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Groundbreaking study reveals oral microbiome’s role in immune response and COVID-19 severity
Newly developed AI model shows that saliva is a better predictor of COVID-19 severity than existing blood tests
Scientists develop method to efficiently construct single-copy human artificial chromosomes (HACs)
This new tool will allow scientists to work in mammalian systems in ways only previously available in bacteria and yeast
HACs have wide potential research applications to synthetic biologists and may eventually aid in delivering DNA in clinical applications
With combined funding of 3,000,000 euros the BBVA Foundation’s Fundamentos Program supports five innovative exploratory research projects on core questions in basic science
JCVI work supported through The Physical Basis of Cell Division in Minimal and Synthetic cells (MINCELL) Fundamentos Program
Opentrons Announces New Robotics Education Initiative Demonstrating Commitment to Laboratory Automation for Students
12th Build-a-Cell Workshop hosted at J. Craig Venter Institute in La Jolla
The workshop will take place March 29, 2024 with registration closing March 19
New LongCOVID research launched by PolyBio’s global consortium of scientists
Funding will deepen research on the persistence of the SARS-CoV-2 virus in LongCOVID patients and launch new clinical trials
J. Craig Venter Institute contracted by the Centers for Disease Control and Prevention to rapidly construct synthetic influenza genes
Genes will be used to help develop seasonal and pandemic vaccines, improving response time and vaccine efficacy
Coastal upwelling regions threatened by increased ocean acidification
Increased acidification shown to limit iron availability, a critical element for the survival of phytoplankton, the foundation of the oceanic food web
J. Craig Venter Institute scientists awarded five-year, $5.7M grant from NIH to develop phage treatment
Phage research accelerates with the rise of antibiotic resistance to address increasingly prevalent and difficult to treat bacterial infections
Bringing cells to life … and to Minecraft: $30 million NSF grant to support whole-cell modeling at the Beckman Institute
Beckman researchers and collaborators received $30 million from the U.S. National Science Foundation to establish the NSF Science and Technology Center for Quantitative Cell Biology. The center will develop whole-cell models to transform our understanding of how cells function and share that knowledge with diverse communities through the popular computer game Minecraft.
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JCVI Researchers Help Advance Our Understanding of Ocean Microbes, Developing New Tools and Protocols Through Large-Scale Study
The oceans cover over two-thirds of the Earth’s surface and contain an abundance of life including diverse populations of marine microbes. Studying the genetics, biochemistry and metabolism of these microbes has been one of JCVI’s long standing research initiatives and is...
Online Education Resources to Help With Your New “Normal”
The COVID-19 pandemic has brought many changes to our daily lives and routines, including for many of you the role of an at-home educator for your children due to open-ended school closures. While we also miss directly connecting with students from our community, JCVI remains committed...
Coronavirus Pandemic: Putting Comprehensive Genomic Data in the Hands of Frontline Researchers Worldwide is Paramount
According to the CDC, SARS-CoV-2, the virus causing COVID-19, has now been detected in more than 150 countries/locations internationally. The World Health Organization (WHO) has declared COVID-19 a pandemic, and in the United States it has been declared it a national emergency. As...
Characterization of Bacteria from the International Space Station Drinking Water
From a microbiology perspective, the International Space Station (ISS) is interesting considering its microgravity, increased radiation, low humidity and elevated carbon dioxide levels. Because of its isolation, and unique environment, it is vital to study the microorganisms that thrive there...
Venter Institute Researchers Tackle the Growing Concern of Antibiotic Resistant Bacterial Infections with Genomic, Phage Approaches
The Centers for Disease Control and Prevention (CDC) estimates that each year in the United States two million people acquire antibiotic resistant bacterial infections that lead to 23,000 deaths. Antibiotic resistance affects people of all ages and seriously impacts the healthcare, veterinary,...
2019 Summer Internship Program
The 2019 Summer Internship Program which wrapped up in August was another rousing success at the J. Craig Venter Institute. Faculty and staff in both the Rockville (MD) and La Jolla (CA) campuses mentored and trained 25 students (high school, undergraduate, and graduate students)...
Diatoms Have Found a Way to Pirate Bacterial Iron Sources
In large regions of the world’s oceans, photosynthesis struggles to operate because a key ingredient is missing. Many of the proteins involved in harvesting energy from sunlight require iron atoms to function, but iron is hard to find in seawater. Most of the ocean is far removed from...
The JCVI Genomic Frontier Fund
As we complete our 26th year as a private genomic research institution, we are still just as excited as we were in the very beginning to be making new discoveries, potentially ones that will change our society for the better. The knowledge gained from our study of DNA, or as Dr. Venter...
New Sequencing Technologies Enable Better and Faster Understanding of the Human Microbiome
Humans have trillions of different species of microorganisms living inside and on the human body. These microbes colonize on the skin, gut, oral cavity, vagina, internal organs, and circulating fluids, and are called the human microbiome. The human microbiome plays profound roles in health...
Human Microbiome Research has Massive Potential for Health Applications
Thirteen years ago, a team led by J. Craig Venter Institute President, Karen Nelson, Ph.D., published the first major human microbiome study, radically changing the way we look at human health and the role the microbes that inhabit each of us play in disease. This seminal publication...
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Getting Under the Skin
Amid an insulin crisis, one project aims to engineer microscopic insulin pumps out of a skin bacterium.
Planet Microbe
There are more organisms in the sea, a vital producer of oxygen on Earth, than planets and stars in the universe.
The Next Climate Change Calamity?: We’re Ruining the Microbiome, According to Human-Genome-Pioneer Craig Venter
In a new book (coauthored with Venter), a Vanity Fair contributor presents the oceanic evidence that human activity is altering the fabric of life on a microscopic scale.
Lessons from the Minimal Cell
“Despite reducing the sequence space of possible trajectories, we conclude that streamlining does not constrain fitness evolution and diversification of populations over time. Genome minimization may even create opportunities for evolutionary exploitation of essential genes, which are commonly observed to evolve more slowly.”
Even Synthetic Life Forms With a Tiny Genome Can Evolve
By watching “minimal” cells regain the fitness they lost, researchers are testing whether a genome can be too simple to evolve.
Privacy concerns sparked by human DNA accidentally collected in studies of other species
Two research teams warn that human genomic “bycatch” can reveal private information
Scientists Unveil a More Diverse Human Genome
The “pangenome,” which collated genetic sequences from 47 people of diverse ethnic backgrounds, could greatly expand the reach of personalized medicine.
First human ‘pangenome’ aims to catalogue genetic diversity
Researchers release draft results from an ongoing effort to capture the entirety of human genetic variation.
Scientists Create the Smallest-Ever Moving Cell
Just two genes get tiny synthetic cells moving, offering clues to life’s evolution.
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