Moara Lemos | Cell Structure Analysis | Best Researcher Award

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Dr. Moara Lemos | Cell Structure Analysis | Best Researcher Award

Dr. Moara Lemos, UFRJ/CENABIO, Brazil

Dr. Moara Lemos is a Brazilian parasitologist and structural biologist known for her expertise in protozoology, especially focusing on trypanosomatids. Born in Carmo do Rio Claro, Brazil, she earned her PhD in Microbiology from the Federal University of Rio de Janeiro (UFRJ). Her work bridges advanced imaging technologies, such as cryo-electron tomography, with molecular parasitology, exploring host-parasite interactions in fish and amphibians. Currently based at Institut Pasteur and UFRJ, she leads cutting-edge projects in cellular ultrastructure, nanobiotechnology, and the molecular characterization of parasites. She has received multiple research scholarships and international recognition through high-impact publications and awards. A highly collaborative scientist, Dr. Lemos has contributed significantly to parasitology, cryo-microscopy, and biomedicine, making her a strong candidate for the Best Researcher Award.

Publication Profile: 

Orcid

✅ Strengths for the Award:

  1. Extensive Expertise in Parasitology and Cell Biology

    • Specialized in protozoology, with deep research in Trypanosoma species affecting both aquatic vertebrates and humans.

    • Combines taxonomy, ultrastructure, phylogeny, and host-parasite interactions, contributing significantly to neglected areas in parasitology.

  2. Cutting-edge Methodological Proficiency

    • Strong command over electron microscopy, including cryo-electron tomography, FIB-SEM, and correlative light and electron microscopy (CLEM).

    • Her techniques are pivotal in advancing the 3D visualization of cellular and viral structures, which is particularly impactful in infectious disease research.

  3. Translational Research Impact

    • Active participation in COVID-19-related structural virology, aiming to guide vaccine and therapeutic development.

    • Current projects focus on flagellar biogenesis, nanobiomaterials, and telepathology, integrating basic science with clinical relevance.

  4. Collaborative and International Research Network

    • Collaboration with prestigious institutions such as the Institut Pasteur, João Lobo Antunes Institute, EMBO, and CBPF.

    • Involved in multidisciplinary teams with researchers like Dorit Hanein and Philippe Bastin, increasing the credibility and reach of her research.

  5. Recognized Scientific Output

    • Publications in high-impact journals like Nature Communications, Journal of Cell Biology, *

🛠️ Areas for Improvement:

While her qualifications are substantial, a few areas could further elevate her candidacy:

  1. Greater Independent Leadership on High-Profile Projects

    • While she is a co-author on several collaborative works, leading more first-author or corresponding-author publications in top-tier journals would further establish her scientific independence.

  2. Increased Outreach or Policy Engagement

    • Expanding her influence beyond academic research—e.g., contributing to national or international policy on parasitic diseases, public health, or biodiversity conservation—could broaden impact.

  3. Clearer Documentation of Teaching/Mentorship Impact

    • While the CV lists student supervision (MSc, PhD), a dedicated summary on mentorship outcomes (e.g., students’ careers, theses supervised) would strengthen the case.

  4. Visibility in International Conferences as Speaker

    • More keynote/plenary presentations or chairing roles at major international meetings would reinforce her leadership in the field.

🎓 Education:

Dr. Lemos holds a Bachelor’s degree in Biological Sciences from the Federal University of Juiz de Fora (UFJF), where she also completed a Master’s degree in Zoology. She earned her PhD in Science (Microbiology) from the Federal University of Rio de Janeiro (UFRJ), with a dissertation on the taxonomy and host-parasite interactions of trypanosomes in Brazilian fish. Her postgraduate journey continued with multiple postdoctoral fellowships at institutions like the Institut Pasteur (France), CBPF (Brazil), and UFRJ, specializing in parasitology, biotechnology, and cryo-electron microscopy. She also pursued extensive complementary training in microscopy, cryo-ET, and molecular biology through EMBO and SBMM courses. Her education reflects a strong interdisciplinary foundation combining zoology, microbiology, biotechnology, and imaging technologies—crucial for investigating infectious diseases at a cellular and molecular level.

