Table 3.
Strategies to screen for PPIs in the yeast two-hybrid system
| Library type | Features, with advantages (+) and disadvantages (−) |
|---|---|
| Genomic DNA | For organisms with low intron occupancy and small intergenic regions; genomic DNA is cut with ClaI-compatible restriction enzymes (95, 299); +, cheap, incomplete fragments may facilitate positive outcome (e.g., with membrane proteins or incorrectly annotated protein-encoding genes); −, small fraction of in-frame protein coding fragments, introns are present |
| cDNA | For organisms with high intron occupancy and large intergenic regions (614); +, cheap, exclusion of noncoding fragments and introns, correct orientation; −, only partial fraction of in-frame protein coding fragments, strong difference in abundance between different cDNA fragments |
| Normalized cDNA | Normalizes the amount of cDNA fragments for each gene (683); +, exclusion of noncoding fragments and introns, correct orientation, better representation of each cDNA fragment; −, relatively expensive, only partial fraction of in-frame protein coding fragments |
| Full-length cDNA | Full-length cDNA fragments created with gene-specific forward primers (627); +, exclusion of noncoding fragments and introns, correct frame and orientation, balanced representation of each gene; −, expensive, complete cDNA fragments reduce the positive outcome rate for specific types of interactions (e.g., with membrane proteins) |
| Open reading frame DNA | Each open reading frame is individually cloned into the prey library by in vivo (gap repair) or in vitro (Gateway from Invitrogen) recombinational cloning (294, 650); +, exclusion of noncoding fragments and introns, correct frame and orientation, balanced representation of each gene; −, expensive, introns are present, complete ORF fragments reduce the positive outcome rate for specific types of interactions (e.g., with membrane proteins) |