Latest news with #MandaiNature
Malay Mail
2 days ago
- Science
- Malay Mail
Wildlife on ice: Singapore freezing animal cells in bid to preserve native life
SINGAPORE, July 14 — Heard of seed banks? Singapore is now making a similar preservation facility but for animal cells. The Straits Times reported on Singapore's own Noah's Ark of sorts, that will house frozen cells and tissues of South-east Asian animals. Mandai Wildlife Group, manager of Singapore's five wildlife parks, uses special cooling technology to keep the frozen cells viable. After the cells are thawed, they will be able to replicate and grow. So far Mandai's conservation arm — Mandai Nature — has successfully banked the live cells of 10 bird species including the endangered lilac-crowned amazon, milky stork and Bali myna. This kind of effort is called biobanking, a means of preserving and storing biological material from living matter whether flora or fauna and most often utilizing cryopreservation where samples are kept in sub-zero temperatures, frozen. Mandai Nature CEO Sonja Luz has stated that the biobanks' main goal is conservation. She told ST: 'For now, our aim is to collect, freeze and store as many samples as possible to create a safety net for some of the most threatened species of our region. Our goal is conservation, and nothing but that.'
Straits Times
2 days ago
- Science
- Straits Times
Cryo-conservation: How animal cells in cold storage can help with wildlife protection in S'pore
Sign up now: Get ST's newsletters delivered to your inbox A researcher from Mandai Wildlife Group holding up a tray of cultured cells extracted from a cold-blooded animal. SINGAPORE - Singapore is building a 'Noah's Ark' of South-east Asian animals, and its collection – housed at two locations here – is slowly swelling with the region's mammals, birds, amphibians and reptiles. These repositories of life at the NUS Lee Kong Chian Natural History Museum and Mandai Wildlife Reserve contain just traces of these animals. Their cells and tissues, stored at sub-zero temperatures, can help researchers better understand these species, contributing to their conservation. Special cooling technologies used by Mandai Wildlife Group, which manages Singapore's five wildlife parks, can even keep these cells alive. When such cells are thawed, they can continue to grow and replicate. This paves the way for novel applications of technology like in-vitro fertilisation. Far into the future, researchers could potentially use this to bring extinct animals back to life, although there are no plans to do so for now. In January, Mandai Nature – the conservation arm of Mandai Wildlife Group – achieved a breakthrough: Researchers there successfully banked the live cells of 10 species of birds. These include the critically endangered Bali myna, and endangered lilac-crowned amazon and milky stork. Top stories Swipe. Select. Stay informed. Singapore Govt will continue to support families, including growing group of seniors: PM Wong at PCF Family Day Singapore From Normal stream to Parliament: 3 Singapore politicians share their journeys World Deal or no deal? EU faces critical decision in response to Trump's latest tariff salvo Singapore Segregated recycling bins found to lower contamination rate as more spring up Sport Two participants injured after another breached safety protocol during Pesta Sukan archery event Asia Mahathir discharged from hospital after feeling fatigued during birthday gathering Singapore Medics treat 7 after blaze at HDB block lift lobby in Chai Chee Singapore I lost my daughter to Kpod addiction: Father of 19-year-old shares heartbreak and lessons Previously, only live mammalian cells were effectively banked in the Republic's wildlife parks. Dr Sonja Luz, chief executive of Mandai Nature, said this marks the latest addition to Singapore's conservation toolkit. By shelving away the cells of threatened species, the odds of saving them in the future – should their natural population continue to dwindle – may significantly improve, she said. The promise of biobanking Biobanking is the storage and preservation of biological material from animals, plants and other forms of living matter. It is most often done through cryopreservation, where samples are kept frozen at sub-zero temperatures. One of the earliest biobanks opened during the American Civil War in 1862, in Washington's Army Medical Museum. Back then, the biobank – which mostly held the amputated limbs and diseased organs of humans – was used to expand the understanding of disease and war injuries, and develop measures to better care for American soldiers. Biobanking gained traction internationally in the late 1990s with the advent of the International Society for Biological and Environmental Repositories, the world's first global biobanking