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case 34:

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content.i = 34;

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content.parents=[17];

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content.childs=[];

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content.titleShort = "Electrical";

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content.titleLong = "Electrical Induction";

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content.summary= "A review on chemical induction and its advantages and disadvantages";

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content.text= "In nature there are many examples of voltage altering protein conformation such as channel proteins which can open or close<a href='#1'>[1]</a> or enzymes which change their catalytic activity when the membrane potential changes.<a href='#2'>[2]</a> Channel proteins require minimal changes in electrical potential and change conformation in submillisecond timescales.<a href='#3'>[3]</a> However its usage in synthetic biology is yet to be demonstrated.<h2>References:</h2> <a name=1>1.</a> <a href='http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3412939/'> Venkataswarup Tiriveedhi, Melissa Miller, Peter Butko, and Min Li: Autonomous Transmembrane Segment S4 of the Voltage Sensor Domain Partitions into the Lipid Membrane. "Biochimica et Biophysica Acta" (2012)</a> <a name=2>2.</a> <a href='http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2869078/'> Xiao Tao, Alice Lee, Walrati Limapichat, Dennis A. Dougherty, and Roderick MacKinnon: A Gating Charge Transfer Center in Voltage Sensors. "Science" (2010) Vol. 328 no. 5974 pp. 67-73 <a name=3>3.</a> <a href='http://www.sciencemag.org/content/314/5799/615.long'> Berkefeld H, Sailer CA, Bildl W, Rohde V, Thumfart JO, Eble S, Klugbauer N, Reisinger E, Bischofberger J, Oliver D, Knaus HG, Schulte U, Fakler B: BKCa-Cav channel complexes mediate rapid and localized Ca2+-activated K+ signaling. "Science" (2006)</a>";

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content.type="Background";

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break;

case 35:

@@ Line 298: / Line 298: @@
 break;
+case 34:
+content.i = 34;
+content.parents=[17];
+content.childs=[];
+content.titleShort = "Electrical";
+content.titleLong = "Electrical Induction";
+content.summary= "A review on chemical induction and its advantages and disadvantages";
+content.text= "In nature there are many examples of voltage altering protein conformation such as channel proteins which can open or close<sup><a href='#1'>[1]</a></sup> or enzymes which change their catalytic activity when the membrane potential changes.<sup><a href='#2'>[2]</a></sup> Channel proteins require minimal changes in electrical potential and change conformation in submillisecond timescales.<sup><a href='#3'>[3]</a></sup>  However its usage in synthetic biology is yet to be demonstrated.<h2>References:</h2> <p><a name=1>1.</a> <a href='http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3412939/'> Venkataswarup Tiriveedhi, Melissa Miller, Peter Butko, and Min Li: <i>Autonomous Transmembrane Segment S4 of the Voltage Sensor Domain Partitions into the Lipid Membrane. </i>&quot;Biochimica et Biophysica Acta&quot; (2012)</a></p> <p><a name=2>2.</a> <a href='http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2869078/'> Xiao Tao, Alice Lee, Walrati Limapichat, Dennis A. Dougherty, and Roderick MacKinnon: <i>A Gating Charge Transfer Center in Voltage Sensors. </i>&quot;Science&quot; (2010) Vol. 328 no. 5974 pp. 67-73 <p><a name=3>3.</a> <a href='http://www.sciencemag.org/content/314/5799/615.long'> Berkefeld H, Sailer CA, Bildl W, Rohde V, Thumfart JO, Eble S, Klugbauer N, Reisinger E, Bischofberger J, Oliver D, Knaus HG, Schulte U, Fakler B: BKCa-Cav channel complexes mediate rapid and localized Ca2+-activated K+ signaling. &quot;Science&quot; (2006)</a></p>";
+content.type="Background";
+break;
 case 35:

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Revision as of 21:28, 1 October 2013