Klíčové faktory při výběru sestřihových míst v kódujících a v dlouhých nekódujících RNA / Determinants of the splice site selection in protein-coding and long non-coding RNAs

Krchňáková, Zuzana

January 2019

In my thesis, I focused on several underexplored areas of RNA splicing regulation. In the first part, I analyzed how chromatin and transcription regulatory elements change pre-mRNA splicing. In the second part, I studied why long non-coding RNAs (lncRNAs) are spliced less efficiently than protein-coding mRNAs. Finally, I was testing the importance of intron for the activating function of lncRNAs. It has been shown that chromatin and promoter identity modulate alternative splicing decisions. Here, I tested whether local chromatin and distant genomic elements that influence transcription can also modulate splicing. Using the chromatin modifying enzymes directly targeted to FOSL1 gene by TALE technology, I showed that changes in histone H3K9 methylation affect constitutive splicing. Furthermore, I provide evidence that deletion of transcription enhancer located several kilobases upstream of an alternative exons changes splicing pattern of the alternative exon. Many nascent lncRNAs undergo the same maturation steps as pre-mRNAs of protein- coding genes (PCGs), but they are often poorly spliced. To identify the underlying mechanisms for this phenomenon, we searched for putative splicing inhibitory sequences. Genome-wide analysis of intergenic lncRNAs (lincRNAs) revealed that, in general, they do not...

Genomic Organization of the Human Rod Photoreceptor cGMP-Gated Cation Channel β-subunit Gene

Ardell, Michelle D., Bedsole, D. Lawrence, Schoborg, Robert V., Pittler, Steven J.

21 March 2000

We previously reported that the CNGB1 locus encoding the rod photoreceptor cGMP-gated channel β-subunit is complex, comprising non- overlapping transcription units that give rise to at least six transcripts (Ardell, M.D., Aragon, I., Oliveira, L., Porche, G.E., Burke, E., Pittler, S.J., 1996. The beta subunit of human rod photoreceptor cGMP-gated cation channel is generated from a complex transcription unit. FEBS Lett. 389, 213- 218). To further understand the transcriptional regulation of this extraordinarily complex locus, and to develop a screen for defects in the gene in patients with hereditary disease, we determined its genomic organization and DNA sequence. The CNGB1 locus consists of 33 exons, which span approximately 100 kb of genomic DNA on chromosome 16. The β-subunit comprises two domains, an N-terminal glutamic acid-rich segment (GARP), and a C-terminal channel-like portion. Two additional exons encoding a short GARP transcript and a truncated channel-like transcript have been identified. A major transcription start point was identified 79 bp upstream of the initiator ATG. To begin analysis of the basis for the generation of multiple transcripts, and to identify promoters driving expression in retina, approximately 2.5 kb of the upstream region were sequenced. Putative cis- elements, which can bind the retina-specific transcription factors Crx and Erx, were found immediately upstream of the transcription start point, and may be important for gene expression in this tissue. From our analysis, a model is reported to account for at least four of the retinal transcripts.

alternative splicing

gene structure

phototransduction

promoter

retina

Biomedical Sciences

Etude du rôle des facteurs d'épissage à domaines UHM dans la régulation de l'épissage alternatif / Study of the role of UHM splicing factors in the regulation of alternative splicing

