Don't forget that if you have poorly resolved spots due to the long axis, the intensity statistics may falsely seem to indicate twinning, since weak spots may be contaminated by neighbouring strong ones
Phil On 14 Dec 2011, at 04:47, Stefan Gajewski wrote: > I am looking at a highly unusual crystal lattice right now and can't figure > out what is going on, so I decided to ask the experts. > > I recently got data on a oligomeric protein with many highly correlated NCS > units (4.0A resolution, linear R-sym is 0.16-0.21 in I4, I422, F222, C2 and > 0.12 in P1) with severe anisotropic diffraction (according to diffraction > anisotropy server, the F/sigma drops below 3 at a=6.1 b=6.1 c=never, > suggested isotropic B-sharpening -125A^2) This lattice has a problem. The > apparent unit cell is rather huge (roughly 180 180 620 / 90 90 90) > > The unit cell dimensions are almost perfectly I4 and the presence of > systematic absent reflections >50 I/s in I41 and I4122 suggest no screw axis. > I used a very closely related structure solved at 4.2A as molecular > replacement model and got a solution from the anisotropy corrected data in > I422 space group with two oligomers in the asymmetric unit cell. > > Confidence of the MR "solution" is quite high since (a)the MR replacement put > one model one NCS raster off the "true" position resulting in a clash with > the second one in an empty region of the map and additional electron density > on the other side which corresponds perfectly to the wrongly positioned > monomer, and (b) after rotating the model in the "right" position I could > refine the structure to R-work=0.31. R-free=0.35 in one run of rigid body > refinement followed by NCS restrained simulated annealing refinement > (phenix.refine), which is in my opinion really good at such an early stage of > refinement given the low overall resolution and even lower completeness of > strong reflections in a and b due to high anisotropy (observables to atoms > ratio is about 3:1) . I can even see clear density for some of the bulky > sidechains which were not included in the model. > > Now here is the baffling thing. The unit cell is almost empty with an > apparent solvent content of >78%. The molecules cluster around the c-axis and > at the origin with an empty gap in a and b of at least 15A and up to 165A(!) > in the longest dimension. There is no sign of electron density that would > indicate a missing protein in that region and ~98% of my model is already > accounted for by the density in the 2Fo-Fc map, making a contact of > disordered protein regions across the ASUs unlikely. In fact, the protein > density is well defined at the closest gap and no mainchain atom is > unaccounted for in that region. The oligomer has a magnitude of ~105A x 70A. > I heavily doubt that a crystal lattice with such little contacts and holes as > huge as these can exist and therefore think that: > > (a) the R-factors are misleading me to think the solution is correct and > complete > (b) I must have been doing something really wrong > > Since proteins from this family have a well established history of producing > twinned crystals I had a look at that possibility. Analyzing the anisotropy > corrected I4 data for twinning (Padilla & Yeates method) revealed a 2-fold > twin law with a twin fraction of 0.42 which would make the discrimination > between an almost perfectly merohedral twin in I4 and a (non twinned ?) I422 > extremely difficult (to me). MR with anisotropy corrected I4 data gave the > same crystal packing and hence the same void solvent region. MR in lower > point groups was not successful so far although I haven't pursued that idea > vigorously. The same data in I422 has no indication for twinning and in C2 > three 2-fold twin laws. > > Anomalous data is not easily available since those crystals grow in about one > year and getting another crystal is also not very likely because this IS "the > other crystal". > > I am clueless now on how to proceed here and would appreciate advice from > experienced crystallographers on what to try first. > > Am I worrying too much about the packing? > Is it even possible to have such an enormously huge solvent region in a > protein crystal? > What is the recommended protocol when dealing with many and very strongly > correlated NCS units, putative twinning and severe anisotropy all at the same > time? > > Stefan Gajewski
