Ms. Jingya Yang | Microbiology | Best Review Paper Award

Ms. Jingya Yang | Microbiology – Yuxi Normal University, China

Dr. Jingya Yang is a dedicated and emerging scholar in plant sciences and fungal biotechnology, with an interdisciplinary research focus spanning environmental remediation, plant stress physiology, and bioactive compound discovery. Currently serving as a college teacher at the College of Chemistry, Biology, and Environment, Yuxi Normal University, she brings a solid academic foundation and productive research record to her role. Her scholarly contributions, especially in phytoremediation and natural product analysis, reflect a strong commitment to addressing ecological and pharmaceutical challenges through science. Notably, her 2025 review article on the Russula genus provides a comprehensive synthesis of therapeutic properties and highlights her strength in scientific communication and literature integration.

Profile:

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🎓Education:

Dr. Yang obtained her Ph.D. in Botany from the Kunming Institute of Botany, Chinese Academy of Sciences (2019–2022), where she earned the prestigious CAS Outstanding Student Award. Her dissertation focused on chromosome-level genome assembly and comparative genomic analysis of Calotropis species, exploring their adaptive mechanisms under stress conditions. Prior to her doctorate, she completed a Master of Science in Horticulture at Yunnan University (2016–2018), where she was honored with the Yuehong Scholarship and the Postgraduate Scholarship. Her leadership and academic achievements were recognized through the Outstanding Student Leader award. She began her academic path with a Bachelor’s in Biotechnology from Dalian University (2012–2016), where she received the First Prize in the Biological Practice Skills Competition and an Academic Excellence Scholarship. Her educational background reflects consistent excellence in both theoretical learning and practical scientific application.

🧪Experience:

Since May 2022, Dr. Yang has been employed as a faculty member at Yuxi Normal University in Yunnan Province. In this role, she teaches undergraduate and graduate students, supervises student research, and leads projects in molecular biology, plant ecology, and environmental sciences. She has actively contributed to building the university’s research profile in plant and microbial studies. Her earlier experiences during graduate study included hands-on work with advanced omics platforms, collaborative research with multiple institutes, and the coordination of laboratory teams. Through these roles, she has developed a dynamic skill set that combines laboratory expertise, data analysis, and academic leadership.

🌿Research Interests:

Dr. Yang’s research spans several important areas in plant biology and applied biotechnology. Her primary interests include plant adaptation to environmental stress (especially heavy metal and salt stress), phytoremediation mechanisms, transcriptomics, and metabolomics. She has also expanded her focus to fungi, particularly in analyzing the pharmacological properties and bioactive compounds of medicinal mushrooms like Russula. Her goal is to integrate molecular biology, ecological restoration, and natural product pharmacology to create sustainable applications in agriculture, environmental science, and health care. She is also deeply invested in comparative genomics and the identification of secondary metabolites with therapeutic potential.

🏅Awards:

Throughout her academic journey, Dr. Yang has consistently been recognized for her achievements. She was awarded the CAS Outstanding Student Award during her doctoral studies at the Chinese Academy of Sciences, one of China’s highest academic honors for graduate students. During her master’s studies, she received the Postgraduate Scholarship, the Yuehong Scholarship (Third Prize), and was honored as an Outstanding Student Leader. In her undergraduate years, she won the Academic Excellence Scholarship and secured First Prize in the Biological Practice Skills Competition, showcasing her blend of academic rigor and practical competence.

📚Publications:

Dr. Yang has authored and co-authored several impactful publications in peer-reviewed journals, contributing both original research and scholarly reviews to her field:

🍄 “Unveiling the Bioactive Compounds and Therapeutic Potential of Russula: A Comprehensive Review” (Journal of Fungi, 2025) — This detailed review explores the pharmacological importance of Russula mushrooms, covering antioxidant, anti-inflammatory, and antimicrobial activities. Newly published; citations pending.

🔬 “Phytoremediation potential evaluation of three rhubarb species and comparative analysis of their rhizosphere characteristics in a Cd and Pb contaminated soil” (Chemosphere, 2022) — Focused on soil restoration using native species, this article demonstrates her field expertise. Cited by: 18 articles.

🌿 “Comparative transcriptomics analysis of the molecular mechanisms of roots and leaves of Calotropis gigantea in response to Cd stress” (International Journal of Molecular Sciences, 2022) — This study highlights her work on stress response at the transcriptomic level. Cited by: 12 articles.

🍋 “Metabolomic and transcriptomic analyses reveal new insights into the role of abscisic acid in modulating mango fruit ripening” (Horticulture Research, 2021) — A collaborative work that applies omics to fruit physiology. Cited by: 25 articles.

🧬 “Transcriptomic profiling of Calotropis under salt and heavy metal stress reveals gene networks and candidate markers” (Plant Physiology Reports, 2023) — Identifies stress-related genes in desert plants. Cited by: 8 articles.

🌱 “Integrating metabolite profiling and environmental factors in rhizosphere dynamics under stress conditions” (Ecotoxicology and Environmental Safety, 2023) — Examines root-soil interactions under metal stress. Cited by: 10 articles.

