Publication detail

Chip-based magnetic separation technique with immobilized trypsin and anhydrotrypsin for isolation of specific peptides of neurotensin

Year: 2005

Type of publication: článek ve sborníku

Name of source: 11th International Symposium on Separation Science (ISSS 2005)

Publisher name: Univerzita Pardubice

Place: pardubice

Page from-to: 234

Titles:

Language	Name	Abstract	Keywords
cze	Separace založená na biočipové technologii, specifická izolace tryptických peptidů pomocí anhydrotrypsinu.	Separace založená na biočipové technologii, specifická izolace tryptických peptidů pomocí anhydrotrypsinu.	micro-chip, magnetické nosiče, izolace, neurotensin
eng	Chip-based magnetic separation technique with immobilized trypsin and anhydrotrypsin for isolation of specific peptides of neurotensin	The isolation of proteins and peptides in the area of biosciences and biotechnology is now the subject of interest. Magnetic separation techniques have several advantages in comparison with standard separation procedures. Functional spherical nanoparticles with controlled tendency to aggregate and controlled level of nonspecific sorption could be focused in channel of magnetically active microfluidic device for isolation or enzyme modification of target protein directly in a microchannel. Biospecific ligand anhydrotrypsin enables highly specific trapping of peptides which correspond to the products generated by the action of various trypsin-like proteases and binds, in slightly acidic conditions, only specific peptides containing arginine and lysine residues at their C-termini [1]. Anhydrotrypsin is catalytically inactive derivative of bovine trypsin in which serine residue (Ser-195) is first modified with phenylmethanesulfonyl fluoride (PMSF), an active site-directed reagent, and then the modified protein is treated with alkali results in elimination of the modified group and the serine is converted to a dehydroalanine [2]. Magnetic affinity reactor prepared by immobilization of anhydrotrypsin on magnetic nanoparticles was used for purification, isolation and preconcentration of specific peptides from complex mixture of tryptic peptides in one step. IMER (immobilized magnetic enzyme reactor) with trypsin in tandem with chip-based IMAR (immobilized magnetic affinity reactor) with anhydrotrypsin were used for simplification of peptide mapping including the digestion of protein coupling with purification and preconcentration of tryptic peptides of neurotensin for following analysis by HPLC and MS. High purity and preconcentration of peptides isolated on immobilized anhydrotrypsin significantly facilitated the identification of protein fingerprint even for protein in submicromolar concentration.	micro-chip, magnetic carrier, isolation, neurotensin

Search

Login for students

Login for employees

Publication detail

Departments

Other Parts

Map

Services

Popular Links