CAN’T GET ENOUGH OF ASMS?
Whether you attended this year’s conference in person or followed along from afar, we’ve got you covered. Join our ASMS highlights webinar to get the full overview and keep scrolling to find all news and scientific material presented at ASMS 2024.
WEBINAR
ASMS2024 highlights
Available on demand
Get an overview of all the highlights of Evosep at ASMS 2024, including new research, talks and much more from the conference!
Press
(JUN 2024) Evosep Unveils Groundbreaking Innovations in Scalable Proteomics Workflows at ASMS 2024
(Anaheim, CA – ASMS 2024 – June 3rd) – Evosep, a leader in the field of proteomics, is proud to announce several significant advancements in scalable proteomics workflows at the ASMS 2024 conference in Anaheim.
Scientific presence
Our booth is not the only place to learn more about Evosep and the many research possibilities available with the Evosep One. We are excited to share several brand-new insights during ASMS 2024.
Application Note
Evotip Pure brings innovative sample storage
Application Note
Whisper Zoom drives scalable workflows
Application Note
UNLOCKING THE PLASMA PROTEOME
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Whisper Zoom
Application Note
A specialized method for high sensitivity with the Whisper Zoom 120 samples per day method
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A specialized method for high sensitivity with the Whisper Zoom 80 samples per day method
Application Note
A specialized method for high sensitivity with the Whisper Zoom 40 samples per day method
Application Note
A specialized method for high sensitivity with the Whisper Zoom 20 samples per day method
Application Note
EFFICIENT PROTEOMICS WITH AN AUTOMATED SAMPLE PREPARATION STRATEGY LEVERAGED BY THE EVOTIP PURE AND THE ASSAYMAP BRAVO
Application Note
Cost-efficient and scalable end-to-end workflow on the Opentrons OT-2 for neat plasma utilizing Evotip Pure
Application Note
SCALABILITY FOR HIGH-THROUGHPUT PROTEOMICS – EVOTIP PURE INTEGRATION WITH THE BIOMEK I5 LIQUID HANDLER
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Standardized, fully automated neat plasma and mag-net enrichment workflows enabled by the evotip pure
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A complete and automated end-to-end sample preparation for high-throughput and standardized proteomics with high sensitivity
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Enabling scalable single-cell proteomics by utilizing the unique analytical properties of the Evotip Pure with new Whisper Zoom methods
Explore more about scalable workflows our website
Fully Automated Workflows
Capable of processing over 500 plasma samples per day, these workflows are designed to maximize efficiency and throughput while minimizing manual labor and potential for error, particularly benefiting drug discovery and translational research.
New Whisper Zoom Methods
This new technology enhances the scalability and sensitivity of proteomics workflows, enabling you to achieve more detailed and accurate results, ultemately supporting the development of proteomics-based diagnostics.
Evosep Biolabs
Evosep announces the opening of Evosep Biolabs, a center of excellence for high throughput proteomics that specializes in proteomic analytical services of plasma proteomics samples by leveraging automated sample preparation and standardized separation methods.
Abstracts
This year you can explore a lot of new research featuring Evosep One at ASMS. Below you can find a complete list of all the submitted abstract. Use the search function to filter based on author, organization or topic.
Title |
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TP 255 A New Approach to Matrix Library Lock Mass Correction (MLLM) |
ThP 160 Isolation of plasma-derived extracellular vesicles using the Mag-Net method to identify potential protein signatures for diagnosis of pancreatic ductal adenocarcinoma |
WP 195 Elevating Excellence: Pioneering a Holistic Strategy to Minimize Carryover and Boost Precision in Plasma Proteomic Discoveries |
TP 710 Large-scale pan-cancer study elucidates the proteomic profile of 1261 FFPE tumour samples |
TP 719 Optimizing Capivasertib Response Prediction in Cancer: Unveiling Resistance Mechanisms through Precision Proteomics |
TP 343 High throughput proteomics analyses of Immunoglobulin bound and circulating free proteins in human plasma |
TP 186 Inter-laboratory assessment of standardized and fully automated, sample preparation workflows integrated with EvosepOne |
ThP 081 Deep proteome profiling of Cynomolgus monkey Cerebrospinal Fluid by LCMS |
