Polycomb-mediated gene regulation in human brain development and neurodevelopmental disorders: Review Article

Bölicke, Nora, Albert, Mareike

22 February 2024

The neocortex is considered the seat of higher cognitive function in humans. It develops from a sheet of neural progenitor cells, most of which eventually give rise to neurons. This process of cell fate determination is controlled by precise temporal and spatial gene expression patterns that in turn are affected by epigenetic mechanisms including Polycomb group (PcG) regulation. PcG proteins assemble in multiprotein complexes and catalyze repressive posttranslational histone modifications. Their association with neurodevelopmental disease and various types of cancer of the central nervous system, as well as observations in mouse models, has implicated these epigenetic modifiers in controlling various stages of cortex development. The precise mechanisms conveying PcG-associated transcriptional repression remain incompletely understood and are an active field of research. PcG activity appears to be highly context-specific, raising the question of species-specific differences in the regulation of neural stem and progenitor regulation. In this review, we will discuss our growing understanding of how PcG regulation affects human cortex development, based on studies in murine model systems, but focusing mostly on findings obtained from examining impaired PcG activity in the context of human neurodevelopmental disorders and cancer. Furthermore, we will highlight relevant experimental approaches for functional investigations of PcG regulation in human cortex development.

info:eu-repo/classification/ddc/610

ddc:610

Discovery and evolution of novel Cre-type tyrosine site-specific recombinases for advanced genome engineering

Jelicic, Milica

06 December 2023

Tyrosine site-specific recombinases (Y-SSRs) are DNA editing enzymes that play a valuable role for the manipulation of genomes, due to their precision and versatility. They have been widely used in biotechnology and molecular biology for various applications, and are slowly finding their spot in gene therapy in recent years. However, the limited number of available Y-SSR systems and their often narrow target specificity have hindered the full potential of these enzymes for advanced genome engineering. In this PhD thesis, I conducted a comprehensive investigation of novel Y-SSRs and their potential for advancing genome engineering. This PhD thesis aims to address the current limitations in the genetic toolbox by identifying and characterizing novel Cre-type recombinases and demonstrating their impact on the directed evolution of designer recombinases for precise genome surgery. To achieve these aims, I developed in a collaboration a comprehensive prediction pipeline, combining a rational bioinformatical approach with knowledge of the biological functions of recombinases, to enable high success rate and high-throughput identification of novel tyrosine site-specific recombinase (Y-SSR) systems. Eight putative candidates were molecularly characterized in-depth to ensure their successful integration into future genome engineering applications. I assessed their activity in prokaryotes (E. coli) and eukaryotes (human cell lines), and determined their specificity in the sequence space of all known Cre- type target sites. The potential cytotoxicity associated with cryptic genomic recombination sites was also explored in the context of recombinase applicability. This approach allowed the identification of novel Y-SSRs with distinct target sites, enabling simultaneous use of multiple Y-SSR systems, and provided knowledge that will facilitate the assignment of novel and known recombinases to specific uses or organisms, ensuring their safe and effective implementation. The introduction of these novel Y-SSRs into the genome engineering toolbox opens up new possibilities for precise genome manipulation in various applications. The broader targetability offered by these enzymes could accelerate the development of novel gene therapies, as well as advance the understanding of gene function and regulation. Moreover, these recombinases could be used to design custom genetic circuits for synthetic biology, allowing researchers to create more complex and sophisticated cellular systems. Finally, I introduced the novel Y-SSRs into efforts aimed at developing designer recombinases for precise genome surgery, demonstrating their impact on accelerating the directed evolution process. Therapeutically relevant recombinases with altered DNA specificity have been developed for excision or inversion of specific DNA sequences. However, the potential for evolving recombinases capable of integrating large DNA cargos into naturally occurring lox-like sites in the human genome remained untapped so far. Thus, I embarked on evolving the Vika recombinase to mediate the integration of DNA cargo into a native human sequence. I discovered that Vika could integrate DNA into the voxH9 site in the human genome, and then, I enhanced the process through directed evolution. The evolved variants of Vika displayed a marked improvement in integration efficiency in bacterial systems. However, the translation of these results into mammalian systems has not yet been entirely successful. Despite this, the study laid the groundwork for future research to optimize the efficiency and applicability of Y-SSRs for genomic integration. In summary, this thesis made significant strides in the identification, characterization, and development of novel Y-SSRs for advanced genome engineering. The comprehensive prediction pipeline, combined with in-depth molecular characterization, has expanded the genetic toolbox to meet the growing demand for better genome editing tools. By exploring efficiency, cross-specificity, and potential cytotoxicity, this research lays the foundation for the safe and effective application of novel Y-SSRs in various therapeutic settings. Furthermore, by demonstrating the potential of these recombinases to improve efforts in creating designer recombinases through directed evolution, this research has opened new avenues for precise genome surgery. The successful development and implementation of these novel recombinases have the potential to revolutionize gene therapy, synthetic biology, and our understanding of gene function and regulation.

