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Identify your Protein or Proteoform using our 2D gel electrophoresis + bottom-up mass spectrometry services
“Proteoforms are the diverse molecular protein species produced from a single gene through genetic variation, alternative splicing and post-translational modifications” [1]. Clarification of proteoform roles in disease progression is often required for new drug development [2]. However, their precise identification, especially those with phosphotyrosine post-translational modifications (PTMs) for example [3] can be difficult.
Kendrick Labs, a service company, specializes in analysis of complex protein mixtures using a 2D gel electrophoresis (2DE) variation that is compatible with the detergent SDS [4]. In combination with western blotting (WB), 2DE is useful for identification of specific proteins in complex tissue homogenates and especially for obtaining sufficient purified proteoform (3-8 ug) for analysis by mass spectrometry (MS). We have been partnering for many years with an MS expert, Dr. Costel Darie at Clarkson Univ. to identify PTM proteoforms. Recently, in a collaborative project with Kendrick Labs, Dr Darie identified a potential cancer marker, pTyr-mutant desmin, in human pancreatic cancer samples [5]
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Proteoform Identification and Characterization by MS
We can identify proteoforms that resulted through gene mutation, alternative gene splicing, mRNA editing, or protein post-translational modification (PTM). In all cases, a bottom-up proteomics analysis of the proteoforms a priori separated by 2D-PAGE, will be employed. The proteomics analysis will be done using a NanoAcquity UPLC coupled with a Xevo G2-XS mass spectrometer by nanoliquid chromatography tandem mass spectrometry (nanoLC-MS/MS), complemented by Matrix Assisted Laser Desorption Ionization mass spectrometry (MALDI-MS) analysis.
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First Step
Protein samples are separated by 2D SDS PAGE
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Second Step
Proteoforms of interest are found with 2D WB and/or computer comparison of 2D patterns
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Third Step
Proteoform spots are cut from the 2D gel, trypsin digested for bottom-up analysis
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Final Step
Standard and custom database searches are performed
2D Gel Service Options
First Dimension: isoelectric focusing (IEF)
- Standard IEF pH range 3-9; inquire about narrower ranges.
Second Dimension: Sodium dodecyl sulfate polyacrylamide (SDS PAGE)
- Slab gel sizes: large format (22 x 20 cm) and standard format (13 x 15 cm).
- Molecular weight range of 10-220 kDa for 10% acrylamide tris-glycine gels
- 5% acrylamide tris-tricine gels used to detect smaller peptides down to 3 kDa
Slab Gel Staining Options
- Standard: Silver and Coomassie blue staining
- Sypro Ruby or Cy Dyes
- Western blotting for detection of specific proteins or PTMs assuming antibodies are available.
- Digitized 2D gel patterns are compared and using SpotMap software from TotalLab with optional quantification. Manual comparisons by eye are offered for faster detection of differences between two or more samples.
Additional Mass Spectrometry Services
Experienced Protein Biochemists
Detection Methods
Coomassie Blue Silver Western Blot
Sensitivity Good (~20 ng) Better (~2 ng) Best (pg to fg)
Quantitative Yes Semi-quantitative Yes
Best For Protein quantitation Low abundance proteins Trace protein detection
References
- Korchak, J.A., et al., Proteoform medicine: characterizing and targeting protein forms in human disease. Nat Rev Genet, 2026.
- Su, J., et al., Personalized Drug Therapy: Innovative Concept Guided With Proteoformics. Mol Cell Proteomics, 2024. 23(3): p. 100737.
- Li, J. and X. Zhan, Mass spectrometry analysis of phosphotyrosine-containing proteins. Mass Spectrom Rev, 2024. 43(4): p. 857-887.
- Kendrick, N., et al., 2D SDS PAGE in Combination with Western Blotting and Mass Spectrometry Is a Robust Method for Protein Analysis with Many Applications. Adv Exp Med Biol, 2019. 1140: p. 563-574.
- Kendrick, N.D., C; Hoelter, M; Koll, A.; and Johansen, J. , Identification of Phosphotyrosine-Mutant Desmin in Human Pancreatic Cancer. BioRxiv, 2024.