When one chip is not enough: Augmenting the validity of SELDI-TOF proteomic profiles of clinical specimens

• Název česky: Když jeden čip nestačí: Zvyšování úrovně validity SELDI-TOF proteomických profilů klinických vzorků.
• Autoři: GREPLOVÁ Kristína; PILNÝ Radomír; BUDINSKÁ Eva; DUBSKÁ Lenka; LAKOMÝ Radek; VYZULA Rostislav; VOJTĚŠEK Bořivoj; VALÍK Dalibor
• Rok publikování: 2009
• Druh: Článek v odborném periodiku
• Časopis / Zdroj: Lab on a Chip
• Fakulta / Pracoviště MU: Lékařská fakulta
• www: http://www.rsc.org/ej/LC/2009/b815503h.pdf
• Obor: Onkologie a hematologie
• Klíčová slova: SELDI-TOF; proteomic profile; validity; chip
• Popis: To improve recovery, selectivity and reproducibility of SELDI-TOF analyses, we found it necessary to modify manufacturer's recommended protocols on sample and chip preparation. To yield reproducible denaturing conditions we verified concentrations of denaturing, reducing and lipid-solubilizing agents. We improved sorption of molecules of interest and reproducibility of analyses by introducing the preconditioning step and alkaline/acidic elutions for normal phase chips. The ratio that reproducibly decomposed the specimen was urea 9 mol l(-1) + DTT 10 mmol l(-1) + CHAPS 20 g l(-1). For sample denaturation, 100 microl of the fresh mixture was added to 100 microl of the specimen. Our modification of a chip processing increased recovery of the NP20 chip by up to 400% as assessed by total ion current. We obtained the range of mass accuracy of 0.02-0.04% and response precision between 30-40% of m/z+. We observed about 50% peak overlap. To obtain approximately 92% of possible peaks three chip selectivities, IMAC, H50 and normal phase with alkaline wash should be used. The selectivity of the SELDI chips is affected by unspecific interactions of a sample with a chip backbone. The system is compatible with matrix-based biological materials and does not suffer from urea interference and sensitivity to covalently bound alkaline ions. The technique is reasonably suitable for semiquantitative screening in the mammalian low-molecular weight cellular, tissue and plasma proteome.

Související projekty

• Centrum biofyzikální chemie, bioelektrochemie a bioanalýzy. Nové nástroje pro genomiku, proteomiku a biomedicínu