University of Birmingham eData Repository (UBIRA E-Data)
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663 research outputs found
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Research data supporting the publication: 'Neural mechanisms for the attention-mediated propagation of conceptual information in the human brain'
Full text linkPreprocessed EEG and MRI results and analytic MATLAB scripts. See article for details: https://www.biorxiv.org/content/10.1101/2024.05.29.596408v
Research data supporting the publication "Grave to Cradle: A Direct Recycling Approach for Over-Discharged LiFePO4 Electric Vehicle Cells"
No full textData for the titled manuscript includes XRD, SEM, TEM, ICP, Mossbauer, and electrochemistry raw files. Each dataset includes a folder describing the file format and software required (if none standard)
Research data supporting the publication "Bacterial Cell Membrane Models: Choosing the Lipid Composition"
Full text linkThis dataset contains the data for the results presented in this publication on model bacterial cell membranes. The measurements included: pressure-area isotherm data, electrochemical data and infrared spectroscopy (PM-IRRAS) data for bilayers, Brewster Angle Microscopy (BAM) data for monolayers, Grazing Incidence X-ray Diffraction (GIXD) and X-Ray Reflectivity (XRR) data for monolayers and Neutron Reflectivity (NR) data for monolayers
Cortical signatures of crossmodal attention in the first year of life
No full textThis Dataset contains the pre-processed EEG recordings gathered from 19 5-month-old and 19 8-month-old participants who took part in a research study aimed at investigating the origins of the ortical signatures of crossmodal attention, in the shape of tactile to visual exogenous spatial cuing, in the first year of life.
The Dataset includes only the recordings of the participants included in the final sample and each file contains only the good, artefact-free trials completed by each participant. For each participant, 2 files are available. The first one (in the "mat" folders) is a MatLab matrix of the values of the EEG recording in each condition, channel, and sample recorded. The second one (in the "raw" folder) is a .raw file compatible with EEGLab and FieldTrip
Research data supporting “Analysing Multiple Metrics of Ultrafine Particles from Personal Exposure Campaigns with Source Quantification”
No full textThe supporting dataset includes an example of PNC from mobile measurement and SMPS, multiple metrics from mobile measurement by travel mode and time, PNC vs LDSA by the level of average diameter from walking and bus measurement, example of short-term peak event, corrected PNC from Discmini and that measured by SMPS, examples of PNC depeaked are overlayed with original PNC, average PNC both original and depeaked and the percentage of decline by period, and the last is corrected depeaked PNC vs SMPS data
Research data supporting "Quantifying Interactions in the Active Encounter Complex of Frustrated Lewis Pairs"
No full textDataset includes UV-vis data in CSV and Excel files, raw NMR data for all compounds and any NMR experiments, all computational data generated in both CSV and Excel files, and xyz files for 72 clusters as described in the manuscript
Building Risk Management Dashboard
No full textA modern React-based dashboard for real-time monitoring and management of building risks, developed as part of the C-DICE (Centre for Digital Innovation in Construction and Engineering) industrial secondment and funded by IMFUNA Ltd. The dashboard provides an intuitive interface for visualizing and analyzing building risk metrics—such as fire safety, security, HVAC, and access control—supporting data-driven decision-making in the built environment. Key features include live monitoring, prioritized alerts, and a clean, responsive UI for building safety, compliance, and operational risk management
Research data supporting the publication: A solvothermal approach to nano-designing M-N-H systems unveiling new pathways to dimensional control in the lithium nitride hydride ammonia synthesis catalyst
Full text linkThe dataset archived herein supports the publication ‘A solvothermal approach to nano-designing M-N-H systems’ and it includes the raw data of the Figures in the pape
Research data supporting development of new production methods of terbium theragnostic isotopes
No full textHalf-life and cross section data from the spectroscopy of alpha irradiated natural europium targets at the Birmingham MC40 cyclotron
Research data supporting the publication: Mass spectrometry reveals the evolutionary conservation of phycobiliprotein complexes
No full textData to accompany manuscript entitled: Mass spectrometry reveals the evolutionary conservation of phycobiliprotein complexes. The data includes native mass spectrometry data acquired on an Orbitrap Eclipse Tribrid mass spectrometer and absorbance spectroscopy data.
Abstract: Cyanobacteria are a highly taxonomically and ecologically diverse group of oxygenic phototrophs that have colonized many different environments on our planet. Despite their differences, almost all cyanobacteria rely on highly efficient light-harvesting protein complexes, termed phycobilisomes, for effective photosynthesis. Phycobilisomes, along with the phycobiliproteins that make them up, have maintained their function throughout evolutionary history while also diversifying to optimize energy capture and transfer in different conditions. Here, we use a combination of evolutionary proteomics, phylogenomics, and structural bioinformatics to probe how phycobiliproteins have maintained their function while adapting to different habitats. Using high-resolution native mass spectrometry, we show that the two most abundant phycobiliprotein complexes, phycocyanin and allophycocyanin, are highly dynamic. Moreover, upon mixing phycobiliproteins from cyanobacterial strains representing diverse environments and evolutionary lineages, heterologous phycobiliprotein complexes rapidly form, comprising building blocks from different cyanobacterial strains. Bioinformatics and structural prediction methods allow us to identify critical residues involved in these interactions. We thus demonstrate that key structural features within the phycobiliprotein components have remained conserved over three billion years of cyanobacterial evolution, ensuring effective photosynthesis across a wide variety of natural environments
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