Difference between revisions of "Team:NYMU-Taipei"
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<div id="subcontext"><p>The purpose of our project is to utilize the a filamentous-fungi-specific CRISPR-Cas9 system 1 in conjunction with an optogenetic system 2 to construct a fast acting kill switch system for genetically engineered fungi, which is becoming ever more popular method for dealing with insect pest around the world. Two plasmids will be constructed, each carrying a module of our two part system.</p></div> | <div id="subcontext"><p>The purpose of our project is to utilize the a filamentous-fungi-specific CRISPR-Cas9 system 1 in conjunction with an optogenetic system 2 to construct a fast acting kill switch system for genetically engineered fungi, which is becoming ever more popular method for dealing with insect pest around the world. Two plasmids will be constructed, each carrying a module of our two part system.</p></div> | ||
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<div id="subcontext"><p>The purpose of our project is to utilize the a filamentous-fungi-specific CRISPR-Cas9 system 1 in conjunction with an optogenetic system 2 to construct a fast acting kill switch system for genetically engineered fungi, which is becoming ever more popular method for dealing with insect pest around the world. Two plasmids will be constructed, each carrying a module of our two part system.</p></div> | <div id="subcontext"><p>The purpose of our project is to utilize the a filamentous-fungi-specific CRISPR-Cas9 system 1 in conjunction with an optogenetic system 2 to construct a fast acting kill switch system for genetically engineered fungi, which is becoming ever more popular method for dealing with insect pest around the world. Two plasmids will be constructed, each carrying a module of our two part system.</p></div> | ||
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<div id="subcontext"><p>The purpose of our project is to utilize the a filamentous-fungi-specific CRISPR-Cas9 system 1 in conjunction with an optogenetic system 2 to construct a fast acting kill switch system for genetically engineered fungi, which is becoming ever more popular method for dealing with insect pest around the world. Two plasmids will be constructed, each carrying a module of our two part system.</p></div> | <div id="subcontext"><p>The purpose of our project is to utilize the a filamentous-fungi-specific CRISPR-Cas9 system 1 in conjunction with an optogenetic system 2 to construct a fast acting kill switch system for genetically engineered fungi, which is becoming ever more popular method for dealing with insect pest around the world. Two plasmids will be constructed, each carrying a module of our two part system.</p></div> | ||
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<div id="subcontext"><p>The purpose of our project is to utilize the a filamentous-fungi-specific CRISPR-Cas9 system 1 in conjunction with an optogenetic system 2 to construct a fast acting kill switch system for genetically engineered fungi, which is becoming ever more popular method for dealing with insect pest around the world. Two plasmids will be constructed, each carrying a module of our two part system.</p></div> | <div id="subcontext"><p>The purpose of our project is to utilize the a filamentous-fungi-specific CRISPR-Cas9 system 1 in conjunction with an optogenetic system 2 to construct a fast acting kill switch system for genetically engineered fungi, which is becoming ever more popular method for dealing with insect pest around the world. Two plasmids will be constructed, each carrying a module of our two part system.</p></div> | ||
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Revision as of 10:25, 5 October 2016
The purpose of our project is to utilize the a filamentous-fungi-specific CRISPR-Cas9 system 1 in conjunction with an optogenetic system 2 to construct a fast acting kill switch system for genetically engineered fungi, which is becoming ever more popular method for dealing with insect pest around the world. Two plasmids will be constructed, each carrying a module of our two part system.
The purpose of our project is to utilize the a filamentous-fungi-specific CRISPR-Cas9 system 1 in conjunction with an optogenetic system 2 to construct a fast acting kill switch system for genetically engineered fungi, which is becoming ever more popular method for dealing with insect pest around the world. Two plasmids will be constructed, each carrying a module of our two part system.
The purpose of our project is to utilize the a filamentous-fungi-specific CRISPR-Cas9 system 1 in conjunction with an optogenetic system 2 to construct a fast acting kill switch system for genetically engineered fungi, which is becoming ever more popular method for dealing with insect pest around the world. Two plasmids will be constructed, each carrying a module of our two part system.
The purpose of our project is to utilize the a filamentous-fungi-specific CRISPR-Cas9 system 1 in conjunction with an optogenetic system 2 to construct a fast acting kill switch system for genetically engineered fungi, which is becoming ever more popular method for dealing with insect pest around the world. Two plasmids will be constructed, each carrying a module of our two part system.
