Cells can regulate gene expression at post-transcriptional levels by coordinating proteins and RNAs in specialized membraneless organelles that form via liquid-liquid phase separation, a reversible process in which macromolecules exceed their solubility.
12-16-2022 Dr. Elsa Zacco Senior Researcher Marie Skłodowska-Curie Minded Fellow RNA Central Lab, Center for Human Technology Italian Institute of Technology
Development and evolution are controlled, to a large degree, by regions of genomic DNA called enhancers that encode binding sites for transcription factor proteins.
09-29-2022 Multidimensional Approach to Decoding the Mysteries of Animal Development
The origin and biology of SARS-CoV-2, the virus responsible for the COVID-19 pandemic will be discussed. More specifically, we will detail how our immune system responds to infection, how variants such as Omicron emerge, and we will delineate the differen
06-23-2022 Benjamin tenOever, Ph.D.Professor of Microbiology & Director of the Virus Research Institute, NYU
Interactions between tumor cells and the surrounding microenvironment contribute to tumor progression, metastasis and recurrence.
10-04-2021 Dr. Bon-Kyoung Koo, Group Leader, Institute of Molecular Biotechnology of Austrian Academy of Sciences (IMBA), Vienna, Austria
In this talk we will present how we have optimized single-cell technologies to sort single viral particles by advanced flow cytometry and whole genome amplify the genetic content from individual sorted viral particles.
06-02-2021 Manuel Martinez-Garcia, PhD
Development and disease are controlled, to a large degree, by regions of genomic DNA called enhancers that encode binding sites for transcription factor proteins. Binding of activators and repressors increase and reduce gene expression levels, respectivel
12-09-2020 Justin Crocker, Ph.D. Group Leader EMBL Heidelberg