Nature Search

ETMR stem-like state and chemo-resistance are supported by perivascular cells at single-cell resolution

Embryonal tumour with multilayered rosettes (ETMR) is a rare and aggressive paediatric brain tumour. Here, the authors analyse intratumour heterogeneity and the tumour microenvironment in ETMR using single-cell and spatial transcriptomics, in vitro cultures, and a 3D forebrain organoid model, finding important aspects – such as the communication with pericytes – for ETMR development and response to therapy.

Flavia W. de Faria
Nicole C. Riedel
Kornelius Kerl
ResearchOpen Access25 Jun 2025
Nature Communications

Volume: 16, P: 1-19
Incorporation of Pr in YBa₂Cu₃O_7−δ: electronic effects on superconductivity

L. Soderholm
K. Zhang
Ivan K. Schuller
Research13 Aug 1987
Nature

Volume: 328, P: 604-605
Oxygen ordering and superconductivity in La(Ba_2−xLa_x)Cu₃O_7+δ

C. U. Segre
B. Dabrowski
Ivan K. Schuller
Research17 Sept 1987
Nature

Volume: 329, P: 227-229
Purely electronic insulator-metal transition in rutile VO₂

Previous work has shown that electronic and structural transitions in VO₂ can be decoupled by realizing an electronic transition within a monoclinic phase. Here, the authors extend this to the rutile phase by demonstrating a photodoping-driven transition from an insulating to a metallic rutile phase.

Shaobo Cheng
Henry Navarro
Yimei Zhu
ResearchOpen Access01 Jul 2025
Nature Communications

Volume: 16, P: 1-7
Fraud: the system works

Ivan K. Schuller
Gernot Guentherodt
Correspondence22 Aug 2002
Nature

Volume: 418, P: 817
Audio-based AI classifiers show no evidence of improved COVID-19 screening over simple symptoms checkers

AI-enabled diagnostic applications in healthcare can be powerful, but study design is very important to avoid subtle issues of bias in the dataset and evaluation. Coppock et al. demonstrate how an AI-based classifier for diagnosing SARS-Cov-2 infection from audio recordings can seem to make predictions with high accuracy but shows much lower performance after taking into account confounders, providing insights in study design and replicability in AI-based audio analysis.

Harry Coppock
George Nicholson
Chris Holmes
ResearchOpen Access07 Feb 2024
Nature Machine Intelligence

Volume: 6, P: 229-242
Collective dynamics and long-range order in thermal neuristor networks

Thermal neuristors based on VO₂ have been suggested for neuromorphic computing. Here, authors show that neuristor arrays exhibit long-range order without criticality, revealing that it is not necessary for effective information processing in such systems, and challenging the critical brain hypothesis.

Yuan-Hang Zhang
Chesson Sipling
Massimiliano Di Ventra
ResearchOpen Access14 Aug 2024
Nature Communications

Volume: 15, P: 1-8
Deregulated DNA ADP-ribosylation impairs telomere replication

Telomeres are endogenous cellular targets of DNA ADP-ribosylation (DNA-ADPr). TARG1-regulated DNA-ADPr is coupled to lagging telomere DNA strand synthesis, and persistent DNA-ADPr, due to TARG1 deficiency, leads to telomere shortening and fragility.

Anne R. Wondisford
Junyeop Lee
Roderick J. O’Sullivan
ResearchOpen Access07 May 2024
Nature Structural & Molecular Biology

Volume: 31, P: 791-800
Multi-level, forming and filament free, bulk switching trilayer RRAM for neuromorphic computing at the edge

Filamentary RRAM technologies suffer from variations and noise, leading to computational accuracy loss, and increased energy consumption. Park et al. created a trilayer metal-oxide bulk switching RRAM technology without filament formation and showed edge computing for an autonomous navigation task.

Jaeseoung Park
Ashwani Kumar
Duygu Kuzum
ResearchOpen Access25 Apr 2024
Nature Communications

Volume: 15, P: 1-11
Molecular basis for DarT ADP-ribosylation of a DNA base

Structural and mechanistic data of the ADP-ribosyltransferase DarT demonstrate the role of ADP-ribosylation of DNA by this enzyme in generating toxicity and regulating cellular signalling processes in bacteria.

Marion Schuller
Rachel E. Butler
Ivan Ahel
Research18 Aug 2021
Nature

Volume: 596, P: 597-602
A quantum material spintronic resonator

Jun-Wen Xu
Yizhang Chen
Andrew D. Kent
ResearchOpen Access23 Jul 2021
Scientific Reports

Volume: 11, P: 1-6
Hydrostatic pressure mapping of barium titanate phase transitions with quenched FeRh

Christian Urban
Steven P. Bennett
Ivan K. Schuller
ResearchOpen Access14 Apr 2020
Scientific Reports

Volume: 10, P: 1-6
Nanotextured phase coexistence in the correlated insulator V₂O₃

A near-field optical microscopy study provides nanoscale insight into an insulator-to-metal transition and the interplay with a neighbouring structural phase transition in a prototypical correlated electron material.

