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User:Jennifer Taylor/Sandbox 4

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Revision as of 02:56, 9 May 2018

4Q7Q

4Q7Q is a ---- protein found in Chitinophaga pinensis, a soil bacterium in the sphingobacterial family. Its structure has been previously characterized and exists in Protein Data Bank. Its function, however, has not.

After structural and sequential analysis via various databases including BLAST, Pfam, Dali, PyMOL, and ProMOL, we initially predicted that 4Q7Q is a hydrolase. More specifically, we hypothesized that it was a lipase, an enzyme that can hydrolyze lipids to form fatty acids and a glycerol molecule. (** include picture)

1 In silico Analysis
2 Bacterial Transformation
3 Protein Expression
4 Protein Purification
5 pNPB Lipase Assay

In silico Analysis

We initially analyzed 4Q7Q through the protein structure databases BLAST, Pfam, and Dali. Our top hits were other known ----, including -----. Since we can use the principle of homology to predict the function of an unknown protein, we first hypothesized that 4Q7Q was too a ---. However, upon further analysis in ProMOL which involved the homology of active sites....

Bacterial Transformation

Before characterizing the function of 4Q7Q, we first needed to synthesize the protein through first transcribing 4Q7Q's DNA to amplify it and then translating it to express it. First, 4Q7Q's DNA was transcribed using its expression vector, the plasmid pMCS573. Since transformation must occur within a cell, the plasmid was transformed into DH5a cells using protocol from New England Biolabs. The cells were then spread on plates containing LB and ampicillin. (*explain) Then, the DH5a cells were lysed and the plasmid was purified.

However, though DH5a cells are E. coli cells specifically engineered to maximize the efficiency of transformations, they do not contain T7 polymerase, which is essential for protein expression (**explain more). Therefore, the purified plasmid underwent another bacterial transformation into BL21 (DE3) cells that do contain T7 polymerase using protocol from New England Biolabs.

Protein Expression

Protein Purification

pNPB Lipase Assay

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References

Proteopedia Page Contributors and Editors (what is this?)

Jennifer Taylor

Retrieved from "http://52.214.119.220/wiki/index.php/User:Jennifer_Taylor/Sandbox_4"

User:Jennifer Taylor/Sandbox 4

From Proteopedia

Revision as of 02:56, 9 May 2018

4Q7Q

Contents

In silico Analysis

Bacterial Transformation

Protein Expression

Protein Purification

pNPB Lipase Assay

References

Proteopedia Page Contributors and Editors (what is this?)

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@@ Line 4: / Line 4: @@
 Q7Q is a ---- protein found in Chitinophaga pinensis, a soil bacterium in the sphingobacterial family. Its structure has been previously characterized and exists in Protein Data Bank. Its function, however, has not.
-After structural and sequential analysis via various databases including BLAST, Pfam, Dali, PyMOL, and ProMOL, we initially predicted that 4Q7Q is a hydrolase. More specifically, we hypothesized that it was a lipase, an enzyme that can hydrolyze lipids to form fatty acids and a glycerol molecule.
+After structural and sequential analysis via various databases including BLAST, Pfam, Dali, PyMOL, and ProMOL, we initially predicted that 4Q7Q is a hydrolase. More specifically, we hypothesized that it was a lipase, an enzyme that can hydrolyze lipids to form fatty acids and a glycerol molecule. (** include picture)
@@ Line 12: / Line 12: @@
 == Bacterial Transformation ==
+Before characterizing the function of 4Q7Q, we first needed to synthesize the protein through first transcribing 4Q7Q's DNA to amplify it and then translating it to express it. First, 4Q7Q's DNA was transcribed using its expression vector, the plasmid pMCS573. Since transformation must occur within a cell, the plasmid was transformed into DH5a cells using protocol from New England Biolabs. The cells were then spread on plates containing LB and ampicillin. (*explain) Then, the DH5a cells were lysed and the plasmid was purified.
+However, though DH5a cells are E. coli cells specifically engineered to maximize the efficiency of transformations, they do not contain T7 polymerase, which is essential for protein expression (**explain more). Therefore, the purified plasmid underwent another bacterial transformation into BL21 (DE3) cells that do contain T7 polymerase using protocol from New England Biolabs.
 == Protein Expression ==