Team:Warsaw/Calendar-Main/6 July 2009
From 2009.igem.org
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Informal meeting concerning important issues of the Project
Michał, Paweł
Today in the evening we met in the lab located on Pawinskiego street to, during some transformations, discuss problematic issues of the Project. Here are some problems we have to solve:
- how to locate whole system on 1-2 plasmids (I mean - how to prevent promotor leakage due to parallel arangement of operons?
- new standard for cloning inverted parts?
- or should we make just inverted parts - with exchanged prefix and suffix - it will be compatible with standard but in the opposite way :)
- Where to put the secretion system genes?
- and should it be inducible of constitutively expressed?
- Secretion signal is a real problem if we want to direct our proteins to mitochondria. Both secretion and mito- signals are located in the N-terminus of protein
- with p53 another problem is that we do not know if even with mito signal it will be located in mitochondria. Romek from ZGUW is a great source of knowledge :) :) :) and he said that proteins containing zinc fingers need to have nuclar export signal (NES) to be located outside nucleus
- as it can be see from above point - p53 isn't ideal for induction of apoptosis
- of course we can do some 'real research' and check what conditions are needed for p53 to function properly in that manner, but is it worth our precious holiday time?
- we don't know, or do we? if p53, just produced by bacteria can work as the inducer of apoptosis - eukaryotic proteins could be modified in multiple ways, and p53 isn't the exception - it can be modified by phosporylation, ubiquitination, sumoilation and some other, with each modification changing its function
- interesting alternative of p53 is Bax, which is also mitochondiral protein
- it can be easily accesible from ZGUW (Romek again! :) )
- we are sure that bax is inducing apoptosis and that it is a wonderful killer of eukaryotic cells
- but we don't know if bax protein will be toxic for bacterial cells - it has an ability to kill Saccharomyces cerevisiae if overexpressed so in bacteria it can also occur
- of course we can do some 'real research' and check what conditions are needed for p53 to function properly in that manner, but is it worth our precious holiday time?
- where to put LLO? in the invasion operon or in the endosome operon?
- in my opinion (Paweł) it should be expressed in endosome - so the second operon
- but Michał says that LLO need to have time for expression and escape from the endosome should be quick. Endosome operon is important especially for switching off the invasion operon
What do we have to do?? - solve these problems :) some literature search is needed
What's more - we have also planned some clonings
Gradient PCR inv
Kama
Tasks:
- Amplification of inv
Methods:
PCR mixture's composition:
1ul pfu buffer (Fermentas), 1ul MgSO4 (Fermentas), 0,5ul primers, 0,5ul dNTPs (10 mM), 0,25ul pfu turbo polymerase, 0,5ul template DNA from Listeria, optionally: 0,75ul DMSO, solution was topped up with H2O to 10ul.
- PCR programs:
inv
4min 95°C
(30s 95°C, 40s 40-48°C, 1min30s 72°C)x3
(30s 95°C, 40s 44-55°C, 1min30s 72°C)x28
10min 72°C
~ 7°C
- Electrophoretic separation on 1% agarose gel
Results:
- Gel (from left)
- M - GeneRuler DNA Ladder Mix #SM0333 (Fermentas)
- 1-5 - samples (annealing temperature increases to from the left to the right)
many unspecific products were obtained (product of the correct lenght marked with an arrow)
Quality check (cro PCR product and pKS isolate)
Kuba
- Gel (from the left)
- CRO
- pKS isolate
- GeneRuler DNA Ladder Mix #SM0333 (Fermentas)
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