Yanqi Dang | Cancer Cell Biology | Editorial Board Member

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Mr. Yanqi Dang | Cancer Cell Biology | Editorial Board Member

Institute of Digestive Diseases, Longhua Hospital, China-Canada Center of Research for Digestive Diseases, Shanghai University of Traditional Chinese Medicine, Shanghai 200032 | China

The researcher focuses on the epigenetic regulation of metabolic diseases and tumorigenesis, with major contributions in colorectal cancer (CRC) diagnostics, mechanisms, and traditional Chinese medicine (TCM)-based interventions. In early CRC detection, the team performed transfer RNA (tRNA) sequencing and identified two key tRFs—tRF-Tyr-GTA-081 (downregulated) and tRF-Ala-AGC-060 (upregulated)—whose combined diagnostic model demonstrated strong performance for colorectal neoplastic lesions and cancer, outperforming traditional markers such as CEA and CA199. Multi-omics analyses of mRNAs, miRNAs and circRNAs identified three circRNAs with predictive value for adenoma–carcinoma transition. Through DNA hydroxymethylation sequencing, ZW10 emerged as a prognostic-related marker, and its circulating hydroxymethylation level showed high accuracy for early CRC detection. Mechanistic studies revealed that METTL3 regulates CRB3 in an m6A-dependent manner to modulate HIPPO signaling, while DNMT3B- and TET2-mediated epigenetic modifications jointly control PGC-1α to promote CRC progression. In therapeutic research, Scutellaria baicalensis Tang, Sijunzi Tang, and related monomers are under investigation for anti-CRC effects. In metabolic disease research, Ling-Gui-Zhu-Gan decoction and cinnamaldehyde were shown to improve steatosis and insulin resistance in NAFLD, supporting the TCM concept of “phlegm-beverage.” Current studies focus on lean NAFLD, demonstrating that METTL14 regulates TIM3 to influence disease development, and that GJLZ decoction alleviates steatosis and inflammation by enhancing this pathway.

Profile: Scopus

Featured Publications:

Ma, J., …, & al. (2025). Regulation of histone H3K27 methylation in inflammation and cancer.

Yanlan Wang | Cancer Cell Biology | Best Researcher Award

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Dr. Yanlan Wang | Cancer Cell Biology | Best Researcher Award

Dr. Yanlan Wang, Stanford, United States

Dr. Yanlan Wang is a distinguished postdoctoral research fellow at Stanford University’s Department of Pathology. She works in the esteemed Dr. Gerald Crabtree’s lab, where her research revolves around leveraging molecular glues to reprogram cancer drivers and trigger apoptosis. With a strong background in immuno-oncology, antibody engineering, and small molecule therapeutics, Dr. Wang has made significant contributions to targeted cancer therapies. Her interdisciplinary collaborations, notably with Dr. Nathanael Gray’s group, have explored the role of transcription factor complex-inducing compounds (TCIPs) in MLL-rearranged leukemia. Dr. Wang brings a rich international research experience from China and the U.S., with a career spanning translational medicine, biotechnology innovation, and academic excellence. She is known for her rigorous approach to scientific inquiry, collaborative spirit, and prolific publication record. Her passion for understanding and overcoming the mechanisms of cancer resistance positions her as a future leader in oncology drug development and precision medicine.

Publication Profile: 

Scopus

✅ Strengths for the Award:

  1. Outstanding Research Focus
    Dr. Wang’s work on molecular glues and transcription factor modulators represents cutting-edge approaches in cancer therapy, especially in targeting previously undruggable pathways.

  2. High Impact Publications
    With multiple first-author and co-corresponding author papers (e.g., J Immunol Methods 2025, Leukemia & Lymphoma 2020, Clin Pharmacol Ther 2021), Dr. Wang has demonstrated a strong track record in both fundamental and translational cancer research.

  3. Innovation & Translational Impact
    Her efforts in bispecific antibody engineering, IL-15 therapeutics, and AKR1C3-targeted prodrugs show clear applications in oncology drug development, bridging the lab and clinic.

  4. Prestigious Collaborations
    Collaborating with renowned researchers such as Dr. Gerald Crabtree and Dr. Nathanael Gray at Stanford indicates high confidence and integration in world-class research circles.

  5. Recognition & Awards
    She has received the Coxe Fellowship at Stanford and multiple merit-based scholarships, highlighting academic excellence and innovation.

  6. Leadership and Multidisciplinary Skills
    Dr. Wang has led several projects, authored high-level papers, and mentored junior researchers, showcasing both technical and leadership capability.

🔄 Areas for Improvement:

  1. Greater International Presentation Exposure
    Although she has strong publication credentials, more visibility through international oral presentations, keynote addresses, or panel roles would amplify her leadership profile.

  2. Independent Grant Record
    While she is currently in a postdoctoral role, seeking independent funding (e.g., K99/R00, early-career PI grants) would position her more competitively for independent investigator status.

  3. Patent or Commercial Translation
    Given the translational nature of her work, pursuit of intellectual property filings or biotech partnerships would further highlight impact.

🎓 Education:

Dr. Yanlan Wang began her academic journey at Xiangya School of Medicine, Central South University, where she earned her MBBS (M.D. equivalent) in June 2012. She continued at The Second Xiangya Hospital for her clinical residency, completing her M.S. in June 2015. Her pursuit of scientific excellence led her to earn a doctorate (M.D. equivalent to PhD) from Sun Yat-sen University in June 2018, with a research focus on microbial immunology and tumor biology. This diverse educational background gave her a solid foundation in both clinical medicine and biomedical research, allowing her to bridge translational gaps in cancer research. Her early training emphasized immunotherapy, molecular biology, and oncology, all of which paved the way for her postdoctoral work in cutting-edge labs. Her education reflects a consistent upward trajectory, marked by prestigious institutions, interdisciplinary training, and a seamless integration of clinical and scientific disciplines.

