Rapid and efficient protein digestion using trypsin-coated magnetic nanoparticles under pressure cycles
- Authors
- Lee, Byoungsoo; Lopez-Ferrer, Daniel; Kim, Byoung Chan; Na, Hyon Bin; Park, Yong Il; Weitz, Karl K.; Warner, Marvin G.; Hyeon, Taeghwan; Lee, Sang-Won; Smith, Richard D.; Kim, Jungbae
- Issue Date
- 2011-01
- Publisher
- WILEY-BLACKWELL
- Citation
- PROTEOMICS, v.11, no.2, pp.309 - 318
- Abstract
- Trypsin-coated magnetic nanoparticles (EC-TR/NPs), prepared via a simple multilayer random crosslinking of the trypsin molecules onto magnetic nanoparticles, were highly stable and could be easily captured using a magnet after the digestion was complete. EC-TR/NPs showed a negligible loss of trypsin activity after multiple uses and continuous shaking, whereas the conventional immobilization of covalently attached trypsin on NPs resulted in a rapid inactivation under the same conditions due to the denaturation and autolysis of trypsin. A single model protein, a five-protein mixture, and a whole mouse brain proteome were digested at atmospheric pressure and 37 degrees C for 12 h or in combination with pressure cycling technology at room temperature for 1 min. In all cases, EC-TR/NPs performed equally to or better than free trypsin in terms of both the identified peptide/protein number and the digestion reproducibility. In addition, the concomitant use of EC-TR/NPs and pressure cycling technology resulted in very rapid (similar to 1 min) and efficient digestions with more reproducible digestion results.
- Keywords
- INTENSITY FOCUSED ULTRASOUND; GAS-PHASE FRACTIONATION; MASS-SPECTROMETRY; QUANTITATIVE PROTEOMICS; CYCLING TECHNOLOGY; SAMPLE PREPARATION; PEPTIDES; THROUGHPUT; SYSTEM; MS; INTENSITY FOCUSED ULTRASOUND; GAS-PHASE FRACTIONATION; MASS-SPECTROMETRY; QUANTITATIVE PROTEOMICS; CYCLING TECHNOLOGY; SAMPLE PREPARATION; PEPTIDES; THROUGHPUT; SYSTEM; MS; Enzyme coatings; Magnetic nanoparticles; Nanoproteomics; Pressure cycling technology; Protein digestion
- ISSN
- 1615-9853
- URI
- https://pubs.kist.re.kr/handle/201004/130757
- DOI
- 10.1002/pmic.201000378
- Appears in Collections:
- KIST Article > 2011
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