Xiuling Wang | Molecular Biology | Best Researcher Award

Dr. Xiuling Wang | Molecular Biology | Best Researcher Award

Department of Medical Laboratory from The Central Hospital of Wuhan, China

Xiuling Wang is a dedicated biomedical researcher and senior clinical laboratory professional currently serving as a Chief Technician at the Department of Laboratory Medicine, Wuhan Central Hospital, affiliated with Huazhong University of Science and Technology. With a doctoral degree in Pathogenic Biology from Wuhan University, she has consistently contributed to the field of immunology, particularly focusing on macrophage biology, neuroinflammation, and retroviral protein functions. Her publication record demonstrates a strong commitment to scientific advancement, with multiple articles featured in high-impact journals such as Metabolism, Immunology & Cell Biology, Archives of Virology, and Brain, Behavior and Immunity. While she has not held postdoctoral roles or national-level research grants, her independent research has made a significant impact in her specialized domain. She combines practical laboratory skills with theoretical insights to investigate inflammatory pathways and immune responses relevant to infectious and neurological diseases. Her work has implications in understanding immune regulation, epigenetics, and cellular signaling. With a balanced combination of laboratory practice and academic research, Xiuling Wang exemplifies the integration of clinical application with biomedical discovery. Her potential for future contributions remains high, especially if supported by expanded research funding and collaborative networks at national and international levels.

Professional Profile

Education

Xiuling Wang’s academic journey reflects a strong foundation in life sciences and biomedical research. She earned her Ph.D. in Pathogenic Biology from Wuhan University between September 2011 and December 2017. During her doctoral studies, she focused on understanding host-pathogen interactions and molecular mechanisms of immune regulation, which later shaped the core of her research interests. Her Ph.D. work laid the groundwork for exploring the functional roles of histone modification and endogenous retroviral proteins in inflammatory responses. Before pursuing her doctoral degree, she completed a Bachelor of Science in Biological Sciences at Shenyang Agricultural University from September 2007 to July 2011. This undergraduate program provided her with fundamental training in cellular biology, genetics, and microbiology. Her academic progression from a broad-based biological science education to a specialized doctoral study in pathogenic biology demonstrates a clear trajectory toward expertise in immunology and infectious disease research. Although she has not undertaken formal postdoctoral research, her doctoral education, combined with her clinical laboratory responsibilities, has enabled her to independently carry out impactful research. Her academic background continues to influence her scientific inquiry into macrophage activation, inflammatory signaling, and the epigenetic regulation of immune cells.

Professional Experience

Xiuling Wang has built her professional career primarily within Wuhan Central Hospital, affiliated with Huazhong University of Science and Technology, where she currently holds the role of Chief Technician in the Department of Laboratory Medicine. Since February 2020, she has been leading technical operations and contributing to both diagnostic and research activities in the clinical laboratory. Prior to this position, from December 2017 to January 2020, she served as a Technician in the same department. During these years, she has developed and refined her expertise in molecular diagnostics, cellular analysis, and immunological assays. Her clinical role complements her academic background, allowing her to bridge laboratory research with patient-centered diagnostics. Her work environment has enabled her to explore inflammatory responses, macrophage polarization, and immune regulation through both clinical samples and experimental models. Despite the lack of formal postdoctoral appointments or international placements, her responsibilities have encompassed advanced lab techniques, experiment design, and publication-driven research. She has proven her ability to produce high-quality scientific output independently, which speaks to her technical proficiency and analytical capability. Her career development within a university-affiliated hospital also highlights her commitment to integrating scientific inquiry into healthcare improvements.