A. S. McLeod
E. van Heumen
D. N. Basov
Research12 Sept 2016
Nature Physics

Volume: 13, P: 80-86
Exploring protein hotspots by optimized fragment pharmacophores

Fragment-based drug discovery employs screening of small polar compounds typically exhibiting low affinity towards protein targets. Here, the authors combine the use of protein-based binding pharmacophores with the theory of protein hotspots to develop a design protocol for fragment libraries, called SpotXplorer, and validate their approach on common and emerging drug targets.

Dávid Bajusz
Warren S. Wade
György M. Keserű
ResearchOpen Access27 May 2021
Nature Communications

Volume: 12, P: 1-10
Non-thermal resistive switching in Mott insulator nanowires

Despite intensive research on the electrically driven insulator-to-metal transition, this phenomenon is not well understood. Using quasi 1D nanowires of two Mott insulators, the authors reveal the central role of defects in enabling a non-thermal doping driven insulator-to metal transition.

Yoav Kalcheim
Alberto Camjayi
Ivan K. Schuller
ResearchOpen Access12 Jun 2020
Nature Communications

Volume: 11, P: 1-9
Search for Superconductivity in Micrometeorites

S. Guénon
J. G. Ramírez
Ivan K. Schuller
ResearchOpen Access05 Dec 2014
Scientific Reports

Volume: 4, P: 1-5
Transverse barrier formation by electrical triggering of a metal-to-insulator transition

Resistive switching usually occurs by the formation of conducting filaments in the direction of current flow. Here the authors study an intriguing type of volatile metal-to-insulator resistive switching in (La,Sr)MnO₃, which occurs by the formation of an insulating barrier perpendicular to the current.

Pavel Salev
Lorenzo Fratino
Ivan K. Schuller
ResearchOpen Access17 Sept 2021
Nature Communications

Volume: 12, P: 1-7
Energy-efficient Mott activation neuron for full-hardware implementation of neural networks

Energy- and area-efficient vanadium-dioxide-based Mott activation neuron devices enable the implementation of activation functions in neural networks.

Sangheon Oh
Yuhan Shi
Duygu Kuzum
Research18 Mar 2021
Nature Nanotechnology

Volume: 16, P: 680-687
HPF1 completes the PARP active site for DNA damage-induced ADP-ribosylation

Assembly of a catalytic centre formed by HPF1 bound to PARP1 or PARP2 is essential for protein ADP-ribosylation after DNA damage in human cells.

Marcin J. Suskiewicz
Florian Zobel
Ivan Ahel
Research06 Feb 2020
Nature

Volume: 579, P: 598-602
Resolving transitions in the mesoscale domain configuration in VO₂ using laser speckle pattern analysis

Katyayani Seal
Amos Sharoni
Thomas Z. Ward
ResearchOpen Access02 Sept 2014
Scientific Reports

Volume: 4, P: 1-7
Overcoming thermal fluctuations

The storage density of computer hard drives has increased to the point that magnetic recording media is cheaper than paper. Yet there are limits to this technology. As they decrease in size, magnetic 'bits' become thermally unstable, providing a challenge to further miniaturization.

Johannes Eisenmenger
Ivan K. Schuller
News & Views01 Jul 2003
Nature Materials

Volume: 2, P: 437-438
Subthreshold firing in Mott nanodevices

Mott materials feature scale-less relaxation dynamics after the insulator-to-metal transition that make its electric triggering dependent on recent switching events.

Javier del Valle
Pavel Salev
Ivan K. Schuller
Research01 May 2019
Nature

Volume: 569, P: 388-392
Strain yourself

Research with thin films of material has unveiled physical phenomena that are not apparent in the bulk matter. Now, in the field of superconductivity, come indications that when films of a particular copper oxide are grown under compressive strain, their transition (critical) temperature as much as doubles. Increases in transition temperature have been achieved using pressure, but they have not been nearly as large as that described in the new work.

Ivan K. Schuller
News & Views30 Jul 1998
Nature

Volume: 394, P: 419-421
A caloritronics-based Mott neuristor

Javier del Valle
Pavel Salev
Ivan K. Schuller
ResearchOpen Access09 Mar 2020
Scientific Reports

Volume: 10, P: 1-10
The impact of the suppression of highly connected protein interactions on the corona virus infection

Felipe Torres
Miguel Kiwi
Ivan K. Schuller
ResearchOpen Access02 Jun 2022
Scientific Reports

Volume: 12, P: 1-12
Growth-Induced In-Plane Uniaxial Anisotropy in V₂O₃/Ni Films

Dustin A. Gilbert
Juan Gabriel Ramírez
J. de la Venta
ResearchOpen Access18 Oct 2017
Scientific Reports

Volume: 7, P: 1-9
Modernization, collectivism, and gender equality predict love experiences in 45 countries

Piotr Sorokowski
Marta Kowal
Agnieszka Sorokowska
ResearchOpen Access14 Jan 2023
Scientific Reports

Volume: 13, P: 1-10
HyperFoods: Machine intelligent mapping of cancer-beating molecules in foods

Kirill Veselkov
Guadalupe Gonzalez
Ivan Laponogov
ResearchOpen Access03 Jul 2019
Scientific Reports

Volume: 9, P: 1-12
A large-scale and PCR-referenced vocal audio dataset for COVID-19

Jobie Budd
Kieran Baker
Chris Holmes
ResearchOpen Access27 Jun 2024
Scientific Data

Volume: 11, P: 1-14

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