PXD058773 is an
original dataset announced via ProteomeXchange.
Dataset Summary
| Title | Exploring How Workflow Variations in Denaturation-Based Assays Impact Global Protein-Protein Interaction Predictions |
| Description | Denaturation-based assays such as thermal proximity coaggregation (TPCA) and ion-based proteome-integrated solubility alteration (I-PISA) are powerful tools for mapping global protein-protein interaction (PPI) networks. These workflows utilize different denaturation methods to probe PPIs, however, how these differences influence which PPIs are detected has remined unexplored. Here, we generated paired TPCA and I-PISA datasets, for the first time considering both the soluble and insoluble fractions generated by these methods, to investigate differences in PPI network predictions. While both workflows detected highly overlapping sets of proteins, they identified distinct PPI networks. Utilizing sequence-predicted protein physical properties we show that and subcellar localizations of proteins, we show that protein properties such as size, structural complexity, hydrophobicity, and localization appear influence which workflows detect which PPIs. Notably, insoluble fractions provided unique insights, expanding the detectable PPI landscape and underscoring their value in proteomics workflows. Through analyzing differentially detected PPIs within a small cytoskeleton related PPI network, we show that these workflows may be detecting distinct functional populations for any given protein. Furthermore, we show that by integrating PPI predictions from multiple workflows more biologically informative and interconnected networks can be constructed. We also examined the effects of reducing starting material and using a label-free data-independent acquisition (DIA) TPCA workflow on PPI prediction quality. Despite a ~500x reduction in sample input, PPI prediction quality remained robust, demonstrating the feasibility of TPCA in sample-limited contexts, such as rare cell types. Additionally, we show that, with some simple modifications, label-free DIA TPCA workflow can yield performance comparable to, and in some cases superior to, the traditional tandem mass tag (TMT) data dependent acquisition (DDA) TPCA workflow. This work provides critical insights into denaturation-based assays, highlights the value of insoluble fractions, and offers practical improvements for enhancing global PPI network mapping. |
| HostingRepository | PRIDE |
| AnnounceDate | 2026-02-03 |
| AnnouncementXML | Submission_2026-02-03_01:27:14.597.xml |
| DigitalObjectIdentifier | https://dx.doi.org/10.6019/PXD058773 |
| ReviewLevel | Peer-reviewed dataset |
| DatasetOrigin | Original dataset |
| RepositorySupport | Supported dataset by repository |
| PrimarySubmitter | Tavis Reed |
| SpeciesList | scientific name: Homo sapiens (Human); NCBI TaxID: NEWT:9606; |
| ModificationList | TMT6plex-126 reporter+balance reagent acylated residue; acetylated residue; deaminated residue |
| Instrument | Q Exactive HF; timsTOF Ultra |
Dataset History
| Revision | Datetime | Status | ChangeLog Entry |
|---|
| 0 | 2024-12-11 06:21:00 | ID requested | |
| ⏵ 1 | 2026-02-03 01:27:15 | announced | |
Publication List
| 10.1016/j.mcpro.2025.101479; |
| Reed TJ, Haubold LM, Hutton JE, Troyanskaya OG, Cristea IM, Exploring How Workflow Variations in Denaturation-Based Assays Impact Global Protein-Protein Interaction Predictions. Mol Cell Proteomics, 25(2):101479(2025) [pubmed] |
| 10.6019/PXD058773; |
Keyword List
| submitter keyword: Human, TPCA, I-PISA, TPP |
Contact List
| Ileana M. Cristea |
|---|
| contact affiliation | Princeton University, Molecular Biology Department, USA |
| contact email | icristea@princeton.edu |
| lab head | |
| Tavis Reed |
|---|
| contact affiliation | Princeton University |
| contact email | tjreed@princeton.edu |
| dataset submitter | |
Full Dataset Link List
Dataset FTP location
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| PRIDE project URI |
Repository Record List
[ + ]
[ - ]
- PRIDE
- PXD058773
- Label: PRIDE project
- Name: Exploring How Workflow Variations in Denaturation-Based Assays Impact Global Protein-Protein Interaction Predictions
