<td>Invitro delivery</td>
<td>The use of peptide to faciliate introduction of silencing RNA reagent into cell</td>

Deletions:
<td><p>silencing RNA delivery performed outside a living organisms</p></td>
<td><Invitro delivery</td>
<td><p>The use of peptide to faciliate introduction of silencing RNA reagent into cell</p></td>

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Edited on 2007-03-21 07:23:55 by GraemeGrimes

Additions:
<td>Delivery Type</td>
<td><p>silencing RNA delivery performed on whole organisms</p></td>
<td>Delivery Type</td>
<td><p>silencing RNA delivery performed outside a living organisms</p></td>

Deletions:
<td><p>silencing RNA delivery performed on whole organisms </p></td>
<td><p>silencing RNA delivery performed outside a living organisms </p></td>

---

Edited on 2007-03-21 07:22:49 by GraemeGrimes

Additions:
<td>Parent Term </td>
<td>Preferred Term </td>
<td>Defintion</td>
<td>Definition Source </td>
<td>Alternative Term </td>
<td>Alternative Term Source </td>

Deletions:
<td class="xl24" width="202">Parent Term </td>
<td class="xl24" width="202">Preferred Term </td>
<td class="xl26" width="191">Defintion</td>
<td class="xl24" width="200">Definition Source </td>
<td class="xl24" width="200">Alternative Term </td>
<td class="xl24" width="104">Alternative Term Source </td>

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Edited on 2007-03-21 07:22:09 by GraemeGrimes

Additions:
<td><Invivo delivery</td>
<td><Invitro delivery</td>

Deletions:
<td><Invivo delivery/td>
<td><Invitro delivery/td>

---

Edited on 2007-03-21 07:21:51 by GraemeGrimes

Additions:
performed on whole organisms
<td><p>silencing RNA delivery performed on whole organisms </p></td>
<td><Invivo delivery/td>
<td><p>silencing RNA delivery performed outside a living organisms </p></td>
<td><Invitro delivery/td>

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Edited on 2007-03-21 04:49:54 by GraemeGrimes

Additions:
<td><p>The use of peptide to faciliate introduction of silencing RNA reagent into cell</p></td>
<td>The use of electrical impulses to create transient pores in the cell membranes that cts as portals through which silencing RNA reagent pass into the cell. </td>
<td>Feeding organism with bacteria producing silencing RNA reagents </td>
<td>soaking biological sample in silencing RNA reagents </td>
<td>transfection by introducingf silencing RNA:transfection reagent complex onto plated cell layer </td>
<td>transfection by introducing cell sample onto plated lipid:silencing RNA reagent complex </td>
<td>Shooting microscopic pellets containing the silencing RNA reagent into the cell using gene gun. </td>
<td class="xl25" width="191">Delivery of silencing RNA reagent into a cell by means of liposomes </td>
<td>Delivery of silencing RNA reagent into a cell by means of cationic liposomes </td>
<td>Delivery of silencing RNA reagent into a cell by means of anionic liposomes </td>
<td ></td>
<td>Delivery of silencing RNA reagents into cells using cationic linear polyethylenimine (PEI)</td>
<td>PEI</td>
<td><p>The use of lenti-virus particles to transfer silencing RNA reagent into a cell.</p></td>
<td>The use of an Adenoviruses to introduce silencing RNA into a cell.</td>
<td> The use of an Adeno-associated-virus virus to introduce silencing RNA into a cell.</td>

Deletions:
<td class="xl25" width="191"><p>The use of peptide to faciliate introduction of silencing RNA reagent into cell</p></td>
<td class="xl25" width="191">The use of electrical impulses to create transient pores in the cell membranes that cts as portals through which silencing RNA reagent pass into the cell. </td>
<td class="xl25" width="191">Feeding organism with bacteria producing silencing RNA reagents </td>
<td class="xl25" width="191">soaking biological sample in silencing RNA reagents </td>
<td class="xl25" width="191">transfection by introducingf silencing RNA:transfection reagent complex onto plated cell layer </td>
<td class="xl25" width="191">transfection by introducing cell sample onto plated lipid:silencing RNA reagent complex </td>
<td class="xl25" width="191">shooting microscopic pellets containing the silencing RNA reagent into the cell using gene gun. </td>
<td class="xl25" width="191">delivery of silencing RNA reagent into a cell by means of liposomes </td>
<td class="xl25" width="191">delivery of silencing RNA reagent into a cell by means of cationic liposomes </td>
<td class="xl25" width="191">delivery of silencing RNA reagent into a cell by means of anionic liposomes </td>
<td class="xl25" width="191">the cationic linear polyethylenimine (PEI) is the most widely used vector for in vivo gene delivery </td>
<td class="xl25" width="200"></td>
<td class="xl25" width="200">/td>
<td><p>The use of lenti-virus particles to transfer silencing RNA reagent into a cell.</p>
<p></p></td>
<td class="xl25" width="200"><p> </p>
<p></p></td>
<td class="xl25" width="200"><p> </p>
<p></p></td>
<td><p></p>
<p></p></td>
<td class="xl25" width="191"> The use of an Adenoviruses to introduce silencing RNA into a cell.</td>
<td><span class="xl25"></span></td>
<td><p> </p>
<p> </p></td>
<td><p> </p>
<p> </p></td>
<td class="xl25" width="191"> The use of an Adeno-associated-virus virus to introduce silencing RNA into a cell.</td>
<td><span class="xl25"></span></td>

