M Frank scite author profile

Data independent acquisition (DIA) modes isolate and concurrently fragment populations of different precursors by cycling through segments of a predefined precursor m/z range. Although these selection windows collectively cover the entire m/z range, overall only a few percent of all incoming ions are sampled. Making use of the correlation of molecular weight and ion mobility in a trapped ion mobility device (timsTOF Pro), we here devise a novel scan mode that samples up to 100% of the peptide precursor ion current. We extend an established targeted data extraction workflow by including the ion mobility dimension for both signal extraction and scoring, thereby increasing the specificity for precursor identification. Data acquired from whole proteome digests and mixed organism samples demonstrate deep proteome coverage and a very high degree of reproducibility as well as quantitative accuracy, even from 10 ng sample amounts.

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Multi-omic measurements of heterogeneity in HeLa cells across laboratories

Liu

et al. 2019

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Reproducibility in research can be compromised by both biological and technical variation, but most of the focus is on removing the latter. Here we investigate the effects of biological variation in HeLa cell lines using a systems-wide approach. We determine the degree of molecular and phenotypic variability across 14 stock HeLa samples from 13 international laboratories. We cultured cells in uniform conditions and profiled genome-wide copy numbers, mRNAs, proteins and protein turnover rates in each cell line. We discovered substantial heterogeneity between HeLa variants, especially between lines of the CCL2 and Kyoto varieties, and observed progressive divergence within a specific cell line over 50 successive passages. Genomic variability has a complex, nonlinear effect on transcriptome, proteome and protein turnover profiles, and proteotype patterns explain the varying phenotypic response of different cell lines to Salmonella infection. These findings have implications for the interpretation and reproducibility of research results obtained from human cultured cells.

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Complex‐centric proteome profiling by SEC ‐ SWATH ‐ MS

Heusel

Bludau

Rosenberger

et al. 2019

Molecular Systems Biology

127

114

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Proteins are major effectors and regulators of biological processes that can elicit multiple functions depending on their interaction with other proteins. The organization of proteins into macromolecular complexes and their quantitative distribution across these complexes is, therefore, of great biological and clinical significance. In this paper, we describe an integrated experimental and computational technique to quantify hundreds of protein complexes in a single operation. The method consists of size exclusion chromatography (SEC) to fractionate native protein complexes, SWATH/DIA mass spectrometry to precisely quantify the proteins in each SEC fraction, and the computational framework CCprofiler to detect and quantify protein complexes by error‐controlled, complex‐centric analysis using prior information from generic protein interaction maps. Our analysis of the HEK293 cell line proteome delineates 462 complexes composed of 2,127 protein subunits. The technique identifies novel sub‐complexes and assembly intermediates of central regulatory complexes while assessing the quantitative subunit distribution across them. We make the toolset CCprofiler freely accessible and provide a web platform, SECexplorer, for custom exploration of the HEK293 proteome modularity.

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Evaluation of an Online Education and Support Intervention for Adolescents With Diabetes

Nicholas

Fellner

Frank

et al. 2012

Social Work in Health Care

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The current study evaluated an online education and support website intervention for adolescents with Type 1 diabetes. Participants were enrolled in an 8-week, online program addressing diabetes-related issues for adolescents. The evaluation comprised an intervention trial in which participants were assigned to an intervention or control group, and pre- and post-intervention measures of social support were administered. Outcomes indicated interventional gains approaching significance in participants' quality of relationships with others external to their family. Post-intervention qualitative interviews with intervention group participants identified beneficial impacts of decreased isolation, knowledge gain, and normalization of experience. Findings suggest that online information and support is an important resource in augmenting clinical care. Implications and recommendations for clinical practice are discussed.

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A Global Screen for Assembly State Changes of the Mitotic Proteome by SEC-SWATH-MS

et al. 2020

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M Frank

diaPASEF: parallel accumulation–serial fragmentation combined with data-independent acquisition

Multi-omic measurements of heterogeneity in HeLa cells across laboratories

Complex‐centric proteome profiling by SEC ‐ SWATH ‐ MS

Evaluation of an Online Education and Support Intervention for Adolescents With Diabetes

A Global Screen for Assembly State Changes of the Mitotic Proteome by SEC-SWATH-MS

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