Hello Steve, You can also check out this paper: Bystrom, Pettigrew, Remington and Branchaud (1997) Bioorganic & Medicinal Chemistry Letters, Vol 7 No 20 pp2613-2616. It describes the creation of AMPPCF2P, which I had opportunity to use a few years back and it worked great!
Good luck, Bryan From: CCP4 bulletin board [mailto:[email protected]] On Behalf Of Derek Logan Sent: Monday, February 14, 2011 4:16 PM To: [email protected] Subject: Re: [ccp4bb] AMP-PNP Hydrolysis Hi Steve, Funnily enough I just read the following paper today, which describes exactly this phenomenon: http://www.ncbi.nlm.nih.gov/pubmed/21093442 Is AMPPCP as sensitive to acid conditions? I would suspect not. Best wishes Derek ___________________________________________________________________ Derek Logan tel: +46 46 222 1443 Associate Professor fax: +46 46 222 4692 Dept. of Biochemistry and Structural Biology mob: +46 76 8585 707 Centre for Molecular Protein Science www.cmps.lu.se Lund University, Box 124, 221 00 Lund, Sweden www.saromics.com On Feb 14, 2011, at 15:05, Young-Jin Cho wrote: Hi Steve, With my experience, it is (very) common to see AMPPNP is hydrolyzed to AMPPN (supposedly) with my protein. Although the literature often reported AMPPNP as a stable ATP mimic, such a luck wasn't true with my case, maybe same as you. If you go to Sigma website where I purchased, it may say it is not stable in an acidic condition. My mother liquor was in an acidic condition. So you'd better consider if you used it in an acidic condition, otherwise, your protein inherently has a strong power to hydrolyze it. In addition to the pH, I often see it can go hydrolysis easily. However, you can try more as you mentioned it may contain impurity. I just want to inform you that it is not surprising to see this hydrolysis. Good luck~ Young-Jin On Mon, Feb 14, 2011 at 8:30 AM, Soisson, Stephen M <[email protected]> wrote: Hi there, Was recently looking at a structure of an enzyme with AMP-PNP added to the crystallization mix, and all I see is density for ADP. I was wondering if hydrolysis of AMP-PNP to ADP is relatively common - either as a result of extended time in crystallization or exposure of the resultant crystals to synchrotron radiation? I know that there can be up to 10% contamination of ADP in the purchased material, so it could just be that we have selected that form in the crystal, or that there was endogenous ADP bound that failed to substitute. Just curious if hydrolysis is a common observation. Thanks in advance- Steve Stephen M. Soisson, Ph.D. Structural Chemistry Site Lead, WP Merck Research Laboratories 770 Sumneytown Pike, WP14-1101 West Point, PA 19486 Phone: (215) 652-6185 Fax: (215) 652-9051 [email protected] Notice: This e-mail message, together with any attachments, contains information of Merck & Co., Inc. (One Merck Drive, Whitehouse Station, New Jersey, USA 08889), and/or its affiliates Direct contact information for affiliates is available at http://www.merck.com/contact/contacts.html) that may be confidential, proprietary copyrighted and/or legally privileged. It is intended solely for the use of the individual or entity named on this message. If you are not the intended recipient, and have received this message in error, please notify us immediately by reply e-mail and then delete it from your system. -------------------------------------------------------------------------- Confidentiality Notice: This message is private and may contain confidential and proprietary information. If you have received this message in error, please notify us and remove it from your system and note that you must not copy, distribute or take any action in reliance on it. Any unauthorized use or disclosure of the contents of this message is not permitted and may be unlawful.
