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TIGR, NIAID Sign $65 Million Microbial Sequencing Contract
Genomics Institute Will Sequence Dozens of Genomes per Year for 5 Years
UCSD-TCAG Collaboration to Focus on Transformation of Genome-Based Knowledge Into Health Benefits
Dog Genome Published by Researchers at TIGR, TCAG
New technique, partial shotgun-genome sequencing at 1.5X coverage (6.22 million reads) of genome, provides a useful, cost-effective way to increase number of large genomes analyzed
Analysis reveals that 650 million base pairs of DNA are shared between dog and humans including fragments of putative orthologs for 18,473 of 24,567 annotated human genes; Data provide necessary tools for identifying many human and dog disease genes
J. Craig Venter Science Foundation Announces $500,000 Technology Prize for Advances Leading to the $1,000 Human Genome
Genomics Conference Expands Focus To New Frontiers of Research
GSAC 15 Features Leading Scientists, Hot Topics in Genomics
Scientists Decipher Genome of Model Plant Pathogen
GSAC 15 Features Leading Scientists, Hot Topics in Genomics
Affymetrix, TIGR and NIAID Join Forces to Fight SARS Virus
A new GeneChip庐 array from Affymetrix, Inc., that aims to catalyze research into the SARS virus is being made available to the research community through an innovative collaboration involving partners in the government, not-for-profit and business sectors. The arrays will be distributed at no cost to qualifying researchers through the Pathogen Functional Genomics Resource Center (PFGRC), which TIGR operates under contract with the National Institute for Allergy and Infectious Diseases (NIAID).
MdBioLab Forms Coalition With Other Mobile Bioscience Labs
TIGR-Supported MdBioLab On Display at BIO Convention
Twice as Many Predicted Genes in "Finished" Rice Chromosome
The smallest rice chromosome has nearly twice as many predicted genes as the draft DNA sequence had indicated, according to a new study by researchers at TIGR and collaborators. The "finished" sequence and analysis of rice Chromosome 10 confirms that the rice genome is closely similar to that of other grains particularly sorghum and maize. The study also offers a close look at the compacted short arm of the chromosome.
Genomic-Based Prospective Medicine Collaboration Announced by Duke University Medical Center and The Center for the Advancement of Genomics
Groups will work together to create the first genomic-based, prospective medicine practice utilizing correlations between comprehensive genomic and medical data relevant to prediction, early detection and prevention of disease
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Transport to the ice
Wednesday morning started with a 5AM taxi ride to the US Antarctic Program's processing center at the Christchurch airport, where we had to repack our bags and put on our emergency cold weather gear for the flight. Our plane was the C-17 Globemaster III, a large military transport plane more...
Polynya opens in the Ross Sea
A helicopter pilot recently sent us an image of the area we are planning to sample, and the stable sea ice we intended to use as a platform for drilling and sampling is now a giant stretch of open seawater! A large opening like this is a polynya, a term borrowed from the Russian...
Christchurch, New Zealand
Greetings from Christchurch, New Zealand, the anteroom to Antarctica. My colleagues and I have been here for several days now, running last minute errands, getting equipped with cold weather gear, and waiting for a flight south to McMurdo Station. The flight here was remarkable only in it's...
Why Antarctica, and why now?
So why are you going to Antarctica, and why are you going now? A very logical question... basically we are traveling to Antarctica to study microscopic marine plants known as phytoplankton. These organisms range in size from bacteria to diatoms to colonial algae, but all phytoplankton have two...
Trip preparations (inaugural posting!)
Well, we have less than a week left, and we are finalizing and shipping the chemicals and equipment we will need for sampling below the sea ice in the Ross Sea. We have already shipped out several hundred pounds of gear, and more await us in storage down at McMurdo Station in Antarctica....
Going west!
After saying good bye to our new friends in Rostock/Warnemünde I was looking forward to coming back to Swedish waters, this time a bit saltier, on the west coast. There are two marine field stations on the Swedish west coast belonging to The Sven Lovén Center for Marine Sciences. Our first...
In the bloom...almost
Cyanobacterial blooms during the summer are reoccurring phenomena in the Baltic Sea. This summer we have already encountered the two main species responsible the blooms, Aphanizomenon sp. and the toxin producing Nodularia spumigena (see previous posts), but so far not in the abundance that...
In the Deep
After the brief stop in my hometown we continue our journey southward in the Baltic proper. Our first sampling site was the Landsort deep, the very deepest part of the Baltic Sea (459 meters!) and a long-term monitoring and sampling site for various Swedish and international scientists...
The Midnight Sun and Fermented Fish
We returned from Abisko on Thursday July 9th around 10 p.m. The next morning was very busy for the crew as we had to put the science gear back together, prepare the boat, and do local newspaper and radio interviews. Read the interview: paper Like the transect north, our...
ROAD TRIP! Watch Out Arctic Circle...the Sorcerer II Sampling Team is Coming Your Way!
After we arrived in Luleå, Jeremy, Karolina and I started packing for our road sampling trip to Lake Torneträsk, a freshwater lake located in the Arctic Circle. Dr. Erling Norrby had contacted Dr. Christer Jonasson, the deputy director of the Abisko Scientific Research Station, to help...
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Artificial intelligence and machine learning will be the keys to unraveling how the human immune system prevents and controls disease
The biggest synthetic genome so far has been made, with a smaller set of amino-acid-encoding codons than usual 鈥 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
Critics, however, argue that this effort is flawed from the beginning
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