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tag eukaryote developmental biology

Alternative Splicing Goes Mainstream
Sam Jaffe | Dec 14, 2003 | 10 min read
In eukaryotic genetics, the one-gene/one-protein concept has, for the most part, breathed its last. Researchers have rallied behind mechanisms such as alternative splicing, which may allow a lowly 30,000-gene genome to produce the dizzying variety of proteins that some believe is necessary to produce beings as complex as humans. Alternative splicing--the post-transcriptional editing process that can result in various mRNAs--was previously seen as an interesting but relatively uncommon sidesh
A Selection of CRISPR Proof-of-Principle Studies
Kelly Rae Chi | Mar 1, 2017 | 7 min read
Advice on how to deploy the latest techniques in your own lab
How Cells Find Their Way
Laura Defrancesco | Sep 2, 2001 | 5 min read
Organisms need to sense their environment. By sensing, they can develop, heal wounds, protect against invaders, and create blood vessels. Chemotaxis, or directional sensing, allows cells to detect chemicals with exquisite sensitivity. Some chemotactic cells can sense chemical gradients that differ by only a few percent from a cell's front to its back. Although discovery of the molecule types involved in chemotaxis, as with other kinds of cell signaling events, has mounted, the details of how thi
A Fierce Competitor
Karen Hopkin | Apr 1, 2008 | 7 min read
Christine Jacobs-Wagner's studies of a bacterial species have changed how scientists think about cell shape and polarity.
Assessing Differential Gene Expression
Barbara Cunningham | Nov 25, 2001 | 9 min read
As the complete human genome sequence emerges, research shifts from questions of genomics to those of proteomics--determining the function of individual gene products and mapping global gene expression patterns. Gene expression patterns change continually during the course of tissue development and differentiation. The expression of different gene products at any given time within a particular cell defines the cell's characteristics and helps determine how it will react to external stimuli. Alte
The Shape of Heredity
Susan M. Gasser | Jul 1, 2009 | 10+ min read
By Susan M. Gasser The Shape of Heredity Tracking the dance of DNA and structural proteins within the nucleus shows that placement makes the difference between gene activity and silence. What's true of the best architecture is also true of cellular structures: form follows function. We biologists often take this mantra to an extreme, searching for the function of a molecule or gene without much consideration of its structure, its phys

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