Research Interests

Xiuling Wang’s research interests lie at the intersection of immunology, molecular biology, and virology, with a strong emphasis on inflammatory mechanisms and immune regulation. Her primary focus has been on the functional roles of endogenous retroviral proteins, histone modification enzymes, and transcription factors in mediating immune cell responses. She is particularly interested in how epigenetic regulators such as G9a and PCAF modulate macrophage polarization during lipid exposure and inflammation. Her investigations into proteins like Syncytin-1 and HERV-W env in glial cells further demonstrate her focus on neuroinflammation and innate immunity. These studies have direct implications for understanding the pathogenesis of neurodegenerative and autoimmune diseases. Additionally, her research seeks to elucidate the signaling cascades involving toll-like receptors (TLRs), MyD88, KLF2/4, and cytokine production in the central nervous system and peripheral immune tissues. Xiuling Wang is also interested in the translational application of these findings for diagnostics and therapeutic strategies. Her interdisciplinary interests span across disease biology, epigenetics, and immunopathology. By integrating experimental findings with clinical relevance, she aims to uncover novel mechanisms of immune dysfunction and offer potential biomarkers or targets for inflammatory diseases and neurological disorders.

Research Skills

Xiuling Wang possesses a wide array of research skills that make her proficient in conducting independent biomedical research. She has significant expertise in immunological techniques, including cytokine profiling, flow cytometry, and cell culture assays, which are critical for studying macrophage activity and inflammatory responses. Her experience also includes molecular biology techniques such as quantitative PCR, Western blotting, and RNA interference, allowing her to explore gene expression and protein regulation. She has used advanced imaging and immunohistochemistry tools in her analysis of glial cell activation. In addition, she is skilled in epigenetic assays that examine histone modifications and transcription factor interactions, essential to her investigations into G9a and PCAF functions. Xiuling has a strong foundation in virology, particularly involving endogenous retroviruses, which she integrates into neuroimmunology research. Her clinical role further equips her with real-world experience in sample handling, clinical diagnostics, and quality control procedures, bridging basic science with applied medicine. These capabilities have enabled her to produce high-quality research publications without extensive postdoctoral or institutional funding. Her technical self-sufficiency, combined with rigorous scientific thinking, positions her as a valuable contributor to the field of immunological research and molecular diagnostics.

Awards and Honors

As of now, Xiuling Wang has not received any formal academic awards, honors, or fellowships, nor has she been recognized through funded research grants such as those from the National Natural Science Foundation of China. Despite this, her scientific merit is evident through her publications in high-impact, peer-reviewed journals. Her work has been published in prestigious journals like Metabolism, Immunology & Cell Biology, Archives of Virology, and Brain, Behavior and Immunity, all of which require rigorous peer review and serve as a testament to her scholarly contributions. While institutional or national recognition remains an area for growth, her research output demonstrates academic independence, persistence, and relevance. She has navigated the competitive research landscape through individual effort and clinical integration, achieving visibility through her findings rather than through awards. This indicates that her contributions have been more organically driven by scientific inquiry than by external accolades. As her career continues, participating in professional societies, applying for national research funding, and engaging in collaborative projects could open opportunities for formal recognition. These steps would complement her existing academic foundation and further solidify her status in the biomedical research community.

Conclusion

Xiuling Wang exemplifies the qualities of a committed and capable biomedical researcher, blending clinical practice with rigorous academic investigation. With a doctoral degree in pathogenic biology and years of hands-on laboratory experience, she has carved a niche in understanding immune regulation and inflammatory pathways. Her work—particularly on macrophage polarization, endogenous retroviral proteins, and histone-modifying enzymes—has added valuable insight to the fields of immunology and neurobiology. While she has not yet led nationally funded projects or received major awards, her consistent publication record reflects both scientific competence and independence. She operates effectively in a clinical-academic environment, translating laboratory findings into contextually relevant insights. Her strengths lie in research depth, technical proficiency, and topic relevance. Future career development would benefit from expanded participation in funding applications, interdisciplinary collaborations, and recognition through academic awards or society memberships. Nonetheless, based on her publication impact and research quality, she stands as a strong candidate for the Best Researcher Award. Her potential for further contributions remains high, making her a valuable asset in the scientific exploration of immune mechanisms and inflammation-related diseases.

