Patent ID: 8754013

Claim:
A method of identifying molecular interactions between molecules comprising: generating a diverse library of open reading frame (ORF) polynucleotides and ligating the ORF polynucleotides into a T7 phage display vector; wherein generating said diverse library of ORF polynucleotides comprises: isolating total RNA from a cell; generating orientation-directed cDNAs using tagged random primers; purifying and ligating the cDNAs into the T7 phage display vector, wherein the cDNAs comprise OFR polynucleotides, wherein the OFR polynucleotides ligated into the T7 phage display vector comprises a polynucleotide encoding a T7 capsid 10B fusion protein, wherein the polynucleotide encoding the T7 capsid 10B fusion protein comprises a T7 capsid 10B fused to the N-terminus of an ORF polynucleotide and a tag molecule fused to the C-terminus of the ORF polynucleotide, wherein said T7 capsid 10B tag is expressed on the C-terminus of the T7 capsid 10B fusion protein when the ORF polynucleotide is inserted in-frame; converting the ligated T7 phage vector into T7 dual display phage by transforming E. coli to produce T7 dual display phage, wherein the E. coli express a T7 capsid 10A fusion protein, wherein the T7 capsid 10A fusion protein comprises T7 capsid 10A with a C-terminal tag, wherein the T7 dual phage display both the T7 capsid 10A fusion protein and the T7 capsid 10B fusion protein; selecting the T7 dual display phage comprising expressed open reading frames, wherein the T7 dual display phage display both the T7 10A capsid tag and the T7 10B capsid tag for detection of open reading frame expressing phage, wherein the T7 10A capsid tag is detected by a tag binding partner which specifically binds to the T7 10A capsid tag, wherein the T7 10B capsid tag is detected by a tag binding partner which specifically binds to the T7 10B capsid tag; screening the T7 dual display phage for binding to a specific ligand, wherein T7 dual display phage containing an open reading frame is specifically enriched by binding to the specific ligand and eluted via enzyme cleavage; and, identifying molecular interactions between the expressed open reading frame and the specific ligand.