society. In the last few decades, there has been an exponential rise in the burden of chronic diseases. Biobanking allowed researchers to keep records of the changes in genes and proteins affiliated with different conditions. As biobanking technology became cheaper and more accessible, the scientific community started to recognise the potential for applying it outside of the medical realm. Conservationists, in particular, started to take notice. With a third of the planet's flora and fauna being threatened by extinction, these repositories serve as valuable homes for the tissue and genetic material of endangered species. Singapore got its first conservation biobank in 2009. The result of a collaboration between the National University of Singapore and Mandai Wildlife Group, then known as Wildlife Reserves Singapore, the biobank focused on storing dead cells and tissues for research. The biobank at NUS Lee Kong Chian Natural History Museum houses approximately 33,400 samples of animals cells and tissue. ST PHOTO: BRIAN TEO Today, that biobank is helmed by the university's Lee Kong Chian Natural History Museum. It houses approximately 33,400 samples from invertebrates like molluscs, and vertebrates such as mammals and birds. Currently, its samples span 3,283 species. Mr Marcus Chua, the museum's mammal curator, said its mammalian specimens are mainly sourced from animal carcasses, such as roadkill. Some faecal samples – including those of the critically endangered Raffles' banded langur, a type of primate – are also stored, said Mr Foo Maosheng, who oversees the museum's insect and cryogenic collections. The samples are used mainly for research. 'If we're trying to find out what the Raffles' banded langurs are eating, for example, we can compare their faecal samples to the genetic material of different plants, to see which trees they feed on,' said Mr Foo. Mr Chua added: 'Any kind of material stored in the cryogenic collection can be pulled out for research, rather than going out to the field to collect them again.' In February 2018, a group of otter researchers from Singapore, Brazil and the US approached the museum for a loan of tissues of Singapore's two otter species – the smooth-coated otter and Asian small-clawed otter – in the hope of studying their genetic data. Researchers can also use biobank data to solve wildlife crime. For example, investigators looking to trace the origins of a wild animal trafficked into Singapore could cross-reference international databases to find out where it could have come from, given that sufficient countries maintain such databases. Growing conservation potential Singapore's biobanking initiative was further developed in 2012 when giant pandas Kai Kai and Jia Jia arrived in Singapore. These bears do not breed well in captivity, so Mandai set up its own biobanking facility to store the semen of the male panda for artificial insemination. During the process, which takes place in a laboratory, the team places banked sperm together with oocytes, or cells from the ovary. Should the two successfully combine to yield a fertilised egg, it can then be transferred into the uterus or cervix of the female panda. For cells to continue to be viable after they are thawed, they must be cryopreserved in a special way – by adding anti-freeze. This prevents the formation of ice crystals during the freezing process, which would rip up the banked cells and render them unviable, said Dr Oz Pomp, lab head at Mandai Nature. Following the success at preserving panda sperm, the Mandai team started collecting sperm samples from other animals, said Dr Luz. 'Over time, it became more clear that there are other opportunities to biobanking than just blood and gametes,' she added. The wildlife parks also offer Mandai's veterinary team access to rare and threatened species, from which valuable samples can be obtained. Dr Luz said: 'Zoos house many species that are on the brink of extinction. This has sparked discussions in the conservation community around how we can do what botanical gardens have been doing for hundreds of years – start banking genetic material.' With more wildlife species being pushed to the brink of extinction owing to habitat loss or poaching, the race is on to preserve their genetic data before they are gone forever, said Dr Luz. 'We have a lot of 'little too late' scenarios, where we're down to the last few individuals,' she said. By then, the organisms remaining in the wild may have limited genetic diversity, and may be less equipped to survive crises such as disease outbreaks. 