Difference between revisions of "Team:Alverno CA/Basic Parts"

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<left><h3><a href="http://parts.igem.org/Part:BBa_K2145105">BBa_K2145105(GG 98):</a></h3></left>
 
<left><h3><a href="http://parts.igem.org/Part:BBa_K2145105">BBa_K2145105(GG 98):</a></h3></left>
 
<h5>This part contains two fluorescent protein coding sites (for RFP and GFP) and was assembled using Golden Gate Assembly. To make plasmid, parts were taken from iGEM Registry (BBa_J04450 (RFP) and BBa_I13522 (GFP)) and assembled to make new part with a 500bp spacer in between.</h5>
 
<h5>This part contains two fluorescent protein coding sites (for RFP and GFP) and was assembled using Golden Gate Assembly. To make plasmid, parts were taken from iGEM Registry (BBa_J04450 (RFP) and BBa_I13522 (GFP)) and assembled to make new part with a 500bp spacer in between.</h5>
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 +
<left><h3><a href="http://parts.igem.org/Part:BBa_K2145104">BBa_K2145124(GG 99):</a></h3></left>
  
 
<left><h3><a href="http://parts.igem.org/Part:BBa_K2145107">BBa_K2145107(GG 100):</a></h3></left>
 
<left><h3><a href="http://parts.igem.org/Part:BBa_K2145107">BBa_K2145107(GG 100):</a></h3></left>
 +
<h5>This part contains two fluorescent protein coding sites (for RFP and GFP) and was assembled using Golden Gate Assembly. To make plasmid, parts were taken from iGEM Registry (BBa_J04450 (RFP) and BBa_I13522 (GFP)) and assembled to make new part with a 500bp spacer in between.</h5>
 +
 +
<left><h3><a href="http://parts.igem.org/Part:BBa_K2145104">BBa_K2145126(GG 101):</a></h3></left>
 +
<h5>This part contains two fluorescent protein coding sites (for RFP and GFP) and was assembled using Golden Gate Assembly. To make plasmid, parts were taken from iGEM Registry (BBa_J04450 (RFP) and BBa_I13522 (GFP)) and assembled to make new part with a 500bp spacer in between.</h5>
 +
 +
<left><h3><a href="http://parts.igem.org/Part:BBa_K2145104">BBa_K2145127(GG 102):</a></h3></left>
 
<h5>This part contains two fluorescent protein coding sites (for RFP and GFP) and was assembled using Golden Gate Assembly. To make plasmid, parts were taken from iGEM Registry (BBa_J04450 (RFP) and BBa_I13522 (GFP)) and assembled to make new part with a 500bp spacer in between.</h5>
 
<h5>This part contains two fluorescent protein coding sites (for RFP and GFP) and was assembled using Golden Gate Assembly. To make plasmid, parts were taken from iGEM Registry (BBa_J04450 (RFP) and BBa_I13522 (GFP)) and assembled to make new part with a 500bp spacer in between.</h5>
  

Revision as of 23:03, 19 October 2016

Alverno iGEM 2016

Alverno iGEM Logo

Basic Parts













BBa_K2145000(GG 95):
This part contains two fluorescent protein coding sites (for RFP and GFP) and was assembled using Golden Gate Assembly. To make plasmid, parts were taken from iGEM Registry (BBa_J04450 (RFP) and BBa_I13522 (GFP)) and assembled to make new part with a 500bp spacer in between.

BBa_K2145001(GG 96):
This part contains two fluorescent protein coding sites (for RFP and GFP) and was assembled using Golden Gate Assembly. To make plasmid, parts were taken from iGEM Registry (BBa_J04450 (RFP) and BBa_I13522 (GFP)) and assembled to make new part with a 500bp spacer in between.

BBa_K2145104(GG 97):
This part contains two fluorescent protein coding sites (for RFP and GFP) and was assembled using Golden Gate Assembly. To make plasmid, parts were taken from iGEM Registry (BBa_J04450 (RFP) and BBa_I13522 (GFP)) and assembled to make new part with a 500bp spacer in between.

BBa_K2145105(GG 98):
This part contains two fluorescent protein coding sites (for RFP and GFP) and was assembled using Golden Gate Assembly. To make plasmid, parts were taken from iGEM Registry (BBa_J04450 (RFP) and BBa_I13522 (GFP)) and assembled to make new part with a 500bp spacer in between.

BBa_K2145124(GG 99):

BBa_K2145107(GG 100):
This part contains two fluorescent protein coding sites (for RFP and GFP) and was assembled using Golden Gate Assembly. To make plasmid, parts were taken from iGEM Registry (BBa_J04450 (RFP) and BBa_I13522 (GFP)) and assembled to make new part with a 500bp spacer in between.

BBa_K2145126(GG 101):
This part contains two fluorescent protein coding sites (for RFP and GFP) and was assembled using Golden Gate Assembly. To make plasmid, parts were taken from iGEM Registry (BBa_J04450 (RFP) and BBa_I13522 (GFP)) and assembled to make new part with a 500bp spacer in between.

BBa_K2145127(GG 102):
This part contains two fluorescent protein coding sites (for RFP and GFP) and was assembled using Golden Gate Assembly. To make plasmid, parts were taken from iGEM Registry (BBa_J04450 (RFP) and BBa_I13522 (GFP)) and assembled to make new part with a 500bp spacer in between.

BBa_K2145100(GG 105):
This plasmid contains a GFP and an RFP reporter separated by a 282-bp spacer containing three gRNA binding sites for dCas. The reporter is designed to demonstrate the effect, if any, of binding a dCas "clamp" between two genes (the idea being that such a clamp can limit propagation of supercoiling between the genes, functionally isolating them).

BBa_K2145101(GG 106):
This plasmid contains a GFP and an RFP reporter separated by a 282-bp spacer containing three gRNA binding sites for dCas. The reporter is designed to demonstrate the effect, if any, of binding a dCas "clamp" between two genes (the idea being that such a clamp can limit propagation of supercoiling between the genes, functionally isolating them).

BBa_K2145102(GG 107):
This plasmid contains a GFP and an RFP reporter separated by a 282-bp spacer containing three gRNA binding sites for dCas. The reporter is designed to demonstrate the effect, if any, of binding a dCas "clamp" between two genes (the idea being that such a clamp can limit propagation of supercoiling between the genes, functionally isolating them).

BBa_K2145103(GG 108):
This plasmid contains a GFP and an RFP reporter separated by a 282-bp spacer containing three gRNA binding sites for dCas. The reporter is designed to demonstrate the effect, if any, of binding a dCas "clamp" between two genes (the idea being that such a clamp can limit propagation of supercoiling between the genes, functionally isolating them).