Main Page 20190127

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2q66 - Poly(A) polymerase

Poly(A) polymerase binds specifically to ATP and adds it the end of a mRNA chain. This structure contains an oligo(A) polynucleotide with 5 nucleotides, an ATP molecule, and a magnesium ion. … In the , the enzyme is shown as a blue backbone, the RNA chain in yellow, the ATP in red, the Mg⁺⁺ in green, and ALA154 in magenta. Several mechanisms are used to achieve the specificity for ATP. The Mg⁺⁺ is coordinated by , and the Mg⁺⁺ coordinates with the phosphates of ATP, positioning the nucleotide in the active site. The adenine base is sandwiched between the . Read more...

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Hemoglobin - the protein in your blood responsible for oxygen transport
HIV-1 protease - a protein made by the HIV virus that is crucial to its infectious capacity
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2q66 - yeast poly(a)-polymerase, adds poly-A tails to nascent messenger RNAs
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Scientists and Students

Educators

Structural researchers

Understand and communicate protein 3D structure-function relationships
- Example: Elongation factor SelB, the protein responsible for adding the 21^st amino acid selenocysteine to a growing protein chain in bacteria, featured in the Molecule of the Month at the PDB.

Develop tutorials or molecular scenes to project during lectures
Assign students to construct pages in Proteopedia for class projects or reports

(You may protect your teaching pages from editing by others.)

Create supplementary material for your journal publications
Create pages about your research team or institute, highlighting structures you have researched.

(You may protect such pages from editing by others, or unwanted viewing pre-publication.)

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Retrieved from "http://52.214.119.220/wiki/index.php/Main_Page_20190127"

@@ Line 25: / Line 25: @@
 <div style="font-size:130%; line-height:2.0em"><span style="color:green" align="center">Green</span> links change the 3D image!</div>
 <div style="font-size:200%; line-height:2.0em">[[2q66]] - Poly(A) polymerase</div>
-Poly(A) polymerase binds specifically to ATP and adds it the end of a mRNA chain. This structure contains an oligo(A) polynucleotide with 5 nucleotides, an ATP molecule, and a magnesium ion. …  In the <scene name='2q66/2q66_summary/1'>3D figure</scene>, the enzyme is shown as a blue backbone, the RNA chain in yellow, the ATP in red, the Mg<sup>++</sup> in green, and ALA154 in magenta. Several mechanisms are used to achieve the specificity for ATP. The Mg<sup>++</sup> is coordinated by <scene name='2q66/2q66_asp/2'>ASP100 <nowiki>&</nowiki> ASP102</scene>, and the Mg<sup>++</sup> coordinates with the phosphates of ATP, positioning the nucleotide in the active site. The adenine base is sandwiched between the <scene name='2q66/2q66_stacking/2'>terminal base of the RNA (in yellow) and VAL234 (in cyan)</scene>. [[2q66|Read more...]]
+Poly(A) polymerase binds specifically to ATP and adds it the end of a mRNA chain. This structure contains an oligo(A) polynucleotide with 5 nucleotides, an ATP molecule, and a magnesium ion. …  In the <scene name='2q66/2q66_summary/1'>3D figure</scene>, the enzyme is shown as a blue backbone, the RNA chain in yellow, the ATP in red, the Mg<sup>++</sup> in green, and ALA154 in magenta. Several mechanisms are used to achieve the specificity for ATP. The Mg<sup>++</sup> is coordinated by <scene name='2q66/2q66_asp/2'>ASP100 and ASP102</scene>, and the Mg<sup>++</sup> coordinates with the phosphates of ATP, positioning the nucleotide in the active site. The adenine base is sandwiched between the <scene name='2q66/2q66_stacking/2'>terminal base of the RNA (in yellow) and VAL234 (in cyan)</scene>. [[2q66|Read more...]]
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Main Page 20190127

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