🎓 Education:

Dr. Lemos holds a Bachelor’s degree in Biological Sciences from the Federal University of Juiz de Fora (UFJF), where she also completed a Master’s degree in Zoology. She earned her PhD in Science (Microbiology) from the Federal University of Rio de Janeiro (UFRJ), with a dissertation on the taxonomy and host-parasite interactions of trypanosomes in Brazilian fish. Her postgraduate journey continued with multiple postdoctoral fellowships at institutions like the Institut Pasteur (France), CBPF (Brazil), and UFRJ, specializing in parasitology, biotechnology, and cryo-electron microscopy. She also pursued extensive complementary training in microscopy, cryo-ET, and molecular biology through EMBO and SBMM courses. Her education reflects a strong interdisciplinary foundation combining zoology, microbiology, biotechnology, and imaging technologies—crucial for investigating infectious diseases at a cellular and molecular level.

🏅 Awards and Honors:

Dr. Moara Lemos has received numerous accolades throughout her career. She won the Best Poster Presentation at the Institut Pasteur and the VIII International Symposium of Fish Parasites, along with the Best Oral Presentation Award at Sembio 2007. She was also recognized at the IV Annual Meeting of the National Institute of Science and Technology in Structural Biology and Bioimaging (INBEB). She has been a scholarship holder from multiple funding bodies, including CNPq, CAPES, FAPERJ, and FAPEMIG, for her postgraduate and postdoctoral research. In addition, she contributed to groundbreaking studies published in Nature Communications, Journal of Cell Biology, and American Journal of Human Genetics, earning visibility in high-impact journals. These honors highlight her impactful contributions to biomedical research, particularly in parasitology and cryo-structural biology.

🔬 Research Focus:

Dr. Lemos focuses on parasitic protozoa, especially trypanosomes, examining their ultrastructure, taxonomy, host-parasite dynamics, and intraflagellar transport mechanisms. She employs advanced imaging technologies, including cryo-electron tomography, to study the 3D cellular architecture of infectious organisms like Trypanosoma cruzi. Her research expands to the SARS-CoV-2 virus, developing cryo-microscopy workflows to analyze virus-antibody interactions. She also explores nanobiomaterials’ interactions with eukaryotic cells, combining cell biology, structural biology, and electron microscopy. Current projects include implementing telemicroscopy in Brazil’s public health system (SUS) and developing AI tools for pathology imaging. Her goal is not only to advance scientific knowledge but also to translate findings into public health and ecological conservation strategies. Dr. Lemos’ integrative and technological approach to biology makes her research highly innovative and socially relevant.

📚 Publications Top Notes:

  1. 📘 Advances, challenges, and applications of cryo‐electron tomography workflows for three‐dimensional cellular imaging of infectious pathogensJournal of Microscopy (2025)

  2. 🧪 Novel ACE2 nanoparticles universally block SARS-CoV-2 variants in the human respiratory tractbioRxiv (2022)

  3. 🔬 Morphological control enables nanometer-scale dissection of cell-cell signaling complexesNature Communications (2022)

  4. 🧬 Timing and original features of flagellum assembly in trypanosomes during development in the tsetse flyParasites & Vectors (2020)

  5. 🐸 Caracterização morfológica e morfométrica dos tripanossomas de anuros do Centro-Oeste brasileiroRevista Brasileira de Zoociências (2019)

  6. 🧫 Biallelic Mutations in LRRC56…Cause Mucociliary Clearance and Laterality DefectsAmerican Journal of Human Genetics (2018)

  7. 🧭 Bidirectional intraflagellar transport is restricted to two sets of microtubule doublets in the trypanosome flagellumJournal of Cell Biology (2018)

  8. 📗 Contribuição ao estudo da biologia dos Tripanossomas de Anuros neotropicaisThesis, UFJF (2017)

🏁 Conclusion: 

Dr. Moara Lemos demonstrates a rare combination of technical excellence, innovative research, international collaboration, and consistent productivity in fields that have both scientific importance and global health relevance. Her research in trypanosome biology, electron microscopy, and pathogen-cell interaction is critical for both basic science and applied biomedical research.

