|Feb 28, 2020|
A new template for nonspherical viral nanocage(Nanowerk News) In nature, viruses use nanocages to protect their genome. Some of these viruses can be disassembled into protein units to remove their genome. These protein units can then be reassembled into nanocages by other templates, the so-called virus-like particles. For her PhD thesis, University of Twente candidate Shuqin Cao worked on a new template for these virus-like particles to use them in several different biomedical applications.
|Cao worked on the Cowpea Chlorotic Mottic Virus (CCMV). CCMV is – as the name suggests – a plant virus, which is very easy to produce, is not harmful to humans and has been utilized for drug and gene delivery. Normally CCMV is spherical and due to its natural structure, the nanocage has limitations for the encapsulation of non-spherical functional cargo.|
|Cao was able to coat different inorganic, non-spherical materials such as fluorescent nanodiamonds (fNDs), with the proteins of the CCMV nanocage. These extremely small diamonds emit light when hit with yellow light, making it possible to track them. “By coating the fNDs with proteins of CCMV, cells were able to uptake the fNDs, which is unique”, says Cao. The coating of the proteins acts like a barrier that protects the cargo from its environment but also protects the environment from the cargo.|
|In her PhD thesis, Cao describes two other examples of cargo with biomedical applications that she was able to coat with the protein of CCMV. For example, gold nanorods and carbon nanotubes.|
|“Gold nanorods can be used for bioimaging, just like fNDs but also for other applications like destroying unwanted (cancer) cells”, says Cao.|
|The heat that gold nanorods create when hit with green light can cause intensive cell death. Instead of using a coating that is also toxic for the rest of the body, CCMV proteins can be used as a safe alternative.|
|According to Cao, this principle of coating the cargo with proteins could be extended to other kinds of nanocages. There are also still some challenges to overcome, such as the stability of the used proteins. Nevertheless, protein nanocages have great potential as building blocks to create more functional materials.|
|Shuqin Cao was born in Chongqing, China. In September 2015 Shuqin started her PhD in the Biomolecular Nanotechnology group (BNT, Faculty of TNW) under the supervision of Prof. Dr. Jeroen J.L.M. Cornelissen. Combining aspects from polymer and supramolecular chemistry, she aimed to control the assembly behaviour of virus-like particles. She carried out her research in collaboration with Prof. Tanja Weil group from the Max Planck Institute for Polymer Research and the MESA+ Institute for Nanotechnology.|
|Source: University of Twente|
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