A million times faster: DNA nanotechnology could speed up pharmaceutical development while minimizing costs
A new tool speeds up development of vaccines and other pharmaceutical products by more than 1 million times while minimizing costs.
A new tool speeds up development of vaccines and other pharmaceutical products by more than 1 million times while minimizing costs.
Bio & Medicine
Apr 4, 2022
0
1659
Mimicking sugar structures in plants plays a crucial role in the development of effective vaccines against the stomach worm Ostertagia ostertagi. This has been demonstrated by Ruud Wilbers of Wageningen University & Research ...
Veterinary medicine
Nov 28, 2023
0
98
To many, EV stands for "electric vehicle." To researchers at Harvard University and the University of Nebraska–Lincoln, it's shorthand for another vehicle—this one nanoscopic—that might help streamline the development ...
Bio & Medicine
Jan 30, 2023
0
55
A team led by researchers from the Max Planck Institute for Dynamics of Complex Technical Systems in Magdeburg is developing methods with which viruses for vaccines can be replicated in significantly higher concentrations ...
Cell & Microbiology
Sep 26, 2018
0
25
Researchers at Houston Methodist have solved a 100-year-old mystery, providing them a possible key to unlock a pathway for treating diseases caused by flesh-eating bacteria. This is timely news, given the current dangers ...
Cell & Microbiology
Sep 18, 2017
0
198
Researchers at Brigham Young University have devised a system to speed up the process of making life-saving vaccines for new viruses.
Biochemistry
Nov 19, 2015
1
77
Researchers at The University of Texas at Austin have developed a menu of 61 new strains of genetically engineered bacteria that may improve the efficacy of vaccines for diseases such as flu, pertussis, cholera and HPV.
Biotechnology
Jan 15, 2013
5
0
(Phys.org) -- A new method for looking at how proteins fold inside mammal cells could one day lead to better flu vaccines, among other practical applications, say Cornell researchers.
Biochemistry
Jul 26, 2012
1
0
Research from the University of Melbourne has shown that two different vaccine viruses- used simultaneously to control the same condition in chickens- have combined to produce new infectious viruses, prompting early response ...
Other
Jul 12, 2012
0
0
(PhysOrg.com) -- A global collaborative has produced a first draft of the genome of a domesticated pig, an achievement that will lead to insights in agriculture, medicine, conservation and evolution.
Biotechnology
Nov 2, 2009
0
0