It s unlikely the end result would be something as terrifying as Twoey, the man-eating plant from the movie Little Shop of Horrors, but still..
It appears this might be an annual reminder, requested by our friends at the Montana Department of Agriculture.They are reminding growers about the importance of buying and planting seeds from licensed seed dealers to protect against invasive species and plant diseases. Did any of you receive unordered seeds in the mail last year?
In 2020, residents in all 50 states received unsolicited “mystery seeds” through the mail that originated in China causing federal and state agencies to urge recipients not to plant them, and to contact their state regulatory officials to submit them for testing or dispose of them instead. Close to 150 seed packages were received in Montana and sent to USDA’s Animal and Plant Inspection Service for testing. A mix of ornamental, fruit and vegetable, herb and weed species were discovered and fortunately dete
Montana Department of Agriculture Reminds Montanans to Sow Safe Seeds einnews.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from einnews.com Daily Mail and Mail on Sunday newspapers.
red-stars.com data AG made the investment.
The company intends to use the funds to establish operations, build up an experienced team over the next 12 months, and develop the Cardioid technology into a platform solution for compound screening.
Led by Michael Krebs, CEO, HeartBeat.bio is developing a high-throughput 3D screening platform for heart diseases using self-organizing human cardiac organoids (Cardioids). The Cardioid technology has been invented by the Mendjan lab at IMBA, a leading hub in organoid research.
This human organoid screening platform enables the automated, reproducible, and cost-effective large-scale generation and analysis of cardiac organoids, making it suitable for high-throughput compound screenings.
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IMAGE: University of Texas at Dallas scientists developed a method to stabilize liposomes in a crystalline exoskeleton, which allows the biomolecules to remain stable at room temperature. This illustration depicts a. view more
Credit: University of Texas at Dallas
New research by University of Texas at Dallas scientists could help solve a major challenge in the deployment of certain COVID-19 vaccines worldwide the need for the vaccines to be kept at below-freezing temperatures during transport and storage.
In a study published online April 13 in
Nature Communications, the researchers demonstrate a new, inexpensive technique that generates crystalline exoskeletons around delicate liposomes and other lipid nanoparticles and stabilizes them at room temperature for an extended period up to two months in their proof-of-concept experiments.