Engineering inhibitory proteins with InSiPS: the in-silico protein synthesizer.
Andrew SchoenrockDaniel J. BurnsideHouman MoteshareieAlex WongAshkan GolshaniFrank DehnePublished in: SC (2015)
Keyphrases
- protein function
- amino acids
- protein sequences
- subcellular localization
- protein structure
- protein protein interactions
- amino acid sequences
- protein structure prediction
- biological data
- protein interaction data
- protein protein interaction networks
- dna binding
- contact map
- wet lab
- biological knowledge
- protein structure alignment
- mass spectrometry
- predicting protein
- protein complexes
- protein interaction
- protein folding
- cellular processes
- protein functional
- protein interaction networks
- amino acid composition
- drug design
- physicochemical properties
- engineering design
- secondary structure
- protein protein
- protein secondary structure
- protein structural
- sequence similarity
- high throughput
- saccharomyces cerevisiae
- tertiary structure
- gene regulatory networks
- chemical compounds
- functional modules
- molecular biology
- computational methods
- protein chains
- gene ontology
- contact maps
- computational biology
- protein function prediction
- sequence analysis
- protein classification
- biological entities
- biological processes
- sequence databases
- biological systems
- subcellular location
- structural motifs
- multiple sequence alignments
- network topology
- computational approaches
- multiple sequence alignment
- sequence alignment
- binding sites