Data collection: Tips and Tricks: Difference between revisions

Jump to navigation Jump to search
rearrangement and links
(New page: == cryo == * PEG3350 seems to be little too large for freezing, particularly in presence of high salt concentration. However, PEG2000 is good enough as a cryo protectant. * Try oils ...)
 
(rearrangement and links)
Line 1: Line 1:
== [[cryo]] ==
See also [[cryo]] and [[Crystal growth: Tips and Tricks#Reducing the mosaicity]], and [[Improving crystal quality]].
 
The following tips mostly refer to cryo improvement:
* PEG3350 seems to be little too large for freezing, particularly in presence of high salt concentration. However, PEG2000 is good enough as a cryo protectant.
* PEG3350 seems to be little too large for freezing, particularly in presence of high salt concentration. However, PEG2000 is good enough as a cryo protectant.
* Try oils
* Try oils for cryoprotection
* Try stepwise increase from low concentrations of cryoprotectants to the required concentration, over several minutes/hours/days.  
* Try stepwise increase from low concentrations of cryoprotectants to the required concentration, over several minutes/hours/days. The larger the crystal, the longer should be the incubation in each step.
* The larger the crystal, the longer should be the incubation in each step.
* Small crystals often do better in terms of mosaicity increase than big crystals (often growth faults lead to end of crystal growth)
* Small crystals often do better in terms of mosaicity increase than big crystals.
* use a synchrotron beam (as it is less divergent than the usual home source, and the apparent mosaicity is the sum of the crystal mosaicity and the crossfire)
* shoot at parts of the crystal to find if there are good and bad parts (this requires a small beam)
1,330

edits

Cookies help us deliver our services. By using our services, you agree to our use of cookies.

Navigation menu