opposed by K11-linked diubiquitylation by RING-UIM E3 ligases RNF114 and 166 and further impacted by several PAR-binding E3 ligases.
- Jerome Perrard
- & Susan Smith
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Article
| Open AccessC-terminal modification and functionalization of proteins via a self-cleavage tag triggered by a small molecule
Specific modification or functionalization of proteins at the C-terminus is of interest but remains challenging. Here, the authors report an approach for the efficient modification of C-terminus by fusion of the cysteine protease domain (CPD) on the C-terminus of the protein of interest, and subsequent functionalization with amine-containing molecules triggered by InsP6-mediated CPD self-cleavage.
- Yue Zeng
- , Wei Shi
- & Feng Tang
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Article
| Open AccessStructural basis for ligand recognition and signaling of hydroxy-carboxylic acid receptor 2
Niacin is used to treat cardiovascular disease through its activation of the GPCR HCAR2. Here, the authors present cryo-EM structures of HCAR2 bound to niacin and other drug-like small molecules, which explain the basis of HCAR2 ligand recognition.
- Jae-Hyun Park
- , Kouki Kawakami
- & Sam-Yong Park
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Article
| Open AccessA TRIM21-based bioPROTAC highlights the therapeutic benefit of HuR degradation
Overexpression of human antigen R (HuR) correlates with high grade tumours and poor patient prognosis. Here, the authors engineer a TRIM21 biological PROTAC to demonstrate the benefit of a targeted protein degradation approach to deplete HuR, resulting in tumour growth inhibition in pre-clinical cancer models by altering the HuR-regulated proteome.
- Alice Fletcher
- , Dean Clift
- & James Hunt
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Article
| Open AccessStructure of a membrane-bound menaquinol:organohalide oxidoreductase
The structure of a bacterial membrane protein complex involved in the bioremediation of tetrachloroethene, a major chlorinated organic pollutant, was determined. It elucidates the path of electrons from menaquinol to the active site of the enzyme.
- Lorenzo Cimmino
- , Américo G. Duarte
- & Julien Maillard
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Article
| Open AccessA marine cryptochrome with an inverse photo-oligomerization mechanism
Cryptochromes are important components of biological clocks. Here, the authors uncover that a cryptochrome that enables synchronization of the reproduction of marine worms to the lunar cycle uses an inverse photo-oligomerization mechanism.
- Hong Ha Vu
- , Heide Behrmann
- & Elmar Behrmann
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Article
| Open AccessStructural titration reveals Ca2+-dependent conformational landscape of the IP3 receptor
Inositol 1,4,5-trisphosphate receptors (IP3Rs) are intracellular Ca2+ channels that produce Ca2+ oscillations in response to GPCR and RTK activation. Here, Paknejad et al. resolve the conformational landscape of IP3Rs that gives rise to the biphasic dependence on Ca2+ for channel activity.
- Navid Paknejad
- , Vinay Sapuru
- & Richard K. Hite
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Article
| Open AccessFolding correctors can restore CFTR posttranslational folding landscape by allosteric domain–domain coupling
The conformational biogenesis of multi-domain ABC-transporters is poorly understood. Here the authors show the critical role of dynamic allosteric coupling networks, its perturbation and restoration in CFTR folding, misfolding, and pharmacological rescue, respectively.
- Naoto Soya
- , Haijin Xu
- & Gergely L. Lukacs
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Article
| Open AccessN-terminal acetylation shields proteins from degradation and promotes age-dependent motility and longevity
The most common protein modification in eukaryotes is N-terminal acetylation, but its functional impact has remained enigmatic. Here, the authors find that a key role for N-terminal acetylation is shielding proteins from ubiquitin ligase-mediated degradation, mediating motility and longevity.
- Sylvia Varland
- , Rui Duarte Silva
- & Thomas Arnesen
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Article
| Open AccessDynamic interactions between E-cadherin and Ankyrin-G mediate epithelial cell polarity maintenance
The maintenance of cell polarity depends on adhesion complexes that tether to the cytoskeleton. Here the authors show the dynamic nature of E-cadherin–Ankyrin-G complex formation and investigate its functional role in epithelial cell polarity maintenance.
- Chao Kong
- , Xiaozhan Qu
- & Chao Wang
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Article
| Open AccessDynamic characterization and interpretation for protein-RNA interactions across diverse cellular conditions using HDRNet
Predicting dynamic RNA-RBP interactions in diverse cell lines is an important challenge in unravelling RNA function and post-transcriptional regulatory mechanisms. Here, authors develop HDRNet, an end-to-end deep-learning-based framework for accurately predicting dynamic RBP binding events across various cellular conditions.
- Haoran Zhu
- , Yuning Yang
- & Xiangtao Li
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