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tag alternative splicing genetics genomics developmental biology ecology

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
bacteria and DNA molecules on a purple background.
Engineering the Microbiome: CRISPR Leads the Way
Mariella Bodemeier Loayza Careaga, PhD | Mar 15, 2024 | 10+ min read
Scientists have genetically modified isolated microbes for decades. Now, using CRISPR, they intend to target entire microbiomes.
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.
a pair of scissors cuts a film strip that's curled into a helix
Alternative Splicing Provides a Broad Menu of Proteins for Cells
Gabrielle M. Gentile, Hannah J. Wiedner, Emma R. Hinkle, and Jimena Giudice | Jan 13, 2020 | 10+ min read
It’s now clear that gene transcripts can be constructed in various ways, yet many questions remain about the process.
5 images related to stories highlighted in the article, including DNA strand, insect, and dog
Our Favorite Genetics Stories of 2021
Christie Wilcox, PhD | Dec 23, 2021 | 4 min read
Studies The Scientist covered this year illustrate the expanding importance of genetic and genomic research in all aspects of life science, from ecology to medicine.
Advances in the functional characterization of newly discovered microproteins hint at their diverse roles  in health and disease
The Dark Matter of the Human Proteome
Annie Rathore | Apr 1, 2019 | 10 min read
Advances in the functional characterization of newly discovered microproteins hint at diverse roles in health and disease.
Will Genomics Spoil Gene Ownership?
Douglas Steinberg | Sep 3, 2000 | 8 min read
Consider a scenario for the year 2002: Using commercially available software, bioprospector "Craig Collins" spends a day scavenging the Human Genome Project (HGP) database for the alternatively spliced genes prized by Wall Street. He enters the sequences of several candidate genes into a software package that prints out the likely functions of their protein products. One protein looks like it could be pharmaceutical paydirt, so he isolates the corresponding cDNA, inserts it into a vector, then
Conceptual image showing molecules making up a brain shape
The Noncoding Regulators of the Brain
Christie Wilcox, PhD | Sep 12, 2022 | 10+ min read
Noncoding RNAs are proving to be critical players in the evolution of brain anatomy and cognitive complexity.
a microscope image of a rotifer
Bacterial Enzyme Keeps Rotifers’ Transposable Elements in Check
Christie Wilcox, PhD | Mar 3, 2022 | 5 min read
Jumping genes in bdelloid rotifers are tamped down by DNA methylation performed by an enzyme pilfered from bacteria roughly 60 million years ago, a study finds.
The Human Genome: RNA Machine
John S. Mattick | Oct 1, 2007 | 7 min read
The Human Genome: RNA Machine Contrary to current dogma, most of the genome may be functional. John S. Mattick Related Articles 1 The idea of "junk DNA" is also based on the assumption that most genetic information is transacted via proteins, an assumption that dates back half a century to a time when the pioneers of molecular biology were studying bacteria, wherein most genes do indeed encode proteins. By contrast, protein coding sequences occupy only ~1.2% of the

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