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tag embryogenesis genetics genomics developmental biology immunology

Kathryn Anderson, forward genetics, genetics & genomics, model organisms, Toll, hedgehog, embryogenesis, developmental biology, cell differentiation, cilia,
Developmental Biologist Kathryn Anderson Dies at 68
Amanda Heidt | Jan 6, 2021 | 4 min read
The Sloan Kettering researcher used mutagenic screening to probe genes and molecular pathways, including Toll and Hedgehog, essential to development in fruit flies and mice.
One Protein to Rule Them All
Shelby Bradford, PhD | Feb 28, 2024 | 10+ min read
p53 is possibly the most important protein for maintaining cellular function. Losing it is synonymous with cancer.
New Strategies to Discover Human Disease Genes
New Strategies to Discover Human Disease Genes
The Scientist | Oct 16, 2023 | 2 min read
Learn how researchers across health-related fields identify and characterize disease-causing genomic variants.
Worm Embryogenesis: Cell by Cell and Gene by Gene
Kerry Grens | Dec 1, 2019 | 2 min read
A single-cell map of C. elegans’s transcriptome during development finds cell lineages that start out genetically different and end up as cells of similar function and genetic profile.
Illustration showing the upper part of a human body connected to a DNA helix
Unraveling the Mystery of Zombie Genes
Iris Kulbatski, PhD | Oct 31, 2023 | 6 min read
Digging into how and why some genes are resurrected after death sounds morbid, but it has practical applications. 
Microscopy image of the cnidarian <em>Hydractinia symbiolongicarpus&nbsp;</em>with cell nuclei stained blue and oocytes stained yellow
Ancient Immunoglobulin Genes Help Cnidarians Decide to Fight or Fuse
Sophie Fessl, PhD | Oct 11, 2022 | 4 min read
Immunoglobulin genes might have evolved much earlier than previously expected, perhaps even in the common ancestor of Cnidarians and Bilateria, a study suggests.
Eat Yourself to Live: Autophagy’s Role in Health and Disease
Vikramjit Lahiri and Daniel J. Klionsky | Mar 1, 2018 | 10+ min read
New details of the molecular process by which our cells consume themselves point to therapeutic potential.
On the left is a normally developing mouse embryo, on the right is a slightly larger mouse embryo that also contains horse cells that glow green.
Chimera research opens new doors to understanding and treating disease
Hannah Thomasy, PhD, Drug Discovery News | Aug 9, 2023 | 10 min read
Animals with human cells could provide donor organs or help us understand neuropsychiatric disorders.
Bugs as Drugs to Boost Cancer Therapy
Danielle Gerhard, PhD | Jan 18, 2024 | 7 min read
Bioengineered bacteria sneak past solid tumor defenses to guide CAR T cells’ attacks.
A sea urchin genome project
William Wells(wells@biotext.com) | Aug 16, 2000 | 1 min read
Sea urchins are popular in developmental biology research thanks to their well defined embryology, the ease of gene transfer into eggs, and the abundance of eggs for biochemical work. Now the sea urchin genome project is off to a start with sequence from the ends of 76,020 bacterial artificial chromosome (BAC) recombinants. In the August 15 Proceedings of the National Academy of Sciences, Cameron et al. report that these sequence tag connectors (STCs) occur at an average of 10 kb apart in the s

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