Team:HUST-Innovators
From 2014.igem.org
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+ | <font size="30px">Sincerely,we express our gratefulness to all the members in Team WHU-China. As our team is not from the College of Life Science | ||
+ | and Technology in HUST University, we found some troubles while finishing our experiments. When we could not find anyone for help | ||
+ | immediately, however, the Team WHU-China gave us a hand. They provided us a lab and gave us instructions during experiments, and | ||
+ | finally helped us construct our biobricks successfully.</font> | ||
<h6,style="font-size:30px; top:300px;">Sincerely,we express our gratefulness to all the members in Team WHU-China. As our team is not from the College of Life Science | <h6,style="font-size:30px; top:300px;">Sincerely,we express our gratefulness to all the members in Team WHU-China. As our team is not from the College of Life Science | ||
and Technology in HUST University, we found some troubles while finishing our experiments. When we could not find anyone for help | and Technology in HUST University, we found some troubles while finishing our experiments. When we could not find anyone for help |
Revision as of 04:34, 17 October 2014
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Home | ||||
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Evolution of Synthetic Biology | ||||
Overture(IGS and Bioinformatics)Sonata(NGS and Synthetic Biology)cadenza (III GS and ???)Docosahexaenoic AcidThraustochytrids |
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Tips | ||||
This wiki will be your team’s first interaction with the rest of the world, so here are a few tips to help you get started:
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What is SMRT | ||||
Phospholinked nucleotideZero-mode waveguide |
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Why uses SMRT(The merits compared to the NGS) | ||||
Relative TerminologiesContigsScaffoldAdvancement from NGSExtremely Long ReadsFor instance, the USDA had intended to sequence the microbes in goats. Compared to the least 18 contigs produced by the NGS, which means the project is uncompleted, the SMRT can get the ultimate contig—a successful sequencing. In SMRT, the coverage do not fluctuate as the GC content varies. So the Problem can be avoided. |
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Our Project | ||||
SequencingGRASS has some progresses: Sort, Bundle, Extract, RemoveAmbiguous, Erode IsolateContigsThink. Those are not needed while we are using the SMRT sequencing data. So we deleted code about them. Think about the NGS Assembly, nearly all the softwares use pair-end reads to link the contigs through the scaffolding process. Knowing that the reads from the Pacbio machines are extremely,after self-overlapping, we let the Pacbio sequence replace the contigs in GRASS to do the scaffolding. Here is a part of result: DHA engineering yeastAbstractThe two carbon atoms in the chain that are bound next to either side of the double bond can occur in a cis or trans configuration. A.Deep sea fish oilB.Marine microalgaeTechnical routeResults: |
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New Modle | ||||
The INNOVATION of the Synthetic-Biology’s ModulesHow to find the biobricks |
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DHA Production | ||||
definition | unit | |||
n1 | Methanol concentration | M | ||
nARA | ARA concentration | M | ||
nEPA | EPA concentration | M | ||
r1 | Concentration of transcribed mRNAs of PAOX1 | M | ||
r2 | Concentration of transcribed mRNAs of PAOX1 | M | ||
r3 | Concentration of transcribed mRNAs of PAOX5' | M | ||
m1 | Max transcription rates of PAOX1 | nM/S | ||
m2 | Max transcription rates of PAOX5 | nM/S | ||
m3 | Max transcription rates of PAOX5' | nM/S | ||
δ1 | Degradation rate of EPA | 1/H | ||
δ2 | Degradation rate of DHA | 1/H | ||
δ3 | Degradation rate of DPA | 1/H | ||
k | Translation rate | M/S | ||
γ | Degradation rate of mRNA | M/S | ||
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Software | ||||
Downloading: click here PS: Perl and Comprehensive Perl Archive Network are needed. |
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Part Submitted | ||||
Team Introduction | ||||
Advisors: Chen Gang, Wang Depeng ,Gong Yangming Team Members: Tang Yu, Dong Xiaolei, Wang Yiqiao, Hou Yuhan AttributionProposal: Zhang Yue Program designer: Tangyu, Dong Xiaolei Documentation: Zhang Yue, Hou Yuhan Proposal: He Yu Program designer: Liang Qihua, Zhang Zihe, Li Xiaotong, Yang Kairan Main Designer: Hou Yuhan Modeling :Hou Yuhan, Wang Yiqiao Main designer: Mo Bufei Content: Tang Yu, Dong Xiaolei, Wang Yiqiao, Hou Yuhan, Liang Qihua, Zhang Zihe, Li Xiaotong, Yang Kairan Acknowledgment |
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What we did | ||||
SafetyWould any of your project ideas raise safety issues in terms of: researcher safety, public safety, or environmental safety?Do any of the new BioBrick parts (or devices) that you made this year raise any safety issues?Is there a local biosafety group, committee, or review board at your institution?Do you have any other ideas how to deal with safety issues that could be useful for future iGEM competitions? How could parts, devices and systems be made even safer through biosafety engineering?CommunicationCooperation with Nextomics“What are the benefits using SMRT Data while the construction of biobricks?”“Faster, cheaper and able to be used by individuals.” | ||||
Special Thanks | ||||
Sincerely,we express our gratefulness to all the members in Team WHU-China. As our team is not from the College of Life Science
and Technology in HUST University, we found some troubles while finishing our experiments. When we could not find anyone for help
immediately, however, the Team WHU-China gave us a hand. They provided us a lab and gave us instructions during experiments, and
finally helped us construct our biobricks successfully.
Sincerely,we express our gratefulness to all the members in Team WHU-China. As our team is not from the College of Life Science and Technology in HUST University, we found some troubles while finishing our experiments. When we could not find anyone for help immediately, however, the Team WHU-China gave us a hand. They provided us a lab and gave us instructions during experiments, and finally helped us construct our biobricks successfully. | ||||