180 likes | 334 Views
Biotechnology Lab Program. Bruce Wallace. pARA-R Sequence. RFP Expression Sequence. Laboratory Protocols by:. Marty Ikkanda. Powerpoint by:. Anthony Daulo Kristi Schramm. Pierce College, Woodland Hills, CA. V.1.2a.3. pARA-R construct. Bruce Wallace. Recombinant plasmid of interest.
E N D
Biotechnology Lab Program Bruce Wallace pARA-R Sequence RFP Expression Sequence Laboratory Protocols by: Marty Ikkanda Powerpoint by: Anthony Daulo Kristi Schramm Pierce College, Woodland Hills, CA V.1.2a.3
pARA-R construct Bruce Wallace Recombinant plasmid of interest BamH I pARA-R 5,302 bp PBAD-rfp 806 bp Hind III
BamH I sticky end Hind III sticky end Hind III sticky end BamH I sticky end Engineering the Plasmid: ligation of rfp gene into p-ARA Bruce Wallace 3’ 5’ 3’ 5’ 5’ 3’ 5’ 5’ 3’ 3’ 3’ 5’
Restriction digest of pARA-R Bruce Wallace Recombinant plasmid of interest BamH I BamH I pARA-R 5,302 bp PBAD-rfp 806 bp Hind III Hind III
Restriction analysis of pARA-R Bruce Wallace Restriction fragments after digest with Hind III and BamH I BamH I Hind III 4,496 bp Hind III BamH I 806 bp
10000 8000 5000 4000 3000 2000 1500 1000 500 Restriction analysis of pARA-R Bruce Wallace Prediction for restriction gel A- A- A+ M A+ M
pARA-R construct Bruce Wallace Recombinant plasmid of interest BamH I pARA-R 5,302 bp PBAD-rfp 806 bp Hind III
Calcium ions Preparing competent cells for transformation Bruce Wallace Lipid bilayer (inner) Peptidoglycan layer Adhesion zone Lipid bilayer (outer)
Competent Cells pARA-R Transforming Escherichia coli with pARA-R Bruce Wallace Recombinant Plasmids
Calcium ions pARA-R Transforming Escherichia coli with pARA-R Bruce Wallace Lipid bilayer (inner) Peptidoglycan layer Adhesion zone Lipid bilayer (outer)
Growth of transformed bacteria on various plates Bruce Wallace P+ plates LB LB/amp LB/amp/ara P- plates No growth LB LB/amp
LB/amp/ara broth Preparing an overnight culture of E. Coli for RFP expression Bruce Wallace Colony isolation and culture
araC gene PBAD rfp gene mRNA araC protein RFP expression Bruce Wallace Transcription Translation
araC protein prevents RFP transcription by causing a loop to form in the region of the fp gene r araC gene PBAD rfp gene RFP expression Bruce Wallace araC protein
araC gene PBAD rfp gene RFP (red fluorescent protein) mRNA Transcription RFP expression Bruce Wallace Arabinose – araC protein complex prevents DNA looping and helps to align RNA polymerase on the promoter site (PBAD). arabinose Translation RNA polymerase arabinose – araC protein complex araC protein
Bruce Wallace RFP
Purification of RFP from an overnight culture Bruce Wallace Overnight culture Cell pellet with RFP Lysed cells Pellet cell debris RFP with binding buffer