Mike, I guess in general your statements are valid, but in reality there are more (important) variables in description of each phenomenon that we may immediately/intuitively think of. Any discussion about B-factors is sloppy (although it has a clear mathematical background to start with). If we convolute it with such fundamental questions you asked we will end up writing a (chapter for a) book -;) All the best, Pavel. On 4/6/11 1:24 PM, [email protected] wrote:
Usually one will describe ordered parts of a protein vs disordered parts based on B factors. Is the higher resolution protein more ordered and that may have contributed to its stronger diffraction?
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Are the two crystals with different max resolution isomorphous? B-factors contain contributions from both dynamic and static disorder. Your difference in b-factors and resolution are both likely due to the fact that your higher-resolution data comes from a more ordered crystal, not a less dynamic protein. More ordered crystals diffract better, but if the two crystals were grown in the same conditions and the crystals are isomorphous I doubt that there is any difference in the dynamics of the molecules. If you are interested in which parts of your protein are more dynamically disordered you may want to consider (within a single dataset) which atoms have high b-factors relative to the average b-factor for all the atoms in that dataset.
Mike