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Thermo Fisher Scientific Inc.. (6/6/16). "Press Release: Momentous Science and Discoveries Enabled by Technological Advances in Quantitative Proteomics to Be Presented at ASMS 2016". San Antonio, TX.

Region Region San Antonio, TX
  Country United States (USA)
Organisations Organisation Thermo Fisher Scientific Inc. (NYSE: TMO)
  Group Thermo Fisher (Group)
  Organisation 2 University of Cambridge
Products Product Orbitrap Fusion LC-MS system (»tribrid« orbitrap, quadrupole, ion trap mass spectrometer)
  Product 2 MS3 TMT® mass spectrometry workflow (three-stage MS Tandem Mass Tag)
Persons Person Bright, Laura (Thermo Fisher 201606)
  Person 2 Karl, Neha (BioStrata 201606)
     


Thermo Scientific Orbitrap Tribrid mass spectrometers employing the Tandem Mass Tags (TMT) Synchronous Precursor Selection (SPS) MS 3 -based quantitative method enables researchers to better understand the proteome


ASMS 2016 – Isobaric mass tagging for relative quantification of proteins is a high-throughput, accurate method used to study the protein dynamics in a biological system. Cellular biologists, drug discovery and cancer researchers performing high throughput quantitative proteomics, in institutions, including Massachusetts General Hospital, Harvard Medical School, the University of British Columbia and the University of Cambridge, are using multiplexed quantitation utilizing isobaric tags, such as the Thermo Scientific TMT10plex isobaric mass tags and advanced analytical instrumentation, to better understand how time, disease and the environment affect the proteome.

Researchers have adopted the use of the new Tandem Mass Tags (TMT) and Synchronous Precursor Selection (SPS) MS3 workflow to accurately quantify changes in the amounts of large numbers of proteins in order to answer complex biological questions.

Professors Jeannie T. Lee and Wilhelm Haas and their teams at Massachusetts General Hospital and Harvard Medical School worked together to characterize the Xist interactome. They developed an RNA-centric proteomic approach, which encompasses the use of a TMT-based multiplex quantitation to identify proteins that interact with Xist, a non-coding RNA that is involved in the silencing of one of the X chromosomes.1

“Using 10plex TMT labeling in our research helps close the gap between proteomics and high-throughput genomic methods,” said Haas, Assistant Professor of Medicine at Harvard Medical School. “The Orbitrap Fusion mass spectrometer provides accuracy and a wide dynamic range, while maintaining throughput, allowing us to compare more samples in a single experiment, thereby increasing the statistical power.”

In another recent study, researchers from the University of British Columbia adopted a TMT Terminal Amine Isotopic Labeling of Substrates (TAILS) workflow to identify new substrates for MALT1, an important drug target for lymphoma. Using B cells from the only known living patient who is homozygous for the MALT1 mutation, the researchers performed comparative proteomic analysis against cells from his healthy family members. Using an SPS MS3 method, the team was able to perform very accurate analysis of TMT reporter ion ratios, enabling them to identify HOIL1 as a new MALT1 substrate. 2

“For the first time, we used proteomics alone to work out the phenotype of a patient with an autoimmune disorder and to identify the defect," said Dr. Chris Overall, principle investigator, Center for Blood Research, University of British Columbia. “With 10plex TMT-labeling, you have 10 chances to amplify the signal (in MS1) and detect low abundance proteins, which might otherwise be missed.”

Professor Kathryn Lilley, director of the Cambridge Centre for Proteomics at the University of Cambridge, U.K., is using high-throughput quantitative proteomics to generate high-resolution subcellular protein maps. Dr. Lilley applies a method known as LOPIT—Localization Of Proteins using Isobaric Tagging—to identify proteins, and uses organelle markers to define clusters of proteins that co-localize. This provides a steady-state distribution of proteins across organelles and facilitates the identification of novel organelle proteins. Combining this method with TMT10plex labeling, analyzing samples with accurate SPS MS3 analysis, and developing the informatics tools to manage the complex data produced allowed Dr. Lilley to “hyper-plex LOPIT.” She is using this higher multiplexed method to develop a comprehensive cellular map of a self-renewing mouse embryonic stem cell. 3


Productive use of the TMT technology has been made possible by recent, state-of-the art advancements in analytical instrumentation, including the development of the SPS MS3 method on the Thermo Scientific Tribrid mass spectrometers, the Thermo Scientific Orbitrap Fusion and Thermo Scientific Orbitrap Fusion Lumos .

