Download the posters below to learn more about the TIMS and PASEF® technologies on the timsTOF Pro. Learn how TIMS and PASEF® yield true CCS values and how they improve sensitivity, specificity and depth of coverage for proteomics as well as metabolomics, lipidomics, HCP, biopharma workflows.
Poster 2023: TIMS DIA-NN: Deep Learning for DIA Data Analysis
Poster 2023: Pushing DIA proteomics analyses of neat plasma to 1000 protein groups ID/h
Poster 2023: Optimized methods to investigate the human lysosomal proteome by targeted proteomics
Poster 2023: Microflow 4D-Proteomics™ for robust, high-throughput sample analysis
Poster 2023: Single cell proteome analysis with ultra-high sensitivity using timsTOF SCP and timsTOF Ultra
Poster 2023: Deeper plasma proteome coverage enables identification of novel biomarkers and classification of diseases
Poster 2023: dia-PASEF® Visualization Tool: a shiny App for data visualization and exploration of dia-PASEF® data
Poster 2022: A Deep Dive into Positional Isomers Leveraging CCS Information and Novel Software Tools
Poster 2022: Deep Proteomics Coverage of Human Serum Samples by Trapped Ion Mobility Mass Spectrometry
Poster 2022: Functional diagnostics for congenital disorders of glycosylation from plasma glycopeptide PASEF-DDA data
Poster 2022: High sensitivity immunopeptidomics on the timsTOF SCP mass spectrometer
Poster 2022: LFQ Workflows for Quantitative Results on the Bruker ProteoScape™ Platform
Poster 2022: Versatility of timsTOF platforms for 4-D high throughput and sensitive proteomics studies
Poster 2020: Glycopeptide profiling in a trapped ion mobility quadrupole time-of-flight mass spectrometer (timsTOF Pro)
Poster 2020: High throughput quantitative plasma proteomics
Poster 2020: PASEF-PRM LIVE on the timsTOF Pro
Poster 2020: High resolution acquisition on TIMS-QTOF for multiplexed proteomics
Poster 2020: High throughput proteomics Application of dia-PASEF® and Evosep One for short gradients
Poster 2020: dia-PASEF®: Bottom-up proteomics with near optimal ion usage
Poster 2020: MALDI guided SpatialOMx® on a timsTOF fleX uncovers proteomic profiles of breast cancer subpopulations
Poster 2019: Turnover optimized short nanoLC gradients on a tims equipped QTOF for high throughput and deep proteome measurements
Poster 2019: Intact glycopeptide analysis by trapped ion mobility tandem mass spectrometry
Poster 2019: Characteristics of MALDI-imaging on a new dual ion source QTOF with TIMS separation
Poster 2019: Evaluation of a tims-Q-TOF instrument for targeted proteomics
Poster 2019: High throughput plasma proteomics with PASEF® and 4D feature alignment
Poster 2019: Analysis of Histones from HEK293T Cells using a QTOF with Trapped Ion Mobility and PASEF® Workflows
Poster 2018: Ion Mobility High Resolution QTOF MS - Impact of PASEF® on detection of posttranslational modifications
Poster 2018: CCSPredict: Using a Machine Learning Approach for higher Confidence in Lipid Identification
Poster 2018: High Sensitivity Phosphoproteomics using PASEF® on a TIMS-QTOF mass spectrometer
Poster 2023: Mouse fatty liver proteomes in dda-PASEF and dia-PASEF® from low input using the timsTOF SCP
Poster 2023: Deeper plasma proteome coverage enables identification of novel biomarkers and classification of diseases
Poster 2023: BiblioPlasma: A gateway for dia-PASEF® analysis with a library assembled from almost 4500 depleted plasma runs
Poster 2023: Optimizing dia-PASEF® isolation window schemes for proteomics measurements on a timsTOF Ultra instrument
Poster 2023: dia-PASEF® Visualization Tool: a shiny App for data visualization and exploration of dia-PASEF® data
Poster 2023: Microflow 4D-Proteomics™ for robust, high-throughput sample analysis
Poster 2023: Real-Time de novo sequencing of peptide antigens using Bruker ProteoScape™ for ‚Run and Done‘ 4D-immunopeptidomics
Poster 2023: Standardized, high-throughput platform for automated, rapid, and extensive plasma proteome characterization
Poster 2022: Diving into the complexity of human haptoglobin-hemoglobin interactions
Poster 2022: X!TandemPipeline++: Software for Ion Mobility-Enabled Quantitative Proteomics in timsTOF Data Format
Poster 2022: Monitoring 1432 Unique Ras Induced phosphopeptides in dda-PASEF and PRM PASEF®
Poster 2022: TIMS DIA-NN: CCS-Aware DIA Data Analysis
Poster 2022: Realtime TMT Quantification on the timsTOF series with Bruker ProteoScape™
Poster 2022: Rapid and Sensitive Phosphotyrosine Detection from Limited Sample Amounts
Poster 2022: PepMPNN: Ion Mobility prediction for any Post Translational Modification
Poster 2022: Optimizing a dia-PASEF® acquisition and data analysis for non-depleted plasma for rare disease research
Poster 2022: Functional diagnostics for congenital disorders of glycosylation from plasma glycopeptide PASEF-DDA data
Poster 2022: High sensitivity immunopeptidomics on the timsTOF SCP mass spectrometer
Poster 2022: DDA-PASEF Phosphoproteomics reveals TTBK2 function during ciliogenesis
Poster 2022: Blood Proteomic Profiling of Patients with Yellow Fever by Trapped Ion Mobility Mass Spectrometry
Poster 2022: Proteome characterization of tunneling nanotubes with DDA-PASEF acquisition mode
