Københavns Universitets Videoportal

The architecture of tissues and organs

Tue, 10 Aug 2021 12:31:06 GMT

The Aragona group aims to understand how neighbouring cells coordinate their decisions to build tissues with specialized structure and function. In particular, they want to investigate how tissue architecture is maintained and how mechanical cues affect gene transcription, stem cells dynamics and fate decisions.

The questions the group wants to address include how tissues remodel their cellular division and cell-fate patterns, and how the cell-cell and cell-matrix connections are adjusted to coordinate biological function and collectively react to external stress with the activation of specific transcription factor programs. They are investigating these biological questions in tissues that are naturally subjected to different mechanical perturbations such as the skin and the urinary tract. Understanding these fundamental principles will improve our basic understanding and have a high impact in the development of new regenerative medicine tools. Read more: https://danstem.ku.dk/research1/aragona/

How cells make a career

Tue, 10 Aug 2021 12:25:35 GMT

The Ferretti group aims to identify and characterize the molecular mechanisms establishing the mesodermal diversity at the time of gastrulation with the purpose of meliorating the existing protocols of mesoderm differentiation.

The group long-term goal is to generate robust models for mesoderm differentiation that will help in conceiving innovative protocols for hESCs mesoderm differentiation. Read more: https://danstem.ku.dk/research1/ferretti-group/

Associate Professor Jan Zylicz: about the beauty of biology

Thu, 01 Jul 2021 12:27:16 GMT

Jan's investigation starts from a single fertilized egg, trying to understand how the organisms develop into embryos, and later on, how the embryo interacts with its environment.
Associate Professor Jan Zylicz, was awarded a Lundbeck Foundation Fellowship for his project: Embryo and its environment: how metabolism shapes epigenome for development and life after birth?

The movie is a production of Lundbeck Foundation

Mucociliary epithelium: the airways' wash station

Mon, 15 Feb 2021 10:30:52 GMT

The Sedzinski group aims to understand the general principles underlying epithelial homeostasis. Particularly, they want to determine both the mechanics and molecular regulation of epithelial cell renewal from stem cells hoping to provide new insights into treatment of epithelial pathologies associated with defective tissue homeostasis, such as asthma, colitis, and most common epithelial tumours, or carcinomas.

Our cellular fortress

Sun, 14 Feb 2021 12:11:28 GMT

The epithelial of the skin and intestine epithelia rely on stem cells for their constant and life-long replenishment. It remains unknown when and how these stem cell first appears during development, how stem cell behaviour is regulated during steady state homeostasis, and to what extent these regulatory mechanisms are altered during regeneration and disease. Insight into these questions will be pivotal for a mechanistic understanding of tissue maintenance, establish cell sources for regenerative therapies and identify new therapeutic targets.

The main objective of the Jensen group is using state-of-the-art quantitative approaches to address these outstanding questions.

Detecting social cell behavior solves the mystery of organ formation

Tue, 12 Jan 2021 09:16:50 GMT

The Semb group at DanStem [https://danstem.ku.dk/research1/semb/] has two main goals:

1) to understand the connection between epithelial architecture and the commitment of pancreatic progenitor cells to mature endocrine cells and vice versa.
2) to translate this knowledge into efficient and reliable strategies for regenerative medicine in diabetes. These objectives are applied, primarily, to their organ of choice – the pancreas.

Transcribing Patterns from the Library of Life

Tue, 22 Dec 2020 13:47:33 GMT

The Brickman group at DanStem (https://danstem.ku.dk/research1/brickman/) aims to understand the transcriptional basis for early embryonic lineage specification. In particular the group is interested in dynamic mechanisms by which cells can both reversible prime towards a particular fate or undergo a transition into commitment.

Epigenetics, the embryo and its environment

Mon, 21 Dec 2020 12:44:20 GMT

The Żylicz group at DanStem (https://danstem.ku.dk/research1/zylicz/) wants to understand how metabolic and epigenetic mechanisms cooperate to regulate transcription during early development. In particular they are interested in how metabolism regulates histone modifiers, and how these in turn affect lineage choice and embryo growth at around the time of implantation.

