"
Team:TU Munich/Notebook/Meetings
From 2012.igem.org
(→Tuesday, June 12th) |
(→Tuesday, June 12th) |
||
| Line 682: | Line 682: | ||
**it has to be checked whether the "Gentechnikgesetz" allows for dead genetically modified organisms or not | **it has to be checked whether the "Gentechnikgesetz" allows for dead genetically modified organisms or not | ||
| - | ''this report is incomplete'' | + | ''this report is possibly incomplete'' |
</div> | </div> | ||
Revision as of 20:45, 30 August 2012
Meetings
Tuesday, March 6th
Presentation of Research Results in our internal Wiki
General Remarks
1. Prof. Skerra recommended to stick to a consistent structure when presenting research results.
- Short summary of what you are about to say (e.g. "AlcR is a simple two component system from aspergilus nidulans which can be induced with ethanol")
- Give detailed information, such as: nucleotide and/or amino acid sequence, Link to PDB-entry, ...
- Last but not least, Your personal view & comments
Please make sure to update your entries to match this structure
2. There are some general arguments in favor of our project idea. One of them is, that the application of genetically modified yeast should be legal, because beer is filtered anyway, so no GMOs would be released from the closed system.
Promoters
Ethanol-inducible Promoters
- KlADH4-Promoter
The information given in our wiki was presented. The main question discussed was whether this system works specifically (similar to the lac-operon) or unspecifically (similar to a general stress response). If the system works specifically, it is unlikely that the KlADH4 promoter is going to work in S. cerevisiae, because in this case, an unknown specific transcription factor is most likely involved which is not present in s. cerevisiae. If the system works unspecific, we thought that only general stress factors and transcription factors are involved. In this case, chances are that KlADH4 can work in s. cerevisiae, because the necessary factors are most likely present. However, we don't know for sure which mechanism is the correct one (specific or unspecific). Therefore further literature research is necessary for this system.
- AlcR-Promoter
The information given in our wiki was presented. The system might be a good candidate, because it seems to be well characterized. Because we do not know many details about this system, further literature research is necessary for this system.
- Methanol-Inducible Promoter from Pichia pastoris, and methanol inducible systems from prokarya, such as Methylococcus capsulatis (BATH)
During the discussion about ethanol-inducible systems, two additional suggestions were made. The yeast pichia pastoris is known for its ability to express recombinant proteins upon methanol induction. Maybe this system can be adapted to respond to ethanol - apparently it is based on a specific methanol binding transcription factor. Further literature research is necessary. Also, there is a variety of bacteria which can grow with alcohols (e.g. methanol) as carbon source (Methylococcus capsulatis (BATH)). Maybe they can also provide a system for S. cerevisiae. Further literature research is necessary.
Inducible Yeast Promoters
- Chemical Induction: Last year, the iGEM team [British Columbia 2011] created the BioBrick BBa_K517000. This is a Galactose-inducible yeast-promoter which worked for them.
- There is a light-switchable promoter system for yeast which has been shown to work for example in a PhD-thesis. See Project Ideas for details. The fact that short light pulses instead of continuous radiation is sufficient to induce expression is an advantage, because light can destroy flavors.
Biosynthesis of small molecules
Resveratrol
There are two approaches for the synthesis of resveratrol, but both require the intermediate Coumaryl-CoA. The 2008 iGEM-Team from [iGEM Rice 2008] tried to submit the resveratrol synthesis pathway in yeast to the registry, but their BioBricks are not functional (for example, they still include forbidden restriction sites). However, the basic functionality of their construct has been shown to work by a different research lab. It would be a good idea to use the DNA they submitted to the registry and make it functional (e.g. removing the forbidden restriction sites...), because this is a great way to improve an already existing BioBrick, which is one of the things iGEM judges really like to see. Volker has already contacted them and got a friendly response.
Xanthohumol
Xanthohumol has never been produced in yeast. However, attempts have been made to alter the hops plant to increase its production of xanthohumol, which shows that beer with increased concentration of xanthohumol is a great idea. Two of the required genes have been well characterized, the other two haven't. The biosynthesis of xanthohumol also includes the intermediate Coumaryl-CoA.
Raspberry Ketone
The synthesis of Raspberry Ketone also includes Coumaryl-CoA.
