Transfer RNA tour

From Proteopedia

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tRNA

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1 Structural highlights

Structural highlights

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The acceptor stem includes the 5' and 3' ends of the tRNA. The 5' end is generated by RNaseP :-). The 3' end is the site which is charged with amino acids for translation. Some aminoacyl tRNA synthetases interact with both the acceptor 3' end and

the anticodon when charging tRNAs. from the anticodon loop, at bottom, by clicking here. Note also how the acceptor stem stacks onto the TpsiC stem to form a continuous helix. The anticodon stem also stacks onto the junction between the variable loop and the D stem to form another nearly perfect helix. The TpsiC and D loops interact to bring the "cloverleaf" secondary structure in to the L-shaped tertiary structure.

Core Tertiary Interactions

Now . Most of the backbone is shown in ribbon format, with the same color scheme as above. Several unusual base pairs, base triples and turns are highlighted and color-coded.

. The yellow residues are a parallel base pair (compared to the normal anti parallel) between G15 of the D-loop and C48 of the variable loop. This brings the D-loop and variable loop together. Note the sharp turn in the backbone between C48 and C49 caused by the parallel pair.

The green residues are a reverse Hoogsteen pair between U8 and A14. This pairing is important for positioning of the D stem relative to the stacked T and acceptor stems.

The cyan residues are a base triple in which A9 H-bonds in the major groove to A23 (which is paired with U12). It stabilizes a sharp turn between bases 9 and 10.

The red residues are a base triple in which 7-methyl-G46 from the variable loop H-bonds to the G22-C13 base pair of the D stem. This helps dock the variable loop onto the D-stem.

A9 is also involved in another type of tertiary interaction: it is 7-methyl-G46 and G45. In order to make room between these bases for A9 the backbone is extended by a C2' endo sugar pucker at 7-methyl-G46.

U-turns

The are responsible for turns in the anticodon and T loops. The turn is stabilized by an H-bond between a conserved U residue and the phosphate backbone and an H-bond fron the O2' of the U to the N7 of a conserved purine. . Residues 33-35 form the U-turn, N3 of U33 H-bonds to the phosphate oxygen of A36, the O2' of U33 H-bonds to the N7 of A35. Residues 34, 35 and 36 are the anticodon bases used in translation. The hypermodified wybutrosine YG37 is believed to form a steric block to frameshifting during translation.

The U-turn motif is repeated in the "T-loop" of tRNA. . Residues 55-57 form the U-turn here. A U-turn is also found in the active site of the hammerhead ribozyme.

References

JSmol in Proteopedia ^[2] or to the article describing Jmol ^[3] to the rescue.

↑ Quigley GJ, Rich A. Structural domains of transfer RNA molecules. Science. 1976 Nov 19;194(4267):796-806. PMID:790568
↑ Hanson, R. M., Prilusky, J., Renjian, Z., Nakane, T. and Sussman, J. L. (2013), JSmol and the Next-Generation Web-Based Representation of 3D Molecular Structure as Applied to Proteopedia. Isr. J. Chem., 53:207-216. doi:http://dx.doi.org/10.1002/ijch.201300024
↑ Herraez A. Biomolecules in the computer: Jmol to the rescue. Biochem Mol Biol Educ. 2006 Jul;34(4):255-61. doi: 10.1002/bmb.2006.494034042644. PMID:21638687 doi:10.1002/bmb.2006.494034042644

Proteopedia Page Contributors and Editors (what is this?)

James Nolan, Michal Harel

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

@@ Line 1: / Line 1: @@
 ==tRNA==
-<StructureSection load='1tra' size='400' side='right' caption='phe-tRNA [[1tra]]' scene='72/725890/Trna_overview/1'>
+<StructureSection load='1tra' size='350' side='right' caption='phe-tRNA [[1tra]]' scene='72/725890/Trna_overview/1'>
 Source <ref>PMID:790568</ref>
 == Structural highlights ==
@@ Line 15: / Line 15: @@
 [[Image:JnTerts.GIF]]
-<scene name='72/725890/Trna_tert_interact/7'>You can zoom in for a closer look</scene>. The yellow residues are a parallel base pair (compared to the normal anti parallel) between <B><FONT COLOR="#aaaa00">G15</FONT></B> of the <B>D-loop</B> and <B><FONT COLOR="#aaaa00">C48</FONT></B> of the <B>variable loop</B>. This brings the <B>D-loop</B> and <B>variable loop</B> together. Note the sharp turn in the backbone between <B><FONT COLOR="#aaaa00">C48</FONT></B> and <B><FONT COLOR="#aaaa00">C49</FONT></B> caused by the parallel pair.
+<scene name='72/725890/Trna_tert_interact/8'>You can zoom in for a closer look</scene>. The yellow residues are a parallel base pair (compared to the normal anti parallel) between <B><FONT COLOR="#aaaa00">G15</FONT></B> of the <B>D-loop</B> and <B><FONT COLOR="#aaaa00">C48</FONT></B> of the <B>variable loop</B>. This brings the <B>D-loop</B> and <B>variable loop</B> together. Note the sharp turn in the backbone between <B><FONT COLOR="#aaaa00">C48</FONT></B> and <B><FONT COLOR="#aaaa00">C49</FONT></B> caused by the parallel pair.
 The green residues are a reverse Hoogsteen pair between <B><FONT COLOR="#00bf00">U8</FONT></B> and <B><FONT COLOR="#00bf00">A14</FONT></B>. This pairing is important for positioning of the <B>D stem</B> relative to the stacked <B>T</B> and <B>acceptor</B> stems.
@@ Line 23: / Line 23: @@
 The red residues are a base triple in which <B><FONT COLOR="#ff0000">7-methyl-G46</FONT></B> from the <B>variable loop</B> H-bonds to the <B><FONT COLOR="#ff0000">G22-C13</FONT></B> base pair of the <B>D stem</B>. This helps dock the <B>variable loop</B> onto the <B>D-stem</B>.
-<B><FONT COLOR="#008aff">A9</FONT></B> is also involved in another type of tertiary interaction: it is <scene name='72/725890/Trna_tertwire/2'>intercalated between bases</scene> <B><FONT COLOR="#ff0000">7-methyl-G46</FONT></B> and <B>G45</B>. In order to make room between these bases for <B><FONT COLOR="#008aff">A9</FONT></B> the backbone is extended by a C2' endo sugar pucker at <B><FONT COLOR="#ff0000">7-methyl-G46</FONT></B>.
+<B><FONT COLOR="#008aff">A9</FONT></B> is also involved in another type of tertiary interaction: it is <scene name='72/725890/Trna_tertwire/3'>intercalated between bases</scene> <B><FONT COLOR="#ff0000">7-methyl-G46</FONT></B> and <B>G45</B>. In order to make room between these bases for <B><FONT COLOR="#008aff">A9</FONT></B> the backbone is extended by a C2' endo sugar pucker at <B><FONT COLOR="#ff0000">7-methyl-G46</FONT></B>.

Transfer RNA tour

From Proteopedia

Current revision

tRNA

Contents

Structural highlights

Domains

Core Tertiary Interactions

U-turns

See Also

References

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