Combining TMT with SPS MS3 to increase reporter ion signal intensity allows for accurate and precise multiplexed quantitation without destructive interference from co-isolated species—a common challenge seen with product ion multiplexing methods. Scientists can quickly monitor up to 10 conditions simultaneously and obtain very high-throughput—tens of thousands of accurately quantified peptides in the span as short as 24 hours.

In the last three years this new technique has enabled high-caliber, biological research and resulted in over 30 published peer-reviewed articles in some of the most prestigious scientific journals.

The Thermo Scientific Orbitrap Tribrid family of mass spectrometers will be on display at the 64th American Society of Mass Spectrometry (ASMS) Conference on Mass Spectrometry and Allied Topics at the Henry B. Gonzalez Convention Center in the Thermo Fisher Booth 319 and in the Thermo Fisher suite at the Grand Hyatt Hotel, Texas Ballroom D. For more information about the Orbitrap Fusion Lumos visit www.thermofisher.com/lumos. For additional information on TMT with SPS MS3, download the white paper, “High Throughput Quantitative Proteomics Using Isobaric Tags.”

Additionally, new TMT labeling reagent packaging will be showcased in the Thermo Fisher suite. TMTsixplex and TMT10plex are now available in 0.2 mg vials, ideal for labeling samples between 10-25 ug. The vials feature color-coded caps and are supplied in an automation-friendly 96-well format. The new formats allow users to avoid aliquoting tags or throwing away reagents.


About Thermo Fisher Scientific

Thermo Fisher Scientific Inc. is the world leader in serving science, with revenues of $17 billion and more than 50,000 employees in 50 countries. Our mission is to enable our customers to make the world healthier, cleaner and safer. We help our customers accelerate life sciences research, solve complex analytical challenges, improve patient diagnostics and increase laboratory productivity. Through our premier brands – Thermo Scientific, Applied Biosystems, Invitrogen, Fisher Scientific and Unity Lab Services – we offer an unmatched combination of innovative technologies, purchasing convenience and comprehensive support. For more information, please visit www.thermofisher.com.


References

1 Minajigi, A.; Froberg, J.E.; Wei, C.; Sunwoo, H.; Kesner, B.; Colognori, D.; Lessing, D.; Payer, B.; Boukhali, M.; Haas, W.; Lee, J. T. A comprehensive Xist interactome reveals cohesin repulsion and an RNA-directed chromosome conformation. Science 2015, 349.

2 Klein, T.; Fung, S.; Renner. F.; Blank, M.A.; Dufour, A.; Kang, S.; Bolger-Munro, M.; Scurll, J.M.; Priatel, J.J.; Schweigler, P.; Melkko, S.; Gold, M.R.; Viner, R.I.; Regnier, C.H.; Overall, C.M. The paracaspase MALT1 cleaves HOIL1 reducing linear ubiquitination by LUBAC to dampen lymphocyte NF-kB signalling. Nat. Commun. 2015, 6.

3 Christoforou, A.; Mulvey, C.; Breckels, L.; Geladaki, A.; Hurrell, T.; Hayward, P.C.; Naake, T.; Gatto, L.; Viner, R.; Arias, A.M.; Lilley, K.S. A draft map of the mouse pluripotent stem cell spatial proteome. Nat. Commun. 2016, 7.



Contact:

MediaInformation:
Thermo Fisher Scientific
Laura Bright, +1 562-335-8318
laura.bright@thermofisher.com
or
Chempetitive/BioStrata
Neha Karl, +44 (0) 1223 828201
nkarl@biostratamarketing.com

   
Record changed: 2016-06-20

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