Genetics & Developmental Biology Stories
Baltimore, MD— New work from a team of Carnegie cell, genomic, and developmental biologists solves a longstanding marine science mystery that could aid coral conservation. The researchers...
Baltimore, MD— Carnegie’s Director of Embryology Yixian Zheng is one of 15 scientists awarded a grant from the...
Baltimore, MD—Antibiotics can make easy work of infections. But how do they affect the complex ecosystems of friendly bacteria that make up our microbiome?
“When a doctor prescribes...
Baltimore, MD— They say a picture is worth 1,000 words. But what about a real-time window into the complexity of the gastrointestinal system?
A new research tool allowed biologists to...
Baltimore, MD— A woman’s supply of eggs is finite, so it is crucial that the quality of their genetic material is ensured. New work from Carnegie’s Marla Tharp, Safia Malki, and...
Baltimore, MD—The buildup of scar tissue makes recovery from torn rotator cuffs, jumper’s knee, and other tendon injuries a painful, challenging process, often leading to secondary tendon...
Baltimore, MD— Carnegie biologist Kamena Kostova has been selected for the...
Washington, DC— An age-related decline in recovery from muscle injury can be traced to a protein that suppresses the special ability of muscle stem cells to build new muscles, according to work...
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The Zheng lab studies cell division including the study of stem cells, genome organization, and lineage specification. They study the mechanism of genome organization in development, homeostasis—metabolic balance-- and aging; and the influence of cell morphogenesis, or cell shape and...
The Fan laboratory studies the molecular mechanisms that govern mammalian development, using the mouse as a model. They use a combination of biochemical, molecular and genetic approaches to identify and characterize signaling molecules and pathways that control the development and maintenance of...
Approximately half of the gene sequences of human and mouse genomes comes from so-called mobile elements—genes that jump around the genome. Much of this DNA is no longer capable of moving, but is likely “auditioning” perhaps as a regulator of gene function or in homologous...
The mouse is a traditional model organism for understanding physiological processes in humans. Chen-Ming Fan uses the mouse to study the underlying mechanisms involved in human development and genetic diseases. He concentrates on identifying and understanding the signals that direct the...
Integrity of hereditary material—the genome —is critical for species survival. Genomes need protection from agents that can cause mutations affecting DNA coding, regulatory functions, and duplication during cell division. DNA sequences called transposons, or jumping genes (discovered by...
Yixian Zheng is Director of the Department of Embryology. Her lab has a long-standing interest in cell division. In recent years, their findings have broadened their research using animal models, to include the study of stem cells, genome organization, and lineage specification—how stem cells...
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Every high school biology class learns about the process of mitosis, the series of steps through which a cell divides itself into two daughter cells, each with the same genetic material. Mitosis...
Baltimore, MD—Carnegie’s educational outreach program, BioEYES, will be the recipient of the 2012 Viktor Hamburger Outstanding Educator Prize from the Society for Developmental Biology. BioEYES...
Baltimore, MD—As animals age, their immune systems gradually deteriorate, a process called immunosenescence. It is associated with systemic inflammation and chronic inflammatory disorders, as well as...
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