Poster 2021: Evaluation of dia-PASEF® for short gradient using library and library free approaches
Poster 2021: CCS-Aware DIA Data Analysis in Bruker ProteoScape™
Poster 2021: Application of TIMScore to De Novo Search Engine, DeepNovo in Bruker ProteoScape™
Poster 2021: Bruker ProteoScape™ powered data streams for real-time processing and feedback
Poster 2021: TIMS Viz for Mobility Offset Mass Aligned interrogation of complex samples
Poster 2021: Comparative evaluation of a new processing pipeline for PASEF® Label-Free Quantification analysis
Poster 2021: Ultra-sensitive proteome quantification on the timsTOF SCP mass spectrometer
Poster 2021: Advantages of a dynamic polygon for MHC class I and II immunopeptides
Poster 2021: High throughput single-shot proteomics on the timsTOF Pro 2
Poster 2021: Label-free quantification of oxidized peptides in eHAP cell lines via a high-throughput dia-PASEF® workflow
Poster 2021: Studying human haptoglobin hemoglobin structure and interactions using H/D exchange and timsTOF Pro
Poster 2021: Characterization of the salivary protein repertoire of Covid-19 patients during and after disease - a pilot study
Poster 2020: Deeper proteome coverage of musculoskeletal samples
Poster 2020: High-precision ion mobility calibration greatly improves diaPASEF® analysis
Poster 2020: Streamlined sample processing coupled to PASEF® strategy for in-depth proteome quantification
Poster 2020: "TimsPy": access timsTOF Pro data easily from Python
Poster 2020: New PRM-PASEF® for highly multiplexed targeted acquisition in clinical samples
Poster 2020: Comparison of different processing pipelines for diaPASEF® data
Poster 2020: PASEF® for sensitive shotgun proteomics: toward single cell analysis
Poster 2020: Deep Profiling of Tyrosine Phosphorylation in Gastric Cancer Cells
Poster 2020: Deep, reproducible and high-throughput FFPE analyses: moving toward large-scale clinical omics applications
Poster 2020: Bruker ProteoScape™: Parallel Database Search Engine in Real-Time
Poster 2020: Ion Mobility Mass Spectrometry of Glyco- and Phospho-Peptides
Poster 2020: Reducing compression effects and expanding the multiplex capabilities on a trapped ion mobility Q-TOF
Poster 2020: Proteomic Analysis of BALF using the PASEF® method: toward Lung Cancer Biomarker Discovery with 1D LC separation
Poster 2020: Highly Sensitivity Lysine Acetylation Profiling with Trapped Ion Mobility Spectrometry and PASEF ®
Poster 2020: Enhanced identification of bioactive peptides in meat hydrolysates by 4D peptidomics
Poster 2020: Simplified high-throughput methods for deep and targeted proteome analysis on the timsTOF Pro
Poster 2020: High throughput proteomics - Application of diaPASEF® for short gradients
Poster 2020: Skyline Support for Proteome-wide Data Analysis of Bruker timsTOF diaPASEF® Acquisition
Poster 2019: Fast nanoLC separations for high throughput body fluid analysis with a TIMS equipped QTOF and 4D feature alignment
Poster 2019: Short nanoLC gradients optimize throughput on a tims equipped QTOF for deep proteome measurements
Poster 2019: High Sensitivity PTM Characterization in Cell Lysates Using Trapped Ion Mobility
Poster 2019: Analysis of Histones from HEK293 Cells using a QTOF with Trapped Ion Mobility and PASEF® Workflows
Poster 2019: Investigating Phytophthora methylation using Trapped Ion Mobility Spectrometry Mass Spectrometry
Poster 2019: Comparison of targeted proteomics approaches on a TIMS-Q-TOF
Poster 2019: Ion mobility enhanced matching between LC-MS runs improves identification and quantification in MaxQuant
Poster 2019: Analyzing the neuronal phosphoproteome A systematic comparison of Fusion Lumos and timsTOF Pro data
Poster 2018: Routine Analysis of Host Cell Proteins in Antibody Preparations using PASEF®
Poster 2018: TMT Quantification for Shotgun Proteomics on a Trapped-Ion-Mobility quadrupole-Time-Of-Flight mass spectrometer (TIMS-QTOF) powered by Parallel-Accumulation and Serial-Fragmentation (PASEF®)
Poster 2018: The PASEF® method on a TIMS-QTOF mass spectrometer for High Sensitivity Phosphoproteomics
Poster 2018: Evaluation of TIMS MS and MS/MS data for targeted proteomics
Poster 2018: Maximized throughput and analytical depth for shotgun proteomics using PASEF® on a TIMS equipped QTOF
Poster 2018: Evaluation of a timsTOF PRO UHR-Q-TOF bottom-up proteomics platform for Proteoform Profiling and Top-Down approaches
Poster 2018: PASEF® on a TIMS-QTOF for reproducible, sensitive and highthroughput shotgun proteomics
Poster 2018: timsTOF Pro and PASEF® Multiplying Sequencing Speed and Sensitivity in Mass Spectrometry-based Proteomics
Poster 2018: Trapped Ion Mobility Spectrometry and PASEF® for Enhanced Observation of Chemically Crosslinked Peptides
Poster 2018: Rapid Isobaric Peptide Classification by Trapped Ion Mobility Spectrometry
Poster 2018: Deep proteome mining of FFPE tissue with PASEF® Technology
Poster 2018: PEAKS™ Software for the processing of timsTOF Pro PASEF® data: identification and label-free quantitation
Poster 2018: Application of PASEF® MS/MS scans to monoclonal antibody peptide mapping
For Research Use Only. Not for use in clinical diagnostic procedures.