Yunjie Zhao | Biological Networks | Research Excellence Award

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Prof. Yunjie Zhao | Biological Networks | Research Excellence Award

Central China Normal University | China

Prof. Yunjie Zhao is a distinguished biophysicist who earned his Ph.D. in Biophysics from Huazhong University of Science and Technology in 2012, where he conducted pioneering research on computational prediction of non-coding RNA structures under the mentorship of Prof. Yi Xiao, following his B.S. in Physics from the same institution. He advanced his expertise as a Postdoctoral Research Scientist at The George Washington University with Prof. Chen Zeng, contributing significantly to de novo protein design and bionetwork modeling. Since 2016, he has been a faculty member at Central China Normal University, becoming a full Professor in 2019, and has taught a wide range of courses including Machine Learning, Biophysics, Bioinformatics, Computational Biology, and Physics. Prof. Zhao is an active member of several professional societies, including the Chinese Physical Society and the Biophysical Society of China, and previously the American Physical Society. He serves as an editorial board member for leading journals such as Briefings in Bioinformatics, iScience, Pharmaceuticals, Life, Biomolecules, International Journal of Molecular Sciences, and Scientific Reports, and is a frequent reviewer for top-tier publications including Nature Biotechnology, Nature Reviews Genetics, Nature Machine Intelligence, Nature Communications, and Physical Review Letters. His research contributions are further reflected in multiple granted patents spanning protein–ligand binding site prediction, RNA contact prediction, plant lectin polymerization peptide inhibitors, and protein drug binding pocket prediction, underscoring his impactful contributions to computational biology and biophysics.

Profiles: Scopus | Google Scholar

Featured Publications

"RNA-protein interaction prediction using network-guided deep learning", H Liu, Y Jian, C Zeng, Y Zhao, Communications Biology 8 (1), 2025.

"Advances and Mechanisms of RNA–Ligand Interaction Predictions", C Zhuo, C Zeng, H Liu, H Wang, Y Peng, Y Zhao Life 15 (1), 2025.

"Decoding the effects of mutation on protein interactions using machine learning", W Xu, A Li, Y Zhao, Y Peng, Biophysics Reviews 6 (1), 2025.

"Advances in Methods for Accurate Prediction of RNA–Small Molecule Binding Sites: From Isolated to AI-Integrated Strategies", J Gao, C Zhuo, C Zeng, H Liu, Y Zhao, Pharmaceuticals 18 (10), 2025.

"Ab initio HIV-1 Tat–TAR interactions study using hybrid scoring-enhanced molecular modeling across subtypes", C Zeng, H Wang, J Gao, H Liu, C Zhuo, Y Zhao, Physical Chemistry Chemical Physics 27 (27), 2025.

Yingzi Yang | Biological Networks | Research Excellence Award

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Prof. Yingzi Yang | Biological Networks | Research Excellence Award

Harvard School of Dental Medicine | United States

Prof. Yingzi Yang is a distinguished developmental biologist whose career spans leading institutions including Harvard Medical School and the National Institutes of Health. She earned her BS in Biology from Fudan University in 1988 and completed her PhD in Molecular Biology at the Sloan-Kettering Institute and Weill Medical College of Cornell University in 1996, followed by postdoctoral training with Andrew P. McMahon at Harvard University. She joined the NIH in 2000 as an Investigator and rose to Senior Investigator before being appointed Professor of Developmental Biology at Harvard Medical School in 2015, where she also serves as Principal Faculty of the Harvard Stem Cell Institute and a member of the Dana-Farber/Harvard Cancer Center. Widely recognized for her contributions to Wnt signaling, skeletal biology, and developmental mechanisms, Prof. Yang has received numerous honors including the AAAS Fellowship, ASBMR Fellowship, the IADR Distinguished Scientist Award, multiple NIH Awards of Merit, and the Vincent du Vigneaud Award of Excellence. She has held major leadership roles such as President of the Chinese Biological Investigators Society (2022–2024), member of the NIH SBDD Study Section, and keynote speaker at national scientific meetings. Her extensive service includes high-level Harvard committees, NIH central tenure committees, Gordon Research Conference leadership, international symposium organization, and major grant review panels for NIH, NSF, and global scientific agencies. A respected scholar and reviewer for top-tier journals including Cell, Nature family journals, Science family journals, and Development, Prof. Yang is recognized worldwide for advancing fundamental understanding of developmental and stem cell biology and their implications for human disease.

