RiAFP

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== Overall Structure ==
== Overall Structure ==
The crystallographic structure of RiAFP was defined recently<ref>DOI 10.1074/jbc.M113.450973</ref>. It reveals a new β-solenoid architecture that forms <scene name='60/607864/Beta_sheets/1'>β-sandwich</scene> of <scene name='60/607864/Beta_sheets_colored/1'>two parallel 6 and 7 stranded-sheets</scene> of remarkable regularity. The β-sheets lie on top of each other with the upper and lower strands parallel but in the opposite orientation. Two ends deviate from β helix regularity by forming <scene name='60/607864/Beta_sheets_capping/2'>capping structures</scene>. These capping structures help to prevent end-to-end associations that would spoil the solubility of RiAFP and lead to oligomerization and aggregation.
The crystallographic structure of RiAFP was defined recently<ref>DOI 10.1074/jbc.M113.450973</ref>. It reveals a new β-solenoid architecture that forms <scene name='60/607864/Beta_sheets/1'>β-sandwich</scene> of <scene name='60/607864/Beta_sheets_colored/1'>two parallel 6 and 7 stranded-sheets</scene> of remarkable regularity. The β-sheets lie on top of each other with the upper and lower strands parallel but in the opposite orientation. Two ends deviate from β helix regularity by forming <scene name='60/607864/Beta_sheets_capping/2'>capping structures</scene>. These capping structures help to prevent end-to-end associations that would spoil the solubility of RiAFP and lead to oligomerization and aggregation.
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The three residues in β-strand 11 at the C terminus <scene name='60/607864/Gln110_gln112_ile114/1'>(Gln110, Gln112, and Ile114)</scene> that are too bulky to be accommodated into the core may also contribute to the capping structure to prevent amyloid-like polymerization. RiAFP solenoid possesses compressed nature. In the core of RiAFP, the side chains within apposed β-strands from the two β-sheets are staggered, allowing the side chains to interdigitate and pack tightly against one another. Most of the <scene name='60/607864/Core_structure/1'>side chains</scene> in the core are from <span style="color:pink;background-color:black;font-weight:bold;">Ala</span>, <span style="color:green;background-color:black;font-weight:bold;">Ser</span> and <span style="color:yellow;background-color:black;font-weight:bold;">Thr</span>. Those residues create a more compact fold that may contribute to the high stability and antifreeze activity of RiAFP. Within the core there are <scene name='60/607864/Hydrogen_bonds/2'>hydrogen bonds</scene> between Thr-Ser (65-55, 85-75, 132-124 respectively) and one disulfide bond between Cys4-Cys21, that contributes to stabilization of the whole structure.
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The three residues in β-strand 11 at the C terminus <scene name='60/607864/Gln110_gln112_ile114/1'>(Gln110, Gln112, and Ile114)</scene> that are too bulky to be accommodated into the core may also contribute to the capping structure to prevent amyloid-like polymerization. RiAFP solenoid possesses compressed nature. In the core of RiAFP, the side chains within apposed β-strands from the two β-sheets are staggered, allowing the side chains to interdigitate and pack tightly against one another. Most of the <scene name='60/607864/Core_structure/1'>side chains</scene> in the core are from <span style="color:pink;background-color:black;font-weight:bold;">Ala</span>, <span style="color:green;background-color:black;font-weight:bold;">Ser</span> and <span style="color:yellow;background-color:black;font-weight:bold;">Thr</span>. Those residues create a more compact fold that may contribute to the high stability and antifreeze activity of RiAFP. Within the core there are <scene name='60/607864/Hydrogen_bonds/2'>hydrogen bonds</scene> between Thr-Ser (65-55, 85-75, 132-124 respectively) and one <scene name='60/607864/S-s_bond/1'>disulfide bond</scene> between Cys4-Cys21, that contributes to stabilization of the whole structure.
<scene name='60/607864/Hydrogen__disulfide_bonds/1'>another way to show the bonds</scene>
<scene name='60/607864/Hydrogen__disulfide_bonds/1'>another way to show the bonds</scene>

Revision as of 14:24, 31 December 2014

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Caption for this structure

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References

  1. 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
  2. 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
  3. Hakim A, Nguyen JB, Basu K, Zhu DF, Thakral D, Davies PL, Isaacs FJ, Modis Y, Meng W. Crystal structure of an insect antifreeze protein and its implications for ice binding. J Biol Chem. 2013 Apr 26;288(17):12295-304. doi: 10.1074/jbc.M113.450973. Epub, 2013 Mar 12. PMID:23486477 doi:10.1074/jbc.M113.450973

Proteopedia Page Contributors and Editors (what is this?)

Vera Sirotinskaya, Hila Cohen, Angel Herraez, Michal Harel

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