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Disambiguation of "Palumbo, Giuseppe Alessandro Parasiliti"

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A multi-step and multi-scale bioinformatic protocol to investigate potential SARS-CoV-2 vaccine targets.

, , , , , and . Briefings Bioinform., (2022)

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Alessandro Valeri

Fluorescence resonance energy transfer between multiple chromophores studied by single-molecule spectroscopy. Uni Düsseldorf, (2009)

Katrin Palumbo-Zerr

Giuseppe Olivato

Giuseppe Veltri

Giuseppe Amato

 

Other publications of authors with the same name

In Silico Evaluation of Daclizumab and Vitamin D Effects in Multiple Sclerosis Using Agent Based Models., , , , and . CIBB, volume 12313 of Lecture Notes in Computer Science, page 285-298. Springer, (2019)A multi-step and multi-scale bioinformatic protocol to investigate potential SARS-CoV-2 vaccine targets., , , , , and . Briefings Bioinform., (2022)Agent based modeling of relapsing multiple sclerosis: a possible approach to predict treatment outcome., , , , , , , and . BIBM, page 1380-1385. IEEE Computer Society, (2018)Model verification tools: a computational framework for verification assessment of mechanistic agent-based models., , , and . BMC Bioinform., 22-S (14): 626 (2021)A multi-step and multi-scale bioinformatic approach to investigate potential source of cross-reactive immunity against SARS-CoV-2 UK variant., , , , , and . BIBM, page 3303-3307. IEEE, (2021)A MapReduce tool for in-depth analysis of KEGG pathways: identification and visualization of therapeutic target candidates., , , , , and . BIBM, page 2157-2162. IEEE, (2019)An agent based modeling approach for the analysis of tuberculosis - immune system dynamics., , , , , , and . BIBM, page 1386-1392. IEEE Computer Society, (2018)Verify: a toolbox for deterministic verification of computational models., , , , , , and . BIBM, page 1262-1267. IEEE, (2020)PEAK: A Clever Python Tool for Exploratory, Regression, and Classification Data. A Case Study for COVID-19., , , , and . BIOMESIP, volume 12940 of Lecture Notes in Computer Science, page 361-370. Springer, (2021)Moving forward through the in silico modeling of tuberculosis: a further step with UISS-TB., , , , , , , , , and 1 other author(s). BMC Bioinform., 21-S (17): 458 (2020)