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Addressable Bacterial Conjugation UC Berkeley iGEM 2005 Michael Chen Vlad Goldenberg Stephen Handley Melissa Li Jonathan Sternberg Jay Su Eddie Wang Gabriel Wu Advisors: Professors Adam Arkin and Jay Keasling GSIs: Jonathan Goler and Justyn Jaworski 1 Project Goal To establish specific cell-to-cell communication between two populations of bacteria 2 Project Goal 3 Implementation NEED: To transfer genetic information from one bacteria to another MEANS: Bacterial Conjugation NEED: To specifically control who can read the message MEANS: Riboregulation 4 Bacterial Conjugation • Certain bacterial plasmids are classified as having a “fertility factor” i.e. F+ • Cells that have a F+ plasmid can conjugate and transfer their DNA to other bacteria F F+ FF Pilus Formation F F+- 5 Choosing Conjugative Plasmids There are many plasmids that are classified as conjugative.. For our project, we used F and RP4 plasmids for the following reasons: •F and RP4 exhibit differing pili lengths, biasing the order in which F and RP4 will conjugate •F and RP4 do no conjugate with themselves •F and RP4 are among the most studied and well-characterized conjugative plasmids •F and RP4 plasmids are readily available 6 Important Facts about Conjugative plasmids • Conjugative plasmids are very large, from 60k – 100k basepairs long •The TraJ protein is a regulatory protein responsible for initiating the DNA transfer cascade •DNA transfer during conjugation always begins at a specific sequence on the plasmid, OriT, the Origin of Transfer. 7 Modification of conjugative plasmids • TraJ was cloned and placed into biobrick plasmids under the control of promoters of our choosing • The OriT region was also cloned and placed into biobrick plasmids thus creating small, mobilizable plasmids • The OriT region and TraJ gene were knocked out with LambdaRed mediated recombination to prevent unwanted transfer of the F/R plasmid 8 Conjugation Results • An R-plasmid bearing cell can conjugate with an F-plasmid bearing cell •The F plasmid and R-plasmid knockouts fail to conjugate • The biobricked OriT-R plasmid is mobilizable by the R-plasmid knockout 9 The Riboregulator • Method of postranscriptional control of gene expression • cis-repressive sequence (“lock”) upstream of a gene’s coding region forms a hairpin, sequestering the ribosome binding site • trans-activating (“key”) mRNA strand binds and opens the hairpin thus allowing access to the RBS. • Highly specific activation occurs. Very similar lock and key pair sequences do not exhibit crosstalk Isaacs et al., Nature Biotechnology, 2004 10 Biobricked Riboregulator taR12 key crR12 lock Key 1 Lock 1 RBS region Biobrick Mixed Site Address Region Hairpin loop Start of locked gene 11 The Wiki http://parts2.mit.edu/wiki/index.php/University_of_California_Berkeley_2006 12 Oligo names are: Initials#### 13 Notes Write down EVERYTHING ...on the wiki 14 Plasmid names are Biobrick numbers 15 16 Filename is: InitialsDate-Description 17 18 BioBricks gaattcgcggccgcatctagagtactagtagcggccgctgcag EcoRI XbaI SpeI PstI 19 gaattcgcggccgcatctagagtactagtagcggccgctgcag cttaagcgccggcgtagatctcatgatcatcgccggcgacgtc Digest gaattcgcggccgcat cttaagcgccggcgtagatc ctagtagcggccgctgcag atcgccggcgacgtc Ligate gaattcgcggccgcatctagtagcggccgctgcag cttaagcgccggcgtagatcatcgccggcgacgtc 20 EcoRI XbaI SpeI PstI EcoRI XbaI SpeI PstI 21 EcoRI XbaI SpeI PstI EcoRI XbaI EcoRI XbaI SpeI PstI SpeI PstI 22 EcoRI XbaI EcoRI XbaI SpeI PstI SpeI PstI 23 EcoRI XbaI EcoRI XbaI EcoRI XbaI SpeI PstI SpeI PstI SpeI PstI 24