Difference between revisions of "Part:BBa K2533048"

 
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<partinfo>BBa_K2533048 short</partinfo>
 
<partinfo>BBa_K2533048 short</partinfo>
  
Production of lactate and transport lactic acid
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malate dehydrogenase & L-lactate permease
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<h1>'''Usage and biology'''</h1>
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It encodes malate dehydrogenase and L-lactate permease, which could produce and transport lactate. mleS could convert malic acid to L-lactate. lldP could transport lactate out of the cell. In this way, Rhodopseudomonas palustris could efficiently transport produced lactate out of the cell, which later will be used by Shewanella.
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<h1>'''Characterization'''</h1>
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This is one section for lactate production and transportation part.
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[[File:T--HUST-China--2018-tonglu-mles-lldp.png ‎|400px|thumb|center|Figure1. RBS-mleS-RBS-lldP]]
  
<!-- Add more about the biology of this part here
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<h2>DNA Gel Electrophoretic</h2>
===Usage and Biology===
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To make sure that we get the target gene, we did DNA gel electrophoretic for verification. And here is the result.
 
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[[File:T--HUST-China--2018-jiaotu-mles-lldp.png|400px|thumb|center|Figure2. Verification of successful transformation of pSB1C3-RBS-mleS-RBS-lldP]]
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Our target gene is 3323bp, and as the marker is DS5000, we could be sure that the bright bands in this picture are our target genes.
<span class='h3bb'>Sequence and Features</span>
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<partinfo>BBa_K2533048 SequenceAndFeatures</partinfo>
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<h2>Electrogenesis</h2>
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By detecting the production of lactate after expressing, we might find out whether RBS-mleS-RBS-lldP could effectively help Rhodopseudomonas palustris transport produced lactate out of the cell.
 +
[[File:T--HUST-China--2018-expression of lactate.png ‎|400px|thumb|center|Figure3. shows that our modification is effective. Every gene circuits can help strains produce lactate, and mleS-lldP-ldhA is the most efficient one. Therefore, our construction of gene circuits achieves the goal to help strains produce lactate.]]
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It could be demonstrated that the target genes could be expressed in the engineered cells. More lactate has been produced and transported by engineered bacteria.
  
 
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<!-- Uncomment this to enable Functional Parameter display  
 
===Functional Parameters===
 
===Functional Parameters===
<partinfo>BBa_K2533048 parameters</partinfo>
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<partinfo>BBa_K2533030 parameters</partinfo>
 
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Latest revision as of 23:06, 17 October 2018


RBS-mleS-RBS-lldP

malate dehydrogenase & L-lactate permease

Usage and biology

It encodes malate dehydrogenase and L-lactate permease, which could produce and transport lactate. mleS could convert malic acid to L-lactate. lldP could transport lactate out of the cell. In this way, Rhodopseudomonas palustris could efficiently transport produced lactate out of the cell, which later will be used by Shewanella.

Characterization

This is one section for lactate production and transportation part.

Figure1. RBS-mleS-RBS-lldP

DNA Gel Electrophoretic

To make sure that we get the target gene, we did DNA gel electrophoretic for verification. And here is the result.

Figure2. Verification of successful transformation of pSB1C3-RBS-mleS-RBS-lldP

Our target gene is 3323bp, and as the marker is DS5000, we could be sure that the bright bands in this picture are our target genes.

Electrogenesis

By detecting the production of lactate after expressing, we might find out whether RBS-mleS-RBS-lldP could effectively help Rhodopseudomonas palustris transport produced lactate out of the cell.

Figure3. shows that our modification is effective. Every gene circuits can help strains produce lactate, and mleS-lldP-ldhA is the most efficient one. Therefore, our construction of gene circuits achieves the goal to help strains produce lactate.

It could be demonstrated that the target genes could be expressed in the engineered cells. More lactate has been produced and transported by engineered bacteria.