Study co-authors include J. Craig Venter Institute scientists Karen E. Nelson and Derrick E. Fouts
J. Craig Venter Institute-led Team Awarded 5-year, $10.7 M Grant from U.S. Department of Energy to Optimize Metabolic Networks in Diatoms, Enabling Next-Generation Biofuels and Bioproducts
Research builds on a series of recent landmark studies, at JCVI, which have led to transformative new methodology for synthetic biology and functional genomics
For the first time, investigators have looked at the role that genes and the oral microbiome play in the formation of cavities and have found that your mother was right: The condition of your teeth depends on your dietary and oral hygiene habits. The study appears September 13 in Cell Host & Microbe.
Researchers have developed a more precise way of diagnosing suicide risk, by developing blood tests that work in everybody, as well as more personalized blood tests for different subtypes of suicidality that they have newly identified, and for different psychiatric high-risk groups.
Expanding minimum information standards for single-cell genomics, metagenomics datasets.
Scripps Institution of Oceanography, and the J. Craig Venter Institute, Global Algae Innovations will deliver a tool for low cost, rapid analysis of pond microbiota, gather data on the impacts of pond ecology, and develop new cultivation methods that utilize this information to achieve greater algal productivity.
Scientists from J. Craig Venter Institute and Scripps Institution of Oceanography Publish Study Describing Function and Mechanisms of Diatom Centromeres
Research provides basic but essential information about how diatom chromosomes are replicated and maintained
Digital-to-Biological Converter for On-Demand Production of Biologics Developed by Synthetic Genomics, Inc.
The first fully automated machine to convert digital code into functional biologics without human intervention creates entirely new avenues for precision medicine
Reducing intestinal fungi slowed disease progression in mice
The biggest synthetic genome so far has been made, with a smaller set of amino-acid-encoding codons than usual — raising the prospect of encoding proteins that contain unnatural amino-acid residues.
By creating a new genome, scientists could create organisms tailored to produce desirable compounds
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