Guojie Ji | Cancer Cell Biology | Cancer Cell Biology Award

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Mr. Guojie Ji | Cancer Cell Biology | Cancer Cell Biology Award

Mr. Guojie Ji, NORTH HENAN MEDICAL UNIVERSITY, China

Guojie Ji, Master of Medicine Science, is a laboratory technician and the Provincial Director of the Demonstration Center for Biological and Basic Medical Experimental Teaching. With a core research focus on fertility preservation and tumor therapy, he brings an interdisciplinary approach to biomedical science. Ji has played a pivotal role in guiding over 30 research papers and acquiring 13 national patents. In addition to managing over 15 national and provincial projects, his mentorship has led students to win numerous innovation and entrepreneurship awards at both national and provincial levels. Ji is an editorial board member for Contemporary Chemical Research and a peer reviewer for Cell Death Discovery. His leadership and scholarly work have earned him several honors, including being named Outstanding Teacher and Provincial Outstanding Mentor. His recent research delves into ferroptosis in cancer and reproductive toxicity, making impactful contributions to both cancer biology and regenerative medicine.

Publication Profile:

Orcid

✅ Strengths for the Award:

  1. Relevant Research Contributions:

    • Ji has made direct contributions to cancer biology, particularly through:

      • Ferroptosis mechanisms in breast cancer cells (2025, BBRC)

      • 5-Fluorouracil-induced oxidative damage and DNA disruption (2024, Ecotoxicology & Environmental Safety)

      • Exosome impact on melanoma cell growth (2021, Journal of Yangzhou University)

    • These studies reflect deep involvement in molecular mechanisms of cancer cell death, a central theme in cancer cell biology.

  2. Multidisciplinary Integration:

    • Ji’s research spans stem cells, oxidative stress, and reproductive toxicity, all of which tie into cancer research—especially in terms of chemotherapy side effects and regenerative implications.

  3. High Research Output and Recognition:

    • Over 30 peer-reviewed articles, including in high-impact journals such as Cell Death Discovery and BBRC.

    • 13 national patents, indicating applied innovation in biomedical research.

    • Leads national and provincial projects with substantial funding (~¥1 million), showcasing leadership and research management.

  4. Mentorship and Scientific Community Service:

    • Recognized as an Outstanding Innovation Mentor, Editorial Board Member, and Peer Reviewer, reflecting active participation in advancing the field.

    • Mentored award-winning student teams in national competitions, indicating talent cultivation in biomedical research.

⚠️ Areas for Improvement:

  1. Primary Focus Is Fertility & Reproductive Biology:

    • While Ji has notable cancer-related studies, his primary research base lies in fertility preservation. For this award, a broader and more central focus on oncogenic signaling, tumor microenvironments, or immunotherapy might strengthen his profile.

  2. Limited Clinical Cancer Studies:

    • Most cancer work is preclinical or in vitro; integrating clinical collaborations or translational oncology trials could enhance relevance to applied cancer therapy.

Education:

Guojie Ji holds a Master of Medicine Science, with specialized training in biological sciences, biomedical research, and clinical applications in fertility and tumor biology. His academic background includes comprehensive training in cell biology, molecular biology, reproductive medicine, and translational oncology. Through this foundation, he developed a research orientation focused on bridging cell-level discoveries with clinical potential, particularly in the areas of cryopreservation, stem cell differentiation, and tumor cell regulation. Ji’s academic excellence and commitment to research have driven his involvement in interdisciplinary fields, where he combines elements of life sciences and therapeutic innovation. His deep-rooted academic experiences have been critical in enabling his success as a project leader, educator, and recognized biomedical scientist. His education is not just academic but applied, demonstrated by his integration of research into experimental teaching models and training future life scientists.

💼 Experience:

Guojie Ji currently serves as a Laboratory Technician and Provincial Director for a Demonstration Center dedicated to experimental biological and medical teaching. He has led or completed 10+ major national and provincial research projects, along with 5 horizontal interdisciplinary research collaborations, collectively funded with nearly 1 million yuan. Ji’s lab has been instrumental in developing fertility-preservation protocols, studying sperm cryopreservation, and examining cancer cell response to drugs like 5-FU. He has authored over 30 peer-reviewed papers, including key publications in Cell Death Discovery, Ecotoxicology and Environmental Safety, and Biochemical and Biophysical Research Communications. Ji is a mentor to undergraduate innovators, guiding teams to national victories in prestigious competitions. Additionally, he holds editorial and peer-review roles in prominent scientific journals. His work demonstrates strong leadership, scholarly innovation, and an enduring commitment to experimental medical education and biomedical research.