Caffeine
Caffeine has never been produced in yeast. The required substrate for the synthesis occurs naturally in yeast, because it is a part of the nucleic acid metabolism. Two genes are required for synthesis of caffeine. Caffeine has been shown to inhibit growth of bacteria and yeasts at concentrations similar to that in coffee.
Aspirin
No enzymes are known which produce aspirin.
Nicotine
We decided against the production of nicotine for moral reasons. Our beer should be a healthy one.
Strawberry flavor
Strawberry flavor is not one single substance but a mixture of several hundreds. However, peach-flavor has been produced in yeast already. For interview teams: Ask Prof. Schwab about Furaneol (Dimethylfuraneol)!
Colors and pigments
In addition to the information given in our wiki, please look at [iGem 2011 Uppsala].
Beneficial Peptides and Proteins
The general question concerning Peptides and Proteins is how to ensure their secretion in yeast.
Knottins
Knottins do not fit our requirements well.
Thaumatin
The protein thaumatin is a natural sweetener. Its production should be easy, because only one gene is required.
Lactoglobulin
the digestion of ß-Lactoglobulin exhibits a broad variety of physiological active peptides. How many genes are required?
Discussion & Next steps
Decision on structure of project
We decided to focus on the following modules in our project:
- Promoters: Design a library containing three types of promoters: ethanol inducible (for EtOH-Sensor), light switchable and chemically inducible (for control of biosynthesis).
- Biosynthesis: The main focus will be on products derived from Coumaryl-CoA, because it is an intermediate for many interesting molecules. In addition to this, we also want to try to establish caffeine-synthesis, because only two genes are required.
- Proteins: The secretion of proteins is a good idea, because it will give us a third field of research. This module is promising, because it is likely to lead to easy successes (only one gene required for the production of thaumatin...)
Next Steps
Everybody should assign themselves to one of the following topics:
I) Detailed literature research
For one desired product/construct, find out exactly...
- How many genes are required?
- Which genes (including nucleotide sequence)?
- How do we get the physical DNA (ask a research lab to send it to us, extract from organisms via PCR, synthesis...)?
Please post your results in the wiki
II) "Taskforce Vector Design"
This group should focus on how to transform yeast. Which vectors are available, what techniques are necessary,...? For example, look at the 2011 iGEM Teams John Hopkins and Britsh Columbia. They worked with yeast and got decent results.
Interviews
Interviews with experts will take place on Friday, March 9th. If you are interested in helping, please contact Lara Kuntz.
Miscellaneous
Does anybody know a student from "Brauereiwesen"? It might be good to have one on the team!
Tuesday, March 20th
Overview
The main topics of the meeting were the interviews and the project structure. We agreed that everybody should research his/her topic until the next meeting in two weeks in order to get into the lab as soon as possible (beginning of April). Additionally, we should meet during a weekend (e.g. 15th of April) to work together for a whole day and to address issues such as fundraising and human practice.
We agreed on the following project structure:
Project structure
Promoter and regulation systems
1. Ethanol-inducible
2. Light-switchable
3. Chemically inducible
4. Constitutive active
Biosynthesis systems
1. Coumaryl-pathway
2. Limonene
3. Caffeine
4. Thaumatin
Interviews
1. Dr. Zankow, Beverage Oriented Biotechnology
Security issues
- In general, brewing beer with genetically modified yeast should not be a problem as far as security is concerned. If we manage to brew a beer with our yeast it should be safe for us to drink it because the filtration process is very efficient. However, we should not let other people who are not part of the team drink the beer.
- Dr. Zankow remarked that the filtration process might filter out resveratrol and that we should check how much resveratrol is still in the beer after filtration and whether it is functioning.
Alternative Project ideas suggested by Dr. Zankow:
- Removal of mycotoxins that are found in the grain
- Beer for a special group of patients (e.g. Celiac disease, Gout)
- nonalcoholic beer: since nonalcoholic beer does not taste as “satisfying” as normal beer, breweries are searching for something that adds taste to nonalcoholic beer. Dr. Zankow suggested Lactic acid
We are allowed to use the equipment of the chair to brew the beer.
