Time filter

Source Type

Meleady P.,Dublin City University | Hoffrogge R.,Bielefeld University | Henry M.,Dublin City University | Rupp O.,Bielefeld University | And 16 more authors.
Biotechnology and Bioengineering | Year: 2012

Recently released sequence information on Chinese hamster ovary (CHO) cells promises to not only facilitate our understanding of these industrially important cell factories through direct analysis of the sequence, but also to enhance existing methodologies and allow new tools to be developed. In this article we demonstrate the utilization of CHO specific sequence information to improve mass spectrometry (MS) based proteomic identification. The use of various CHO specific databases enabled the identification of 282 additional proteins, thus increasing the total number of identified proteins by 40-50%, depending on the sample source and methods used. In addition, a considerable portion of those proteins that were identified previously based on inter-species sequence homology were now identified by a larger number of peptides matched, thus increasing the confidence of identification. The new sequence information offers improved interpretation of proteomic analyses and will, in the years to come, prove vital to unraveling the CHO proteome. © 2012 Wiley Periodicals, Inc.

Loading Universat For Bodenkultur Vienna Boku collaborators
Loading Universat For Bodenkultur Vienna Boku collaborators