Profiles: Scopus | Google Scholar

Featured Publications

"Disrupting bile acid metabolism by suppressing Fxr causes hepatocellular carcinoma induced by YAP activation", Y Liu, J Zhu, Y Jin, Z Sun, X Wu, H Zhou, Y Yang, Nature Communications 16 (1), 2025.

"Fibrous dysplasia/McCune-Albright syndrome: state-of-the-art advances, pathogenesis, and basic/translational research", B Palmisano, C Berry, A Boyce, JF Charles, MT Collins, A Corsi, FA Fierro, Orphanet Journal of Rare Diseases 20 (1), 2025.

"Piezo1-mediated mechanotransduction controls osteocyte maturation and dendrite development via a YAP-CCN-Src signaling axis", YJ Hu, X Wu, F Wang, Y Jin, Y Jin, Y Liu, Q Cong, Y Yang, Nature Communications, 2025.

"Injury-induced niche factors Cxcl12 and Shh/Ihh coordinate suture stem cell activation during calvarial bone regeneration", B Li, T Ouchi, J Liu, Y Yang, Science Signaling 18 (909), 2025.

"Neutralization of Receptor activator of nuclear factor-κB ligand reduces fibrosis and promotes osteoblast differentiation in a mouse model of fibrous dysplasia driven", RT Ormsby, Y Zhang, C Hodys, LA Wake, SM Perez, K Tsang, Y Yang, JBMR plus 9 (10), 2025.

Leke Victor Aiyesa | Biological Networks | Research Excellence Award

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Dr. Leke Victor Aiyesa | Biological Networks | Research Excellence Award

University Of Göttingen | Germany

Dr. Leke Victor Aiyesa is a researcher specializing in the use of data and data-driven methodologies to uncover the molecular basis of agronomic and adaptation traits. His work bridges computational insight with real-world experimentation, and he collaborates closely with field and laboratory technicians to design and supervise experiments, generate high-quality datasets, and deliver impactful scientific outcomes. By integrating analytical research with hands-on experimental processes, Dr. Aiyesa ensures that his findings are not only comprehensive but also grounded in practical applications that advance agricultural science and trait improvement.

Profiles: Orcid | Google Scholar

Featured Publications

"Individual plant genetics reveal the control of local adaptation in European maize landraces", LV Aiyesa, D Kaufmann, B Zumbach, W Link, S Scholten, T Beissinger, BMC biology 23 (1), 2025.

"Dissection of genomic regions associated with plant height and flowering time in a diverse panel of common snap bean (Phaseolus vulgaris L.) using GWAS", LV Aiyesa, L Malysheva-Otto, T Meyer-Luepken, U Lohwasser, Euphytica 221 (10), 2025

"Identification of core, conditional and crosstalk components of tomato heat stress response using integrative transcriptomics and orthology", Dennis Psaroudakis, Abul Khayer, Leke V Aiyesa, Nick Bergau, Alain Tissier, Yunlong Lu, Philip A Wigge, Alon Israeli, Naama Teboul, Andrea Bräutigam, Jędrzej J Szymański,

"Unravelling the genetics of pod stringiness and agronomic traits of common bean (Phaseolus vulgaris L.) using genome-wide association studies and genotyping-by-sequencing", LV Aiyesa, L Malysheva-Otto, JC Reif, N Stein, LG Otto, Göttingen, 2022.