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Science Teachers Recognised with HKU Excellence Awards 2025

Congratulations to our academics on receiving the University's research and teaching excellence awards under the HKU Excellence Award Scheme 2025. The list of award recipients is as follows:    Early Career Teaching Award Dr Kin Sum Leung Assistant Lecturer, School of Biological Sciences   Outstanding Researcher Award Professor Jianyao TANG Associate Head (Research) and Professor, Department of Chemistry   Outstanding Young Researcher Awards    Professor Haibo JIANG Associate Professor, Department of Chemistry           Research Output Prize Professor Ryan McKenzie Associate Professor, Department of Earth and Planetary Sciences Details of the awarded journal paper: “A climate threshold for ocean deoxygenation during the Early Cretaceous", Nature, 633, 582-586 by Bauer, Kohen W.*, McKenzie, Ryan*, Cheung, Chris T.L.*, Gambacorta, Gabriele, Bottini, Cinzia, Nordsvan, Adam R.*, Erba, Elisabetta, Crowe, Sean A.   Congratulations to all the recipients on their well-deserved achievements!   The Outstanding Researcher Awards scheme aims to recognise, honour and reward exceptional work in research by staff of the University. The scheme includes the Distinguished Research Achievement Award (DRAA), Outstanding Researcher Award (ORA), Outstanding Young Researcher Award (OYRA), Outstanding Research Student Supervisor Award (ORSSA), and Research Output Prize (ROP). The DRAA, ORA, and OYRA are awards that recognise individuals for their outstanding research accomplishments. The ORSSA is to recognise exemplary and effective supervisory guidance and support to their research postgraduate students. The ROP is a Faculty-based award to honour the best research output from each Faculty.   The Teaching Excellence Award Scheme aims to recognise, reward and promote excellence in teaching at the University. Under the Scheme, there are four categories of awards, viz. University Distinguished Teaching Award, Outstanding Teaching Award (OTA), Early Career Teaching Award (ECTA) and Teaching Innovation Award (TIA). In addition to individual awards, both OTA and TIA offer team awards to recognise and encourage collaborative efforts and achievements in enhancing teaching and learning. Faculties should encourage their teachers with outstanding contributions to teaching and learning to apply for these awards.

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HKU Mathematician Professor Xuhua HE Elected Member of the Hong Kong Academy of Sciences

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Image adapted from Jiang et al, Nature Communications (2025).

HKU and SZBL Scientists Discover the First Human DNA-Cutting Enzyme That Senses Physical Tension, Marking a Breakthrough in Understanding How Cells Prevent Genetic Disorders

An international research team has identified a human protein, ANKLE1, as the first DNA-cutting enzyme (nuclease) found in mammals that can detect and respond to physical tension in DNA. This ‘tension-sensing’ mechanism is crucial for maintaining the integrity of our genetic material during cell division—a process that, when disrupted, can lead to cancer and other serious diseases. The study, published in Nature Communications, represents a major leap forward in our understanding of how cells protect their DNA. It is the result of a cross-disciplinary collaboration between Professor Gary Ying Wai CHAN’s laboratory at the School of Biological Sciences, The University of Hong Kong (HKU) and Dr Artem EFREMOV’s biophysics team at Shenzhen Bay Laboratory (SZBL), with additional contributions from researchers at the Hong Kong University of Science and Technology and the Francis Crick Institute in London.  DNA under stress: the hidden danger during cell division Every time a cell divides, it must carefully copy and separate its DNA. But this process sometimes goes awry, leaving the DNA entangled and forming ‘chromatin bridges’—threads of DNA that stretch between the two new cells as they try to separate. These bridges are placed under significant physical tension as the division machinery pulls the cells apart. If these bridges break in an uncontrolled manner, they can cause serious genetic errors that may lead to cancer or immune diseases. ‘Think of these chromatin bridges as tightropes under tension during cell division,’ explains Professor Gary Chan, senior author of the study. ‘If they snap suddenly, it can wreak havoc on the genome, causing mutations and instability.’ Until now, scientists have not fully understood how cells safely resolve these tense DNA bridges without triggering catastrophic damage. ANKLE1: the genome’s first ‘tension-sensing’ DNA cutter The new research reveals that ANKLE1, a protein previously linked to DNA repair, acts as a specialised ‘tension sensor’ nuclease during cell division. Using advanced single-molecule experiments—where individual DNA molecules are manipulated with tiny magnetic tweezers—the team discovered that ANKLE1 can ‘feel’ when DNA is stretched or twisted. Remarkably, ANKLE1 only cuts DNA under tension or when DNA is supercoiled (twisted), as occurs in overstretched chromatin bridges. This precision prevents the DNA from breaking randomly, which could otherwise lead to genetic chaos. ‘Our discovery shows that ANKLE1 acts like a smart pair of scissors,’ says Dr Artem Efremov, co-senior author and biophysics expert. ‘It only cuts DNA when it is really needed—when the DNA is stretched and at risk of breaking in a harmful way. This is a completely new way for cells to sense and respond to mechanical stress on their genetic material.’ Traditional biological techniques were combined with cutting-edge biophysical tools, allowing the team to apply precise forces to DNA molecules and observe ANKLE1’s activity in real time. ‘This project could only have succeeded by bringing together expertise from both disciplines,’ notes Professor Chan. ‘By using physics-based approaches, we could see how ANKLE1 responds to the physical state of DNA, something that is invisible with standard biological methods.’ Implications for genome stability and cancer therapy This discovery marks a significant step forward in understanding how cells maintain the stability of their genetic material under physical stress. By revealing how ANKLE1 acts as a tension-sensing DNA cutter, the research provides crucial insights into how cells prevent dangerous DNA breaks that can lead to cancer and other diseases. Intriguingly, the study suggests that inhibiting ANKLE1 could push cancer cells—already prone to genome instability—past a tipping point, potentially making them more vulnerable to existing treatments. As a result, ANKLE1 may represent a novel target for cancer therapy, opening new strategies for exploiting the vulnerabilities of tumour cells while deepening our understanding of genome maintenance. The full paper, titled ‘ANKLE1 processes chromatin bridges by cleaving mechanically stressed DNA’ is available at https://www.nature.com/articles/s41467-025-65905-7 For more about Professor Gary Ying Wai Chan’s work: https://sites.google.com/site/garychanlab For more about Dr Artem Efremov’s work:  https://artemefremovlab.com