ThP 733 Fast-tracking the journey to targeted clinical assays with a novel hybrid high-speed nominal mass instrument |
ThP 120 FAIMS-PRM quantification of amol levels of STEAP2 from laser-microdissected human tissues confirms low non-prostate levels, resolving immunohistochemistry-based data concerns |
WP 717 A multi-year longitudinal harmonization of quality controls in mass spectrometry proteomics core facilities |
MP 052 Improving speed, sensitivity, accuracy, and comprehensiveness of covalent small molecule screening through data-independent acquisition |
ThP 771 Quantifying the metabolic proteome |
MP 697 LiP-MS guided drug discovery using the cancer driver Ras as a model system |
WP 077 In-depth Analysis of Plasma Proteomics: Are We Enriching Extracellular Vesicles, Platelets, or Soluble Proteins? |
ThP 725 Absolute quantification of BRCA1 protein levels in formalin-fixed, paraffin-embedded (FFPE) tissue by FAIMS-PRM |
WP 385 Quantifying proteoforms in bottom-up proteomics data using tree-based quantification |
WP 782 Single cell Deep Visual Proteomics allows precise spatial mapping of proteomic changes in human liver tissue |
Are You Kidney Me? Building a Knockout-Proteomics Platform to Identify Novel Renal Targets |
ThP 793 Evaluating different recombinant Trypsin sequences for enhanced MS-based peptide identification and quantitative analysis |
TP 592 High throughput semi-automated platform for the identification of post-translational modifications (PTMs) specific biomarkers from plasma samples |
WP 329 Comparing plate-based high-throughput proteomics approaches for plasma depletion: antibody-based resin vs perchlorate precipitation |
A Novel Strategy For The Absolute Quantitation Of Human Proteins |
WP 069 Plasma Metabolomic and Proteomic Profiling of Anxious Dogs by HPLC-MS/MS: A Case-Control Study |
ThP 368 Ultra-sensitive platelet proteome identifies a new form of domain-specific O-fucosylation generated by FUT10 and FUT11 |
WP 775 Expanding the limits of targeted quantitation for low input proteomics using a novel high-speed hybrid nominal mass instrument |
MP 647 TIMAHAC: Streamlined Tandem IMAC-HILIC Workflow for Simultaneous and High-Throughput Analysis of Plant Phosphoproteomics and N-glycoproteomics |
TP 043 High-throughput Quantification of 802 Peptides in Blood Plasma using 6495D Triple Quadrupole and Evosep One |
MP 727 Deep learning models combined to ultrafast DIA analysis enables rapid pathogen identification in urinary tract infections |
MP 762 Non-small cell Lung cancer single spheroid analysis using the cellenONE with proteoCHIP EVO 96 workflow on the timsTOF Ultra |
WP 78 In-depth Analysis of Plasma Proteomics: Are We Enriching Extracellular Vesicles, Platelets, or Soluble Proteins? |
WP 339 Systematic Comparison of High-Throughput Activity-Based Proteomics LC-MS Methods for Quantitative Reactive Cysteinome Profiling in a Cellular Context |
TP 719 Large-scale pan-cancer study elucidates the proteomic profile of 1261 FFPE tumour samples |
TP 342 Evaluating Sample Preparation methods in a Core facility environment for samples with low amounts of protein |
WP 29 Development of a High-Throughput Host Cell Proteomics Method to Support Next Generation Manufacturing of Biopharmaceuticals |
WP 553 Applications of orthogonal label-free single-shot DIA platforms in understanding pathway heterogeneities in C9orf72 ALS using patient-derived astrocytes and microglia |
WP 340 Fine-tuning Mag-Net: Advancing plasma proteome profiling through parameter optimization and comparative analysis |
MP 708 Tracking Transient Protein-Protein Interactions in Targeted Protein Degradation using Proximity-Dependent Labeling Coupled to Mass Spectrometry |
MP 64 Quantitative and Qualitative Evaluation Performance of diaPASEF for Targeted Protein Degradation |
MP 672 Untargeted characterization of substitution errors in hyper-accurate and error-prone bacterial ribosome mutant strains |
ThP 736 Proteome and Tau Profiles in Extracellular Vesicles Derived from Brain Fluid among human tauopathies by mass spectrometry |
TP 186 Optimisation of DIA-PASEF permits retrospective, high throughput proteomics of trizol-extracted biopsies from Metabolic dysfunction associated steatotic liver disease (MASLD) patients |
TP 768 Unveiling Cellular Secrets: Mass Spectrometry Based Single-Cell Proteomic Analysis of Tissue samples from Familial Adenomatous Polyposis |
ThP 121 FAIMS-PRM quantification of amol levels of STEAP2 from laser-microdissected human tissues confirms low non-prostate levels, resolving immunohistochemistry-based data concerns |
ThP 731 Absolute quantification of BRCA1 protein levels in formalin-fixed, paraffin-embedded (FFPE) tissue by FAIMS-PRM |