Talking Cells

Thu, 03 Dec 2020 12:26:33 GMT

Professor Palle Serup from The Novo Nordisk Foundation Center for Stem Cell Biology, DanStem, explains how cells communicate and later on differentiate.
(https://danstem.ku.dk/research1/serup/).

The garden in our body - Research on hematopoietic stem cells

Thu, 03 Dec 2020 12:06:57 GMT

Professor Bo Porse from The Novo Nordisk Foundation Center for Stem Cell Biology, DanStem, explains hematopoiesis. Hematopoietic stem cells are essential to haematopoiesis, the formation of the cells within blood. Hematopoietic stem cells can replenish all blood cell types (i.e., are multipotent) and self-renew. This phenomenon is used in bone marrow transplantation, when a small number of Hematopoietic stem cells reconstitute the hematopoietic system.

Understanding molecular mechanism of pancreatic cancer: when regeneration is...

Thu, 03 Dec 2020 11:54:50 GMT

Associate Professor Luis Arnes from The Novo Nordisk Foundation Center for Stem Cell Biology, DanStem, explains pancreas homeostasis as a well-orchestrated process. When injured, acinar cells lose their identity, a situation which needs resolving. The tissue becomes vulnerable to somatic mutation and can develop tumor. Watch the video to learn what scientists explore in order to solve the problem.

Semb group: From Basic Research to Translational Applications (with EN...

Tue, 25 Aug 2020 10:16:16 GMT

This video summarizes the work done by many scientists and highlights the conclusions from three recent studies from Henrik Semb research group

Sedzinski group

Thu, 20 Aug 2020 13:37:07 GMT

The Semb group - from basic research to translational applications

Mon, 10 Aug 2020 10:15:30 GMT

The Semb group at DanStem has two main goals:
1) to understand the connection between epithelial architecture and the commitment of pancreatic progenitor cells to mature endocrine cells and vice versa.
2) to translate this knowledge into efficient and reliable strategies for regenerative medicine in diabetes.
These objectives are applied, primarily, to their organ of choice – the pancreas.

DanStem, Semb Group overview (English)

Wed, 08 Jul 2020 14:23:30 GMT

Pancreas development

Luis Arnes - European Pancreatic Club

Tue, 23 Jun 2020 12:24:19 GMT

The European Pancreatic Club (EPC) official candidature for the UEG Rising Star award is an initiative by the Young Pancreatologist Platform in Europe (YOUPPIE, the young talent group of the EPC). This is an honorific appointment for young clinical or basic scientists with a brilliant career in the field of pancreatology. The YOUPPIE award represents a recognition for important achievements in scientific research, for the expansion of scientific knowledge and for achievements in the application of scientific research work. It provides a basis for young pancreatologists for further progress in their research work and career. YOUPPIE awardees will be the official EPC candidates for the United European Gastroenterology (UEG) Rising Star Awards

The Superheroes in Liver Regeneration

Mon, 15 Jun 2020 10:07:07 GMT

The animation is a result of collaborative work of scientists from the Novo Nordisk Foundation Center for Stem Cell Biology (DanStem) and visual storytellers from the Animation Workshop (VIA), telling the story of a scientific attempt to learn what happen to the liver when damaged and how this knowledge could be translated in the future and help healing liver diseases and improve patients quality of life.

DanStem: [Florian Hermann] Video 5 - Luminal and endocrine progenitor dynamics

Wed, 04 Mar 2020 10:48:59 GMT

Video of confocal time-lapse live-cell imaging of NGN3-GFP; EZR-mKATE2 double (NE1) reporter illustrated luminal and endocrine progenitor dynamics. The luminal EZR signal (white), GFP-expressing cells (green) as well as overlap between these two channels (blue) was segmented with Imaris software.

