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Albert W Rettenmeier

Showing results (1-10 of 23) with videos related to

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Proteomics|January 20, 2011
Protein expression profiling in chemical carcinogenesis: a proteomic-based approachSimone Schmitz-Spanke, Albert W Rettenmeier
Metal Ions in Life Sciences|September 30, 2010
Methylated metal(loid) species in humansAlfred V Hirner, Albert W Rettenmeier
Proteomics|January 14, 2011
Recent advances in the use of Sus scrofa (pig) as a model system for proteomic studiesNisha Verma, Albert W Rettenmeier, Simone Schmitz-Spanke
Proteomics|May 25, 2012
Review on proteomic analyses of benzo[a]pyrene toxicityNisha Verma, Mario Pink, Albert W Rettenmeier, et al.
Archives of Toxicology|January 28, 2014
Integrated proteomic and metabolomic analysis to assess the effects of pure and benzo[a]pyrene-loaded carbon black particles on energy metabolism and motility in the human endothelial cell line EA.hy926Mario Pink, Nisha Verma, Albert W Rettenmeier, et al.
Electrophoresis|February 18, 2010
CBB staining protocol with higher sensitivity and mass spectrometric compatibilityMario Pink, Nisha Verma, Albert W Rettenmeier, et al.
Journal of Proteomics|April 30, 2013
Benzo[a]pyrene-mediated toxicity in primary pig bladder epithelial cells: a proteomic approachNisha Verma, Mario Pink, Albert W Rettenmeier, et al.
Electrophoresis|December 20, 2011
Proteome and phosphoproteome of primary cultured pig urothelial cellsNisha Verma, Carolin Bäuerlein, Mario Pink, et al.
Archives of Toxicology|July 26, 2019
Benzo[a]pyrene mediated time- and dose-dependent alteration in cellular metabolism of primary pig bladder cells with emphasis on proline cyclingNisha Verma, Mario Pink, Christian Kersch, et al.
Scientific Reports|August 31, 2017
Benzo[a]pyrene-induced metabolic shift from glycolysis to pentose phosphate pathway in the human bladder cancer cell line RT4Nisha Verma, Mario Pink, Stefan Boland, et al.
Pageof 3

Showing results (1-10 of 23) with videos related to

Sort By:
Pageof 3
Proteomics|January 20, 2011
Protein expression profiling in chemical carcinogenesis: a proteomic-based approachSimone Schmitz-Spanke, Albert W Rettenmeier
Metal Ions in Life Sciences|September 30, 2010
Methylated metal(loid) species in humansAlfred V Hirner, Albert W Rettenmeier
Proteomics|January 14, 2011
Recent advances in the use of Sus scrofa (pig) as a model system for proteomic studiesNisha Verma, Albert W Rettenmeier, Simone Schmitz-Spanke
Proteomics|May 25, 2012
Review on proteomic analyses of benzo[a]pyrene toxicityNisha Verma, Mario Pink, Albert W Rettenmeier, et al.
Archives of Toxicology|January 28, 2014
Integrated proteomic and metabolomic analysis to assess the effects of pure and benzo[a]pyrene-loaded carbon black particles on energy metabolism and motility in the human endothelial cell line EA.hy926Mario Pink, Nisha Verma, Albert W Rettenmeier, et al.
Electrophoresis|February 18, 2010
CBB staining protocol with higher sensitivity and mass spectrometric compatibilityMario Pink, Nisha Verma, Albert W Rettenmeier, et al.
Journal of Proteomics|April 30, 2013
Benzo[a]pyrene-mediated toxicity in primary pig bladder epithelial cells: a proteomic approachNisha Verma, Mario Pink, Albert W Rettenmeier, et al.
Electrophoresis|December 20, 2011
Proteome and phosphoproteome of primary cultured pig urothelial cellsNisha Verma, Carolin Bäuerlein, Mario Pink, et al.
Archives of Toxicology|July 26, 2019
Benzo[a]pyrene mediated time- and dose-dependent alteration in cellular metabolism of primary pig bladder cells with emphasis on proline cyclingNisha Verma, Mario Pink, Christian Kersch, et al.
Scientific Reports|August 31, 2017
Benzo[a]pyrene-induced metabolic shift from glycolysis to pentose phosphate pathway in the human bladder cancer cell line RT4Nisha Verma, Mario Pink, Stefan Boland, et al.
Pageof 3