Intet billede af Lea Haarup Gregersen

Lea Haarup Gregersen

Lektor, Københavns Universitet, 2014 PhD, Biochemistry, Freie Universität Berlin, Germany , 2009 Msc, Biochemistry, Copenhagen University, Denmark.

  • Blegdamsvej 3

    2200 København N.

  • Kilde: Scopus
20082023

Publikationer pr. år

Personlig profil

Kort præsentation

Transcriptional integrity is critical for all cellular functions, as mRNA transcripts are the basis for all protein products. RNA polymerase II (RNAPII) is responsible for transcription of the vast majority of protein-coding genes as well as a number of non-coding RNAs. Correct co-transcriptional processing of the nascent RNA transcript is dependent on the C-terminal domain (CTD) of RNAPII. In humans, the CTD consists of 52 heptapeptide repeats with the consensus sequence Tyr1-Ser2-Pro3-Thr4-Ser5-Pro6-Ser7. The CTD is dynamically phosphorylated and serves as a binding platform of RNAPII-associated factors with certain phosphorylation states enriched in the beginning of the gene and others around termination sites. RNA-binding proteins are a key group of proteins responsible for co-transcriptional processing. Many of them recognize specific phosphorylation states of the RNAPII CTD and associate with the transcription machinery at certain stages during the transcription cycle to dictate correct maturation of nascent RNA transcripts.

We aim to understand fundamental biological mechanisms underlying transcriptional regulation and processing of nascent RNA in mammalian cells and how misregulation of these processes contribute to human disease such as cancer. We are especially interested in understanding how proteins interacting with the CTD of RNAPII impact co-transcriptional RNA processing events and how these processes are regulated.

For further details see: gregersenlab.com

Aktuel forskning

Regulation of transition between transcription elongation and termination

Whereas much work in past years has focused on transcriptional activation and initiation, it is becoming clear that post-initiation events are equally crucial for transcriptional integrity. In particular, the transition from elongation to termination has emerged as a significant point of regulation. Transcriptional termination ensures correct maturation of the final RNA transcript, but what is less appreciated is that regulation of transcriptional termination also influences expression of different isoforms with different end-sites. Transcription termination consists of two coupled events: co-transcriptional transcript cleavage and polyadenylation of the pre-mRNA, followed by RNAPII disassociation (i.e. transcriptional termination). We use a combination of molecular biology techniques (including generation of CRISPR modified human cell lines) together with custom next-generation sequencing techniques including RNA-seq, TTchem-seq, mNET-seq, ChIP-seq, CLIP etc. to study mRNA transcript cleavage and transcription termination in human knockout cell lines or in response to stress (see Gregersen et al. 2019 Cell and Gregersen et al. 2020 Nature Protocols).

Molecular mechanism of RNAPII CTD-interacting proteins

Our previous work has uncovered a role for two Serine/Arginine (SR)-related and CTD-associated factors (SCAFs) in suppression of premature mRNA transcript cleavage (Gregersen et al. 2019 Cell). Both proteins couple RNAPII CTD binding and their RNA-binding activity to prevent early mRNA transcript cleavage and ensure the production of full-length mRNA transcripts and proteins. Our current research is focused on elucidating the detailed molecular mechanisms of SCAF proteins as well as other RNAPII CTD associated factors with unknown roles in transcription regulation using a combination of cell biology, molecular biology, and systems biology.

Primære forskningsområder

Transkription and co-transcriptional RNA processing

Interesseområder

Transkription, molekylær cellebiologi og bioinformatik

CV

Career

2008-            
Master Student, Biotech Research and Innovation Centre

2006-2008    
Student assistant, Danish Cancer Society, Copenhagen

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