An in silico proteomics screen to predict and prioritize protein-protein interactions dependent on post-translationally modified motifs.
Anna M. SchmokerHeather E. DriscollStefanie R. GeigerJames J. VincentAlicia M. EbertBryan A. BallifPublished in: Bioinform. (2018)
Keyphrases
- protein protein interactions
- predicting protein
- high throughput
- biological data
- network motifs
- drug design
- protein interaction
- biological networks
- wet lab
- systems biology
- genome wide
- predicting protein protein interactions
- functional modules
- biological processes
- microarray
- genomic data
- regulatory networks
- protein protein
- protein function
- computational methods
- protein function prediction
- protein complexes
- protein interaction networks
- gene ontology
- biomedical literature
- molecular biology
- network topology
- computational approaches
- mass spectrometry
- data sets
- transcription factors
- high precision
- knowledge discovery
- data acquisition
- gene regulatory networks
- secondary structure
- data analysis
- microarray data
- protein interaction data
- network analysis
- gene expression
- complex networks
- high dimensional
- association rules
- statistical methods
- databases