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tag pigment genetics genomics

Yeast Made to Harvest Light Hint at Evolution’s Past
Kamal Nahas, PhD | Feb 21, 2024 | 6 min read
Scientists transferred light-harvesting proteins into yeast for the first time, shining a light on the past lives of eukaryotic cells.
A colorful mandarinfish on a reef
Genome Spotlight: Mandarinfish (Synchiropus splendidus)
Christie Wilcox, PhD | Oct 28, 2021 | 3 min read
The high-quality genome sequence sheds light on the colorful nature of these popular aquarium fish.
Five More Synthetic Yeast Chromosomes Completed
Anna Azvolinsky | Mar 9, 2017 | 4 min read
Members of the Synthetic Yeast Genome Project have synthesized five additional yeast chromosomes from scratch. 
Notebook
Eugene Russo | Dec 5, 1999 | 7 min read
Contents Pivotal pump Leptin limbo Clue to obesity Biotech Web site Helping hand Mapping malaria Notebook Pictured above are pigmented bacterial colonies of Deinococcus radiodurans, the most radiation-resistant organism currently known. DEINO-MITE CLEANUP In 1956, investigators discovered a potentially invaluable cleanup tool in an unlikely place. A hardy bacterium called Deinococcus radiodurans unexpectedly thrived in samples of canned meat thought to be sterilized by gamma radiation. The b
How Orphan Drugs Became a Highly Profitable Industry
Diana Kwon | May 1, 2018 | 10+ min read
Government incentives, advances in technology, and an army of patient advocates have spun a successful market—but abuses of the system and exorbitant prices could cause a backlash.
A Practical Guide to the HapMap
Aileen Constans | Feb 1, 2006 | 5 min read
Here are five tips to getting the most out of your next gene-association study
Flow Cytometry On-a-Chip
Jeffrey M. Perkel | Jun 1, 2015 | 7 min read
Novel microfluidic devices give researchers new ways to count and sort single cells.
Steal My Sunshine
David Smith | Jan 1, 2013 | 10+ min read
How photosynthetic organisms get taken up, passed around, and discarded throughout the eukaryotic domain
Cell-free Transcription and Translation
Gregory Smutzer | Jan 7, 2001 | 8 min read
In Vitro Translation Systems Researchers synthesize recombinant proteins in cell-free extracts to verify the identity of cloned genes, to study protein-protein, protein-nucleic acid, and protein-drug interactions, and to carry out mutagenesis studies. In vitro protein translation studies rely on the efficient and selective transcription of cloned genes in vitro, which is now not only possible, but also routine, thanks to the identification of bacteriophage (phage) DNA-dependent RNA polymerases a

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