Publications Top Notes

  • Title: P300/CBP-associated factor (PCAF) attenuated M1 macrophage inflammatory responses possibly through KLF2 and KLF4

  • Journal: Immunology and Cell Biology

  • Year: 2021

  • Citations: 25

Wenguang Yin | Molecular Biology | Best Researcher Award

Prof. Dr. Wenguang Yin | Molecular Biology | Best Researcher Award

Group leader at Guangzhou Medical University, China

Wenguang Yin is a distinguished researcher in the field of regenerative biology, with a focus on respiratory diseases, stem cell biology, and cellular signaling. Currently serving as a group leader at the State Key Laboratory of Respiratory Disease at Guangzhou Medical University, Yin has made significant contributions to understanding the molecular mechanisms underlying lung development, smooth muscle biology, and airway diseases. His work is particularly impactful in the context of respiratory health and regenerative medicine. With a strong academic background and postdoctoral training under leading experts, Yin has published extensively in high-impact journals, contributing to advancements in translational medicine. His leadership in guiding a research team and his role as a corresponding author in numerous studies further demonstrate his commitment to advancing scientific knowledge. Yin’s dedication to exploring the genetic and cellular foundations of lung diseases positions him as a trailblazer in the field.

Professional Profile

Education:

Wenguang Yin’s academic journey began with a B.S. degree in Biological Engineering from Dalian University of Technology, followed by a second B.S. degree in English, reflecting his interdisciplinary approach. He then pursued a Ph.D. in Regenerative Biology at the South China Institute for Stem Cell Biology and Regenerative Medicine. His doctoral research, conducted in the lab of Prof. Duanqing Pei, provided a solid foundation in stem cell biology and regenerative medicine. This was followed by postdoctoral fellowships at top international institutes, including the Max Planck Institute for Heart and Lung Research and Justus Liebig University Giessen, where Yin expanded his expertise in developmental genetics and lung biology. His educational background reflects a unique blend of scientific rigor and global exposure, equipping him to lead high-impact research on lung disease and cellular regeneration.

Professional Experience:

Wenguang Yin’s professional trajectory reflects a blend of expertise in developmental genetics, regenerative biology, and respiratory health. Starting as a Ph.D. fellow at the South China Institute for Stem Cell Biology and Regenerative Medicine, Yin laid the groundwork for his research in cellular signaling pathways and stem cell mechanisms. His postdoctoral fellowships at the prestigious Max Planck Institute and Justus Liebig University Giessen provided Yin with valuable international experience, working with leading scientists in developmental genetics and lung research. Yin’s current role as a group leader at the State Key Laboratory of Respiratory Disease at Guangzhou Medical University allows him to apply his diverse experience in leading cutting-edge research on airway diseases and lung regeneration. His leadership in the lab and his role in several high-impact projects solidify his position as a key contributor to the global scientific community in the areas of respiratory medicine and regenerative biology.

Research Interests:

Wenguang Yin’s research interests are centered on understanding the molecular and cellular mechanisms that govern lung development, respiratory diseases, and tissue regeneration. His work specifically focuses on how cellular signaling pathways influence smooth muscle cytoskeletal organization, airway epithelial remodeling, and tissue repair. Yin is also keenly interested in studying the impact of external factors, such as e-cigarette vapor, on lung health. His research integrates cutting-edge techniques in single-cell transcriptomics, gene editing, and molecular biology to uncover the genetic and biochemical networks involved in lung function and regeneration. A significant aspect of his research is exploring the role of key cellular proteins, ion channels, and extracellular matrix components in lung disease. By addressing these fundamental questions, Yin aims to contribute to the development of novel therapeutic strategies for respiratory disorders, including asthma, chronic obstructive pulmonary disease (COPD), and lung fibrosis.

Research Skills:

Wenguang Yin possesses a robust skill set in molecular biology, cellular biology, and developmental genetics, making him an expert in conducting high-level research on lung development and regenerative medicine. His technical proficiency includes single-cell transcriptomics, advanced gene editing techniques like CRISPR-Cas9, and immunohistochemistry. Yin is adept at utilizing model organisms, including mice and zebrafish, to study the cellular and molecular underpinnings of lung diseases and regeneration. Additionally, his experience in analyzing complex data sets through bioinformatics tools allows him to integrate large-scale genetic and transcriptomic data for more comprehensive insights into lung biology. Yin’s interdisciplinary background also allows him to approach research from a unique perspective, incorporating both biomedical engineering and molecular genetics to investigate the role of cellular structures in disease progression and tissue repair. His ability to design and implement innovative research methodologies has been a cornerstone of his scientific success.