---

Edited on 2007-03-21 04:43:52 by GraemeGrimes

Additions:
<td>electroporation</td>
<td>An electropermeabilization-based technique for introducing nucleic acid into cell nucleus</td>

Deletions:
<td>/td>
<td>An electropermeabilization-based technique for introducing nucleic acid into cells</td>
<td>/td>
<td><p> </p> </td>
<td> </td>
<td>cell-array </td>
</td>
<td><p> </p> </td>
<td><p> </p> </td>
<td><p> </p> </td>

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Edited on 2007-03-21 04:41:53 by GraemeGrimes

Additions:
<td><p>The use of virus particles to transfer silencing RNA reagent into a cell.</p></td>
<td class="xl25" width="200"></td>
<td class="xl25" width="200">/td>
<td>simple_IV injection</td>
<td>simple_IV injection</td>
<td>simple_IV injection</td>
<td>simple_IV injection</td>
<td>simple_IV injection</td>
<td>calvarial</td>
<td>/td>
<td>simple_IV injection</td>
<td>An electropermeabilization-based technique for introducing nucleic acid into cells</td>
<td>/td>

Deletions:
<td><p>The use of virus particles to transfer silencing RNA reagent into a cell.</p>
<td>simple_IV injection </td>
<td class="xl25" width="191"><p> </p>
<td>calvarial </td>
<td><p> </p></td>
<td><p> </p></td>
<td><p> </p></td>

---

Edited on 2007-03-21 04:31:47 by GraemeGrimes

Additions:
<td>Invivo delivery Type </td>
<td class="xl25" width="191"><p>The use of peptide to faciliate introduction of silencing RNA reagent into cell</p></td>
<td>Invitro delivery Type </td>
<td>Invivo delivery Type </td>
<td><p>PMID: 15644174 </p></td>
<td>Invivo delivery type </td>
<td><p>PMID: 15644174 </p></td>
<td>Invitro delivery type </td>
<td>Invitro delivery Type </td>
<td>Invivo delivery type</td>
<td>Invitro delivery type</td>
<td>Invivo delivery type</td>
<td class="xl25" width="191"></td>
<td>Invitro delivery type</td>
<td class="xl25" width="191"></td>
<td>Invitro delivery type</td>
<td class="xl25" width="191"></td>

Deletions:
<td class="xl25" width="191"><p>The use of peptide to faciliate introduction of silencing RNA reagent into cell</p>
<td><p>PMID: 15644174 </p>
<td><p>PMID: 15644174 </p>
<p> </p>

---

Edited on 2007-03-21 04:24:48 by GraemeGrimes

Additions:
<tr>
<td>adenovirus-associated-virus-mediated delivery </td>
<td class="xl25" width="191"> The use of an Adeno-associated-virus virus to introduce silencing RNA into a cell.</td>
<td>/</td>

---

Edited on 2007-03-21 04:22:28 by GraemeGrimes

Additions:
<td><p>The use of lenti-virus particles to transfer silencing RNA reagent into a cell.</p>

---

Edited on 2007-03-21 04:10:02 by GraemeGrimes

Additions:
<td>lenti-virus-mediated delivery </td>
<td>viral_mediated_transfection</td>
<td class="xl25" width="191"> The use of an Adenoviruses to introduce silencing RNA into a cell.</td>
<td><span class="xl25"></span></td>

Deletions:
<td class="xl25" width="191">A group of non-enveloped icosahedral viruses. Adenoviruses are popular gene delivery vehicles because they efficiently transduce many different cell types, including hard-to-transfect terminally differentiated cells. Also, adenovirus gene delivery typically results in higher levels of RNA expression. Infection is independent of cell cycle, so adenoviruses can be used to express RNA in both dividing and non-dividing cells. Integration of the adenoviral DNA into the host genome is rare, which means that there is little chance of insertional mutagenesis. Because of this feature and the fact that most recombinant adenoviruses elicit an immune response in animal systems, these viral vectors are appropriate only for transient RNA expression. </td>
<td><span class="xl25">http://www.ncbi.nlm.nih.gov/projects/genome/probe/doc/Glossary.shtml∞ </span></td>

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Edited on 2007-03-21 03:27:10 by GraemeGrimes

Additions:
<td><p>The use of virus particles to transfer silencing RNA reagent into a cell.</p>

Deletions:
<td><p>The use of virus particles to transfer of silencing RNA reagent into a cell.</p>

---

Edited on 2007-03-21 03:26:39 by GraemeGrimes

Additions:
<td><p>The use of virus particles to transfer of silencing RNA reagent into a cell.</p>
<p></p></td>
<p></p></td>
<p></p></td>
<td><p></p>
<p></p></td>

---

Edited on 2007-03-21 03:23:38 by GraemeGrimes

Additions:
<td class="xl25" width="191"><p>The use of peptide to faciliate introduction of silencing RNA reagent into cell</p>

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Oldest known version of this page was edited on 2007-03-21 03:16:04 by GraemeGrimes []
Delivery Type mechanism of delivery of silencing RNA reagents into a cell..