Mapping the Phosphorylation Pattern of Drosophila melanogaster RNA Polymerase II Carboxyl-Terminal Domain Using Ultraviolet Photodissociation Mass Spectrometry.
Joshua E MayfieldMichelle R RobinsonVictoria C CothamSeema IraniWendy L MatthewsAnjana RamDavid S GilmourJoe R CannonYan Jessie ZhangJennifer S BrodbeltPublished in: ACS chemical biology (2016)
Phosphorylation of the C-terminal domain of RNA polymerase II (CTD) plays an essential role in eukaryotic transcription by recruiting transcriptional regulatory factors to the active polymerase. However, the scarcity of basic residues and repetitive nature of the CTD sequence impose a huge challenge for site-specific characterization of phosphorylation, hindering our understanding of this crucial biological process. Herein, we apply LC-UVPD-MS methods to analyze post-translational modification along native sequence CTDs. Application of our method to the Drosophila melanogaster CTD reveals the phosphorylation pattern of this model organism for the first time. The divergent nature of fly CTD allows us to derive rules defining how flanking residues affect phosphorylation choice by CTD kinases. Our data support the use of LC-UVPD-MS to decipher the CTD code and determine rules that program its function.
Keyphrases
- drosophila melanogaster
- mass spectrometry
- protein kinase
- liquid chromatography
- transcription factor
- multiple sclerosis
- high resolution
- gene expression
- ms ms
- gas chromatography
- simultaneous determination
- high frequency
- quality improvement
- capillary electrophoresis
- electronic health record
- big data
- oxidative stress
- machine learning
- decision making
- heat stress