Awards and Honors:

Wenguang Yin has earned recognition for his contributions to the field of regenerative biology and respiratory research through multiple prestigious awards and honors. His work, published in high-impact journals, has been instrumental in advancing our understanding of lung diseases and cellular regeneration. As a corresponding author in numerous influential studies, Yin’s leadership in research has been acknowledged in the scientific community. While specific awards and honors are not listed in detail, his consistent recognition through impactful publications, his leadership role in major research projects, and his position as a group leader at a renowned institute reflect the high regard in which he is held within the research community. His expertise, innovative contributions, and international collaborations are key factors in his growing reputation as a leading researcher in respiratory medicine and regenerative biology.

Conclusion:

Wenguang Yin is a highly accomplished researcher whose work is shaping the future of respiratory medicine and regenerative biology. With a solid educational foundation, extensive international research experience, and a commitment to understanding the molecular mechanisms behind lung development and disease, Yin has become a leader in his field. His groundbreaking research, including high-impact publications in top journals, demonstrates his ability to address critical questions in lung health and regeneration. Although further interdisciplinary collaboration and broader dissemination of his work could enhance its clinical impact, Yin’s expertise and leadership make him a deserving candidate for continued recognition and accolades in the scientific community. His research holds immense potential for advancing therapies for respiratory diseases and improving patient outcomes in the future.

Publication Top Notes

  • Tropism of adeno-associated virus serotypes in mouse lungs via intratracheal instillation
    • Authors: Wu, H., Zhao, A., Bu, Y., Li, H., Yin, W.
    • Year: 2024
  • Single-cell transcriptomics reveals e-cigarette vapor-induced airway epithelial remodeling and injury
    • Authors: Cao, W., Li, J., Che, L., Yin, W., Ran, P.
    • Year: 2024
  • The T-Type Calcium Channel CACNA1H is Required for Smooth Muscle Cytoskeletal Organization During Tracheal Tubulogenesis
    • Authors: Liu, Z., Lu, C., Ma, L., Stainier, D.Y.R., Yin, W.
    • Year: 2024
    • Citations: 1
  • Epigenetic regulation of macrophage activation in chronic obstructive pulmonary disease
    • Authors: Zhang, F., Cui, Y., Zhang, T., Yin, W.
    • Year: 2024
  • SARS-CoV-2 spike protein induces IL-18-mediated cardiopulmonary inflammation via reduced mitophagy
    • Authors: Liang, S., Bao, C., Yang, Z., Desai, A.A., Tang, H.
    • Year: 2023
    • Citations: 28
  • The Mechanisms of Resistin-Like Molecule-βMediated Airway Inflammation in Chronic Obstructive Pulmonary Disease via Autophagy
    • Authors: Che, L., Xie, Z., Chen, G., Cai, X., Liu, S.
    • Year: 2023
  • Systematic Analysis of Smooth Muscle and Cartilage Ring Formation during Mouse Tracheal Tubulogenesis
    • Authors: Wu, H., Wang, P., Liu, Z., Lu, C., Yin, W.
    • Year: 2023
  • Deleterious synonymous mutation identification based on selective ensemble strategy
    • Authors: Wang, L., Zhang, T., Yu, L., Xia, J., Zhang, T.
    • Year: 2023
  • An essential function for autocrine hedgehog signaling in epithelial proliferation and differentiation in the trachea
    • Authors: Yin, W., Liontos, A., Koepke, J., Stainier, D.Y.R., Samakovlis, C.
    • Year: 2022
    • Citations: 10
  • Potent prophylactic and therapeutic efficacy of recombinant human ACE2-Fc against SARS-CoV-2 infection in vivo
    • Authors: Zhang, Z., Zeng, E., Zhang, L., Shao, W., Zhao, J.
    • Year: 2021
    • Citations: 50