Linking RNA structure and function
Several years ago, biologists discovered a new type of genetic material known as long noncoding RNA. This RNA does not code for proteins and is copied from sections of the genome once believed to be "junk DNA."
Several years ago, biologists discovered a new type of genetic material known as long noncoding RNA. This RNA does not code for proteins and is copied from sections of the genome once believed to be "junk DNA."
Cell & Microbiology
Sep 8, 2016
0
493
Think of a traditional robot and you probably imagine something made from metal and plastic. Such "nuts-and-bolts" robots are made of hard materials. As robots take on more roles beyond the lab, such rigid systems can present ...
Robotics
Aug 10, 2016
0
271
The idea of taking apart a rat's heart and transforming it into a tissue-engineered stingray first came to Kevin Kit Parker during a trip to the New England Aquarium with his daughter.
Robotics
Aug 8, 2016
2
2819
Researchers led by Carnegie Mellon University Professor of Biological Sciences Chien Ho have developed a new method for preparing mesenchymal stem cells (MSCs) that not only leads to the production of more native stem cells, ...
Cell & Microbiology
May 18, 2016
0
248
Researchers at UiO and NCMM have discovered that the system used by bacteria to transport magnesium is so sensitive that it can detect a pinch of magnesium salt in a swimming pool.
Cell & Microbiology
Apr 7, 2016
0
11
Combining the two most powerful biological tools of the 21st century, scientists at the Gladstone Institutes have modified how the genome of induced pluripotent stem cells (iPSCs) is read for the first time using a variation ...
Biotechnology
Mar 10, 2016
4
207
Salmon have an ace up their sleeve—or in their gills—when facing challenging conditions that could affect their hearts, according to a study led by a University of Guelph researcher.
Plants & Animals
Mar 7, 2016
0
31
By genetically reprogramming the most common type of cell in mammalian connective tissue, researchers at the University of Wisconsin-Madison have generated master heart cells—primitive progenitors that form the developing ...
Biotechnology
Feb 11, 2016
0
45
Johns Hopkins researchers report that a new study of mouse cells has revealed reasons why attempts to grow stem cells to maturity in the laboratory often fail, and provided a possible way to overcome such "developmental arrest."
Cell & Microbiology
Nov 12, 2015
0
30
Two wrongs don't make a right, but in the case of genetic mutations, having two mutations in the same gene could be better than having either one individually. Recent research by biologists at San Diego State University found ...
Biotechnology
Oct 26, 2015
0
30