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tag dna methylation developmental biology immunology disease medicine

Developmental Genetics
Neeraja Sankaran | Sep 3, 1995 | 2 min read
E. Li, C. Beard, R. Jaenisch, "Role for DNA methylation in genomic imprinting," Nature, 366:362-5, 1993. (Cited in more than 70 publications through August 1995) Comments by Rudolf Jaenisch, Whitehead Institute for Biomedical Research, Cambridge, Mass. "The fact that DNA methylation--a modification in which methyl groups are added to cytosine residues--was involved in gene expression had been suggested for a long time," says Rudolf Jaenisch, a professor of biology at the Whitehead Institute f
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.
Guts and Glory
Anna Azvolinsky | Apr 1, 2016 | 9 min read
An open mind and collaborative spirit have taken Hans Clevers on a journey from medicine to developmental biology, gastroenterology, cancer, and stem cells.
chemical visualization of a G-quadruplex
Strange DNA Structures Linked to Cancer
Sophie Fessl, PhD | Jan 19, 2022 | 3 min read
A study reveals a connection between the loss of enzymes responsible for removing methyl groups from DNA, nucleic acid knots, and cancer development in mice.
3D medical illustration of peripheral blood cells: a lymphocyte (left) and a monocyte (right) surrounded by red blood cells.
PBMCs: Mononucleated and Multipurposed
Deanna MacNeil, PhD | Dec 16, 2022 | 4 min read
Researchers employ peripheral blood mononuclear cells (PBMCs) in clinical and academic applications related to the immune system and regenerative medicine.
Immunology: Highlights From A Hot Biological Field
Scott Veggeberg | Mar 21, 1993 | 6 min read
Some of the most influential papers in 1992, according to data provided by the Philadelphia-based Institute for Scientific Information, were in immunology. This is not surprising, given the field's applications in stemming AIDS, cancer, and other pressing diseases. The most cited paper published within the last two years is from the Max Planck Institute for Biology in Tbingen, Germany (K. Falk, et al., Nature, 351:290, 1991). This paper, which by the end of February 1993 had been referred to i
High-Throughput Epigenetics Analyses
Jyoti Madhusoodanan | Jan 1, 2018 | 7 min read
Emerging technologies help researchers draw mechanistic links between metabolism and epigenetic modification of DNA.
3d rendered medically accurate illustration of a human embryo anatomy
The Ephemeral Life of the Placenta
Danielle Gerhard, PhD | Dec 4, 2023 | 10+ min read
Recent advances in modeling the human placenta, the least understood organ, may inform placental disorders like preeclampsia.
Methylation: Gene Expression at the Right Place and Right Time
Nadia Halim | Dec 5, 1999 | 7 min read
Courtesy of Richard Roberts, New England BiolabsModel methylation reaction: Cytosine nucleotide (red) is flipped out of the DNA double helix by a methyltransferase (white), so it can be methylated. The end product after the methyl group has been transferred to the DNA is pictured in green. A tenuous link between DNA methylation and development has existed for several years. Now findings substantiate the connection. Researchers have found the first human diseases caused by defects in the DNA meth
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. 

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