Using Synthetic Biology and pClone Red for Authentic Research on Promoter Function: Introductory Biology (identifying new promoters) A. Malcolm Campbell and Todd T. Eckdahl pClone Genotyping to Verify Promoter Cloning Students can verify successful cloning of synthetic promoters into pClone plasmids by PCR or DNA sequencing. PCR results in products that can be analyzed by agarose gel electrophoresis, as demonstrated by Figure S5. PCR verification works if the size difference between the PlacIQ1 promoter in pClone Red and the synthetic promoter is large enough to be reliably detected by gel electrophoresis. Students verified successful assembly using PCR primers that bound just outside the synthetic promoter insert site in pClone Red. The forward primer used was 5’ CACTGACAGAAAATTTGTGC 3’ and the reverse primer was 5’ GCATGATTAAGATGTTTCAGTAC 3’. Amplification reactions included 10 µL of 2X Promega GoTaq Green Master Mix (#M7123), 8 µL of H2O, 1 µL of 10 µM forward primer, and 1 µL of 10 µM reverse primer. One bacterial colony was added to the reaction with a sterile yellow tip. The thermal profile was one cycle of 5 minutes at 95ºC, 30 cycles of 30 seconds at 95ºC, 30 seconds at 43ºC, 20 seconds at 72ºC. Students analyzed amplicons by using a 2% agarose gel (prepared in advance by lab technician or faculty member) and electrophoresis in 0.5 X TBE. Unsuccessful assembly products are expected to be 267 bp for pClone Red and pClone Blue, and the size of successful products will be 196 bp plus the size of the synthetic promoter cloned which varies in size. 1 Figure S5. Student verification of plasmid genotype using PCR. PCR primers flanking the cloning site in pClone Red were added to student colonies (Ex1, Ex2, Ex3 and Ex4). The negative control (TT) was the original pClone Red plasmid. The positive control (+C) was part number J04450 which contained the known promoter that is longer than the other two promoters. Gel is 2% agarose and stained with ethidium bromide. MW = molecular weight marker. 2