Your search keyword '"Gerald Raffl"' showing total 3 results

1. Multimodal profiling of the transcriptional regulatory landscape of the developing mouse cortex identifies Neurog2 as a key epigenome remodeler

Author

Florian Noack, Silvia Vangelisti, Gerald Raffl, Madalena Carido, Jeisimhan Diwakar, Faye Chong, and Boyan Bonev

Subjects

Epigenome, Mice, Enhancer Elements, Genetic, General Neuroscience, Basic Helix-Loop-Helix Transcription Factors, Animals, Gene Expression Regulation, Developmental, Nerve Tissue Proteins, DNA Methylation, Chromatin, Transcription Factors

Abstract

How multiple epigenetic layers and transcription factors (TFs) interact to facilitate brain development is largely unknown. Here, to systematically map the regulatory landscape of neural differentiation in the mouse neocortex, we profiled gene expression and chromatin accessibility in single cells and integrated these data with measurements of enhancer activity, DNA methylation and three-dimensional genome architecture in purified cell populations. This allowed us to identify thousands of new enhancers, their predicted target genes and the temporal relationships between enhancer activation, epigenome remodeling and gene expression. We characterize specific neuronal transcription factors associated with extensive and frequently coordinated changes across multiple epigenetic modalities. In addition, we functionally demonstrate a new role for Neurog2 in directly mediating enhancer activity, DNA demethylation, increasing chromatin accessibility and facilitating chromatin looping in vivo. Our work provides a global view of the gene regulatory logic of lineage specification in the cerebral cortex.

Published

2022

2. Intron-encoded cistronic transcripts for minimally invasive monitoring of coding and non-coding RNAs

Author

Dong-Jiunn Jeffery Truong, Niklas Armbrust, Julian Geilenkeuser, Eva-Maria Lederer, Tobias Heinrich Santl, Maren Beyer, Sebastian Ittermann, Emily Steinmaßl, Mariya Dyka, Gerald Raffl, Teeradon Phlairaharn, Tobias Greisle, Milica Živanić, Markus Grosch, Micha Drukker, Gil Gregor Westmeyer, Universitat Politècnica de Catalunya. Doctorat en Enginyeria Biomèdica, Universitat Politècnica de Catalunya. BBT - Grup de recerca en Biomaterials, Biomecànica i Enginyeria de Teixits, Helmholtz Zentrum München. Institute for Synthetic Biomedicine, and Technische Universität München

Subjects

Base Sequence, Enginyeria biomèdica [Àrees temàtiques de la UPC], RNA, RNA, Long Noncoding, Cell Biology, RNA, Messenger, RNA Processing, Post-Transcriptional, Introns

Abstract

Despite their fundamental role in assessing (patho)physiological cell states, conventional gene reporters can follow gene expression but leave scars on the proteins or substantially alter the mature messenger RNA. Multi-time-point measurements of non-coding RNAs are currently impossible without modifying their nucleotide sequence, which can alter their native function, half-life and localization. Thus, we developed the intron-encoded scarless programmable extranuclear cistronic transcript (INSPECT) as a minimally invasive transcriptional reporter embedded within an intron of a gene of interest. Post-transcriptional excision of INSPECT results in the mature endogenous RNA without sequence alterations and an additional engineered transcript that leaves the nucleus by hijacking the nuclear export machinery for subsequent translation into a reporter or effector protein. We showcase its use in monitoring interleukin-2 (IL2) after T cell activation and tracking the transcriptional dynamics of the long non-coding RNA (lncRNA) NEAT1 during CRISPR interference-mediated perturbation. INSPECT is a method for monitoring gene transcription without altering the mature lncRNA or messenger RNA of the target of interest.

Published

2021

3. Non-invasive and high-throughput interrogation of exon-specific isoform expression

Author

Milica Živanić, Sigrid C. Schwarz, Tabea Strauß, Peter Heutink, Bianca Eßwein, Dominic Schwarz, Martin Zirngibl, Marcus Conrad, Christian Grätz, Francesco Leandro Vaccaro, Luisa Krumwiede, Julian Geilenkeuser, Wolfgang Wurst, Simone Göppert, Sebastian Doll, Florian Giesert, Christoph Gruber, Günter U. Höglinger, Tobias Santl, Gerald Raffl, Eva Magdalena Beck, Gil G. Westmeyer, Maren Beyer, Valentin Evsyukov, Dong-Jiunn Jeffery Truong, Enikő Baligács, Deniz Tümen, Johann Dietmar Körner, Niklas Armbrust, Teeradon Phlairaharn, and Eva-Maria Lederer

Subjects

Gene isoform, Proteomics, CRISPR-Cas systems, RNA splicing, Proteome, RNA Stability, Induced Pluripotent Stem Cells, MAPT protein, human, tau Proteins, Biology, metabolism [RNA-Binding Proteins], metabolism [RNA, Messenger], Exon, genetics [RNA, Messenger], Technical Report, Protein splicing, ddc:570, Humans, Protein Isoforms, FOXP1 protein, human, genetics [RNA-Binding Proteins], RNA, Messenger, Induced pluripotent stem cell, Synthetic biology, metabolism [Repressor Proteins], MBNL1 protein, human, metabolism [Forkhead Transcription Factors], Alternative splicing, Biological techniques, High-throughput screening, RNA-Binding Proteins, Forkhead Transcription Factors, Cell Biology, FOXP1, Exons, Embryonic stem cell, metabolism [tau Proteins], Cell biology, High-Throughput Screening Assays, metabolism [Induced Pluripotent Stem Cells], Repressor Proteins, Alternative Splicing, genetics [Repressor Proteins], genetics [tau Proteins], HEK293 Cells, genetics [Forkhead Transcription Factors], CRISPR-Cas Systems, Single-Cell Analysis

Abstract

Expression of exon-specific isoforms from alternatively spliced mRNA is a fundamental mechanism that substantially expands the proteome of a cell. However, conventional methods to assess alternative splicing are either consumptive and work-intensive or do not quantify isoform expression longitudinally at the protein level. Here, we therefore developed an exon-specific isoform expression reporter system (EXSISERS), which non-invasively reports the translation of exon-containing isoforms of endogenous genes by scarlessly excising reporter proteins from the nascent polypeptide chain through highly efficient, intein-mediated protein splicing. We applied EXSISERS to quantify the inclusion of the disease-associated exon 10 in microtubule-associated protein tau (MAPT) in patient-derived induced pluripotent stem cells and screened Cas13-based RNA-targeting effectors for isoform specificity. We also coupled cell survival to the inclusion of exon 18b of FOXP1, which is involved in maintaining pluripotency of embryonic stem cells, and confirmed that MBNL1 is a dominant factor for exon 18b exclusion. EXSISERS enables non-disruptive and multimodal monitoring of exon-specific isoform expression with high sensitivity and cellular resolution, and empowers high-throughput screening of exon-specific therapeutic interventions., Truong et al. developed a cell-based reporter system, EXSISERS, that enables non-invasive quantification of the protein expression levels of exon-specific isoforms via intein-mediated protein splicing.

Published

2021