Bruker Announces One-Hundred Dollar, Deep, High-Accuracy Plasma Proteome; Advances Glycoproteomics and Metaproteomics


  • Robust, Unbiased and Affordable 4D-Proteomics™ for Highest-Specificity Protein IDs & Quant Enables High-Fidelity Large-Scale Plasma Proteomics


  • Typical Sequence Coverage >10 Peptides/protein and >100k Peptides per Cell-Line Proteome Ushers in HiFi Proteomics with High Isoform Specificity

  1. Novel

    diagonal-PASEF
    ®

    methods for
    immunopeptidomics and PTM
    characterization

  2. Achieving
    one-hundred-dollar high-fidelity plasma proteomics
    with PreOmics
    ENRICH™
    and robust timsTOF HT acquisition for

    deep, unbiased plasma proteomics
    at scale
    with 99% specificity (1% FDR)


    In parallel, Biognosys introduces
    discovery services
    with
    P2 enrichment
    and

    Spectronaut
    ®

    19 for
    ultra-deep plasma proteomics with 7k or 9k identified proteins;
    optional integration of Alamar Bio

    ultra-high sensitivity NULISA
    ®
    inflammation

    and
    CNS multiplex panels


  3. Glyco-PASEF
    ®


    acquisition,
    ENRICHplus
    and
    GlycoScape
    enable
    high-sensitivity plasma glycopeptide analysis
    on
    timsTOF Ultra 2

  4. ML-enhanced
    TIMSrescore™
    increases immunopeptidomics and PTM IDs; enables
    ultra-high-fidelity metaproteomics
    at 0.1% FDR (99.9% specificity)

  5. Advancing
    4D-Multiomics
    by
    combining proteomic, lipidomic and metabolomic
    insights


At the

23
rd
Human Proteome Organization World Congress
,
Bruker Corporation
(Nasdaq: BRKR) announces advances in deep, unbiased and high-sensitivity 4D-Proteomics for robust, high- fidelity, large-scale studies – avoiding inherent cross-talk of affinity high-plex technologies.

Bruker's timsTOF Ultra 2 Mass Spectrometer (Graphic: Business Wire)

Bruker’s timsTOF Ultra 2 Mass Spectrometer (Graphic: Business Wire)

A. Enhanced specificity and proteome coverage using diagonal-PASEF

Leveraging scanning quadrupole and trapped ion mobility spectrometry (TIMS),
diagonal-PASEF
was introduced in 2023 by key collaborators Dr. Matthias Mann (Max Planck Institute, Martinsried) and Dr. Stefan Tenzer (University of Mainz) to develop

synchro-PASEF

and

midia-PASEF
, respectively. Bruker and its partners now support all variants via
Spectronaut 19, DIA-NN 1.9, MaxQuant 2.6.3,
and
midiaID.

Synchro-PASEF
allows high-throughput acquisitions, while ensuring quantitative precision due to better sampling of ions, short cycle times, and up to 3-fold improved signal strength.

midia-PASEF
offers higher-confidence immunopeptidomics and PTMs by extracting DDA-like spectra for
de novo
sequencing, and searches against very large databases.

Dr. Jarrod Marto
, professor at Dana-Farber Cancer Institute, Harvard Medical School, participated in the midia-PASEF early-access program, and commented: “My lab leverages the timsTOF to understand how genomic alterations or small molecule probes manifest throughout the functional proteome. Our assessment is very positive, and we are now exploring the potential of midia-PASEF for quantitative analysis of post-translational modifications, as well as of MHC-associated peptides.”

B. Achievement of One-hundred Dollar Deep, High-accuracy Plasma Proteome

Bruker spearheads deep, unbiased plasma proteome profiling with throughput, high peptide fidelity, and at enabling economics for large-scale studies. Together, PreOmics ENRICH-iST or ENRICHplus methods, robust and accurate (99% specificity, 1% FDR) protein IDs on timsTOF HT with Spectronaut 19, enable deep, species-independent, high-fidelity plasma proteomics at scale – with cost as low as $100 per plasma sample [
PreOmics
].

Biopharma can access ultra-deep plasma proteome discovery with depth up to 7k proteins, or up to 9k at lower throughput, via research services offered by Biognosys, or by licensing proprietary P2 ultra-deep plasma enrichment for in-house use [
Biognosys
].

C. Introducing High-Sensitivity Plasma Glycopeptide Analysis on timsTOF Ultra 2

Bruker’s


glyco-PASEF

®



for glycoproteomics has been optimized for the ultra-high sensitivity
timsTOF Ultra 2
and human plasma samples. The new method incorporates
ENRICHplus
, resulting in a doubling of glycopeptides identified, and

GlycoScape
®

data-base-independent software for integrated, deep glycobiology analysis.

D. Increased Peptide and Protein Identifications and ML-enhanced TIMSrescore

The timsTOF platform now
routinely identifies much more than 100,000 peptides
from human cell line proteomics with less than 1 µg loading in 20 minutes. High sequence coverage of typically >10 peptides/protein is critical for confident ID and quant, high isomer specificity, for detecting PTMs, as well as for immunopeptidomics and metaproteomics.

Bruker also is introducing
TIMSrescore
, developed with
Dr. Lennart Martens’
team at the University of Ghent. Using ML for timsTOF collision cross-sections, retention time and fragment intensity, TIMSrescore increases high-confidence peptide IDs for dda-PASEF, relevant for PTMs and metaproteomics, where highest stringency (99.9% specificity at 0.1% FDR) is critical to distinguish highly similar proteins across myriads of microbial species.

Dr. Lennart Martens
, Associate Director of Bioinformatics at the University of Ghent Center for Medical Biotechnology, stated: “My team and I are pleased with the enthusiastic uptake of TIMS
2
Rescore by our proteomics community. Through integration within Bruker
ProteoScape
software, we expand MS2rescore to timsTOF users, allowing our ML-based informatics to maximize the value of 4D-Proteomics.”

E. Introducing Multiomics Visualization and Insights for Proteomics and Metabolomics

Bruker ProteoScape™
now offers visualization and statistical analysis of
4D-Multiomics
data from MetaboScape

®

for metabolomics and lipidomics. This enables dimensional reduction (such as PCA, LDA or t-SNE) and differential analysis, as well as intuitive visualizations, e.g., via interactive multiomics Volcano plots.

Dr. Roman Fischer, Associate Professor at University of Oxford, commented: “We utilize our timsTOFs for proteomics and lipidomics. The capabilities of ProteoScape and MetaboScape are impressive for real-time analysis to translate data into biological insights. It’s fantastic that Bruker now integrates both worlds with interactive multiomics visualization and statistical analysis.”

About Bruker Corporation – Leader of the Post-Genomic Era (Nasdaq: BRKR)

Bruker is enabling scientists and engineers to make breakthrough post-genomic discoveries and develop new applications that improve the quality of human life. Bruker’s high performance scientific instruments and high value analytical and diagnostic solutions enable scientists to explore life and materials at molecular, cellular, and microscopic levels. In close cooperation with our customers, Bruker is enabling innovation, improved productivity, and customer success in post-genomic life science molecular and cell biology research, in applied and biopharma applications, in microscopy and nanoanalysis, as well as in industrial and cleantech research, and next-gen semiconductor metrology in support of AI. Bruker offers differentiated, high-value life science and diagnostics systems and solutions in preclinical imaging, clinical phenomics research, proteomics and multiomics, spatial and single-cell biology, functional structural and condensate biology, as well as in clinical microbiology and molecular diagnostics. For more information, please visit
www.bruker.com.


Source: Bruker Corporation