🍇 “Secondary metabolite gene clusters in tropical plants: evolutionary insight and biotechnological potential” (Frontiers in Plant Science, 2024) — Focused on identifying novel bioactive pathways. Cited by: 5 articles.

📝Conclusion:

Dr. Jingya Yang exemplifies a strong candidate for the Best Review Paper Award, particularly for her 2025 review on the therapeutic potential of Russula. Her academic journey showcases discipline, innovation, and scientific integrity. The breadth and depth of her research reflect a deep understanding of both molecular mechanisms and ecological relevance. She brings together advanced omics tools, field-based insights, and literature synthesis to address key challenges in environmental and biological sciences. Recognizing her work through this award would highlight the importance of integrated plant–fungal research and support the contributions of emerging scientists in applied biology.

Dr. Ziyong Liu | microbiology | Best Researcher Award

Dr. Ziyong Liu | microbiology – Qingdao Institute Of Bioenergy & Bioprocess Technology Chinese Academy Of Sciences, China

Dr. Ziyong Liu is a renowned researcher in the field of bioenergy and microbiology. With a strong focus on microbial fermentation and metabolic regulation, his research has contributed significantly to understanding microbial processes, particularly in the production of biofuels. Throughout his career, he has explored the metabolic pathways of various Clostridium species, which are central to biotechnological applications aimed at sustainable energy solutions. His scientific expertise, alongside his collaborative work with researchers worldwide, has positioned him as a key figure in the study of microbial systems and bioengineering.

Education:

Dr. Liu pursued his higher education at the Technical University of Munich, where he obtained his Doctoral degree in microbiology. His doctoral research laid the foundation for his future work in microbial fermentation and metabolic regulation. The knowledge and skills gained during this period allowed him to address crucial challenges in bioenergy production and provided a solid grounding in laboratory-based research, data analysis, and innovative problem-solving in the field of microbiology.

Experience:

Dr. Liu is currently based at the Qingdao Institute of Bioenergy and Bioprocess Technology, where he applies his expertise to solve real-world problems in bioenergy production. His professional journey has seen him working in various research capacities, contributing to groundbreaking projects focused on metabolic engineering and microbial processes. Dr. Liu’s collaborative work spans across several international research projects, allowing him to develop solutions with global implications for bioenergy and sustainability. His professional experience has made him a vital member of the research community, dedicated to advancing bioengineering practices in both academia and industry.

Research Interests:

Dr. Liu’s primary research interests lie in microbial metabolism, fermentation processes, and bioenergy. His work focuses on optimizing microbial strains for enhanced biofuel production, with particular attention to Clostridium species such as Clostridium ljungdahlii, Clostridium cellulovorans, and Clostridium beijerinckii. These microorganisms have been identified as key players in converting biomass and carbon dioxide into valuable biofuels and chemicals. His research explores the intricate mechanisms of metabolic regulation, fermentation efficiency, and strain improvement to improve the yield and sustainability of biofuels. Dr. Liu’s studies contribute to addressing the global energy crisis and advancing the field of renewable energy.

Awards:

Dr. Liu’s exceptional contributions to bioenergy research have earned him recognition within the scientific community. His groundbreaking work on metabolic regulation and microbial fermentation processes has been widely acknowledged. Although specific awards were not detailed, his continued involvement in high-impact publications and international collaborations reflects his standing as a leading researcher in his field. His ongoing contribution to solving pressing energy challenges positions him as a deserving candidate for the “Best Researcher Award.”

Publications:

“pH-Dependent Metabolic Regulation in Clostridium ljungdahlii During CO Fermentation” (2025) – Fermentation
A detailed study on the metabolic regulation of Clostridium ljungdahlii under varying pH conditions, contributing to the understanding of CO fermentation processes.
💡 Cited by: Multiple studies on metabolic engineering and biofuel production.

“Metabolic Difference Analysis of Clostridium cellulovorans Grown on Glucose and Cellulose” (2023) – Fermentation
Analyzes the metabolic pathways of Clostridium cellulovorans, focusing on its growth on glucose and cellulose. This work highlights its potential for biomass conversion.
🔬 Cited by: Research on microbial fermentation and biomass utilization.

“Butanol–Isopropanol Fermentation with Oxygen-Tolerant Clostridium beijerinckii XH29” (2022) – AMB Express
A study on improving fermentation processes with oxygen-tolerant strains of Clostridium beijerinckii, aiming at efficient biofuel production.
⚡ Cited by: Articles on biofuel production and oxygen-tolerant fermentation.

Conclusion:

Dr. Ziyong Liu has made exceptional strides in the field of bioenergy and microbiology, contributing to the understanding of microbial metabolic regulation and its application in biofuel production. His research into Clostridium species has paved the way for advances in sustainable energy solutions, addressing global challenges in biofuel efficiency and sustainability. With a career marked by impactful publications and collaborative research efforts, Dr. Liu stands out as a highly valuable member of the scientific community. His achievements, coupled with his potential for future innovations, make him a strong candidate for the “Best Researcher Award.”