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	Análisis de Proteómica de Series Temporales ×	Análisis multiómico de proteómica ×
Campo	Bioinformática	Bioinformática
Familia	Process / pipeline	Process / pipeline
Año de origen≠	2000s (quantitative framework: Gygi et al. 1999; time-series designs: 2004–2010)	2010s (integrative multi-omics frameworks emerged ~2012–2019)
Autor original≠	Multiple groups; Gygi et al. (1999) established quantitative proteomics; time-series designs emerged in the 2000s with LC-MS/MS workflows	Le Cao, K.-A. and colleagues (mixOmics/DIABLO framework); broader field rooted in Aebersold & Mann proteomics work
Tipo≠	Quantitative longitudinal omics pipeline	Integrative computational pipeline
Fuente seminal≠	Lemeer, S., & Heck, A. J. R. (2012). The phosphoproteomics data explosion. Current Opinion in Chemical Biology, 16(1–2), 1–8. link ↗	Rohart, F., Gautier, B., Singh, A., & Le Cao, K.-A. (2017). mixOmics: An R package for omics feature selection and multiple data integration. PLOS Computational Biology, 13(11), e1005752. DOI ↗
Alias	longitudinal proteomics, temporal proteomics, dynamic proteomics, time-course proteomics	integrative proteomics, multi-omics proteomics integration, proteogenomics multi-omics, cross-omics proteomics
Relacionados	6	6
Resumen≠	Time-series proteomics analysis quantifies protein abundance across two or more ordered time points to reveal how the proteome changes dynamically in response to stimuli, developmental stages, or disease progression. By combining mass spectrometry-based protein quantification with statistical models designed for temporal data, the method identifies proteins with significant expression trends, oscillatory patterns, or delayed responses that cannot be detected in single time-point studies.	Multi-omics proteomics analysis integrates protein abundance data from mass spectrometry with at least one additional omics layer — such as genomics, transcriptomics, or metabolomics — to build a systems-level view of biological regulation. Rather than analyzing proteins in isolation, this approach correlates proteomic profiles with upstream molecular events (e.g., DNA variants, mRNA levels) and downstream functional readouts (e.g., metabolite concentrations), enabling discovery of regulatory drivers that single-omics analyses would miss.
ScholarGateConjunto de datos ↗	v1 2 Fuentes PUBLISHED	v1 2 Fuentes PUBLISHED

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