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Milton Mogotsi
Charting unexplored territories: Milton Mogotsi, UFS PhD student, clinches victory in National 3MT Competition, unravelling infant enteric virome complexities, poised to revolutionise virology.

Milton Mogotsi, a PhD student at the University of the Free State (UFS), has secured a remarkable victory in the esteemed National 3 Minute Thesis competition (3MT), rising above formidable competition nationwide. This achievement follows Mogotsi’s earlier successes at faculty and institutional levels, where his presentations on the enteric virome of infants in the Free State stood out for their brilliance and significance.

The annual competition serves as a platform for postgraduate students to enhance their academic, presentation, and research communication skills by succinctly explaining their research to an intelligent but non-specialist audience within a concise 3-minute timeframe.

Reflecting on his initial reaction to the news, Mogotsi expressed a mix of shock and excitement. “I was genuinely shocked and excited when declared the winner,” he shared. This victory marked a significant milestone for Mogotsi, as a first-time participant, showcasing the excellence of both the UFS and the Faculty of Health Sciences.

Exploring uncharted territories

Mogotsi’s groundbreaking research delves into the unexplored domain of the enteric virome in infants, a subject inspired by his earlier master’s study in microbiology. “I was first introduced to this research during my master’s degree, and compelling findings motivated me to pursue further studies,” explained Mogotsi. Guided by his mentor, Prof Martin Nyaga, Mogotsi's doctoral journey unfolded into a profound exploration of the complexities of viruses colonising infants' guts and their implications on infant health.

Sharing key findings, Mogotsi highlighted that, despite detecting several disease-causing viruses in infants’ guts, none exhibited clinical symptoms. This emphasises the role of immunity and protective measures like breastfeeding. He also identified plant viruses, potentially transmitted through the environment or food sources, raising intriguing questions about infants’ exposure.

His pioneering use of viral metagenomics in unravelling the enteric virome’s complexity underscored its potential in understanding human health and disease. “Viral metagenomics has become a fundamental tool, shedding light on the composition of the infant’s enteric virome,” explained Mogotsi. 

Navigating challenges

Despite challenges, including disruptions due to COVID-19 and participant withdrawals, Mogotsi persevered, underscoring the importance of a longitudinal approach in comprehending the infant virome’s development over time. His success in the competition not only boosted his confidence but also expanded his networks, providing invaluable opportunities to present his findings internationally.

Mogotsi's advice to aspiring researchers mirrors his own journey: clarity of purpose, resilience in the face of challenges, fostering mentor relationships, and making the most of available resources. His groundbreaking work is poised to influence policy, guide vaccine strategies, and reshape our understanding of infant health.

As Mogotsi approaches the completion of his PhD, the future holds promising horizons for this trailblazing researcher, poised to leave an indelible mark on the world of virology and infant health.

News Archive

Four modernised controlled environment cabinets inaugurated
2006-07-27

Photographed in a controlled environment cabinet were at the back from the left:  Mr Adriaan Hugo (head of the UFS Electronics and Mechanisation Division), Prof Herman van Schalkwyk (Dean: Faculty of Natural and Agricultural Sciences at the UFS) and Prof Koos Terblans (lecturer at the UFS Department of Physics).  In front is Mr Koos Uys (engineering consultant from Experto Designa who helped with the cooling systems of the cabinets).
Photo: Leonie Bolleurs

Different look for research in controlled circumstances at the UFS  

Research in controlled circumstances at the University of the Free State (UFS) turned a new page today with the inauguration of four modernised controlled environment cabinets of the Department of Soil, Crop and Climate Sciences.

“The controlled environment cabinets, which are situated next to the glass houses on the eastern side of the Agriculture Building on the Main Campus in Bloemfontein, were installed in the early 1980’s.  The cabinets, used for research purposes in controlled circumstances by the UFS for many years, became dysfunctional and needed to be repaired and put into use again,” said Prof Herman van Schalkwyk, Dean: Faculty of Natural and Agricultural Sciences at the UFS.

“The cabinets are used by the agronomics, horticulture and soil science divisions of the Department of Soil, Crop and Climate Sciences to control factors such as the temperature, the intensity and quality of light, synthesis and humidity.  This is done 24 hours a day, with hourly intervals,” said Prof Van Schalkwyk.

The cabinets are ideally suited to determine the joint and separate effects of these factors on the growth of plants.  The adaptability of plants to climate can also be investigated under controlled circumstances.  All of this leads to a better understanding of the growth and development process of plants, more specifically that of agricultural crops. 

“The effect of these environmental factors on the effectiveness of insect killers such as fungus killers, insecticide and weed killers can also be investigated and can help to explain the damage that is sometimes experienced, or even prevent the damage if the research is timeously,” said Prof Van Schalkwyk.

A new cabinet can cost between R2-3 million, depending on the degree of sophistication.  “Although controlled environment cabinets have been used for agricultural research for a long time, it has become costly to maintain them     and even more impossible to purchase new ones,” said Prof Van Schalkwyk.

According to Prof Van Schalkwyk the cabinets were re-built by die UFS Electronics and Mechanisation Division.  Some of the mechanisms were also replaced and computerised.   

“The re-building and mechanisation of the cabinets were funded by the faculty and because the work was done by our own staff, an amount of about R1 million was saved.  The maintenance costs will now be lower as the cabinets are specifically tailor made for our research needs,” said Prof Van Schalkwyk.

Where all monitoring was done manually in the past, the cabinets can now be controlled with a computer.  This programme was designed by Prof Koos Terblans from the UFS Department of Physics. 

According to Prof Van Schalkwyk the modernisation of the cabinets is part of the faculty’s larger strategy to get its instruments and apparatus up to world standards.  “With this project we have proved that we can find a solution for a problem ourselves and that there are ways to get old apparatus functional again,” said Prof Van Schalkwyk.

Media release
Issued by: Lacea Loader
Media Representative
Tel:   (051) 401-2584
Cell:  083 645 2454
E-mail:  loaderl.stg@mail.uovs.ac.za
26 July 2006

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