info:eu-repo/classification/ddc/610

ddc:610

Crystallographic studies on a cold adapted subtilase and proteins involved in mRNA processing / Kristallographische Studien an einer kälteadaptiven Subtilase und an mRNA-Prozessierung beteiligten Proteinen

Arnórsdóttir, Jóhanna

28 April 2005

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Kälteadaption

Kristallstruktur

psychrotropisch

Subtilase

Thermostabilität

Spleißosom

RNA-Editierung

cold adaptation

crystal structure

psychrotrophic

subtilase

thermostability

spliceosome

RNA-editing

42.13 Molekularbiologie

WF 200 Molekularbiologie

Gen-Editierung von Photorezeptorgenen in der Grünalge Chlamydomonas reinhardtii mithilfe des CRISPR/Cas9-Systems

Kelterborn, Simon

06 November 2020

Die Modifikation von Genen ist in den molekularen Biowissenschaften ein fundamentales Werkzeug, um die Funktion von Genen zu studieren (Reverse Genetik). Diese Arbeit hat erfolgreich Zinkfinger- und CRISPR/Cas9-Nukleasen für die Verwendung in C. reinhardtii etabliert, um Gene im Kerngenom gezielt auszuschalten und präzise zu verändern. Basierend auf vorausgegangener Arbeit mit Zinkfingernukleasen (ZFN) konnte die Transformationseffizienz um das 300-fache verbessert werden, was die Inaktivierung von Genen auch in motilen Wildtyp-Zellen ermöglichte. Damit war es möglich, die Gene für das Kanalrhodopsin-1 (ChR1), Kanalrhodopsin-2 (ChR2) und das Chlamyopsin-1/2-Gen (COP1/2) einzeln und gemeinsam auszuschalten. Eine Analyse der Phototaxis in diesen Stämmen ergab, dass die Phototaxis durch Inaktivierung von ChR1 stärker beeinträchtigt ist als durch Inaktivierung von ChR2. Um das CRISPR/Cas9-System zu verwenden, wurden die Transformationsbedingungen so angepasst und optimiert, dass der Cas9-gRNA-Komplex als in vitro hergestelltes Ribonukleoprotein in die Zellen transformiert wurde. Um die Bedingungen für präzise Genmodifikationen zu messen und zu verbessern, wurde das SNRK2.2-Gen als Reportergen für eine „Blau-Grün Test“ etabliert. Kleine Insertionen von bis zu 30 bp konnten mit kurzen Oligonukleotiden eingefügt werden, während größere Reportergene (mVenus, SNAP-Tag) mithilfe eines Donor-Plasmids generiert wurden. In dieser Arbeit konnten mehr als 20 nicht-selektierbare Gene – darunter 10 der 15 potenziellen Photorezeptorgene – mit einer durchschnittlichen Mutationsrate von 12,1 % inaktiviert werden. Insgesamt zeigt diese Arbeit in umfassender Weise, wie Gen-Inaktivierungen und Modifikationen mithilfe von ZFNs und des CRISPR/Cas9-Systems in der Grünalge C. reinhardtii durchgeführt werden können. Außerdem bietet die Sammlung der zehn Photorezeptor-Knockouts eine aussichtsreiche Grundlage, um die Vielfalt der Photorezeptoren in C. reinhardtii zu erforschen. / Gene editing is a fundamental tool in molecular biosciences in order to study the function of genes (reverse genetics). This study established zinc-finger and CRISPR/Cas9 nucleases for gene editing to target and inactivate the photoreceptor genes in C. reinhardtii. In continuation of previous work with designer zinc-finger nucleases (ZFN), the transformation efficiency could be improved 300-fold, which enabled the inactivation of genes in motile wild type cells. This made it possible to disrupt the Channelrhodopsin-1 (ChR1), Channelrhodopsin-2 (ChR2) and Chlamyopsin-1/2 (COP1/2) genes individually and in parallel. Phototaxis experiments in these strains revealed that the inactivation of ChR1 had a greater effect on phototaxis than the inactivation of ChR2. To apply the CRISPR/Cas9 system, the transformation conditions were adapted and optimized so that the Cas9-gRNA complex was successfully electroporated into the cells as an in vitro synthesized ribonucleoprotein. This approach enabled gene inactivations with CRISPR/Cas9 in C. reinhardtii. In order to measure and improve the conditions for precise gene modifications, the SNRK2.2 gene was established as a reporter gene for a ‘Blue-Green test’. Small insertions of up to 30 bp were inserted using short oligonucleotides, while larger reporter genes (mVenus, SNAP-tag) were integrated using donor plasmids. Throughout this study, more than 20 non-selectable genes were disrupted, including 10 of the photoreceptor genes, with an average mutation rate of 12,1 %. Overall, this work shows in a comprehensive way how gene inactivations and modifications can be performed in green alga C. reinhardtii using ZFNs or CRISPR/Cas9. In addition, the collection of the ten photoreceptor knockouts provides a promising source to investigate the diversity of photoreceptor genes in C. reinhardtii.