🏆 Awards and Honors:

Guojie Ji’s contributions to research and education have earned him widespread recognition. He has been honored as a Key Teacher, Civilized Teacher, and Outstanding Teacher, along with awards for Outstanding Innovation and Entrepreneurship Mentorship at the provincial level. He has received accolades as Outstanding Supervisor for Bachelor’s Degree Dissertations and Life Sciences Competition Mentor. Ji has successfully supervised student teams winning over 25 awards, including 5 national-level prizes in events such as the Challenge Cup, Internet+, and the National College Life Sciences Competition. These honors reflect his commitment to combining cutting-edge research with student training and public impact. His ability to mentor and lead both in the lab and the classroom has set a benchmark for excellence in academic innovation and practical scientific development. Ji’s holistic excellence makes him a role model in both research mentorship and scientific discovery.

🔬 Research Focus:

Guojie Ji’s research lies at the intersection of fertility preservation, cryobiology, and tumor cell biology. He explores the mechanisms of cell damage, oxidative stress, and DNA integrity during sperm and stem cell preservation, with a growing emphasis on ferroptosis—a regulated form of cell death—in cancer biology. His recent studies demonstrate how agents like 5-Fluorouracil affect cancer cells and male fertility via oxidative and mitochondrial pathways. Ji also investigates mesenchymal stem cell-derived exosomes in tumor growth, highlighting a promising field of cell-free therapies. In plant and animal models, he’s contributed to understanding protein and lipid roles in cell signaling and disease resistance, reinforcing the depth and range of his biomedical expertise. With a diverse research portfolio, Ji aims to translate basic discoveries into therapeutic strategies, particularly targeting tumor suppression and reproductive health. His work continues to expand the molecular understanding of cell survival and death pathways in medicine.

📚 Publications Top Notes:

  1. 🧊 Protective Effect of Sucrose and Antioxidants on Cryopreservation of Sperm Motility and DNA Integrity in C57BL/6 Mice

  2. 💧 Effects of MTG and GSH on Human Sperm Motility and DNA Integrity during Vitrification in the Presence of Trehalose

  3. ❄️ Comparison of Rapid Freezing vs. Vitrification for Human Sperm Cryopreservation Using Sucrose in Closed Straw Systems

  4. 🔍 Studies on Basic Issues Relevant to Sperm Cryopreservation in Humans

  5. 📦 Effects of Exosomes Derived from Mesenchymal Stem Cells on the Growth of Melanoma Cells

  6. 🌱 BMP4 is Insufficient to Differentiate Umbilical Cord MSCs into Germ Cell-like Cells In Vitro

  7. 🧬 Current Status of Male Fertility Preservation in Humans

  8. 🧪 Protein Glycosylation Changes During Systemic Acquired Resistance in Arabidopsis thaliana

  9. 🛡️ Lipid Transfer Proteins in Plant-Pathogen Interactions and Their Molecular Mechanisms

  10. 🔥 Emerging Roles of Ferroptosis in Male Reproductive Diseases

🧾 Conclusion:

Guojie Ji is a strong interdisciplinary researcher with a credible and impactful body of work in cancer cell biology, particularly in the context of ferroptosis, chemotherapy-induced toxicity, and tumor suppression mechanisms. His contributions bridge the fields of cell death, oxidative biology, and reproductive toxicology, offering unique insights into the systemic effects of anti-cancer agents. While cancer is not his sole research domain, his innovative work and translational potential clearly qualify him as a compelling nominee for the Research for Cancer Cell Biology Award—particularly in molecular cancer mechanisms and therapeutic research.

