- the
identification of
proteins through proteogenomics is
comparative proteogenomics.
Comparative proteogenomics compares proteomic data from
multiple related...
- as an
important tool for the
discovery of
biomarkers of disease. In
proteogenomics,
proteomic technologies such as m****
spectrometry are used for improving...
- in
protein folding studies. In what is now
commonly referred to as
proteogenomics,
peptides identified with m****
spectrometry are used for
improving gene...
- modification-specific antibodies.
Reagents are
created for use in flow cytometry,
proteogenomics, ELISA, immunoprecipitation,
Western blotting,
immunofluorescence microscopy...
-
approximately 12,000–14,000
pseudogenes in the
human genome. A 2016
proteogenomics analysis using m****
spectrometry of
peptides identified at
least 19...
- to
determine if
polypeptides are, in fact,
translated from a sORF.
Proteogenomics combines proteomics, genomics, and transciptomics. This is important...
-
Castellana NE, Pham V,
Arnott D, Lill JR,
Bafna V (June 2010). "Template
proteogenomics:
sequencing whole proteins using an
imperfect database".
Molecular &...
-
proteomics research scientist, who
leads international projects in
proteogenomics. Yu-Ju Chen
received a PhD in
physical chemistry at Iowa
State University...
- (also
Community Proteomics,
Environmental Proteomics, or
Community Proteogenomics) is an
umbrella term for
experimental approaches to
study all proteins...
- (2022). "Enhanced
protein isoform characterization through long-read
proteogenomics".
Genome Biology. 23 (1): 69. doi:10.1186/s13059-022-02624-y. PMC 8892804...