2. Prof. Schwab, Biotechnology of Natural Products
He also made several suggestions for possible syntheses
- Eugenol (clove-like aroma)
- Limonene
- According to him, strawberry aroma is very difficult to make
Prof. Schwab can give use information on several pathways, e.g. for limonene
3. Prof. Hoffmann
- He was quite critical about resveratrol since only 1 % of the substance is actually functional in the body. Therefore a large amount of resveratrol is necessary to produce a positive effect.
He has mass spectrometers that we are allowed to use, protocols for analyzing beer are available and we can do as many analyses as we want to. Only 5 µl are needed for one analysis.
More detailed information on the interviews are to be posted soon by the interviewers.
Fundraising
- Lara talked to Prof. Herrmann and he is willing to give us money. We should send a specification of costs to his secretary.
- Another possible source could be the excellence cluster.
Human Practice
We should use the contacts from the team from last year (e.g. Spiegel). We briefly talked about other institutions that could help us to get some publicity:
- Carl von Linde Akademie
- Galileo (as Prosieben is based in Munich)
- Deutschlandfunk (contact person: Andreas Lang)
- Quarks&Co (contact person: Ranga Yogeshwar)
TO DO
- research the topic you have chosen until the next meeting in 2 weeks! (enzymes, sequences, sources etc.)
Wednesday, April 4th
Overview
The main aim of the meeting was to collect all information we gained and to know how we will move on in the laboratory. In some points we are able to order BioBricks already, but nevertheless more information are needed.
People: Volker, Georg, Jeffrey, Mary, Simon, David, Ingmar
Human Resources / General topics
19 Members are in the list (Wiki) and as soon as the semester starts (next meeting) hopefully everyone can come to the meetings.
We will need a brewer -> Georg will ask Hr. Zankhof if some students of his group are interested and Georg will also send an email at the 'Studienkoordination Brauwesen' if some like to join our group. Nevertheless: Does anyone of you know a brewer-student?? Please keep that in mind. Same with Product-&Mediendesign, does anyone knows a student in this field? Will be very helpful in a couple of weeks!
On the Mailing list, everybody of the wiki-list is included (thanks to Fabian) - you already got an email. Fabian will also create an iGem-Emailadress.
Please register at the iGEM-Homepage ! See also the link on the main page (registration on iGEM) After everybody registered, Prof. Skerra will accept us and the team is complete (so no code is needed).
Prof. Skerra ordered an computer for us, it will be in the lab of Prof. Skerra. He also recommends to use the program APE for DNA editing.
On the Saturday we will work together (remember the doodle), Volker will give us a basic introduction of how to check if the BioBricks we like to order for our experiments are okay and working.
Projects
Light-inducible Promoter (Jeffrey)
this project could also act as an independent project (For example if the yeast modification does not work)
BioBricks needed are available -> order them! circuitry (Logic gates) as a model to explain
Chromophore adding instead of producing it (for the first steps) Fusionprotein GAL4+Phyb is available in registry Measuring with FRET
Conclusion: we know everything we need -> ordering BioBricks -> laboratory -> next step: Two persons need to go through the idea with Jeffrey again & help him! -> more data search needed: Sequences where proteins bind
Constitutive Promoters (Georg)
promoters already done in iGEM -> look at team site of those projects behavior of promoters depending on glucose-concentration (the table Georg uploaded in Wiki is important) -> what else is changing during the brewery-process?
Conclusion: asking Prof. Schwab about plasmids with constitutive promoters If constitutive promoters are needed later on -> look in the databases (wiki) or find in registry (Kits available?)
Ethanol-inducible Promoter (Simon)
see details in wiki does not seem difficult -> paper asked Prof. Scherer for different microorganisms
AlcA-promoter in registry available -> BBa_K678001 -> ordering of BioBricks
Coumaryl-CoA (Ingmar)
Pathway from Phenylalanin to Comaryl-CoA does exist! (Prof. Schwab) See interview of Prof. Schwab (David, Volker) -> what could we use from Prof. Schwab? (Roman) -> More data research needed: which products are interesting? story to sell this kind of beer?
Next steps
Next meeting: Mo 16.4.2012 18.00
it is now very important that everybody who likes to participate and likes to bring this project forward will attend at this meeting after the semester break!
in the protocol there are some points on which we have to do more data search - please get involved in these subjects and tell us the results in the wiki.
