Description
Experimental Technique/Method:X-RAY DIFFRACTION
Resolution:1.98
Classification:PLANT PROTEIN
Release Date:2012-07-18
Deposition Date:2012-02-01
Revision Date:2012-10-31
Molecular Weight:22243.12
Macromolecule Type:Protein
Residue Count:207
Atom Site Count:1552
DOI:10.2210/pdb4dj1/pdb
Abstract:
Langmuir-Blodgett films when used as nanotemplates for crystallization often leads to marked changes in protein stability and structure. Earlier we found that stability of proteins is also correlated with aqueous surroundings in the crystals. Here we study the direct relationships between presence of LB nanotemplates and unique patterns of water molecules surrounding the protein, for four model proteins for which 3D structures are available, and where crystallization conditions for each protein are the same except the presence of LB nanotemplate. Shape of frequency distribution of volumes occupied by water molecules were analyzed. They were found to be different between "classical" samples of different proteins, but surprisingly quite similar for LB samples. Volumes occupied by each water molecule as the function of the distance of the given molecule from the protein surface were studied. Introduction of LB film leads to appearance of water molecules close to protein surface but occupying large volumes. These findings confirm earlier experimental findings on the role of water molecules in determining protein stability and thereby pointing to water as a possible candidate for differences apparent in LB crystal stability against radiation.
Resolution:1.98
Classification:PLANT PROTEIN
Release Date:2012-07-18
Deposition Date:2012-02-01
Revision Date:2012-10-31
Molecular Weight:22243.12
Macromolecule Type:Protein
Residue Count:207
Atom Site Count:1552
DOI:10.2210/pdb4dj1/pdb
Abstract:
Langmuir-Blodgett films when used as nanotemplates for crystallization often leads to marked changes in protein stability and structure. Earlier we found that stability of proteins is also correlated with aqueous surroundings in the crystals. Here we study the direct relationships between presence of LB nanotemplates and unique patterns of water molecules surrounding the protein, for four model proteins for which 3D structures are available, and where crystallization conditions for each protein are the same except the presence of LB nanotemplate. Shape of frequency distribution of volumes occupied by water molecules were analyzed. They were found to be different between "classical" samples of different proteins, but surprisingly quite similar for LB samples. Volumes occupied by each water molecule as the function of the distance of the given molecule from the protein surface were studied. Introduction of LB film leads to appearance of water molecules close to protein surface but occupying large volumes. These findings confirm earlier experimental findings on the role of water molecules in determining protein stability and thereby pointing to water as a possible candidate for differences apparent in LB crystal stability against radiation.
| Date made available | Jul 18 2012 |
|---|---|
| Publisher | RCSB-PDB |