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13 March 2020 | Story Leonie Bolleurs | Photo Leonie Bolleurs
Team from the UFS Microbiology department
From the Department of Microbiology and Biochemistry, were from the left, front: Dr Mariana Erasmus, Prof Martie Smit, Samantha McCarlie; back: Dr Carmien Tolmie; Samantha McCarlie, Prof Dirk Opperman, and Prof Robert Bragg. They believe publishing in high-impact factor journals reflects the quality of research delivered by the department.

Researchers in the Department of Microbial, Biochemical and Food Biotechnology at the University of the Free State (UFS) published their work in four impact factor eleven journals in 2019/2020, and a fifth was accepted for publication in a journal with impact factor twelve in 2020. 

Two articles were published in Nature Communications, one in Drug Resistance Updates and one in Natural Product Reports. A fifth article is already available as an accepted article at Angewandte Chemie. Researchers in the department work on very diverse topics, as reflected in the titles of these articles: ‘A chemo-enzymatic oxidation cascade to activate C–H bonds with in situ generated H2O2’; ‘Native roles of Baeyer–Villiger monooxygenases in the microbial metabolism of natural compounds’; ‘The genome of a subterrestrial nematode reveals adaptations to heat’; ‘Molecular basis of bacterial disinfectant resistance’; and ‘CYP505E3 – a novel self‐sufficient ω‐7 in‐chain hydroxylase’.

Publishing in journals with a high impact factor is quite an achievement. Publishing in a journal with an impact factor of 3 is considered good and in most fields of study, publishing in journals with an impact factor of 10 or more is regarded as excellent. Impact factors are used to measure the importance of a journal by counting the number of times articles were cited in a certain time period. 

According to Prof Martie Smit, Head of the department, this is a reflection of the quality of research delivered by the department. “It is difficult and takes a lot of time and resources to publish in such high-impact journals.”

Contributing to their success in the department, is the work of their collaborators as well as the quality international postdoctoral researchers the department manages to attract with their emphasis on quality research.

Another highlight in the publication of these articles was that members of the department were corresponding authors of four of the five articles – meaning that the research was conducted in and driven from their laboratories, with UFS researchers taking primary responsibility for the preparation of the manuscripts and communicating with the editors of the journals.

Impacting society

Besides publishing in journals with high impact factors, these researchers are also making a difference to society. Prof Robert Bragg contributed to the study focusing on quality disinfectants. 

We are all aware of the danger of developing resistance to antibiotics. According to Prof Bragg, it is estimated that by 2050, 25 million people could be dying from antibiotic resistance-related bacterial infections per year. He says one of the best options to control diseases – not only bacterial diseases, but also viral diseases such as the Covid-19 outbreak – is good biosecurity and the use of good-quality disinfectants.

Researchers working on this study are trying to understand the development of resistance in bacteria to disinfectants. “This research group is currently investigating the ways in which bacteria become resistant to different high-quality disinfectants. The aim of this work is to discover new methods of resistance and then try to prevent bacteria from becoming resistant to commonly used disinfectants. One of the first aspects that needs investigation is to understand the methods of transfer of genetic information between bacteria. This work formed the basis of the review article written with master’s student Samantha McCarlie on transfer of genes that could code for disinfectant resistance in bacteria,” says Prof Bragg.

Studies about a nematode species discovered 1,3 km deep in a gold mine in Welkom and its ability to survive in extreme environments, made headlines about nine years ago. More extensive research has been performed on deep-space exploration of nematodes surviving extreme environments and were published in Nature Communications. Dr Mariana Erasmus, Assistant Director in the department and Technology Innovation Agency/UFS Saense Platform manager, says the study published in 2019 reveals these nematodes’ adaptation to heat and heat tolerance in an unusual ecosystem isolated from the surface biosphere. More studies on this can help humans learn how to adapt to a warming climate. 

TIA is an agency of the Department of Science and Innovation.

Three of the articles are from the Biocatalysis and Structural Biology group of Prof Dirk Opperman, Prof Martie Smit, and Dr Carmien Tolmie. Biocatalysis is a form of green chemistry that aims to produce chemicals in an environmentally friendly and sustainable manner. The research of the group focuses on using enzymes (proteins performing specialised chemical reactions) to insert an oxygen atom at a specific position in a starting material. Such reactions are difficult to perform using purely organic chemistry. 

The end products are value-added compounds of interest to, among others, the flavour and fragrance industry, which place a high premium on natural products. The work on the novel in‐chain hydroxylase was also patented internationally, because it can be used for the synthesis of a valuable flavour compound.
 
More to come

Besides the commitment of the team in Microbiology, it took multiple institutions, dedicated postdoctoral students, as well as time and money to publish this number of articles in high-impact journals in just over a year. With its 100-plus researchers varying from student researchers to NRF-rated scientists, everyone in the Department of Microbial, Biochemical and Food Biotechnology strives to produce high-quality research. 

And they promise, there is more to come. Watch this space …

News Archive

Researcher uses NRF funding for studies to conserve plant and animal life
2017-04-18

Description: Butterfly Tags: Butterfly

It is difficult to survey all different types of
plants and animals and is therefore necessary to
choose one representative group. Butterflies are
relatively cheap and easy to sample. They are
known to be linked to specific habitats and to
respond to human pressures, such as farming.
Photo: Dr Falko Buschke


Earth is the only planet we know of that contains life. The variety of different plants and animals is remarkable: from the giant whales that swim our oceans, to the tiny mosses that grow on the shaded sides of rocks.  Many of these plants and animals are important to humans. For example, trees provide us with oxygen to breathe, bees pollinate our crops and owls control pests. More importantly though, we can tell a lot about society from the way it cares for nature. Humans are the custodians of the planet and the way we care for nature reflects the way we value life.

Dr Falko Buschke, Lecturer at the Centre for Environmental Management at the University of the Free State, is interested in understanding how the distribution of biodiversity [the variety of living things in nature] in time and space influences the way we should conserve and manage nature.

Earth is losing biodiversity faster than at any time in human history

The planet is losing biodiversity faster than at any time in human history. “There is an urgency to conserve plants and animals before they are lost forever. Nature is complex, so the way we study it should embrace this complexity. We should not rely on limited data on one type of species from one place and assume that it will also apply elsewhere. Instead, it is important that biodiversity research is comprehensive in the types of plants and animals while also considering that ecological and evolutionary processes vary through time and across geographic space,” he said.

To conduct his research, Dr Buschke uses a variety of research tools, including biological data surveyed directly from nature, spatial data from satellite remote sensing and geographic information systems databases, and data generated though custom-built computer simulations.

"There is an urgency to conserve
plants and animals before they
are lost forever."

Field work in the eastern Free State
Although parts of the eastern Free State are considered a global priority for biodiversity conservation, it is mainly privately owned commercial farmland. This means that it is important that plants and animals can survive despite living side by side with agricultural production.

“My project investigates whether the sandstone outcrops, known as inselbergs (island-mountains), are safe havens for plants and animals. Because it is difficult to survey all the different types of plants and animals, it is necessary to choose one representative group. That is where butterflies come in. Butterflies are relatively cheap and easy to sample. They are known to be linked to specific habitats and to respond to human pressures, such as farming,” he said. “Once this butterfly data is collected, it can be linked to satellite information on plant growth patterns. This will provide a clearer picture of whether plants and animals can persist side-by-side with commercial agriculture”.

Dr Buschke has just begun surveys that will carry on until the end of this year. “This 12-month project is funded under the Foundational Biodiversity Information Programme through the South African National Biodiversity Institute (SANBI) and the National Research Foundation (NRF).

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