Monday, April 16th
Organisation
Round of Introductions
Since most of us didn't know each other yet, we did a short round to introduce ourselves. This will hopefully be continued Saturday evening @teambuilding.
Press
jetzt.de contacted us to do an interview about last years iGem project, but as we told them we are participating this year again they will feature this years project as well. Simon did the interview on 17.04.
Logo
We showed the 5 ideas for the logo that were also uploaded to the wiki and had a poll on which logo to use as a first design idea:
| Logo I | Logo II | Logo III | Logo IV | Logo V |
| 9 Votes | 1 Vote | 0 Votes | 0 Votes | 12 Votes |
Final decision was to work on Logo V.
Additionally we decided that Jeffs Idea runs out of concurrence and could be used for the wiki design.
Vector Graphics will be created by Dennis
- Maybe someone knows a Mediendesign student who would like to join the team ?
Ideas for the logo design:
- keep it simple
- banderole thinner
- outer oval in bavarian blue/white pattern
- use the weihenstephaner logo for the upper part of the bottle
Comments by Prof. Skerra
- Sponsoring Letter
- Sell the beer brewing idea more as a working example than as the main idea to make the project more generally acceptable
- Prof. Skerra improved some parts of the sponsoring letters and is open to give more advice
- Work on the website
- Put the group photo online
- Add more information
Research
Prof. Schwab
Send a mail to Roman with the names of the enzymes that we need (trivial name is sufficient)
We also thought about the option to implement more of his ideas but rejected this notion since we already have sufficient nice ideas to work on.
Coumaryl
List of required genes to Roman. Please copy-paste Information to the new page on the wiki!
Limonene
Mail to Prof. Schwab: Is the one enzyme that we suppose to be sufficient really enough?
Caffeine
2-3 Enzymes (we will use the pathway that uses 3 since it seems more realistic to work) Roman contacted the authors of some papers but did not get any response from them so we do not know how we will obtain the genes.
Gene synthesis is possible (3k bp) but it is questionable whether it is really worth the effort since pathway is rather complicated and concentrations will most likely not reach physiologically active concentrations.
Thaumatin
2 other sweet substances are already available as biobricks but their potency is questionable.
The gene Thaumatin is, as most of the other genes, not BBRFC10 compatible but this does not really pose a problem since it is easily fixable by quickchange mutagenesis.
Gene Synthesis
It is probably very time efficient to synthesize some genes, therefore we need to check what is the cheapest/fastest solution here. Look at
- Mr Gene : http://biomatik.com/CustomServices/CustomGene/Gene-Synthesis.aspx
- Check the iGEM Sponsors : https://2012.igem.org/Sponsors ?
- Last years team : Mr Gene as far as I can tell (Fabian)
Promoters
Simon will begin working on the KlADH4 system next week and use a chemical inducible promoter for the required components.
Saturday
We will meet Saturday 21.4.2012 at 14:00 at the Seminar room to do an in-depth research afternoon.
Agenda idea:
- Find Research/Lab Groups
- Tour through the lab
- Introduction on what to pay attention when working with BioBricks
- Research in smaller groups
BRING LAPTOPS!
Afterwards we will eat something and have a beer!
Saturday, April 21th
Introduction by Volker into BioBicks and Methods
Quick introduction by Volker on BioBrick RFC10 & RFC25, Codon usage
Team forming
We split up into groups to do research in smaller groups. these groups will also realize the sub project so everybody who was not present please select a group an check with the group-leader.
We met in these smaller groups and only report our progress in the main meetings.
Next Meeting
- The time for the next meetings will be Tuesday 20:00. next date for the meeting will be May 1rst.
- Ideas
- Human Practice
- We need to come up with something new and fancy
- Interviews : not new
- Panel Diskussion : very time consuming
- TV - Galileo : we need to check
- Create a blog : last year HP price was awarded for a blog
- Partsregistry RFC
- Machine Readable Entries
- Standardized Information
- Check with Randy
- Usage maps
- Human Practice
- Research
- We need to accumulate data on sequences so we are able to order them and primers to make them RFC10/RFC25 compatible
- Please add the following table to all sequences:
| Name | Length | RFC10 | RFC25 | Codon Usage | NCBI |
| ... | ... bp | NxSite(location) ... | NxSite(location) ... | use http://gcua.schoedl.de/ and check whether we need to optimise | NCBI nucleotide link |
- Tell Volker so he can design & order Primers.