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HKU Laboratory for Space Research Hosts the 7th China–Chile Bilateral Conference for Astronomy

The 7th China–Chile Bilateral Conference for Astronomy was successfully held in Hong Kong from 5 to 9 January 2026, marking the first time the biennial meeting was held in the city.  Jointly organised by the National Astronomical Observatories of the Chinese Academy of Sciences, the Chinese Academy of Sciences South America Center for Astronomy, the Chilean Astronomical Society, and the Laboratory for Space Research at The University of Hong Kong, the conference brought together astronomers and researchers from China and Chile to share recent advances across a wide range of astronomical fields. The largest attendance to date among this China–Chile bilateral conference, with over 120 delegates, reflects the growing strength, importance and depth of collaboration between the two astronomy research communities.  Professor Jay SIEGEL, DVC (T&L) of HKU, opened the meeting and reflected on this bilateral treaty-based partnership and the signal it sends about the robust health of the biennial gathering and the importance to our city for hosting such prestigious science events. Professor Quentin PARKER, director of LSR and the host, commented that the success of this meeting bodes well for the even more significant Asia Pacific Regional meeting of the International Astronomical Union that will also be held in HK SAR from May 4 - 8, 2026, but in the HK Convention and Exhibition Centre in Wanchai and again hosted by HKU and the LSR. Over five days of scientific sessions and networking activities, participants exchanged new research findings, discussed ongoing joint projects, and explored opportunities for future cooperation, further strengthening the long-standing partnership between China and Chile in astronomy.  

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Science Teachers Recognised with HKU Excellence Awards 2025

Congratulations to our academics on receiving the University's research and teaching excellence awards under the HKU Excellence Award Scheme 2025. The list of award recipients is as follows:    Early Career Teaching Award Dr Kin Sum Leung Assistant Lecturer, School of Biological Sciences   Outstanding Researcher Award Professor Jianyao TANG Associate Head (Research) and Professor, Department of Chemistry   Outstanding Young Researcher Awards    Professor Haibo JIANG Associate Professor, Department of Chemistry           Research Output Prize Professor Ryan McKenzie Associate Professor, Department of Earth and Planetary Sciences Details of the awarded journal paper: “A climate threshold for ocean deoxygenation during the Early Cretaceous", Nature, 633, 582-586 by Bauer, Kohen W.*, McKenzie, Ryan*, Cheung, Chris T.L.*, Gambacorta, Gabriele, Bottini, Cinzia, Nordsvan, Adam R.*, Erba, Elisabetta, Crowe, Sean A.   Congratulations to all the recipients on their well-deserved achievements!   The Outstanding Researcher Awards scheme aims to recognise, honour and reward exceptional work in research by staff of the University. The scheme includes the Distinguished Research Achievement Award (DRAA), Outstanding Researcher Award (ORA), Outstanding Young Researcher Award (OYRA), Outstanding Research Student Supervisor Award (ORSSA), and Research Output Prize (ROP). The DRAA, ORA, and OYRA are awards that recognise individuals for their outstanding research accomplishments. The ORSSA is to recognise exemplary and effective supervisory guidance and support to their research postgraduate students. The ROP is a Faculty-based award to honour the best research output from each Faculty.   The Teaching Excellence Award Scheme aims to recognise, reward and promote excellence in teaching at the University. Under the Scheme, there are four categories of awards, viz. University Distinguished Teaching Award, Outstanding Teaching Award (OTA), Early Career Teaching Award (ECTA) and Teaching Innovation Award (TIA). In addition to individual awards, both OTA and TIA offer team awards to recognise and encourage collaborative efforts and achievements in enhancing teaching and learning. Faculties should encourage their teachers with outstanding contributions to teaching and learning to apply for these awards.

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