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Revision as of 21:47, 31 October 2017
This part is designed to easily facilitate appending the protein degradation tag (pdt)#3 tag to the end of an arbitrary protein using Gibson assembly, without requiring multiple cloning steps. UNS pdt#3 DT contains a tail that can be degrade Mesoplasma florum’s Lon protease, which is orthogonal to E. Coli’s own degradation machinery. As this part contains both a double stop codon and the B0015 double terminator, it can be added before the stop codons of an arbitrary protein, preventing a multistep assembly to incorporate double stop codons and a double terminator. Of this pdt tag series, this part has the highest degradation rate.
This part is designed to easily facilitate appending the protein degradation tag (pdt)#3 tag to the end of an arbitrary protein using Gibson assembly, without requiring multiple cloning steps. UNS pdt#3 DT contains a tail that can be degrade Mesoplasma florum’s Lon protease, which is orthogonal to E. Coli’s own degradation machinery. As this part contains both a double stop codon and the B0015 double terminator, it can be added before the stop codons of an arbitrary protein, preventing a multistep assembly to incorporate double stop codons and a double terminator. Of this pdt tag series, this part has the highest degradation rate. This part is designed to easily facilitate appending the protein degradation tag (pdt)#3 tag to the end of an arbitrary protein using Gibson assembly, without requiring multiple cloning steps. UNS pdt#3 DT contains a tail that can be degrade Mesoplasma florum’s Lon protease, which is orthogonal to E. Coli’s own degradation machinery. As this part contains both a double stop codon and the B0015 double terminator, it can be added before the stop codons of an arbitrary protein, preventing a multistep assembly to incorporate double stop codons and a double terminator. Of this pdt tag series, this part has the highest degradation rate. This part is designed to easily facilitate appending the protein degradation tag (pdt)#3 tag to the end of an arbitrary protein using Gibson assembly, without requiring multiple cloning steps. UNS pdt#3 DT contains a tail that can be degrade Mesoplasma florum’s Lon protease, which is orthogonal to E. Coli’s own degradation machinery. As this part contains both a double stop codon and the B0015 double terminator, it can be added before the stop codons of an arbitrary protein, preventing a multistep assembly to incorporate double stop codons and a double terminator. Of this pdt tag series, this part has the highest degradation rate.
Database
Upcoming
Database
Upcoming
what happens
Standard example of inline elements 
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This is some text.This is example of a left alignment This is some text.
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This part is designed to easily facilitate appending the protein degradation tag (pdt)#3 tag to the end of an arbitrary protein using Gibson assembly, without requiring multiple cloning steps. UNS pdt#3 DT contains a tail that can be degrade Mesoplasma florum’s Lon protease, which is orthogonal to E. Coli’s own degradation machinery. As this part contains both a double stop codon and the B0015 double terminator, it can be added before the stop codons of an arbitrary protein, preventing a multistep assembly to incorporate double stop codons and a double terminator. Of this pdt tag series, this part has the highest degradation rate. This part is designed to easily facilitate appending the protein degradation tag (pdt)#3 tag to the end of an arbitrary protein using Gibson assembly, without requiring multiple cloning steps. UNS pdt#3 DT contains a tail that can be degrade Mesoplasma florum’s Lon protease, which is orthogonal to E. Coli’s own degradation machinery. As this part contains both a double stop codon and the B0015 double terminator, it can be added before the stop codons of an arbitrary protein, preventing a multistep assembly to incorporate double stop codons and a double terminator. Of this pdt tag series, this part has the highest degradation rate. This part is designed to easily facilitate appending the protein degradation tag (pdt)#3 tag to the end of an arbitrary protein using Gibson assembly, without requiring multiple cloning steps. UNS pdt#3 DT contains a tail that can be degrade Mesoplasma florum’s Lon protease, which is orthogonal to E. Coli’s own degradation machinery. As this part contains both a double stop codon and the B0015 double terminator, it can be added before the stop codons of an arbitrary protein, preventing a multistep assembly to incorporate double stop codons and a double terminator. Of this pdt tag series, this part has the highest degradation rate.
This part is designed to easily facilitate appending the protein degradation tag (pdt)#3 tag to the end of an arbitrary protein using Gibson assembly, without requiring multiple cloning steps. UNS pdt#3 DT contains a tail that can be degrade Mesoplasma florum’s Lon protease, which is orthogonal to E. Coli’s own degradation machinery. As this part contains both a double stop codon and the B0015 double terminator, it can be added before the stop codons of an arbitrary protein, preventing a multistep assembly to incorporate double stop codons and a double terminator. Of this pdt tag series, this part has the highest degradation rate. This part is designed to easily facilitate appending the protein degradation tag (pdt)#3 tag to the end of an arbitrary protein using Gibson assembly, without requiring multiple cloning steps. UNS pdt#3 DT contains a tail that can be degrade Mesoplasma florum’s Lon protease, which is orthogonal to E. Coli’s own degradation machinery. As this part contains both a double stop codon and the B0015 double terminator, it can be added before the stop codons of an arbitrary protein, preventing a multistep assembly to incorporate double stop codons and a double terminator. Of this pdt tag series, this part has the highest degradation rate. This part is designed to easily facilitate appending the protein degradation tag (pdt)#3 tag to the end of an arbitrary protein using Gibson assembly, without requiring multiple cloning steps. UNS pdt#3 DT contains a tail that can be degrade Mesoplasma florum’s Lon protease, which is orthogonal to E. Coli’s own degradation machinery. As this part contains both a double stop codon and the B0015 double terminator, it can be added before the stop codons of an arbitrary protein, preventing a multistep assembly to incorporate double stop codons and a double terminator. Of this pdt tag series, this part has the highest degradation rate.
This part is designed to easily facilitate appending the protein degradation tag (pdt)#3 tag to the end of an arbitrary protein using Gibson assembly, without requiring multiple cloning steps. UNS pdt#3 DT contains a tail that can be degrade Mesoplasma florum’s Lon protease, which is orthogonal to E. Coli’s own degradation machinery. As this part contains both a double stop codon and the B0015 double terminator, it can be added before the stop codons of an arbitrary protein, preventing a multistep assembly to incorporate double stop codons and a double terminator. Of this pdt tag series, this part has the highest degradation rate. This part is designed to easily facilitate appending the protein degradation tag (pdt)#3 tag to the end of an arbitrary protein using Gibson assembly, without requiring multiple cloning steps. UNS pdt#3 DT contains a tail that can be degrade Mesoplasma florum’s Lon protease, which is orthogonal to E. Coli’s own degradation machinery. As this part contains both a double stop codon and the B0015 double terminator, it can be added before the stop codons of an arbitrary protein, preventing a multistep assembly to incorporate double stop codons and a double terminator. Of this pdt tag series, this part has the highest degradation rate. This part is designed to easily facilitate appending the protein degradation tag (pdt)#3 tag to the end of an arbitrary protein using Gibson assembly, without requiring multiple cloning steps. UNS pdt#3 DT contains a tail that can be degrade Mesoplasma florum’s Lon protease, which is orthogonal to E. Coli’s own degradation machinery. As this part contains both a double stop codon and the B0015 double terminator, it can be added before the stop codons of an arbitrary protein, preventing a multistep assembly to incorporate double stop codons and a double terminator. Of this pdt tag series, this part has the highest degradation rate.
