SandboxGenetic322-5

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'''Abby Mandelblatt'''
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== Function ==
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''Keratin'' proteins are expressed in epithelial cells and in epidermal cells and have a filamentous structure. They assemble to form cytoskeletal structures within the cell and epidermal derivatives such as hair and nails.
 
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<Structure load='3TNU' size='350' frame='true' align='right' caption='Insert caption here' scene='Insert optional scene name here' />
 
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The protein chains in Keratin can bind to each other through covalent bonds (disulfide bonds between two cysteines), ionic bonds, hydrophobic interactions, and hydrogen bonds. Since the cysteines in this molecule are too far apart to bond covalently, ionic bonds, or salt bridges, form between the two chains.
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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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* <scene name='55/559109/Acidic-residues/1'>Click here to see the acidic residues, Asp and Glu in Fig. 2.</scene>
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* <scene name='55/559109/Basic-aas/1'>Click here to see the basic residues, Arg and Lys.</scene>
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<Structure load='1ttt' size='350' frame='true' align='right' caption='Phe-tRNA, elongation factor EF-TU:GDPNP Ternary complex' />
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== Molecules it Interacts With and where ==
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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.
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This is a Sandbox page that you can use for creating our discussion project.
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''PHOSHOAMINOPHOSPHONIC ACID-GUANYLATE ESTER''
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I would like for you to watch the short training videos. Each is short and you can view them all in about 40 mins. These provide the basic knowledge you will need to our discussion sections.
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''PHENYLALANINE''
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''MAGNESIUM ION''
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I need you to get some basic familiarity with this package so you will be able to help students.
 
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Our first three discussions will focus on 'structure'. Structure of DNA, proteins, and RNA.
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=='Origin'==
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The students will work in 2 person teams and will create a Proteopedia page on their assigned molecule and will be asked to research their molecule and create 'scenes' which are representations of the molecule that illustrates some key features.
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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.
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There will be a work sheet the students will follow to help them through the project.
 
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One of the objectives is to have the students manipulate structures to appreciate the 3 dimensional nature of the molecules we are discussing and to begin to help them conceptualize how these molecule might interact etc.
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=='Structure'==
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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 <scene name='75/751161/Hetero_domains/1'>Heterodimer </scene> alignment.
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Specific <scene name='75/751161/Ligand_site/1'>Ligand Sites</scene> are highlighted here. The ligands listed above, GDP, Phe, and Mg+2 ion each attach at these locations which are still being explored.
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<scene name='75/751161/Basic_positive_residues/2'>Basic and Positive Residues</scene> which play a crucial role in binding to the ribosome during translation. They form positive pockets with which negative amino acids can bind to.
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=='Molecules it Interacts With and where '==
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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.
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''PHOSHOAMINOPHOSPHONIC ACID-GUANYLATE ESTER''
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''PHENYLALANINE''
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''MAGNESIUM ION''

Current revision

Contents

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.

Phe-tRNA, elongation factor EF-TU:GDPNP Ternary complex

Drag the structure with the mouse to rotate


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

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