Powerful New Tools to Combat Zika
News Nov 21, 2016
New research from The University of Texas Medical Branch in Galveston, in collaboration with Southwest University in Chongqing, China and the University of Leuven in Belgium, have developed a way to replicate the basic structure of the Zika virus, stripping it of the genes that make the virus infectious. The replicon system research was spearheaded by Dr. Xuping Xie and recently published in EBioMedicine.
Replicons are segments of viral genome that can replicate on their own, independent of the cellular chromosome. The new Zika replicon system has deleted some of the genes that give the virus its structure. Because of this, the altered Zika virus is no longer infectious, lowering the safety risk involved in working with it.
“One of these replicons can be used to locate portions of the viral molecule that block or halt viral replication, making it a powerful tool for vaccine development,” said senior author Pei-Yong Shi, a professor in the department of biochemistry and molecular biology.
The replicon system was engineered by attaching genes that allow researchers to tag certain parts of the virus that they are interested in. Luciferase, the chemical that gives fireflies their signature glow, was used to make targeted viral components light up - making processes like replication much easier to observe.
“The other newly-developed replicon was designed to study potential antiviral agents by differentiating between when the virus is making copies of itself and when it’s altering its structure,” Shi said. “Knowing when and how the virus is mutating is important, as evolution is what makes viruses more adept at invading hosts like humans or animals or become more damaging once inside the host.”
The recent Zika virus outbreak has highlighted the urgent need to establish genetic tools for studying how the virus multiplies and causes disease within a newly infected person in order to develop countermeasures. This is especially important because the Zika virus is spreading rapidly and behaves differently than many other viruses – for instance, it can be transmitted sexually and is associated with microcephaly and Guillain-Barre syndrome.
Story from the University of Texas Medicinal Branch in Galveston. Please note: The content above may have been edited to ensure it is in keeping with Technology Networks’ style and length guidelines.
Xie, X., Zou, J., Shan, C., Yang, Y., Kum, D. B., Dallmeier, K., … Shi, P.-Y. (2016). Zika virus Replicons for drug discovery. EBioMedicine, 12, 156–160. doi:10.1016/j.ebiom.2016.09.013
Researchers Uncover Muscle Growth Inhibitor Activation Mechanism Aiding ALS Treatment EffortsNews
Researchers at the University of Cincinnati (UC) College of Medicine are part of an international team that has identified how the inactive or latent form of GDF8, a signaling protein also known as myostatin responsible for limiting muscle, is activated.READ MORE
Synthetic Horsepox Virus Could Lead to More Effective Smallpox VaccineNews
University of Alberta researchers created a new synthetic virus that could lead to the development of a more effective vaccine against smallpox.READ MORE
New Research Could Significantly Accelerate Drug DiscoveryNews
Scientists have developed a suite of computer programs that cull through data on structure and genomic sequencing to identify the features that distinguish one enzyme from similar enzymes. This research has the potential to significantly accelerate drug discovery, allowing scientists to develop more effective drugs, more quickly.READ MORE