Erdal Dinç | Cell Biology Research Award | Best Researcher Award

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prof. Dr. Erdal Dinç | Cell Biology Research Award | Best Researcher Award

Prof. Dr. Erdal Dinç , Ankara University, Faculty of Pharmacy, Department of Analytical Chemistry , Turkey

Erdal Dinç is a distinguished professor of Analytical Chemistry at the Faculty of Pharmacy, Ankara University, Turkey. With a prolific academic career, he has authored 195 research papers in SCI-indexed journals and 133 in Scopus-indexed journals. His work has received approximately 3013 citations, and he has an H-index of 29. His research interests focus on developing novel analytical methods for drug-DNA interactions, drug analysis, and the characterization of nano-films on modified electrode systems. Prof. Dinç has also contributed to books and conference proceedings in the field of analytical chemistry. Known for his significant contributions to chemometrics, chromatography, and spectroscopy, he has shaped the field with his innovative approaches in analytical methodologies, paving the way for advancements in pharmaceutical, food, and biological sciences.

Publication Profile:

Scopus

Strengths for the Award:

Professor Erdal Dinç is a distinguished academic with substantial contributions to analytical chemistry, particularly in the areas of drug analysis, drug-DNA interaction studies, and the development of new analytical methods. His impressive publication record includes 195 research papers in SCI-indexed journals and 133 in Scopus-indexed journals. His work has been cited over 3000 times, demonstrating a significant impact on the field. Additionally, his work on chemometrics, spectroscopy, and chromatography, along with his involvement in multiple ongoing research projects, showcases his innovative approach to solving complex analytical problems.

Areas for Improvement:

While Professor Dinç has an outstanding record in publishing and advancing analytical chemistry, expanding his collaborations internationally could further enhance the global reach and influence of his research. Additionally, translating some of his advanced techniques into more practical, industry-applicable tools could widen the real-world impact of his work.

Education:

Prof. Erdal Dinç completed his undergraduate education in Chemistry at the University of Ankara, followed by a master’s and Ph.D. in Analytical Chemistry. His doctoral research focused on chemometric approaches in chromatographic and spectroscopic analyses, which laid the foundation for his extensive career in the field. Over the years, he has been involved in numerous international collaborations and research programs. He continues to mentor graduate and post-graduate students in his field, guiding them through advanced research techniques and methodologies. His academic journey reflects a commitment to knowledge advancement, and his continuous work in both theoretical and applied chemistry makes him a leading figure in analytical sciences.

Experience:

Prof. Erdal Dinç has over 20 years of academic experience at Ankara University, where he has taught various analytical chemistry courses and supervised numerous research projects. His extensive research expertise spans across multiple areas, including spectrophotometry, chromatography, chemometrics, and drug analysis. Throughout his career, Prof. Dinç has led several significant research projects, many of which have been funded by organizations like TÜBİTAK and Ankara University. His work involves pioneering new methods for analyzing drug-DNA interactions, bioanalysis, and plant analysis. His academic contributions are reflected in his published articles and books, making him a globally recognized expert in the field of analytical chemistry. Prof. Dinç has been a key player in advancing chemical analysis in pharmaceutical, biological, and food sciences, and his work continues to inspire new generations of researchers.

Awards and Honors:

Prof. Erdal Dinç has received numerous accolades in recognition of his significant contributions to analytical chemistry. His research, spanning over two decades, has earned him national and international recognition in the field. Notably, he has been a recipient of several prestigious research grants from TÜBİTAK (The Scientific and Technological Research Council of Turkey) and Ankara University, facilitating cutting-edge work in drug analysis and chemical methodologies. His scientific achievements are further acknowledged by his high citation index and H-index of 29, which reflect his influence and reputation in the global scientific community. Prof. Dinç’s expertise in spectroscopic analysis and chemometric techniques has made him a sought-after researcher and speaker at conferences, where he shares his innovative methodologies with professionals worldwide. His work continues to impact the development of analytical tools and techniques in various sectors of science and industry.

Research Focus:

Prof. Erdal Dinç’s research focuses on the development of innovative analytical techniques for drug analysis, particularly in the areas of drug-DNA interaction studies, drug quantification, and the characterization of complex mixtures. His work explores advanced methods in chromatography (HPLC, UPLC), voltammetry, and spectrophotometry (UV-VIS, spectrofluorimetry, IR). He is particularly interested in applying chemometrics to resolve complex analytical problems, such as multi-component pharmaceutical formulations and kinetic reaction monitoring in biological and food samples. Prof. Dinç has developed novel models for analyzing interactions at the molecular level, such as those between pharmaceuticals and DNA, which can help in understanding drug efficacy and safety. Additionally, his research extends to the analysis of food products, biological fluids, and plant compounds, where he applies multidimensional spectral techniques to improve analytical accuracy and precision.