'But if we started banking earlier, we would have a better chance to save some of these species, like the northern white rhino, Yangtze giant softshell turtle and saola,' Dr Luz added. For this to happen, biobanking must be done by zoological institutions with access to different animals. But not all of them may have the resources or capacity to start building such banks. The process of extracting and banking cells is ethical, said Dr Luz, as long as the methodologies applied are non-invasive and appropriate, and no animal suffers. Mandai has been experimenting with developing new ways of obtaining cells that can be easily replicated without specialised equipment, said Dr Xie Shangzhe, vice-president of veterinary healthcare at Mandai Wildlife Group. For example, the research team found a way to obtain animal cells from subcutaneous fat found right under the skin. This allows veterinarians to collect sterile cell samples with just a needle – an improvement from the past where samples were taken from animal skin, which is dirtier and more prone to contamination. Once samples are contaminated, their integrity may be compromised, making it difficult to utilise them. Mandai has also begun developing techniques to extract other types of cells from live animals, including non-mammalian species. The team found success in growing fibroblasts, or cells that contribute to the formation of connective tissue, from fallen pin feathers, which are the developing feathers of birds. Dr Xie said: 'These breakthroughs by Mandai, they are simple things that scientists in other parts of the region can replicate easily. 'Things like getting feathers or fat – doing a few simple steps to get something that can be banked – I think this is what makes our work unique.' Promises and perils Now, inspired by stem-cell research developments in humans, conservationists are also looking into their potential to prevent animals from going extinct. A group of cells known as induced pluripotent stem cells are especially powerful as they can be differentiated into a variety of cell types, such as sperm and eggs. In 2020, Mandai's research team successfully reprogrammed extracted live skin cells from the North Bornean orangutan into induced pluripotent stem cells. (From left) Dr Oz Pomp, Dr Xie Shangzhe and Dr Sonja Luz oversee biobanking efforts at Mandai's wildlife parks. ST PHOTO: AZMI ATHNI Most cells have a finite capability to proliferate, and stop multiplying after a few divisions, said Dr Pomp. But induced pluripotent stem cells can proliferate forever, allowing conservationists to 'make as much material as needed', added Dr Pomp, a stem-cell biologist who in October 2024 joined Mandai Nature to apply his skills to wildlife protection. Moreover, the ability of the pluripotent stem cell to differentiate into different cell types opens up new avenues for preventing extinction. 'Previous studies in mice have shown that it is possible to generate sperm and egg from the same individual – from the same male, for example,' Dr Pomp said. 'It's just a matter of time until we can tailor this technology to other species as well.' The future of banked material How these banked samples are used needs to be more deeply considered, said the conservationists. De-extinction, or the process of resurrecting a species that has died out, is one such example, said the museum's Mr Chua. In April, Dallas-based biotech company Colossal Biosciences made news when it announced it had created three 'dire wolf' pups , an extinct creature that roamed North America more than 10,000 years ago. The firm had extracted and sequenced DNA from fossilised dire wolf remains, and then compared it against the genome of the modern grey wolf. It then edited some of the wolf's genes so that it outwardly resembled its ancient counterpart. But many researchers were sceptical of the claim. Said Mr Chua: 'At what point do you edit enough that it becomes a dire wolf? 50-50? Or 51 per cent? For now, it's a wolf hybrid, basically.' On July 9, the firm announced its next project: attempting to resurrect the extinct South Island giant moa, a 3.6m-tall flightless bird that once lived on the South Island of New Zealand, but vanished around 600 years ago. De-extinction projects can be costly. Given that biodiversity loss is taking place at unprecedented rates, the decision to invest money in trying to de-extinct species, rather than save living ones, may also raise eyebrows, Mr Chua said. Mandai's Dr Luz said: 'For now, our aim is to collect, freeze and store as many samples as possible to create a safety net for some of the most threatened species of our region. Our goal is conservation, and nothing but that.' Singapore's biobanking efforts are not unlike saving for a rainy day. Just like how the animals were led two by two onto Noah's Ark to assure their continued existence after a flood, so, too, do the samples in Singapore's biobanks represent a lifeline for species on the brink of extinction. Hopefully, it is one that would never need to be used.
