Team:USTC CHINA/Notebook/Timeline
From 2013.igem.org
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2012
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Dec.15th2012
- annual recruiting season
brought a large number of inquisitive mind
to USTC igem team.
- annual recruiting season
brought a large number of inquisitive mind
2012
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Jan.26th2013
- systematic training begin
senior team members gave systematic training to the fresh
and assigned responsibilities for every individual.
- systematic training begin
senior team members gave systematic training to the fresh
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Feb.17th2013
- second training course
we held a simulated iGEM competition.
Everyone was serious about the task he or she received,
and gained a lot from the simulated competition.
In the end, the team leader was elected by us.
- second training course
we held a simulated iGEM competition.
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Mar.2nd2013
- grouping and brain storming
All the members were divided into several groups
according to each person's specialty and interest,
and were motivated in the mobilization meeting.
Everyone was ready for the coming activities.
- grouping and brain storming
All the members were divided into several groups
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Mar.30th2013
- Preliminary identified
several projects algae produce H2, natural competence
and magnetosome application
were preliminary identified as the promising projects.
- Preliminary identified
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May.15th2013
- SDI Conference
through heated discussion, we selected
optimization of blue-green algae produce H2 as our subject.
- SDI Conference
through heated discussion, we selected
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May.31th2013
- halmatogenesis
A recently published paper had already done
what we prepared to do, and we started to
search another competitve project.
- halmatogenesis
A recently published paper had already done
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June.5th2013
- In situ transdermal vaccine
born
- In situ transdermal vaccine
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July.10th-Apr.14th2013
- experiment pet part
Introduce plasmid containing the GFP sequence into E.coli
Extract the plasmid after verified by PCR
Connect GFP gene with TD-1 via PCR
Connect the fragment with RBS and locus of restriction
enzyme digestion via PCR
Digest the sequence and the plasmid
with same restriction endonuclease
Connect the sequence and the plasmid with DNA ligase
Verify the recombined plasmid by PCR
Sequence the plasmid
Introduce recombined plasmid into E.coli
Verify the bacterium by PCR
Induce protein expression
Verify the protein by SDS-page
Secret protein abundantly
Concentrate the protein via nickel column
Verify the protein by SDS-page
Transdermal experiments
- experiment pet part
Introduce plasmid containing the GFP sequence into E.coli
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Apr.15th-Sept.10th2013
- experiment B.subtilis part
Get the GFP sequence via PCR
Connect GFP gene with part of TD-1 via PCR
Connect the fragment with another part of TD-1 via PCR
Connect the fragment with promoter and
signal peptide via PCR
Digest the sequence and the plasmid with
same restriction endonuclease
Connect the sequence and the plasmid with DNA ligase
Verify the recombined plasmid by PCR
Sequence the plasmid
Introduce recombined plasmid into B.subtilis
Verify the bacterium by PCR
Induce protein expression
Concentrate the protein via TCA
Verify the protein by SDS-page
Secret protein abundantly
Concentrate by centrifuging
Verify the protein by SDS-page
Transdermal experiments
- experiment B.subtilis part
Get the GFP sequence via PCR
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Sept.14th2013
- in vivo Transdermal antigen
antibody response validation
- in vivo Transdermal antigen
2013
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