Tari, Manel

17 December 2018

Les protéines U2AF65, CAPERα, PUF60 et SPF45 sont des facteurs d'épissage qui possèdent des domaines similaires appelés UHM et qui interagissent pendant les étapes précoces de l'épissage avec des protéines qui possèdent des domaines ULM, comme SF3b155. Par des approches biochimiques, nous avons mis en évidence la formation d'assemblages macromoléculaires par U2AF65 et CAPERα au contact du domaine multi-ULM de SF3b155. En diminuant les taux d'expression des facteurs d'épissage à domaines UHM avec des shRNA et en analysant par qPCR l'épissage de 65 exons cassette, nous avons identifié un rôle activateur de CAPERα, U2AF65 et PUF60 et un rôle répresseur de SPF45 dans l'épissage. Plus particulièrement, CAPERα et U2AF65 activent l'épissage des exons cassette présentant des séquences flanquantes en 5' riches en motifs polypyrimidine. De plus, ces séquences favorisent la formation des assemblages macromoléculaires de U2AF65 et CAPERα. Appuyés par ces résultats, nous proposons un modèle dans lequel des interactions multivalentes conduisent à la formation d'assemblages macromoléculaires par CAPERα et U2AF65 ; ces complexes ont une affinité particulière d'une part pour les séquences introniques riches en motifs polypyrimidine et d'autre part avec le domaine multi-ULM de SF3b155. L'ensemble de ces interactions favorise la reconnaissance des sites 3' d'épissage. / U2AF65, CAPERα, PUF60 and SPF45 are splicing factors that hold similar domains called UHM that interact during the early splicing steps with ULM domains proteins, such as SF3b155. Using biochemical approaches, we highlighted the formation of macromolecular assemblies by U2AF65 and CAPERα in contact with the multi-ULM domain of SF3b155. The inhibition of the expression of the UHM splicing factors by shRNA, followed by a qPCR analysis of 65 cassette exons led us to identify an activating role of CAPERα, U2AF65 and PUF60 and a repressing role of SPF45 in splicing. Particularly, CAPERα and U2AF65 activate splicing of cassette exons presenting long pyrimidine-rich 5' flanking regions. Moreover, these regions favor the formation of macromolecular assemblies of U2AF65 and CAPERα. On the basis of these results, we propose a model in which multivalent interactions lead to CAPERα and U2AF65 macromolecular assemblies; these assemblies present a particular affinity on one hand for long pyrimidine-rich introns and on the other one for the multi-ULM domain of SF3b155. All these interactions promote 3' splice sites recognition.

Facteurs d'épissage

Domaine UHM

Protéine U2AF

Splicing factors

Characterizing alternative splicing and long non-coding RNA with high-throughput sequencing technology

Zhou, Ao

10 1900

Indiana University-Purdue University Indianapolis (IUPUI) / Several experimental methods has been developed for the study of the central dogma since late 20th century. Protein mass spectrometry and next generation sequencing (including DNA-Seq and RNA-Seq) forms a triangle of experimental methods, corresponding to the three vertices of the central dogma, i.e., DNA, RNA and protein. Numerous RNA sequencing and protein mass spectrometry experiments has been carried out in attempt to understand how the expression change of known genes affect biological functions in various of organisms, however, it has been once overlooked that the result data of these experiments are in fact holograms which also reveals other delicate biological mechanisms, such as RNA splicing and the expression of long non-coding RNAs. In this dissertation, we carried out five studies based on high-throughput sequencing data, in an attempt to understand how RNA splicing and differential expression of long non-coding RNAs is associated biological functions. In the first two studies, we identified and characterized 197 stimulant induced and 477 developmentally regulated alternative splicing events from RNA sequencing data. In the third study, we introduced a method for identifying novel alternative splicing events that were never documented. In the fourth study, we introduced a method for identifying known and novel RNA splicing junctions from protein mass spectrometry data. In the fifth study, we introduced a method for identifying long non-coding RNAs from poly-A selected RNA sequencing data. Taking advantage of these methods, we turned RNA sequencing and protein mass spectrometry data into an information gold mine of splicing and long non-coding RNA activities. / 2019-05-06

Alternative splicing

Long non-coding RNA

Mass spectrometry

Next generation sequencing

Investigating Disease Mechanisms and Drug Response Differences in Transcriptomics Sequencing Data

Simpson, Edward Ronald Jr.

01 1900

Indiana University-Purdue University Indianapolis (IUPUI) / In eukaryotes, genetic information is encoded by DNA, transcribed to precursor messenger RNA (pre-mRNA), processed into mature messenger RNA (mRNA), and translated into functional proteins. Splicing of pre-mRNA is an important epigenetic process that alters the function of proteins through modifying the exon structure of mature mRNA transcripts and is known to greatly contribute to diversity of the human proteome. The vast majority of human genes are expressed through multiple transcript isoforms. Expression of genes through splicing of pre-mRNA plays crucial roles in cellular development, identity, and processes. Both the identity of genes selected for transcription and the specific transcript isoforms that are expressed are essential for normal cellular function. Deviations in gene expression or isoform proportion can be an indication or the cause of disease. RNA sequencing (RNAseq) is a high-throughput next-generation sequencing technology that allows for the interrogation of gene expression on a massive scale. RNAseq generates short sequences that reflect pieces of mRNAs present in a sample. RNAseq can therefore be used to explore differences in gene expression, reveal transcript isoform identities and compare changes in isoform proportions. In this dissertation, I design and apply advanced analysis techniques to RNAseq, phenotypic and drug response data to investigate disease mechanisms and drug sensitivity. Research Goals: The work described in this dissertation accomplishes 4 aims. Aim 1) Evaluate the gene expression signature of concussion in collegiate athletes and identify potential biomarkers for response and recovery. Aim 2) Implement a machine-learning algorithm to determine if splicing can predict drug response in cancer cell lines. Aim 3) Design a fast, scalable method to identify differentially spliced events related to cancer drug response. Aim 4) Construct a drug-splicing network and use a systems biology approach to search for similarities in underlying splicing events.

