Team:WITS-South Africa

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Our Project - Lactoguard

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So what is "Lactoguard?"

It is a whole-cell biosensor for the immediate, in vivo detection of Human Papillomavirus (HPV), and thus cervical cancer, in the form of an engineered commensal vaginal bacterium. It is a safe, low-cost and easy-to-administer machine intended primarily for women in resource-poor settings.

The link between HPV and cervical cancer is well-established; and while there are vaccines available against HPV, they are limited (due issues around cost and accessibility) in their ability to prevent disease burden in developing countries, where 80% of cervical cancer deaths occur annually.

This inspired the search for a method of detecting the virus that will alert an infected individual that they have been exposed. The machine also has the potential to be further adapted to neutralise the virus and prevent the infection from spreading.

The chassis of our machine, Lactobacillus gasseri, is a predominant commensal vaginal microbe and is ideally situated to detect and deter HPV. Interbacterial communication is achieved by quorum sensing, which has been studied in detail in various organisms such as gram positive bacilli and thus we have elected to use one of these pathways as the means of propagating the response signal throughout the population. Each bacterium will produce a visible reporter on receipt of the signal which the infected woman would be able to detect without medical assistance shortly after infection.


Meet the team

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Wits South Africa 2010 is the first team from Africa ever to particpate in the iGEM competition! We are very excited to be representing our country and continent and hope to pave the way for more African teams to get involved in Synthetic Biology and the iGEM competition.


Our team consists of students from various disciplines such as molecular biology, mathematics, engineering and philosophy. Whilst the biologists will focus on building the machine in the wetlab, the mathematicians and engineers will model its predicted behaviour and effect in vivo whilst the philosopher will focus on the ethics of creating such a machine for medical application.

For more information on the Wits South Africa team go to Students.


Parts submitted to the Registry

  • Lac1/AraC Promoter: The inducible promoter serving as a proxy for infection
  • PlcR-PapR Fusion Protein: The positive-feedback signal-propagating quorum molecule
  • Venus: The YFP variant used in fluorometric analysis
  • PlcR Promoter: The PlcR-PapR fusion protein-responsive promoter
  • SpooA: The negative feedback regulator of the machine


What we achieved this year

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Sponsors and Partners

The Wits iGEM team gratefully acknowledges the contribution of the following sponsors and partners, who have contributed to our project and supported us. We would like to thank everyone for their assistance! BiPed Biotech and Inqaba Biotech

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The University of the Witwatersrand - Faculty of Health Sciences, Faculty of Engineering and the Built Environment, and the Vice-Chancellor's Office

The Council for Scientific and Industrial Research and everyone at the CSIR's Synthetic Biology research group

The Antiviral Gene Therapy Research Unit, University of the Witwatersrand

Dr Digby Warner and Dr Edith Machowski (Molecular Mycobacteriology Research Unit, National Health Laboratory Service)

Dr Leonard Damelin (National Institute for Communicable Diseases)

Professor Beth Lazazzera (University of California, Los Angeles)

Professor Didier Lereclus