Dahlem Colloquia in Molecular Genetics

Location: Max Planck Institute for Molecular Genetics

Prof. Jef Boeke: Scaling up genome writing in yeast and mice

Dahlem Colloquium

Ida Marie Astad Jentoft: Mammalian oocytes store proteins for the embryo on cytoplasmic lattices

Dahlem Colloquium

Martin Fischer: Gene regulation by convergent promoters

Dahlem Colloquium

Arnaud Krebs: Transcription regulation, one molecule at a time

Dahlem Colloquium

Jacob H. Hanna: Synthetic Ex Utero Embryogenesis: from Naive Pluripotent Cells to Complete Developmental Models

Dahlem Colloquium

Claudia Langenberg: From molecules to health records: utility of omics at population scale

Dahlem Colloquium

Hannah Uckelmann: Targeting epigenetic regulators in leukemia development

Dahlem Colloquium

Bas van Steensel: Dicing and shuffling the genome to unravel gene regulation

Dahlem Colloquium

Cantaş Alev: Towards reconstituting human and primate early embryonic development in vitro

Dahlem Colloquium

Roser Vento-Tormo: Gene regulation of human cell systems

Dahlem Colloquium

Alex Schier: Reconstructing development

Dahlem Colloquium

Mia Levine: Intra-genomic conflict and the evolution of the genome integrity

Dahlem Colloquium

Elvan Böke: Mitochondrial and proteostatic adaptations in oocytes

Dahlem Colloquium

Sanja Vickovic: Describing tissue pathogenesis with spatial sequencing

Dahlem Colloquium

Marc Timmers: Basal transcription factor TFIID in neurodevelopment and neurodegeneration

Dahlem Colloquium

Argyris Papantonis: 3D genome organisation transitions between homeostasis, ageing, and malignancy

Dahlem Colloquium

Kevin Chalut: Extracellular matrix mechanics and its regulation of regeneration

Dahlem Colloquium

Katharina Sonnen: Signaling dynamics in the control of embryonic development and tissue homeostasis

Dahlem Colloquium

Judith Zaugg: How do cells integrate extrinsic signals and intrinsic state? A systems epigenetics approach

Dahlem Colloquium

Michael Levine: Organization and function of the regulatory genome in the Drosophila embryo and brain

Dahlem Colloquium

Dylan Taatjes: Understanding transcription regulation through transcriptomics and biochemical reconstitution

Dahlem Colloquium

Barbara Treutlein: Understanding brain development and regeneration using single-cell genomics

Dahlem Colloquium

Petra Hajkova: Erasure, stability, and maintenance of the epigenetic information in vivo

Dahlem Colloquium

Douglas Higgs: Dissecting and rebuilding a super-enhancer

Dahlem Colloquium

Prisca Liberali: Design principles of tissue organization

Dahlem Colloquium

Joe Nadeau: Developmental plasticity, the missing dimension of phenotypic variation and disease risk

Dahlem Colloquium

Meritxell Huch: Human organoids to model disease

Dahlem Colloquium

Mikko Taipale: Functional proteomics by induced proximity

Dahlem Colloquium

Hemai Parthasarathy : On building a better future, powered by science

Dahlem Colloquium

Anders Lund: Tuning the ribosome in health and disease?

Dahlem Colloquium
Get in touch via email to receive a zoom link and attend the talk online. [more]

Alexander Stark: Decoding Transcriptional Regulation: DNA Elements and Protein Factors

Dahlem Colloquium

Elly Tanaka: Cell position and identity during successful and unsuccessful limb regeneration

Dahlem Colloquium

Susan Gasser: Stabilizing the genome and cell-type specific gene expression through heterochromatin

Most of the work in Oded's lab is focused on transgenerational inheritance in general, and how neurons generate heritable memories in particular (see eg. Neuronal Small RNAs Control Behavior Transgenerationally). However, to quote Oded himself: "Everything connects in the end. We try very hard to let our curiosity guide us, and when the muse calls, we don't get in its way. "As a result, his lab has hijacked brain parasites to deliver therapeutic proteins in the brain and collaborated with biblical scholars, ancient DNA and metagenomics experts to piece together Dead Sea Scrolls fragments by sequencing ancient DNA obtained from the animal skin the scrolls are made of. I suggest you check out the paper published recently in Cell, it's certainly a most fascinating paper.Oded is also well-known for the radical ways he tries to transform science communication (see eg. https://www.woodstock.bio/).If you are interested in this virtual Dahlem Colloquium, please drop host Jesse Veenvliet an email to get a link to the meeting. [more]
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