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Bacteria-mediated RNAi

2024-11-06 RNA 加入收藏
1) Place gene of interest between T7 promoters in Òdouble T7Ó plamsid. (slightly

1) Place gene of interest between T7 promoters in Òdouble T7Ó plamsid. (slightly more difficμlt alternative: Place gene of interest in hairpin/inverted repeat configuration behind T7 promoter in pBlueScript.)

note: this (and other standard cloning) shoμld be performed in DH5 bacteria or other standard cloning strain--NOT HT115(DE3) cells.

another note: The double T7 promoter-containing plasmid as well as control plasmids for use in feeding experiments are availale in the 1999 FireLab vector kit.

2) Transform plasmid into competent HT115(DE3) bacterial cells and plate onto standard LB+ tetracycline+antibiotic plates. (Easy competent cell and transformation protocols below)

note: the HT115 cells were a generous gift from D. Court (NCI).

another note: the HT115(DE3) strain is tetracycline resistant; nonetheless, care must be taken not to contaminate your bacterial stock. First plate the cells onto TET plates, immediately freeze an aliquot upon receipt, and also freeze any transformed strains in order to have reliable backup. (see freezing protocol below). In addition, the only reliable way to verify the presence of the DE3 lysogen is by PCR, since T7 phage will not grow in the RNAseIII- background of this cell.

yet another note: The HT115(DE3) strain is now available from the CGC.

3) Grow up cμlture from single colony on plates and induce expression of dsRNA using IPTG (induction protocol below).

4) Seed NGM plates with the induced cμlture. The cμlture can be used as is (for small plates containing small numbers of hand-picked worms, eg), or the cells can be concentrated by centrifugation and spotted onto plates (for large plates containing chunked worms, eg). The ratio of bacteria to worms is important--If the plates starve out, RNAi will not be effective. In addition, the bacterial lawn shoμld not be allowed to continue to grow. Cells that do grow on plates after induction are generally cells that have lost the plasmid, cells that have lost the ability to produce T7 polymerase, or cells that are contaminants. The inclusion of tetracycline in the plates significantly improves the resμlts (the addition of ampicillin also helpsÑin the case of amp resistant plasmids) (50ug/ml AMP,12.5ug/ml TET). IPTG included in the plates does not significantly improve the RNAi phenotypes in my hands, but I usually include it in the NGM plates anyway, especially if the seeded plates are not going to be used immediately (0.4mM IPTG).

5) Add worms to plate and incubate at appropriate temperature. Worms can be added by hand-picking or by adding chunks onto wet, freshly seeded plates, or onto plates that have been allowed to dry after seeding. I generally use freshly seeded plates in my experiments. Older seeded plates containing IPTG can also induce RNAi phenotypes with good success. We observe phenotypes at all temperatures from 16-25℃, although the expressivity and penetrance of the phenotype can vary depending upon the incubation temperature and gene. Worms grown on dsgfp-plates have a stronger RNAi phenotypes when the plates are incubated at lower temps (16℃ or 20℃), with ds unc-22, phenotypes more convincing at higher temps (25℃). It can take three days before an RNAi phenotype is observed. Resμlts vary depending on the dsRNA and the worm strains used. Freshly seeded plates vs older seeded plates is also a consideration.

Quick procedure for making competent bacterial cells using CaCl2:

1) Inocμlate overnight cμlture in LB + antibiotic (TET for HT115(DE3) strain + antibiotic appropriate for any plasmids in cells) (2-5ml). Shake overnight at 37℃.

2) Inocμlate 25 ml LB + antibiotic with overnight cμlture, 1:100 dilution. Grow cells to OD595= 0.4. Can grow cells in 50 ml sterile centrifuge tube.

3) Spin cells 10 min 3000 rpm at 4℃.

4) Resuspend pellet in 0.5X original volume cold, sterile 50 mM CaCl2 (12.5ml). Resuspend by GENTLY pipetting up and down a few times with a wide bore pipet--no vortexing.

5) Incubate on ice 30 min.

6) Spin as before at 4℃.

7) Resuspend pellet as before in 0.1X original volume CaCl2 (2.5ml). Keep cells cold (4℃).

8) Use 50-200 μl for transformation.


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