- Teambuilding at Huber in Freising
Tuesday, May 1st
General
To Do List
- The photo of our group ought to be placed on our website: iGEM 2012
- We should have a small team, which cares about the formulation of abstracts and project descriptions concerning our experiments and ideas in order to put that on our website
- The formulated sponsoring- letters should be uploaded in our wiki, to make them available for everyone
- @ Sponsoring- Team: When do you send out the letters?
- At the next meeting (15.5.2012, 20:00): Skype- Conversation with the student of Stuttgart (who wants to refer to us in her masters thesis)
- Prof. Skerra will be contacted concerning the following issues:
- general health and safety briefing
- outstanding team- applications (at the official iGEM Website)
- getting contact to people who have experience in working with yeast (especially in transformation with multiple genes, genome integration and heterologous expression) and would give as a "crash course"
- Contact Prof. Schwab on Monday, May 7th, after his lecture "metabolic engineering and production of natural compounds" (also for getting a "crash course" / good literature concerning yeast etc.)
- everyone of us should acquire general knowledge concerning transcription and translation in yeast (e.g. ribosome binding site, etc.)
- David should get a list with required chemicals and other stuff, we will need / perhaps need in the lab (for our sponsors)
- If anyone of us has / had personal contacts to enterprises in the field of biochemistry/ molecular biology etc., please tell David
- Get contact to the foundation that supported/ supports Team Heidelberg
- @ Volker: Can you put some general information (e.g. concerning primer- design) in our wiki?(e.g. regarding primer- design, etc.)
- Each team should make a list of the required BioBricks, sequences (to be synthesized - eventually codon optimized and with standard compatibility), and primers (sequences one wants to amplify, respectively, that primers can be designed) and give it to Volker (further required BioBricks can be put on the existing list (click here) in our wiki, respectively) until Friday, May 4th., for the order of the BioBricks should be arranged in the next days
Sub- Team Reports
Human Practice / Press / Video
(Jara)
- List of appropriate magazines, which could report on us:
- SNIP- Magazine (the chief editor happens to be my (Roman) cohabitant, so i could care about that)
- Zeit Wissen and Zeit Campus
- Freisinger Tagblatt
- Biospectrum
- Transcript
- Efellows
- after a few weeks and results (hopefully): Sueddeutsche Zeitung (again)
- Galileo
- if there are other ideas, tell Jara (e.g. SpiegelOnline, PM)
- Video
- Jara had the idea to make a video that looks like a beer- advertisement (bored people sitting in a beer garden, super yeast comes, giving them the new beer and happy end ... )
- to realize this, we could contact the Filmhochschule München
Ethanol inducible promoter
(Simon)
- Simon starts with this part of our project on May, 2nd.
- For now: simple yeast transformation experiment with GFP and pYES2 als vector system
- Later: Amplification of a special promoter out of Kluyveromyces lactis
Light-inducible [romoter
(Jeff)
- A PhD student will be contacted, in order to get some sequences
- As described in the project description, this group wants to change the Gal4BD for LexA
Limonene
(Lara)
- Lara could start in about 2 weeks with the labwork
- The sequence is available at the chair of biotechnology of natural compounds (Prof. Schwab), but a few codons should be optimized. Besides it should be checked, if the sequence is complete (because the comparison of the available vector and the sequence on NCBI have not the same length (perhaps due to a his- tag))
Caffeine
(Roman)
- Sequences can only be received by gene- synthesis
- Sequences have to be codon optimzed and partially mutated due to forbidden restriction sites
- Only the coding sequences will be used for amplification
- This project will start later
Thaumatin
(Jonas)
- This projects lab work can start soon, but since Jonas did not participate in the last meeting, further information will come at the next meeting
Next Meeting
- We decided to continue the "main meeting" in a two weeks interval and determined May, 15th 20:00
Tuesday, May 15th
Team logo
The first draft of the logo was edited. The letters should be written in “altdeutsch” to enhance the Bavarian effect. Another concept was introduced: “tumb”eer with labels for the bottle front, back and the top. The different flavors/ingredients (caffeine, limonene, etc.) were symbolized by different colors. The idea was to present a beer in the future which is created by the consumer. It could be presented for the iGEM competition as a view for 2050. However, the team-logo still needs to be designed.
