Team:Imperial College London/Project/Arabidopsis/Protocols

From 2011.igem.org

Revision as of 23:18, 3 August 2011 by Mingatipat (Talk | contribs)


Seedling protocol

- Weigh in appr. 50mg of arabidopsis seeds in eppendorf tube (one tube per 250 ml erlenmayer flask)
- Wash with 500 µl 70% EtOH for appr. 4-5 minutes per tube (mix well)
- Remove 70% EtOH and replace with 500µl 50% bleach
- Incubate for 20 minutes
- Wash several times with sterile ddH2O to remove bleach x3
- Vernalize seeds for 2-3 days

Prepare sterile medium

- Half strength Murashige salt (2.1g per liter ddH2O)
- Add 0.546g MES salt (buffer) per liter of media
- Adjust pH to 5.7-5.8 using 2M KOH
- add 10g sucrose (normally from 1% solution)
- Add 1% agarose = 10g/litre if making phytogel
- Distribute into erlenmayer flasks (125 ml/250ml flask)
- Autoclave for at least 15 minutes

Some notes

- Growth conditions : flasks on a shaker at appr. 200 rpm at constant light conditions
- Grow seedlings for 5-6 days

Bacteria uptake protocol

Overview : Bacteria is taken into the root plant will express GFP. At higher concentration of E.coli, GFP might be expressing more, however higher bacteria concentration might defect the plant cell.
- 10 ml of GFP. coli or GFPyeast preparation at a cell density of 50 A600 units was then added into the 250 ml hydroponic culture.
- After an overnight incubation at room temperature, roots were washed with deionized water and analyzed by CLSM.
- We can vary the concentration of E.coli by putting 0 (control), 5, 10, 20, and 40 ml of E.coli respectively
- For analysis of Arabidopsis root section by CLSM, visually assessed roots regions showing high fluorescence are excised (5–10 mm long), washed and embedded in 3% agarose.
- Hand-cut cross sections are transferred into curved slides, washed thoroughly with deionized water and analyzed by CLSM

Some notes

- Any work involving E coli will take place in the teaching labs and the plant growth room will only be used to grow plants in individual, sealed flasks: E coli will be added to media in the teaching labs and media change will also take place in the teaching labs to ensure containment of the bacteria.
- To ensure that no E coli get into the water ways in the plant rooms, we will dispose of the bacteria in the teaching labs by filling them into flasks, applying vircon and autoclaving the solution

Auxin uptake protocol

Overview : synthetic auxin is used to see the effect of Arabidopsis's root growth. Variation in auxin concentrations is applied to see the sensitivity of auxin in arabidopsis.
- To test auxin sensitivity, sibling families were sown onto medium as given above and supplemented with O, 0.0001, 0.001, 0.01, 0.1, 1.0, 10, or 100 pM indole-3-acetic acid (IAA).
- Medium preparation and seed sowing occurred under 0.5 pE m-2 sec-l incandescent light to minimize photooxidation of IAA. We use the siblings of Wt arabidopsis instead which is subjected to the same condition 1 day before the experiment.
- Growing is done at 23OC in darkness in two randomized complete blocks.
- After 3 days, hypocotyl and root lengths were measured on 10 plantslreplication. Data were normalized to lengths as a percentage of the control treatment and subjected to analysis of variance.

Some notes

- Concentrations of IAA causing 50% inhibition of root and hypocotyl growth (Isow) ere calculated for each replication by solving regression equations with y = y intercept + 2.

Glycerol stock protocol

- obtain the bacterial pellet from centrifugation
- resuspend the pellet with _microl dH20
- add _microl of 80% glycerol in each eppendorf.
- mix bacteria in 80% glycerol by resuspending the liquid many times