Publications Top Notes:

  1. Dinç, E., & Üçer, A. (2025). A new three-dimensional modeling of fluorescence excitation-emission measurements to explore the interaction of hydroxychloroquine and DNA, and to quantify their binding constant. Colloids and Surfaces B: Biointerfaces 💊🧬
  2. Üçer A., Ertekіn Z.C., Dіnç E (2024). A comparative application of spectrophotometric and spectrofluorimetric methods to estimate levofloxacin-DNA and ofloxacin-DNA interactions. Journal of Fluorescence 🔬🧫
  3. Üstündağ, Ö., & Dinç, E. (2024). A Rapid DMeyer-CWT Method Application to the Spectrophotometric Data for the Quantification of Losartan Potassium and Hydrochlorothiazide in a Binary Mixture. Sakarya University Journal of Science 💊⚙️
  4. Ertekin, Z. C., Büker, E., Oral, E. V., & Dinç, E. (2024). Application of continuous wavelet transforms for simultaneous estimation of domperidone and lansoprazole in capsule formulations. Measurement 💊📊
  5. Üçer, A., Üstündağ, Ö., & Dinç, E. (2023). Monitoring ascorbic acid oxidation with H2O2 and analyzing food supplements using parallel factor analysis model. Journal of Food Composition and Analysis 🍊🔬
  6. Di̇Nç, E., Üçer, A., Ünal, N. (2023). A multiway spectral analysis model to monitor the kinetic chlorination reaction of caffeine in commercial drinks. Food Chemistry 🥤☕

Conclusion:

Professor Erdal Dinç’s expertise, prolific publication record, and innovative research make him a strong candidate for the Best Researcher Award. His contributions to analytical chemistry are commendable, and with continued focus on global collaborations and practical applications, his future work could have even broader implications for the field.

 

 

Huicong Wang | Developmental Cell Biology | Outstanding Scientist Award

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Prof. Huicong Wang | Developmental Cell Biology | Outstanding Scientist Award

Prof. Huicong Wang , South China Agricultural University , China

Huicong Wang is a Professor of Pomology and the Director of the Guangdong Litchi Engineering Research Center at South China Agricultural University. With expertise in fruit physiology, Wang has significantly contributed to the research and development of litchi fruit cultivation, focusing on the quality formation and maturation processes. Wang is internationally recognized for advancing the understanding of fruit growth, pigmentation, and metabolic regulation, with particular attention to litchi, a key agricultural product of China. Through a combination of teaching, research, and field-oriented approaches, Wang has improved fruit quality and plant productivity, offering valuable insights into orchard management practices. His works have influenced both academic circles and agricultural practices globally.

Publication Profile:

Scopus

Strengths for the Award:

Professor Huicong Wang is a highly accomplished scientist in the field of pomology, with a specific focus on fruit crop physiology, particularly litchi. His extensive body of research covers key areas such as fruit maturation, biochemical processes, pericarp pigmentation, and sugar metabolism in litchi. His work has significantly enhanced the understanding of fruit quality formation and the physiological mechanisms governing fruit development. Wang’s contributions extend to the impact of environmental conditions on fruit quality, stress physiology, and the application of field management practices. With over a decade of teaching experience and a substantial publication record, he has demonstrated leadership in both academic and research communities. His ability to translate scientific findings into practical applications for improving fruit yield and quality highlights his potential for making meaningful contributions to the agricultural industry.

Areas for Improvement:

While Professor Wang’s research is comprehensive and influential, further international collaboration with researchers in other horticultural fields could enhance the global applicability of his findings. Additionally, expanding his focus on the climate change impacts on fruit crops could be beneficial, as this remains a critical area of concern for global agriculture.

Education:

Huicong Wang received his Bachelor’s degree in Pomology from South China Agricultural University in 1995, followed by a Master’s degree in Pomology in 1998. He obtained his Ph.D. in Pomology in 2001 from the same institution, where he also completed postdoctoral research. In 2007, Wang was a visiting fellow at Cornell University for one year, expanding his academic and research horizons. His doctoral research focused on litchi fruit maturation, pigmentation, and hormonal regulation under the supervision of Professor Huibai Huang. Wang’s academic foundation has provided him with the knowledge and skills needed to investigate various aspects of fruit physiology, particularly in evergreen fruit trees.