Homepage
Martin will continue to work on the homepage and add the team picture.
Report by Roman
- People of the institute of professor Schwab will participate in our team as advisors. They will receive accession to the Wiki and officially be registered for the iGEM ream.
- Maybe the new advisors can offer a crash course in yeast-techniques. Complexity still needs to be defined. The most important issue would be the organization of yeast gene structures and the methods of selection. The genome integration and afterwards the selection is another important topic.
Team members need to read papers about gene co-expression in yeast!
Time is running out!
- Bricking needs to be done soon, because it takes a lot of time.
- Thaumatin, limonene and coumaryl could start very soon (1-2 weeks).
- Caffeine needs to be synthesized.
Sponsoring
Many different sponsors are acquired. Most important is Eurofins, because they will synthesize oligonucleotides for 0,10 Euro per base. More information are in the sponsoring section
Gene synthesis
- 3 genes need to be synthesized for the caffeine team
- 2 genes might be needed for the thaumatin team (they might be able to get the genes from Heidelberg)
- 1 gene is necessary for the light-inducible promoter team
Final orders need to be posted in the sponsoring section
Lab work
- Who has time? Timetable in internal wiki!
- A clear defined agenda of your lab work should be made to show it Prof. Skerra. This is very important for your lab work, too!
- Genes need to be ordered now or very soon. Otherwise we will run out of time!
Presentation of thaumatin
The presentation needs to be uploaded for everybody.
Introduction of the iGEM team to the institute
Idea: BBQ-night
BMBF
The invitation to Berlin was discussed and afterwards Martin, Lara and Volker were drawn to participate.
Public relations
Laborwelt will post news of our team on their website and in their newsletter. Possibly in the end of our project an article in their magazine will be published. Weekly updates, links and pictures are necessary for them.
Thursday, May 24th
Organisational Issues
- Team Instructors: Doreen Schiller (from Prof. Schwab's Department) already registered as an official team instructor for us. others may follow. Thanks to Roman for taking care of this!
- Trip to Berlin: Fabian, Lara and Volker have been signed up to represent our team and present our project in Berlin on June 28th.
- Barbecue: We will have a BBQ on June 5th, at 18:00 o'clock. Jara is the main contact for this. She should also get in touch with Klaus Wachinger to organize "Bierbänke" and everything else we need.
- Our homepage www.igem2012.de should be updated. We also need a logo
- Prof. Skerra made the following suggestions for the "Advertisement-Design" which Dennis presented previously (beer bottles): it should be "Alc 5.2" instead of "Alc 5,2, the name should be changed from "tumb" to "TUMbrew", the color of "glowing in the dark" should be changed to something greenish and this design (glowing in the dark) could/should be used as a first logo/picture on our homepage.
- There will be a list with our inventory (excel-sheet)
Project
General Comments Prof. Skerra
- The content is more important than the compatibility with iGEM standards
- Don't forget regulatory elements
- Find our about N-End-Rule
- We should make a brainstorming seminar, where we discuss functional examples from the literature about co-expression of heterologous genes in yeast. When looking for DNA-Sequences, it also helps to make a "patent research", for example using the homepage of the EPA (europ. Patentamt), because in patents, the DNA-Sequences have to be shown!
- In DNA sequences, the following unusual letters are used:
- n = any nucleotide
- y = pyrimidine (C, T)
- r = purin (G, A)
- When showing DNA-Sequences & designed primers, it is best to show two sequences (preferably a WORD-Document): One that shows what the final construct should look like and another one that shows the template DNA (usually a plasmid) and the primers you designed for the PCR. Also, you should know exactly which restriction enzymes you want to use for the cloning of your parts and why. Also have the GeneBank or Uniprot or PDB identifiers (codes) ready, so that you can easily show the respective enzymes.
Sub-Projects
Caffeine
- Make one long, functional gene-synthesis that contains everything: the genes coding for all three enzymes, regulatory elements and restriction sites to allow for easy excision of each gene and cloning into plasmids.
