Hello Mo Wong, Some points below are good, but don't underestimate custom peptides sometimes... can be much harder/expensive than recombinant proteins. If you ordered the peptides it is good to know how they synthesized them, and how the elution profiles during purification (RP HPLC..) looked like, particularly that they are very hydrophobic. Did they use formic acid, or maybe they already dissolved them in DMSO.. Did they verify the product/bonds with MALDI-TOF for example and NMR? Furthermore, you can try 0.1-0.5 % Triton X-100. My vote would be for a final concentration of 5-25 uM (containing up to 5 % solvent), from a stock of 50-100 % solvent at 1 mM.. Btw I forgot.. for SPR (depends on the system, and especially for a 12mer), some detergents and even a minor DMSO/ethanol can affect the measurements drastically. Best wishes
toufic el arnaout On Wed, Mar 5, 2014 at 12:19 AM, Mo Wong <mowon...@gmail.com> wrote: > Hi all, > > Slightly off topic - but I'm having trouble solubilizing some peptides for > SPR and hoped someone on the BB might have some other suggestions. > > The peptides are intra-chain S-S cross-linked 12mers with pIs of ~3. 10 > residues are hydrophobic and 2 are acidic. Peptides have been tested with > and without N- and C-terminal modifications (amidation/acetylation). > > I have tried: > ddH2O > raising (and lowering) pH (tested up to 8.5) with different buffers > Including DMF as a co-solvent (I'm avoiding DMSO because of a methionine > present in the peptide) - peptide still visibly precipitates out at 100uM > in 5% DMF (also a 1mM stock in 50% DMF shows significant amounts of ppt) > Adding a trace amount of detergent (0.005% Tween 20) > > I'm guessing I could try other co-solvents such as ethanol or initially > solubilizing peptide in dilute NaOH before bringing the pH down with > addition of a buffer (though I'm concerned about alkaline hydrolysis). > Anyway, I'd rather have some insight from people before I waste any further > peptide. > > > Thanks for any suggestions. > >
