Fast, efficient characterization of proteins is becoming one of the hottest topics in the bioanalytical community, especially for large-scale proteomic studies. As an attractive approach, protein digestion by enzymes supported on various matrices (referred to as immobilized enzyme reactors, IMERs) has recently attracted much attention
A variety of immobilization enzyme reactors (IMERs) have been developed for proteomics research, whi...
Large-scale mass spectrometry based proteomic study requires high-throughput sample preparation tech...
During the last decade new combinatorial techniques have been developed that allow for synthesis of ...
Protein analysis is a field under rapid development mainly thanks to technological advances which ha...
Protein analysis is a field under rapid development mainly thanks to technological advances which ha...
In the current proteome study, protein digestion is indispensable before proteins could be identifie...
none3noProtein analysis is a field under rapid development mainly thanks to technological advances w...
Despite the developments for faster liquid chromatographic and mass spectral detection techniques, t...
Despite the developments for faster liquid chromatographic and mass spectral detection techniques, t...
In the past few years, the applicability and versatility of immobilized enzyme reactors (IMERs) has ...
During the last decade, miniaturization, availability of new analytical tools as well as introductio...
The latest advances on the immobilized enzyme reactor and its applications in proteomic study were r...
During the last decade, miniaturization, availability of new analytical tools as well as introductio...
none4siDuring the last decade, miniaturization, availability of new analytical tools as well as intr...
Immobilized enzymatic reactors recently have drawn much attention because of the striking advantages...
A variety of immobilization enzyme reactors (IMERs) have been developed for proteomics research, whi...
Large-scale mass spectrometry based proteomic study requires high-throughput sample preparation tech...
During the last decade new combinatorial techniques have been developed that allow for synthesis of ...
Protein analysis is a field under rapid development mainly thanks to technological advances which ha...
Protein analysis is a field under rapid development mainly thanks to technological advances which ha...
In the current proteome study, protein digestion is indispensable before proteins could be identifie...
none3noProtein analysis is a field under rapid development mainly thanks to technological advances w...
Despite the developments for faster liquid chromatographic and mass spectral detection techniques, t...
Despite the developments for faster liquid chromatographic and mass spectral detection techniques, t...
In the past few years, the applicability and versatility of immobilized enzyme reactors (IMERs) has ...
During the last decade, miniaturization, availability of new analytical tools as well as introductio...
The latest advances on the immobilized enzyme reactor and its applications in proteomic study were r...
During the last decade, miniaturization, availability of new analytical tools as well as introductio...
none4siDuring the last decade, miniaturization, availability of new analytical tools as well as intr...
Immobilized enzymatic reactors recently have drawn much attention because of the striking advantages...
A variety of immobilization enzyme reactors (IMERs) have been developed for proteomics research, whi...
Large-scale mass spectrometry based proteomic study requires high-throughput sample preparation tech...
During the last decade new combinatorial techniques have been developed that allow for synthesis of ...
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