*** 急がないとドロップが乾く..そんな時にはパラフィンオイル! (^^) *** パラフィンオイルの利用は,特に,96 well plate に sitting drop 法で出し た結晶をループで拾う際に便利だと思います. 私は,Greiner のプレート(Hampton: HR3-190 CrystalQuick Plate)の場合, 結晶化ドロップ部分とリザーバー部分全体に,約 0.5mL をかぶせてしまって います. # 問題は,一旦オイルを使うと,再度シールテープを貼ることが出来ないこと? 渡邉 以下は最近 CCP4BB に流れていたものです. (誰か日本語化しません?) ーーーーーーーーーーーーーーーーーーーーーーーーーーーーーーーーーーー From: "Tom Caradoc-Davies" To: ccp4bb@dl.ac.uk Subject: [ccp4bb]: Oil and cryoprotectant protocol. Date: Fri, 07 Feb 2003 01:58:34 +0000 OIL/CRYOPROTECTANT COMBINATION PROTOCOL: Reagents: Oil: I use bulk parrafin, LABCHEM brand by AJAX Chemicals. If you use organics such as isopropanol in your mother liquor and this causes problems via entering the oil layer the oil can be pre-equilibrated by shaking it with mother-liquor. Cryosolution: Your lab's standard cryo-solution for that particular xtal. I used mother liquor containing 30% glycerol. Tools: Standard xtal handling loops (I use Hampton) that are a bit larger than you would normally use for a given xtal. This varies depending on xtal shape but the loop must form an oil film rather than pick up a blob of oil when removed from the oil layer. Also normal plastic micro-bridges, xtal manipulation tools (cat whiskers, acupuncture needles etc.) coverslips and if required a skirt cut from a cryo-vial or a small clear plastic box large enough to hold a coverslip. Protocol: 1.XTAL HARVERSTING: Xtals can be harvested in the normal manner or under oil. If harvesting under oil: A. Sitting drop: layer 40-50microL of oil over the drop containg the xtal. The drop should move to the bottom of the micro-bridge (if not a touch with a whisker will move it). To stop a drop from drying it requires 2-3mm of oil between the top of the drop and the surface of the oil. I use 2-6microL to grow xtals and with these drops 40microL of oil is enough when using a micro-bridge. If you use very large drop sizes you may require more oil or a larger well to accomodate this. B. Batch method under oil: A micro-bridge has 40microL oil added to the well. The drop containing the xtals in the batch experiment is removed using a 10microL pipette tip and pipetted under the surface of the oil. To help prevent xtal loss take up a small volume of oil before and after the drop in the pipette tip. If these extra oil drops do not merge with the oil in the micro-bridge a touch with an acupuncture needle between the oil/oil drop interface will collapse the oil drop into the oil layer. C. Hanging Drop: Place the coverslip containg the xtal drop face up in a small clear plastic box and add sufficient oil to make a layer at least 2-3mm between the top of the drop and the surface of the oil. Alternatively use Martyn Symmons technique of cutting a section from a cryo-vial and place this around the drop on the coverslip. Grease is used to seal the skirt to the coverslip and the skirt is filled with oil using a 1mL pipette. 2.XTAL TRANSFER TO CRYO-SOLUTION: A second micro-bridge is clearly labelled and filled with 40microL oil and has a 6microL drop of cryo-solution added under the surface of the oil. If this drop adheres to the surface of the drop or the sides of the well it can be moved to the bottom of the well using an acupuncture needle or whisker. The xtal is looped out of the mother-liquor drop through the oil interface and into the cryo-drop in the second bridge. This is done in the usual manner. Large xtals or those causing problems may require the loop to be held so that it is edge on to the viewer. 3. CRYO-COOLING: After the xtal has equilibrated in cryo-solution or been moved sequentially through a required series of cryo-protectant concentrations it can be looped out as above. If viewed under a microscope the loop should have a thin film of oil covering the span inside the loop (like the surface of a bubble). The xtal should be held in this film and only have a tiny amount of cryo-solution attached to the faces of the xtal. The xtal edges should be clear of cryo-protectant and extent into the oil film. Due to the thin layer of oil coating the xtal it should be protected from drying out for at least 10 minutes. This allows for ample time to move the xtal to the goniometer and place it in the cryo-stream. The oil film does not seem to affect cryo-cooling (or annealing). The two benefits of using this protocol are: 1. The xtal is totally protected from the air and this provides ample time for xtal handling or cryo-cooling. 2. The xtal is cryo-cooled in a far smaller volume of cryo-solution than that of normal methods and this produces a smaller diffuse solvent ring on the resulting X-ray image. The use of oil to protect xtals from dehydration is commonly used during both harvesting and xtal transfer, and the only different step in this protocol is the combination of oil with cryo-protectant. Thanks to Martyn Symmons for his advice and cryo-vial skirt trick, Kris Tesh for his great slide show with xtal tricks and tips, Stephan Ginell, Henry Bellamy, Harry Powell, Steve Ernst, Peter Moody and many others for your advice and comments. Cheers, Tom