cancer

concussion

drug response

machine learning

network

splicing

Exploring the evolution of group II introns using LI.LtrB from Lactococcus lactis as a model system

Belhocine, Z. Kamila.

January 2007

No description available.

Bacterial Proteins -- physiology.

Lactococcus lactis -- genetics.

Trans-Splicing.

Introns.

Elucidating a Role of Btf and TRAP150 in pre-mRNA Processing and Cell Cycle Progression

Varia, Sapna N.

06 June 2013

No description available.

Molecular Biology

Biology

Genetics

SR proteins

Btf

TRAP150

EJC

splicing

Unraveling the Functions of Wiskott-Aldrich Syndrome Protein: Insights into RNA Splicing, Nucleolus Regulation, and Immunosenescence

Zhou, Xuan

08 1900

The Wiskott-Aldrich syndrome (WAS) is an X-linked primary immunodeficiency characterized by microthrombocytopenia, eczema, recurrent infections, autoimmunity, and predisposition to malignancy. Mutations in the WAS gene lead to dysfunction of the Wiskott-Aldrich syndrome protein (WASP), a multifunctional regulator implicated in various hematopoietic and immune processes. While some disease phenotypes have been linked to classical WASP's actin nucleation function, recent advances have unveiled additional nuclear functions, such as involvement in R-loop formation, transcriptional regulation during T helper 1 cell differentiation, and homology-directed repair. However, a comprehensive understanding of WASP's multifaceted functions remains elusive. We employ induced pluripotent stem cells (iPSCs) and Clustered Regularly Interspaced Palindromic Repeats (CRISPR) technology, specifically the CRISPR-Cas9 system, as powerful tools to investigate the mechanisms underlying WASP's functions. We first explore the consequences of WASP loss on RNA splicing. We reveal its critical role in RNA splicing. WASP-deficiency causes widespread alterations RNA splicing patterns and epigenetic activation of splicing factor gene promoters. Additionally, we uncover its involvement in liquid-liquid phase separation, forming phase-separated condensates to dynamically regulate the splicing machinery. In the second part of this thesis, our investigation uncovers the presence of WASP within the nucleolus and its interactions with key nucleolar proteins. Intriguingly, depletion of WASP leads to significant reduction in nucleolar size, disrupted nucleolar morphology, and decreased ribosomal RNA transcription, unveiling its critical role in nucleolus structure and function. Furthermore, we successfully recapitulated nucleolus changes and ribosomal RNA profile in patient samples. Lastly, we investigate immunosenescence, a crucial aspect of aging-related immune dysregulation, in the context of WAS. Through the use of WASP-deficient macrophage cells, our study revealed several distinctive features associated with immunosenescence in WASP-KO-iMPs. These include increased senescent cell proportions, heightened expression of senescence-associated secretory phenotype genes, nuclear deformation, loss of heterochromatin, and enhanced susceptibility to DNA damage. These preliminary findings offer valuable insights into our understanding of immunosenescence within the framework of WASP-deficient macrophages and its association with conditions related to WAS. In conclusion, the mechanistic study of WASP has unveiled its novel roles in regulating RNA splicing, nucleolus structure and function, as well as its potential involvement in immunosenescence.

Wiskott-Aldrich syndrome

WASP

RNA splicing

nucleolus regulation

immunosenescence

Alternative splicing of bovine growth hormone pre-mRNA in vitro

Sun, Qiang

January 1995

No description available.

Biology, Molecular

RNA BINDING PROPERTIES OF A TRANSLATIONAL ACTIVATOR THAT ALSO FUNCTIONS IN GROUP I INTRON SPLICING

Kaspar, Ben J.

16 July 2008

No description available.

Biology

Biomedical Research

Pet54

group I intron splicing

mitochondrial translation