CRISPR

Cas9

Chlamydomonas

reinhardtii

Grünalgen

Gen-Editierung

Photorezeptoren

ChR1

ChR2

Chlamyopsin

HDR

SNRK2.2

ZFN

gene editing

algae

photoreceptor

channelrhodopsin

gene targeting

homologous recombination

zinc-finger nucleases

570 Biologie

576 Genetik und Evolution

WL 2795

WE 5220

WC 4460

ddc:570

ddc:579

ddc:576

Quantitative Agricultural Policy Impact Analysis at Enhanced Farm & Regional Resolution

Gocht, Alexander

18 June 2024

In dieser Habilitationsschrift werden elf ausgewählte Zeitschriftenartikel vorgestellt. Alle Artikel zielen darauf ab, die Heterogenität der Betriebe des Agrarsektors durch eine bessere Auflösung der Angebotsmodelle zu berücksichtigen. Der erste Abschnitt konzentriert sich auf die Anwendungen mit dem partiellen Gleichgewichtsmodell CAPRI. Der Abschnitt deckt ein breites Spektrum politischer Fragen ab, zum Beispiel, Kopplung bzw. Konvergenz der Direktzahlungen, Ökologisierung, Verringerung der Treibhausgasemissionen und Kohlenstoffsequestrierung. Ich zeige, dass betriebsbezogene Angebotsmodelle eine detailliertere Analyse politischer Auswirkungen ermöglichen. Zudem erlauben diese Angebotsmodelle eine Verknüpfung mit Modellen höherer räumlicher Auflösung. Der zweite Abschnitt befasst sich mit methodischen Fragen zur Schätzung struktureller Veränderungen auf der Ebene der Betriebstypen in einem EU-weiten Ansatz. Der entwickelte Ansatz hilft, Faktoren, die den landwirtschaftlichen Strukturwandel beeinflussen, besser zu bestimmen und bietet die Möglichkeit einer umfassenden Analyse des landwirtschaftlichen Strukturwandels in der EU. Es wird gezeigt, dass die Ergebnisse zum Strukturwandel auch in der Modellierung berücksichtigt werden können. Dafür wurden Methoden entwickelt, die die Wahrung der Konsistenz der regionalen Ebene und die Berücksichtigung von betriebstypspezifischen Bilanzen, Indikatoren und Veränderungen in der Zahl der landwirtschaftlichen Betriebe gewähren. Der letzte Abschnitt befasst sich mit Methoden zur Rückschätzung von zensierten Daten. Ich untersuche verschiedene Datenaggregationsansätze, wie zum Beispiel, ein lokales gewichtetes Durchschnittsverfahren und ein bayesianisches Schätzverfahren, um Parameter für die zensierten Daten zu ermitteln, die der Realität so weit wie möglich entsprechen. / In this habilitation thesis, eleven selected journal articles were presented. All articles aimed to improve the resolution and thus reduce aggregation error to better account for farm heterogeneity in the agricultural sector models. The first section focused on model application with the partial equilibrium model CAPRI at the farm-type level. It covered many policy issues, such as coupling, convergence, greening, GHG mitigation, and carbon sequestration. I demonstrate that the farm-type supply models enable a detailed analysis of various policy impacts. It was demonstrated that the EU's supply models could improve model linkage with higher spatial resolution models, thus further closing the gap with spatial land-use models. The second section addressed significant methodological queries about estimating structural changes at the farm-type level in an EU-wide approach. A regional approach helps to identify better factors affecting agricultural structural change. The approach offers the opportunity for a comprehensive and previously unachievable analysis of agricultural structural change in the EU. Integrating the development into the CAPRI farm-type model poses challenges with the top-down approach. It requires maintaining consistency with the regional NUTS2 level and considering farm-type-specific balances, indicators, and changes in the number of farms from the structural change estimation. The last section addressed methods for back-estimating censored data. I explored different data aggregation approaches, such as a local weighted average method and a Bayesian estimation procedure, to establish parameters for the censored data that match reality as closely as possible.

Einkommensverteilungseffekte

GAP-Reform

Modellierung auf Betriebsebene

Direktzahlungen

Bodenrenten

Anbaudiversifizierung

Betriebsmodell

Dauergrünland

Kohlenstoffbindung

Treibhausgasemissionen

Produktivitätsanalyse

Ländliche und regionale Entwicklung

Genom-Editierung

Handelsverzerrung

Betrieblicher Strukturwandel

Produktionsspezialisierung

Betriebsstandort

Baseline

Betriebstypologien

Highest Posterior Density Estimation

Zensusdaten

Clusteranalyse

Income distributional effects

CAP reform

Farm-level modeling

Direct payments

Land rents

Crop diversification

Ecological focus area

Economic and environmental impacts

Farm model

Permanent grassland

Carbon sequestration

Greenhouse gas emissions

Productivity analysis

Rural and regional development

Genome editing

Trade distortion

Farm structural change

Production specialization

Farm location

Baseline

Farm typologies

Highest posterior density

Data protection regulation

Census data

ddc:630