Difference between revisions of "Team:UNSW Australia/Human Practices/Law"

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<p>Early on, the team had questions about the possibility of patenting the new, invented system. Early advice was sought from one of the team mentors (Daniel Winter), which essentially stated that genetic sequences were not patentable or protectable, and therefore, there was no possibility of patenting the invention. However, the advice lacked clarity as to the actual reasons why that was so. Further research was then conducted into the relevant legal decisions establishing genetic sequence protection law, particularly the High Court of Australia decision in <i>Myriad Genetics v D’Arcy</i><sup><a href=#references>2</a></sup>. Such research later showed that in actuality, it was the DNA sequence of the proteins which was not protectable – rather than the actual structure and design of the scaffold<sup><a href=#references>2</a>; <a href=#references>8</a>; <a href=#references>9</a></sup>. There is an equivalent US decision as well; <i>Association for Molecular Pathology v Myriad Genetics</i>, although the scope of protection available differs between the two decisions<sup><a href=#references>10</a></sup>. Dr Alexandra George (Senior Lecturer at the University of New South Wales, Intellectual Property) was also consulted regarding some of the particular aspects of the law in order for the team to then evaluate if our invention would fall under the protected category. Given the potential patenting issues, we decided not to proceed with trying to patent the invention, and refocused the project as a foundational technology designed to be accessible to all. The legal reason behind this decision comes from the lack of ‘novelty’ once sequences are removed from contention<sup><a href=#references>9</a></sup>.
 
<p>Early on, the team had questions about the possibility of patenting the new, invented system. Early advice was sought from one of the team mentors (Daniel Winter), which essentially stated that genetic sequences were not patentable or protectable, and therefore, there was no possibility of patenting the invention. However, the advice lacked clarity as to the actual reasons why that was so. Further research was then conducted into the relevant legal decisions establishing genetic sequence protection law, particularly the High Court of Australia decision in <i>Myriad Genetics v D’Arcy</i><sup><a href=#references>2</a></sup>. Such research later showed that in actuality, it was the DNA sequence of the proteins which was not protectable – rather than the actual structure and design of the scaffold<sup><a href=#references>2</a>; <a href=#references>8</a>; <a href=#references>9</a></sup>. There is an equivalent US decision as well; <i>Association for Molecular Pathology v Myriad Genetics</i>, although the scope of protection available differs between the two decisions<sup><a href=#references>10</a></sup>. Dr Alexandra George (Senior Lecturer at the University of New South Wales, Intellectual Property) was also consulted regarding some of the particular aspects of the law in order for the team to then evaluate if our invention would fall under the protected category. Given the potential patenting issues, we decided not to proceed with trying to patent the invention, and refocused the project as a foundational technology designed to be accessible to all. The legal reason behind this decision comes from the lack of ‘novelty’ once sequences are removed from contention<sup><a href=#references>9</a></sup>.
  
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<h3>SpyTag/Catcher</h3>
 
<h3>SpyTag/Catcher</h3>

Revision as of 15:56, 16 October 2018

Law and Regulation