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A New Spin on Spirochetes
Major Differences Found Between the Genomes of Oral Pathogen Treponema denticola and Related Spiral-Shaped Bacteria that Cause Syphilis and Lyme Disease
"Male-Targeting" Bacterium's Genome is Deciphered
Versatile Wolbachia has more mobile DNA than any other intracellular bacterium; Study may help in developing new treatments for diseases
IBEA Researchers Publish Results From Environmental Shotgun Sequencing of Sargasso Sea In Science; Discover 1,800 New Species And 1.2 Million New Genes, Including Nearly 800 New Photoreceptor Genes
IBEA Announces Sorcerer II Expedition, Global Expedition To Sample World's Oceans And Land To Characterize And Understand Microbial Populations Using Environmental DNA Sequencing
Gordon and Betty Moore Foundation give IBEA $4.25 Million Grant for Genomic Sequencing of DNA Samples from Expedition Discovery Channel to Film Expedition for TV Documentary
Discovery Channel to Film Expedition for TV Documentary
TIGR Offers International Travel Fellowships
Scientists Discover Way to Streamline Analysis of Maize Genome
Combination of Two Techniques Can Help Identify "Gene Islands" in the Key Crop
Scientists Explore Secrets of the Anthrax Spore
Study May Help With Detection, Prevention and Early Treatment of Anthrax
Scientists Decipher Genome of Bacterium That Remediates Uranium Contamination and Generates Electricity Through Its Metabolism
Analysis of Geobacter sulfurreducens Genes Reveals New Capabilities
Gene Transfer Leads To Antibiotic Resistance In Staph Strain
Study Sheds Light on Vancomycin Resistance of Staphylococcus aureus
IBEA Researchers Make Significant Advance in Methodology Toward Goal of a Synthetic Genome
Group Synthesizes Biologically Active Genome of Bacteriophage φX174
IBEA research, funded by Dept. of Energy, is an important advance toward the goal of a completely synthetic genome that could aid in carbon sequestration and energy production
NHGRI Funds Next Generation Of Large-Scale Sequencing Centers
New Efforts Will Build on Success of the Human Genome Project
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Scientist Spotlight: Todd Michael
A love of science began for Todd Michael, PhD when his 7th grade teacher had him write a report on tree leaves. After collecting different leaves and looking up their tree type, he realized that although all of the trees were similar, they grew different types of leaves. He was certain there...
Fighting Back Against Flu
The 1918 influenza pandemic, which affected 500 million people globally and caused 50-100 million deaths, was the most severe pandemic in recorded history. Over the course of the last 100 years, advances in science and medicine have provided the tools to address influenza much more...
Scientist Spotlight: Marcelo Freire
Marcelo Freire, an associate professor in the Genomic Medicine and Infectious Disease Department at the J. Craig Venter Institute (JCVI), is currently working on decoding immune-microbiome genes and interactions. Growing up in Brazil and a curious person by nature, he often found himself...
Tracking Enterovirus D68, Cause of a Polio-like Illness in Some Patients
The J. Craig Venter Institute (JCVI) has played a vital role in defining the diversity of contemporary strains of human enteroviruses by using state-of-the art sequencing technologies, bioinformatics analyses, and in vitro and in vivo modeling.
Every Day is World Food Day at JCVI
World Food Day is a global initiative of the Food and Agriculture Organization (FAO) of the United Nations to ensure that people have access to enough high-quality food to lead active and healthy lives. After a period of decline, world hunger is on the rise again. Today, over 820 million people...
Mold Is Everywhere and Impacts You
When most people think about mold or fungi, food spoilage, a damp basement, or mushrooms come to mind. What you may not realize is how pervasive this branch of life is. Fungi is everywhere, from the ground you walk on to the air you breathe, and accounts for an estimated 25% of all biomass...
Scientists Discover Genetic Basis for Toxic Algal Blooms
Scientists from the J. Craig Venter Institute (JCVI) and Scripps Institution of Oceanography at the University of California San Diego have discovered how certain types of algal blooms become toxic, producing a harmful substance known as domoic acid. Microscopic view of domoic acid...
Ocean Microplastics Explained
As we wrap up sampling in the waters off of Maine, Dr. Chris Dupont discusses how collections of plastic particles in the water – or “plastisphere” – may be harboring fish or human pathogens. There may also be microbes responsible for degrading plastic, which are being investigated....
JCVI Team Awarded Two Grants Under the NSF’s “Understanding the Rules of Life” Initiative
The first award, led by John Glass, PhD, for $1M, is focused on “Building and Modeling Synthetic Bacterial Cells.” The second award, led by Zaida Luthey-Schulten, PhD, at the University of Illinois, also for $1M, is titled “Balancing the Demands of a Minimal Cell,” and is focused on...
Dr. Venter at Sailors’ Scuttlebutt Lecture Series
Dr. Craig Venter was a guest speaker at the Whaling Museum in partnership with Nantucket Community Sailing as part of the Sailors’ Scuttlebutt Lecture Series. Dr. Venter's lecture was titled, "Oceans, Human Health and the Genomic Future" discussing the Global Ocean...
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Craig Venter: 20 years of decoding the human genome
The human genome is 99% decoded, the American geneticist Craig Venter announced two decades ago. What has the deciphering brought us since then?
Scientists in La Jolla Make Progress Understanding New Coronavirus Strain
Gene Drives: New and Improved
As the science advances, policy-makers and regulators need to develop responses that reflect the latest developments and the diversity of approaches and applications.
Pink shoes and a lab jacket: Finding your way as a female scientist
Women in science tell high school girls they, too, can change the world
PEOPLE IN YOUR NEIGHBORHOOD: Jazz piano in La Jolla scientist Clyde Hutchison’s DNA
How AI can help us decode immunity
Artificial intelligence and machine learning will be the keys to unraveling how the human immune system prevents and controls disease
Construction of an Escherichia coli genome with fewer codons sets records
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.
Public Health is the Next Big Thing at UC San Diego
Researchers have swapped the genome of gut germ E. coli for an artificial one
By creating a new genome, scientists could create organisms tailored to produce desirable compounds
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