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==Lambda Repressor Operator== | ==Lambda Repressor Operator== | ||
| - | < | + | The repressor molecule consists of a bacteriophage's <scene name='75/751156/Double_stranded_dna/2'>double stranded DNA</scene> and two <scene name='75/751156/Two_arm/1'>terminal arms</scene>, creating a lambda repressor operator complex. The <scene name='75/751156/Operator_site_at_one_arm/1'> operator site at each arm</scene> interacts with the bacteriophage DNA. |
== Structure == | == Structure == | ||
Revision as of 20:29, 7 February 2017
Contents |
genetics is ok
'Molecules it Interacts With and where '
The protein binds to GDP as well as the following ligands in order to promote the attachment of the protein complex to the ribosome A site.
PHOSHOAMINOPHOSPHONIC ACID-GUANYLATE ESTER
PHENYLALANINE
MAGNESIUM ION
'Origin'
It has domains that are created in yeast (phenyl-transfer RNA) , in the heat resistant Thermus aquaticus (EF-Tu elongation factor, and can be synthetically manufactured.
'Structure'
It has 3 domains. G proteins, Elongation Factors, and the EF-Tu/eEF-1alpha/eIF2-gamma C-terminal domain. It is composed of 6 chains, which combine in alignment.
Specific are highlighted here. The ligands listed above, GDP, Phe, and Mg+2 ion each attach at these locations which are still being explored.
which play a crucial role in binding to the ribosome during translation. They form positive pockets with which negative amino acids can bind to.
'Molecules it Interacts With and where '
The protein binds to GDP as well as the following ligands in order to promote the attachment of the protein complex to the ribosome A site.
PHOSHOAMINOPHOSPHONIC ACID-GUANYLATE ESTER
PHENYLALANINE
MAGNESIUM ION
'Origin'
It has domains that are created in yeast (phenyl-transfer RNA) , in the heat resistant Thermus aquaticus (EF-Tu elongation factor, and can be synthetically manufactured.
'Structure'
It has 3 domains. G proteins, Elongation Factors, and the EF-Tu/eEF-1alpha/eIF2-gamma C-terminal domain. It is composed of 6 chains, which combine in alignment.
Specific are highlighted here.
which play a crucial role in binding to the ribosome during translation.
'Function"
The protein complex participates in placing the amino acids in their correct order when messenger RNA is translated into a protein sequence on the ribosome by promoting GTP-dependent binding of tRNA to the A site of the ribosome. In other words, it is involved with elongation during polypeptide synthesis.
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Lambda Repressor Operator
The repressor molecule consists of a bacteriophage's and two , creating a lambda repressor operator complex. The interacts with the bacteriophage DNA.
Structure
Function
Relevance
Structural highlights
This is a sample scene created with SAT to by Jessica Yin. </StructureSection>
