Researchers explore recent efforts to use everyday materials like ice, paper, and spinach as tissue scaffolds. These unconventional materials, they argue, are more functional, more sustainable, and less expensive, as well as being available around the globe and applicable to many areas of biomedical research.
Read moreProteins keep our organs functioning, regulate our cells and are the targets for medications that treat a number of diseases, including cancers and neurological diseases. Proteins need to move in order to function. But, because the technology they used to watch proteins doesn't allow it, scientists still know very little about such motions at speeds slower than a nanosecond. That changed last month.
Read moreA Research group reports a way of constructing DNA-based microcapsules that hold great promise for the development of new functional materials and devices. They showed that tiny pores on the surface of these capsules can act as ion channels. Their study will accelerate advances in artificial cell engineering and molecular robotics, as well as nanotechnology itself.
Read moreBio-engineering researchers have created a biocompatible, protein-based hydrogel that could serve as a drug delivery system durable enough to survive in the body for more than two weeks while providing sustained medication release. The research advances an area of biochemistry that is also critical to tissue engineering and regenerative medicine. Protein hydrogels are more biocompatible than synthetic ones and do not require potentially toxic chemical crosslinkers.
Read moreIn work suggesting new therapeutic targets to fight obesity, researchers have identified a novel mechanism that regulates the creation of fat in mammals.
Read moreA computer generated-simulation allowed researchers to see how a toxin produced by algal blooms in saltwater might cause Amyotrophic Lateral Sclerosis (ALS).
Read moreRNA World is a fascinating theory but it may not hold true. The problem is that the ingredients, such as enzymes, to make RNA World work just didn't exist on early Earth.
Read moreAn inter-disciplinary team of researchers has unraveled how a toxin released by Escherichia coli (E. coli) – a human gut bacteria, is connected to colorectal cancer, offering new insights to the health impact of this prevalent bacteria and facilitating future research on the prevention of this third most common cancer worldwide.
Read moreNew research is highly relevant to how antibodies are made in response to infections, vaccines and in autoimmunity due to the its analysis of a signal that is associated with hyper IgM syndrome, a genetic deficiency of CD40 ligand (CD40L) that results in profound immunodeficiency.
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