DanStem: [Florian Hermann] Video 4 - Endocrine progenitor traceability

Wed, 04 Mar 2020 10:45:33 GMT

Video of confocal time-lapse live-cell imaging of NGN3-GFP;EZR-mKATE2 double (NE1) reporter illustrated traceability of a new-born NGN3-GFPpos cell. The luminal EZR signal (red), GFP-expressing cells (green) as well as overlap between these two channels (blue) was segmented with Imaris software.

DanStem: [Florian Hermann] Viedo 3 - NGN3 polarisation details

Wed, 04 Mar 2020 10:40:49 GMT

Video of segmented immunofluorescent confocal z-stack of d10 N3.6.1 cells in the MGO culture showing close-ups of polarised endocrine progenitors (NGN3pos NGN3-GFP-expressing). Endocrine progenitors (NGN3 - red; NGN3-GFP - green) and apical membranes (EZR - white) were stained. Apical membranes of endocrine progenitors were shown in blue.

DanStem: [Florian Hermann] Video 2 - Segmentation of lumens and NGN3pos cells.

Wed, 04 Mar 2020 10:24:35 GMT

Video of segmented immunofluorescent confocal z-stack of d10 N3.6.1 cells in the MGO culture showing the polarisation of endocrine progenitors (NGN3pos NGN3-GFP-expressing). Endocrine progenitors (NGN3 – red; NGN3-GFP - green), apical membranes (EZR - white), and nuclei (DAPI - blue) were stained. Polarised membranes of endocrine progenitors was also shown in blue.

DanStem: [Florian Hermann] Video 1 - Luminal architecture in MGO system

Wed, 04 Mar 2020 10:08:05 GMT

Video of segemented immunofluorescent confocal z-stack (figure 6C',D) of d13 SA121 in the MGO culture showing the 3D lumen structure. Tight junctions (ZO1; green), apical membranes (EZR; red), pancreatic nuclei (PDX1; grey) and DNA (DAPI; blue) were stained.

Cells of Knowledge (DanStem)

Tue, 03 Mar 2020 18:04:28 GMT

'Cells of Knowledge' is a result of collaborative effort of animators from the Animation Workshop in Viborg and scientists from DanStem

Science Odyssey

Thu, 27 Jun 2019 14:29:58 GMT

A glimpse into the beauty of science

The approach of this documentary is to shadow the people who are conducting the research in their everyday work and to ‘open a window’ to the beauty of science.

Serup Group

Mon, 19 Nov 2018 10:47:35 GMT

Early pancreas

Ferreti Group DanStem

Tue, 13 Nov 2018 14:21:49 GMT

E75_Hand1 and Bra.mpg

DanStem

Mon, 12 Nov 2018 12:15:24 GMT

DanStem at Culture Night 2018 (Kulturnatten 2018)

Mon, 15 Oct 2018 19:17:33 GMT

DanStem scientists in culture night 2018.

The Birth of Beta Cells

Mon, 16 Apr 2018 12:31:10 GMT

Understanding how beta cells first form in the developing embryo is providing scientists with the know-how to make these cells in the lab.

FOUR SIMPLE RULES EXPLAIN THE FIRST 5 DAYS OF HUMAN LIFE

Mon, 16 Apr 2018 12:23:27 GMT

Five days elapse from the time a sperm fertilizes an egg until it is implanted in the secure environment of the uterus. During this time, the egg develops from one cell into a cell cluster surrounded by a layer of cells that specialize in penetrating the uterine membrane. Researchers from the University of Copenhagen have now cracked the code that explains how life can develop during these first 5 days without any intervention or support from the mother

Diabetes and Stem Cells

Mon, 16 Apr 2018 12:21:32 GMT

415 million people worldwide have been diagnosed with diabetes and the number continues to rise. Common to all diabetes patients is lacking the ability to produce sufficient amounts of insulin, which regulates the blood sugar in the body. This can lead to a number of complications and in many cases be potentially fatal. The movie is made by the EU FP7 project HumEn.