GAATCGATATCGTGAGGTGCAAATTGTCCGATGAATTTCACTGAAATTCGTGGCTTGTATTGTAGCTTCGCAATTGCAGC TTCGTTTCGACAGCAGGCCCACTTTCAGATCGAAGGCGTCTATAATCGCCATCCAGTCCCGTCGCCCTGTTCCCACAACG CCCCACAAATTTCGGGATCTAGCTGGCGTTTCGGGTGTCTAATTTCGGACCAGTGCACTGTGATTTCCGATTTCCAGTTT ACTTTGCTGACGGATCGCCCAAGTGGCGAAGTGGTTCTTGCTCGGAAAGTTGGCGCTTGCTAAAAGAAGGAGCAGTCCAG GTGGTTCCCCGCCAGTGGCATCAATGGAACTCGCGCTGGAGTTTGGGGCAACCTTGCAACTGCAAGGGTAAGAGCATCGC CGATTCCAGGAGCATTCGCAGTAAGCCCAAAAATAGCAACTCAAGTCAGTCGCGGTGGTCATTGTTATTGGCAAGAAGAA GAGGAAACGGATAGAACGCGGCAAATTCCTAGGAAAGCTCCCATGATCTAGCTTCAGTGCGGCCGCGTAAGGAAACTGCT CCAGCCAAGGAACTGGGCTTGCAGGAGCAGCAGATAGCACCCAGCCCACAAGGGACCACTCACCGACAATCCTCTCATGG CCCTGGCCAACGGGGGAGAGGATAGAATGGACGACAGCAGCAGCGGACGCACTTCGCTGGCGGACAGCGCCAGCCTGACG AACTCCTCGCTGCGCAGCGGCACCTCCTCGCAGAGCATCCACACCAACGATGGCACAATCCGTGTGTTCAACTTCACCAC CGGCGAATTTGAGCGTTTCCATCCCAACATGCTGTGCGAGGAGATCTGCAATACGATGTGCCGCCAGCTGGGCATTGCAC CAATTGCCCAGCTGCTCTACGGAATACGGGAGCACTCGACATCGCGACGTCCCTCGCCGCTGGTGCGTTTGGATCTGACG TGGTGCCTGCCCGGCGAGCGACTCAACTGCCAGCTGGTCTATTGCTTTCGGATGCGTTTCCGTGTGCCCGAATTGGATAG CCAGCTGGAGTTGATCGATGGACGGAGCCACAAGTTCCTCTACCGCCAAATGCGCTACGATATGCGGACCGAGCAAATCC CGGAGATTCGCTATCCGGAGCACAAGGACAAATCAACGGGACTGGCCGTGATGGATATGCTAATCGACGATCAGGAACAG TCGGAGGATCAGCAGGCGATGCGCTCCATCGAGAAGCTTTACAAACTGTATTTGCCACCGAGCTTGTGGCGCGCCCACAG CTTCTTTGTGGGCTCCAAGATACGTGAGGTTTTCCGCAGTCTAAAAGCGAATTCGCTGAGTGTGGAGCGTTTGAAGTGGC ACTATGTGCATCAGGTATCCCATTTGGCGCCCACCTATATGACCGAACAGTTCACCTGCACCGTTCAGTATCTGCCCAAC GAGGAGGTGGCCCGCGGTAGCGGACCCATCGGCACCAGTCTGGCCCACTCGACGTCGACGCTGGCCAGTTCTGGATCGAC CAACACTCTGTCCACGCTCACCACCAACACCAATTCCGTTGCACTCGGCGGCAGTGGCAAGAAGGCCAAACGACGTTCCA CCAGCGGTGGAATCGATGTCTATGTGCGAGTCTTTCCACACGATTCCCTGGAGCCTGGACTCAAGGTGGCCAGGGTCACC TCCGAGGCCACACTCAAGTGGATCCTTGTTGGCGCCGTGGAAGGAATTTTTATGATCTCCAAAATCAACGACACCTCTGT GCGGCTGGAAATCGTTGGTCTGCCCAAGGGCTACGAGATGCAGTTTCAGACGGAGAAGGAGATGAAGTCCTTCATCTCCT ACCTGGGTATCTACATCAGATTGTCGAGCAAATGGATGCAGGATCTGTGCCATTCGTACCGCACGCCCTCCCTGGAGGAG CTGAGCTCCCTCCACTGCCATGGTCCAATCGGCGGTGCCTACTCGCTGATGAAGCTGCACGAGAACGGTGACAAGTGCGG CAGCTATATTGTGCGTGAATGCGATCGAGAATACAACATATACTACATCGATATCAACACCAAAATCATGGCCAAGAAAA CCGATCAGGAACGCTGCAAGACGGAGACATTTAGGATCGTGCGCAAGGACTCGCAATGGAAGCTAAGCTACAACAACGGC GAGCATGTACTAAACTCACTGCACGAAGTGGCGCACATCATTCAAGCGGATAGTCCCGATCGCTATCGCATACCCGCCTC CAAATATGACAAGCCGCCGCTGCTGCTACTGCTGCTGCCAAAGAACCTCAAGGCCAAAAAGACTGACCTCCAGCTGAGCG AGGCGGAGCTGCAGCGCCGCAATCCGCAGATCTTCAATCCCCGAACGGATCTGCAGTGGTATCCAGATTCGATATCGCTT AGCGACGATGGCATGATGTTTACGATGCGCGGCGATTGGATCCAACAGAGTCCCGTCAAGGATGTGTCCGTGACGATGAA AATGCTAAAGAGCGATGGCAATTTCATGGAGTTCTTTCGCTTGGCACAGACCTGGAGCCTCATCCAGTCGCCGCAGTTCC TCAAGCTGTACGGCCTAACGCTCGCCGATCCGTACACAATGGTCATGGAGTATTCGCGGTATGGTCCGCTCAATAAGTTC CTGCACTCGATGCCCAATGTAACACTGCATTGTCTACTGGATCTGATGCATGGATTGGTGCGCGGCATGCACTATTTGGA