Abstract
-
ESI mass spectrometry was used to assess the ability of metal complexes to inhibit binding of a transcription factor to a DNA molecule containing its recognition sequence.
A mass spectrometric investigation of the ability of metal complexes to modulate transcription factor activity
Journal ArticleOverview
UOW Authors
Publication Date
- 2009
Has Subject Area
Published In
- Chemical Communications Journal
Geographic Focus
- Australia Country
Background
Citation
- Talib, J. H., Beck, J. L., Urathamakul, T., Nguyen, C., Aldrich-Wright, J., Mackay, J. P. & Ralph, S. Frederick. (2009). A mass spectrometric investigation of the ability of metal complexes to modulate transcription factor activity. Chemical Communications, (37), 5546-5548.
Identity
Digital Object Identifier (doi)
Scopus Eid
- 2-s2.0-70349267679
Ro Metadata Url
- http://ro.uow.edu.au/scipapers/4596
Additional Document Info
Has Global Citation Frequency
- 11 (sourced from Scopus)
Number Of Pages
- 2
Start Page
- 5546
End Page
- 5548
Issue
- 37
Overview
Abstract
-
ESI mass spectrometry was used to assess the ability of metal complexes to inhibit binding of a transcription factor to a DNA molecule containing its recognition sequence.
UOW Authors
Publication Date
- 2009
Has Subject Area
Published In
- Chemical Communications Journal
Geographic Focus
- Australia Country
Background
Citation
- Talib, J. H., Beck, J. L., Urathamakul, T., Nguyen, C., Aldrich-Wright, J., Mackay, J. P. & Ralph, S. Frederick. (2009). A mass spectrometric investigation of the ability of metal complexes to modulate transcription factor activity. Chemical Communications, (37), 5546-5548.
Identity
Digital Object Identifier (doi)
Scopus Eid
- 2-s2.0-70349267679
Ro Metadata Url
- http://ro.uow.edu.au/scipapers/4596
Additional Document Info
Has Global Citation Frequency
- 11 (sourced from Scopus)
Number Of Pages
- 2
Start Page
- 5546
End Page
- 5548
Issue
- 37