Experience:

Professor Huicong Wang has extensive teaching experience at South China Agricultural University, where he lectures on “Physiology of Fruit Trees” and “Fruit Tree Research Methods” to graduate students. He also teaches undergraduate courses such as “Aromatic Plants” and “Fruit Nutrition and Healthcare.” Wang’s research experience is centered around fruit crop physiology, particularly focusing on evergreen fruit trees like litchi. His expertise lies in studying fruit maturation, pigmentation, and biochemical composition changes during ripening. Additionally, he investigates the impact of environmental stress, orchard management practices, and genetic regulation on fruit quality and yield. Wang’s work has contributed to improvements in fruit production and quality through scientific advancements and practical applications.

Research Focus:

Huicong Wang’s primary research focuses on fruit physiology, particularly in the growth, maturation, and quality formation of fruit crops such as litchi. His work investigates the biochemical and hormonal processes involved in the pigmentation of pericarps, sugar accumulation in arils, and changes in the fruit’s physical and chemical properties during ripening. He explores key factors like source-sink relationships, fruit abscission, and the influence of environmental conditions on fruit quality and productivity. Wang also conducts research on stress physiology, flower induction, and the impacts of field management practices on fruit trees. His work aims to optimize production and enhance the quality of fruit crops, ensuring sustainability and increasing agricultural output.

Publications Top Notes:

  1. Zou SC, Zhou MG, Abbas F, Zeng RF, Hu GB, Wang HC*, Huang XM*. 2024. ROS- and CBF- mediated pathways in ripening litchi fruits. Postharvest Biology and Technology 🥭🍃
  2. Yang MC, Wu ZC, Chen RY, Abbas F, Hu GB, Huang XM, Guang WS, Xu YS, Wang HC*. 2023. Single-nucleus RNA sequencing in litchi floral transition. Journal of Experimental Botany 🌱📚
  3. Zou SC, Zhou MG, Abbas F, Hu GB, Wang HC*, Huang XM*. 2023. LcNAC002 transcription factor in litchi anthocyanin biosynthesis. Plant Physiology 🌸🧬
  4. Yang MC, Wu ZC, Huang LL, Abbas F, Wang HC*. 2022. Isolation of high purity nuclei from plants. Cells 🧫🔬
  5. Yi JW, Ge HT, Abbas F, Zhao JT, Huang XM, Hu GB, Wang HC*. 2022. LcHXK1 in regulating fruit abscission in litchi. Tree Physiology 🍊🌿
  6. Abbas F, O’Neill Rothenberg D, Zhou Y, Ke Y*, Wang HC*. 2022. Volatile organic compounds in plant communication. Physiologia Plantarum 🌸🌿
  7. Yi JW, Wang Y, Ma XS, Zhang JQ, Zhao ML, Huang XM, Li JG, Hu GB, Wang HC*. 2021. LcERF2 in regulating litchi fruit abscission. The Plant Journal 🍇📚
  8. Lai B, Du LN, Wang D, Huang XM, Zhao JT, Wang HC*, Hu GB*. 2019. Litchi MYB transcription factor and anthocyanin biosynthesis. MBC Plant Biology 🌺🎨
  9. Xie DR, Ma XS, Rahman MZ, Yang MC, Huang XM, Li JG, Wang HC*. 2019. Thermo-sensitive sterility in litchi. Scientia Horticulturae 🍃🌞
  10. Zhang JQ, Wu ZC, Hu FC, Liu L, Huang XM, Zhao JT, Wang HC*. 2018. Seed development in Litchi chinensis. Horticulture Research 🌱🍇

Conclusion:

Professor Huicong Wang’s robust research, substantial teaching experience, and contributions to the pomology field make him an excellent candidate for the Outstanding Scientist Award. His work in improving fruit productivity and quality, particularly for litchi, aligns with current agricultural needs, positioning him as a leading scientist in his field. By continuing to broaden the scope of his research and fostering international partnerships, he has the potential to further elevate his impact on both the scientific community and the agricultural sector.