GGACAACAAGATTATCCACAATTACATACGATGCAGTAATCTGTACGTGACCAAGTACGATCCGAATTCGTACGTGCTAG ACGCGAAAATTAGCGATCCCGGCTATCCGCGTCCCTACCGAGAATCCGACTCGCCATGGATACCTGTTAAGTATTATCGC AATTTGCAAGCAGCCAAAACGGATCAGTTTGCCCAGCTGTGGGCCTTCGCTACCACCATATACGAGATCTTCTCGCGCTG CAAGGAAGATCTGAGCACACTGCGCCAGGAGCAGCTACTCAGGCAGAAAAATCTCGATGGCAACATACTCAAGATGCTCG ATCAGGACATCTGTCCGGCGCCGATATTCGAGACAATCATGGATGGATGGTCCGATGATGAGACCAAGCGCTTCAGTCAC CACGACATTTTCTCGCGTCTCAACACGATCAAGGCGGAAATTCTGCCCAATTATATGCCGCCACCCGAGATCGCAACGAA TGGAACTGGAGACGAGACCGTGATCGATAGAAGCGACATACCCTTTCTACCCTTTCCGCGTTCGAATATGTTGATGGTCA TACCGCTGACCAGCGAATGTCGAGTGATCTACAACATGGAGAACATGATCGGGCGCGGTCATTATGGCACTGTCTACAAG GGTCATCTGGAGTTCAACGACAAGGATCAGCCGCGCGAGCAGGTTGCCATCAAGATGCTGAACACCATGCAGGTGTCGAC CGATTTTCATCGCGAGATCGGCATCATGCGCACCCTCAGTCATCCGAACATAGTCAAGTTCAAGTATTGGGCTGAGAAGT CGCACTGCATCATTATGGAATATCTGCAATCTGGTTCCTTCGACATTTACCTGCGTTTCACGGCACCCAATCTCAATAAT CCACGGCTCGTCAGCTTCGCTTTAGATATTGCAAATGGCATGAAATACTTGTCCGACATGGGACTCATCCACCGCGACCT GGCCGCCCGCAACATTTTGGTGGACCACAACGGCGATGGTGACTGCGTCAAAATCTCAGACTTCGGCCTGGCGCAATTCG CCAATTCCGATGGATATTACTATGCGAAAAGCAAGCGTGATATTCCCATTAGATGGTACTCTCCGGAGGCCATCTCCACC TGCAGATTCTCATCGTATTCGGATGTTTGGAGCTATGGCGTGACGCTCTTCGAAATGTTTTCGCGCGGCGAGGAGCCCAA TTTGGTGCCGATCCAGACATCGCAGGAGGATTTCCTCAATCGCCTTCAGAGCGGCGAACGCTTAAATCGTCCGGCCAGTT GTCCCGATTTCATTTACGACCTGATGCAGCTGTGCTGGCATGCCACGCCCCGTTCGCGACCCAGTTTCGCGACCATTGTG GACATCATCACAAGGGAGGTGGCCACCAAGGTGACGCACCCGACAGATGGACACCAGTCGCCGCCGAATCAGCCGACGGA TGCCGAGTGACTGTTGACAACTGAATGAAATCGATATACACACACAATTAGGCATAAGGTCTTTTAAGATGTTAGCATTT AAACTGTACGTTTTTAAAACAACACAAGCCAGACCCCAAAAACCACTTGACGCAATCCTTGGCTTAAAGCGCTATCGGAA GAATCACATTGACCCCCAACCAATCAATCATTCATCCATACCAAATCCGGATACACTTACGCCATCGCAAGCATTTTTGG ATTCTCGCCAGATCTTAGTTTTATTTGATTGTGCTTACCACTGGCCACGCCCCCCTACCTCCAATGTCATTAAGCCCACC CCTCCTCCCCCCTCTTGACAAAGCGAAAGTCCACACTTTATATGATATATGTATATGTATAAACAAATTCTCAACCTACT TTGTGTTATACATTTTAGACAACTTTGTTAAATATTGTTAAGCTTGAGCTTCAATTTTTTTTTTGTAATGCCCACACCAC GCATAAACACTGAACTAAACTAAACTAAATTAATCATAACGTGTAAATAATAATTAAATTAGTTAAGGGTTTAATCGCGA AACGGCAACACACGGTAATTTACAAAATGAATGGACGTCGACAGAATCGAAAGGATGCTGCTGCGATCTGTTCTGTTCGG CGACTAAGTCGAACCGCCTAATCTACGCAAAAAAAAAAAAAAAA
Full-length open reading frame fused to a carboxyl-terminal FLAG-HA tag cassette under the control of a metallothionein promoter.
A cDNA sequence encoding each bait molecule was cloned into the pMK33-C-TAP-FLAG-HA-BD vector as a full-length open reading frame, fused to a carboxyl-terminal FLAG-HA tag cassette under the control of a metallothionein promoter. cDNA sequences are derived from previously characterized and publicly available clones created by the Berkeley Drosophila Genome Project; all inserts are full-length sequence-validated.