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Team:Valencia UPV/Project/modules/methodology
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<p>In order to perform an accurate analysis of the sample, this technique must follow 3 simple steps:</p><br/><br/> | <p>In order to perform an accurate analysis of the sample, this technique must follow 3 simple steps:</p><br/><br/> | ||
| - | <ul> | + | <ul class="method"> |
<li><a class="black-bold">Sample preparation</a>: it is vital for a proper analysis that samples are unaltered during the whole process. | <li><a class="black-bold">Sample preparation</a>: it is vital for a proper analysis that samples are unaltered during the whole process. | ||
Revision as of 19:09, 12 October 2014
Headspace solid-phase microextraction is one of the most convenient techniques for analysing Volatile Organic Compounds (VOCs). It is a very sensitive, inexpensive, robust and easy-to-use technique since it does not require the use of solvents and is able to detect metabolites up to ppt (parts per trillion) with a low sample quantity.
In our case, we chose this technique coupled to a Gas Chromatography-Mass Spectrometry detection (see GC-MS) to analyse the presence of pheromones ((Z)-11 hexadec-1-ol, (Z)-11 hexadecenal, (Z)-11 hexadecenyl acetate)[see biosynthesis] in our samples, Nicotiana benthamiana leaves [see agroinfiltration].
This technique is based on the detection of volatiles present in the headspace of a vial. The volatiles diffuse from the sample (Solid phase) to the headspace (Gas phase) and are captured by an absorbent, a polymer-coated fiber with high affinity for them. After desorption from the fiber, volatiles are analysed by GC-MS.
In order to perform an accurate analysis of the sample, this technique must follow 3 simple steps:
- Sample preparation: it is vital for a proper analysis that samples are unaltered during the whole process.
- Therefore the biological material, leaves in this case, must be immediately kept on liquid Nitrogen after the removal from the plant.
- Then, leaves are ground to a fine powder with mortar and pestle and introduced in a screw cap headspace vial.
- Afterwards, EDTA and saturated solution of CaCl2 are added to inhibit enzymatic activity and stabilize the sample.
- Finally, they are sonicated to induce the release of volatiles from the solid phase to the gas phase in the headspace of the vial.
- Trapping of volatiles: volatiles present in the gas phase must be extracted for further analysis. Therefore a fiber coated with an adsorbent polymer is introduced in the headspace, and ‘traps’ the volatiles from the sample.
- Desorption: release of the volatiles from the fiber by thermal desorption which takes place in the insertion port of the Gas chromatograph.