Limonene
We have two sources for this:
- A plasmid from Prof. Schwab. PCR will have to be done with this. This is lavendula limonene synthase
- A Biobrick on the distribution plate (lemon limonene synthetase). Unfortunately, this part already contains an E. coli RBS, so we will also have to perform a PCR with this part.
Tuesday, May 29th
"no protocol"
Tuesday, June 5th
Primer design
- 3 enzymes were accepted by Prof. Skerra and could be ordered (phenylalanine ammonia-lyase, limonene synthase, ???). We decided to order one primer pair with the consensus sequence and another without to prove whether the consensus sequence is necessary or not.
- For those who have to design primers: the region that anneals to the gene should be 18 bases long and should contain 10 G/C’s. Furthermore the overhang should be 6 bases instead of only 5.
- Everybody who designs a primer should consider how to detect the enzyme: enzyme assay, antibody detection (abcam is a supplier of antibodies,you can look there for an appropriate antibody! A search engine exists as well…does anybody know the name???) or detection via tag (strep-tag or his-tag)
Primer purification
- Primer that are longer than 60 bases should be purified
Co-expression of multiple genes in yeast
- We need detailed information over multicistronic constructs in yeast! How is it done in other labs??? Look for papers and create a word document with sequence information and annotations.
Restriction sites
- Restrictions sites inside a gene will be removed by quick change PCR after we proved the proper functionality
Lifetime of proteins
- Look for the N-end rule.
Lab work
- Saskia, Andrea, Lara and Daniela start working in the lab next week
Recruitment of a chemistry student to the team
- Some enzymes may be detected via assays. Therefore we need different chemicals which may be produced by chemistry students during a practical course
- Knowledge expansion of out team
- Ingmar tries to recruit a chemistry student
Presentation of Jessica
this report is incomplete
Tuesday, June 12th
New approach for vector design
Introduction of new approach for vector design by Volker
- multiple cloning site is modified before cloning to fulfill iGEM standards
- lab work aiming vector improvement starts June 13th (Saskia, Daniela)
- primers have to be redesigned to match the new standard and have to be ordered AS SOON AS POSSIBLE
Planning of lab work
- Quick change mutagenesis will be used to eliminate restriction sites that do not match iGEM standard
- Meeting for lab members that will start their work this week: June 13th, 3 pm
- Some groups got their primers approved by Prof. Skerra (Coumaryl), some need further planning (Thaumatin, Light-Inducible Promoter)
Primer design
- Everyone should use the same stop codon (TAA)
- 6 bases should be added to the primer ends (not GCGCG, but rather another restriction site)
N-end rule
- Groups should consider the N-end rule while planning their primers
- If protein contains an glutamic acid or similar amino acid at the N-terminus, a small amino acid like alanine could be introduced N-terminally
- this might lead to increase in protein stability!
- check with information provided by Ingmar on the main page
Codon optimization
- We have to look up a table containing codons preferred by yeast
- Uli Binder (employee of Prof. Skerra) can be contacted concerning codon optimization
- Also remember the online tool GCUA (Graphical Codon Usage Analyser) which can be found here: http://gcua.schoedl.de/
Lab book
- Discussion about whether lab book should be digitally or handwritten
- lab team that starts this week will use an ordinary lab book (one book each)
- digitalisation must be discussed in next meeting!
Brewing process
- our yeast strain is a top-fermented yeast. Top-fermented yeasts allow for fast brewing. BUT: Does our yeast grow in Gyle medium that is used in the brewing process?
- our two new team members (brewing students) will contact Simon concerning the yeast strain and will start an experiment to get information about growth behavior of "our" yeast in Gyle medium
- other things that need to be discussed:
- Is a specialized brewing yeast strain available that is fully sequenced?
- How can we make sure that the beer will be sterile and free of genetically engineered yeast?
- pasteurisation does kill the yeast but does not eliminate the dead yeast cells
- filtering might be a suitable approach, but oxygen will be lost and would have to be introduced afterwards
- brewing students will contact a specialist of our university concerning filter techniques
- it has to be checked whether the "Gentechnikgesetz" allows for dead genetically modified organisms or not
this report is possibly incomplete
