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tag 3 d printing culture developmental biology

3D rendered single cell next to a cluster of cells, illustrating the concept of stem cell differentiation and proliferation.
Selecting Cytokines for Organoid Cultures
The Scientist Staff | Mar 1, 2024 | 2 min read
Scientists optimize organoid culture growth and consistency with validated growth factor panels.
Microfluidics: Biology’s Liquid Revolution
Laura Tran, PhD | Feb 26, 2024 | 8 min read
Microfluidic systems redefined biology by providing platforms that handle small fluid volumes, catalyzing advancements in cellular and molecular studies.
Developmental Biology
The Scientist Staff | Apr 1, 1996 | 3 min read
Edited by Karen Young Kreeger H. Roelink, A. Augsburger, J. Heemskerk, V. Korzh, S. Norlin, A. Ruiz i Altaba, Y. Tanabe, M. Placzek, T. Edlund, T.M. Jessell, J. Dodd, "Floor plate and motor neuron induction by vhh-1, a vertebrate homolog of hedgehog expressed by the notochord," Cell, 76:761-75, 1994. (Cited in nearly 90 publications as of February 1996) Comments by Henk Roelink, University of Washington SIGNALS FROM SONIC HEDGEHOG: Using cDNA, University of Washington's Henk Roelink and col
the torso and head of a man being 3-D printed
On the Road to 3-D Printed Organs
Emma Yasinski | Feb 26, 2020 | 6 min read
Researchers can print cells and biomaterials that make up human tissues, but there’s still a long way to go before fully functional organs can be made to order.
Researchers CHOOSE Organoids to Investigate Neurodevelopment
Deanna MacNeil, PhD | Jan 29, 2024 | 4 min read
A 3D variation of pooled CRISPR screens could connect the dots between autism spectrum disorder genetics and cell fate pathways in the developing brain.
Building 3-D Microbial Communities
Jef Akst | Oct 7, 2013 | 3 min read
Researchers apply a 3-D printing technique to structure populations of bacteria in a three-dimensional environment.
Top 7 in developmental biology
Bob Grant | Oct 4, 2010 | 3 min read
Check out the hottest papers in developmental biology and related fields, as ranked by F1000
3D Science
The Scientist | Jun 1, 2010 | 3 min read
3D Science Ken Yamada discusses a paper that presents a new relatively cheap and easy way for scientists to grow cells in three dimensions. The role of dimensionality is a growing field in cell biology, but many labs cannot afford new tools that let cells grow in three dimensions—which could, in theory, better represent what happens in vivo. As a member of F1000’s Faculty of Cell Biology, Ken Yamada at the National Institute of Dental and C
Fluorescence microscopy photograph of human skin depicting stained fibroblasts, key cells involved in wound healing.
Mimicking Tissue Mechanics for Better Wound Healing Models
Deanna MacNeil, PhD | Mar 24, 2023 | 3 min read
Using a 3D culture system that imitates fatty tissue, researchers developed a simpler process to study mesenchymal stem cell aging and tissue regeneration.
Different colored cartoon viruses entering holes in a cartoon of a human brain.
A Journey Into the Brain
Danielle Gerhard, PhD | Mar 22, 2024 | 10+ min read
With the help of directed evolution, scientists inch closer to developing viral vectors that can cross the human blood-brain barrier to deliver gene therapy.

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