WP 588 Highly Sensitive and Multiplexed FAIMS-PRM Assays with Dynamic Retention Time and Organized FAIMS CVs for Clinical Applications |
WP 595 Fit for purpose high-throughput absolute quantitation of chimeric aducanumab in mouse cortex and plasma |
WP 783 Deep single-cell proteomics of human induced pluripotent stem cells differentiation provides a time-lapse of cell-type specific protein markers |
MP 70 Evaluating mass spectrometry strategies for deep proteome profiling with subcellular fractionation |
ThP 156 Cell-type resolved proteomics identifies and quantifies Merkel Cell Polyomavirus proteins directly in Merkel Cell Carcinoma tissue |
ThP 036 Automated high-throughput biological sex identification from dental enamel using targeted proteomics |
ThP 798 Evaluating different recombinant Trypsin sequences for enhanced MS-based peptide identification and quantitative analysis |
ThP 727 High-throughput platelet proteomics from small amounts of previously frozen samples adds another layer to plasma-based immunophenotyping |
TP 187 A complete and automated end-to-end sample preparation strategy for high-throughput and standardized proteomics with high sensitivity |
TP 044 High-throughput Quantification of 802 Peptides in Blood Plasma using 6495D Triple Quadrupole and Evosep One |
TP 188 Inter-laboratory assessment of standardized and fully automated, sample preparation workflows integrated with EvosepOne |
TP 769 Evotip meets the Uno – a transfer-free single cell proteomics approach |
TP 722 Standardized, fully automated undepleted plasma and MagNet enrichment workflows enabled by the Evotip Pure |
TP 762 Characterization of a new ultra-selective, highly active Arginine-C protease for MS-based proteomics |
TP 712 From seeding to separation: a 96-well format sample preparation protocol for cell-based high throughput proteomics |
TP 346 Rapid, Semi-automated Enzyme Profiling |
Oral presentation: The curse of dimensionality in proteomics – a new processing paradigm for DIA data |
WP 732 A semi-automated SP3 sample preparation method for high throughput screening of in vivo BioID labeling on an Orbitrap Astral |
WP 733 Evaluation of different lysine specific peptidases for MS-based proteomics |
Oral Presentation: Deep and economical plasma proteome profiling in a very large cohort to identify biomarkers for adverse pregnancy outcomes |
WP 734 Evaluation and optimization of FAIMS-based gas phase fractionation for increased DIA spectral library coverage on an Orbitrap Astral |
Oral Presentation: Covalent Protein Painting as a novel platform for drug development: identifying off-targets and targets of the Cystic Fibrosis drug Trikafta |
Oral Presentation: TF-Scan: A high-throughput proteomics platform for transcription factor drug discovery |
Oral Presentation: Automated single-cell and spatial proteomics workflows to enable in-depth tissue mapping |
MP 752 Label-free DIA-based workflow for single cell proteomic analysis using Evosep One and the Orbitrap Astral mass spectrometer |
MP 728 Deep learning models combined to ultrafast DIA analysis enables rapid pathogen identification in urinary tract infections |
MP 763 Non-small cell Lung cancer single spheroid analysis using the cellenONE with proteoCHIP EVO 96 workflow on the timsTOF Ultra |
MP 740 Towards proteome analysis of single extracellular vesicles |
MP 771 Enabling scalable single-cell proteomics by utilizing the unique analytical properties of the Evotip Pure |
MP 711 Optimizing proximity proteomics on the EvoSep-timsTOF LC-MS system |
ThP 142 Cell-type resolved spatial proteogenomics on human FFPE cancer tissue to characterize molecular trajectories in melanoma progression |
MEET THE TEAM
This year we have representatives from our Applications-, Management-, Sales- and Product team.
Learn about the team at ASMS 2024 here.
Nicolai Bache
VP Proteomics Research
Dorte Bekker-Jensen
Head of Application Development
Morten Bern
CEO
Michael Lund Nielsen
Head of Biolabs & Scientific Projects
Christian Ravnsborg
VP Marketing
Michael BarRett Andersen
Strategic Marketing Manager
Ole Vorm
Founder
Ole Bjeld Hørning
Director of R/D
Frederikke Bramming-Hansen
Strategic Relationship Manager
Rick Carberry
VP Sales Americas
Nikunj Gevariya
Sales Specialist
Thomas Carrell
Sales Specialist
Jerry Pappas
Sales Specialist
Craig Bury
Sales Representative
Laurent Rieux
Product Specialist
Danté Johnson
Product Specialist
Gabriel Bracamontes
Product Specialist
LET’S GET IN TOUCH
We are always open to answering questions and form new collaborations, so don’t hesitate to reach out. Fill out our contact form and we’ll do our very best to assist you.