🔬 Experience:

Dr. Yanlan Wang is currently a postdoctoral research fellow in Dr. Gerald Crabtree’s lab at Stanford University, where she focuses on manipulating cancer cell pathways using molecular glues. Her prior research in China included pivotal roles in biotechnology innovation, including bispecific antibody engineering, prodrug design, and immune-oncology drug development. She has also collaborated extensively with Dr. Nathanael Gray’s lab at Stanford, exploring the therapeutic potential of TCIPs in leukemia. Dr. Wang’s hands-on experience includes multiplex screening platforms, flow cytometry, in vivo tumor models, and translational immunotherapy development. Over the years, she has taken leadership roles in preclinical projects, manuscript authorship, and international scientific presentations. Her diverse roles—from clinical residency to laboratory innovation—reflect her capability to translate complex scientific findings into therapeutic strategies. Dr. Wang has also mentored junior researchers and worked across multiple disciplines, underscoring her adaptability, leadership potential, and deep commitment to cancer research.

🏅 Awards and Honors:

Dr. Yanlan Wang’s excellence has been recognized through several prestigious awards. At Stanford, she received the Coxe Fellowship in 2021, honoring outstanding postdoctoral researchers. During her doctoral training, she earned the Special Award of Merit for the BJ-001 Project at BJ Bioscience Inc. in 2019 for her impactful translational research. Her academic merit was consistently acknowledged through the Bidi Scholarship (2016–2017) and Daxiang Scholarship (2015–2016) at Sun Yat-sen University. These honors underscore her commitment to scientific excellence, innovation, and translational impact in oncology and immunotherapy. Her ability to receive awards across both academic and industrial settings highlights her versatility and the real-world relevance of her work. These distinctions serve as a testament to her leadership in cancer drug development, collaborative effectiveness, and contribution to next-generation therapeutic discoveries.

🔍 Research Focus:

Dr. Yanlan Wang’s research lies at the intersection of cancer biology, molecular pharmacology, and immunotherapy. At Stanford, she investigates how molecular glues can be used to hijack cancer drivers and activate apoptosis, offering a novel route for targeted cancer therapies. Her work involves multiplex molecular glue screening, understanding protein degradation pathways, and designing synthetic lethality strategies. In collaboration with Dr. Nathanael Gray, she is also studying Transcription factor Complex-Inducing Compounds (TCIPs) for the treatment of MLL-rearranged leukemia, a particularly aggressive form of blood cancer. Prior to this, her research focused on bispecific antibodies, prodrugs, and IL-15 based immunotherapeutics, with a vision to decouple efficacy from toxicity. Through a blend of basic science and translational applications, she aims to rewire oncogenic signaling pathways and enhance anti-tumor immunity. Her research combines drug discovery, systems biology, and precision oncology, pushing the boundaries of targeted cancer treatment.

📚 Publications Top Notes:

  1. 🔬 Quantitative flow cytometry using quantitative streptavidin-protein G-biotin beads (qBeads)J Immunol Methods, 2025

  2. 🧬 A Bivalent Molecular Glue Linking Lysine Acetyltransferases to Oncogene-directed Cell DeathCell (revising)

  3. 💉 Enhance IL15 anti-tumor efficacy by inhibiting its negative feedback mechanism(in preparation)

  4. ⚛️ Decouple the toxicity and efficacy of BJ-001, an integrin targeting IL-15AACR Abstract, 2019

  5. 🔄 Decoupling the toxicity and efficacy of immunotherapeuticsSITC Abstract, 2019

  6. 🧪 An AKR1C3-specific prodrug with potent anti-tumor activities against T-ALLLeukemia & Lymphoma, 2020

  7. 🧫 A novel AKR1C3 specific prodrug TH3424 with potent anti-tumor activity in liver cancerClin Pharmacol Ther, 2021

  8. 🧲 A GPC3-targeting Bispecific Antibody, GPC3-S-Fab, with Potent CytotoxicityJ Vis Exp, 2018

  9. 🧠 Identification of anti-CD16a single domain antibodies and their application in bispecific antibodiesCancer Biol Ther, 2020

  10. 🧿 Bp-Bs, a novel T-cell engaging bispecific antibody with biparatopic Her2 bindingMol Ther Oncolytics, 2019

  11. 🧰 A novel multi-functional anti-CEA-IL15 molecule displays potent anti-tumor activitiesDrug Des Devel Ther, 2018

  12. 🧠 A single domain based anti-Her2 antibody has potent anti-tumor activitiesTransl Oncol, 2018

🧾 Conclusion:

Dr. Yanlan Wang is highly deserving of the Best Researcher Award. Her contributions to cancer therapeutics through novel molecular approaches, her collaborations with globally renowned labs, and her publication record reflect a researcher of exceptional caliber and promise. With a deep understanding of tumor biology, a commitment to innovation, and a growing leadership presence in oncology research, she is not only suitable for the award but stands as a strong role model for future biomedical researchers.

Pavan Kumar | Cancer Cell Biology | Best Researcher Award

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Assist. Prof. Dr. Pavan Kumar | Cancer Cell Biology | Best Researcher Award

Assist. Prof. Dr. Pavan Kumar , Faculty of Engineering and Technology (FEAT), Datta Meghe Institute of Higher Education and Research (DMIHER), DU, India

Dr. Pavan Kumar is an Assistant Professor at the Faculty of Engineering and Technology (FEAT), Datta Meghe Institute of Higher Education and Research (DMIHER), DU, India. With a Ph.D. from the prestigious Indian Institute of Technology (IIT) Kanpur, Dr. Kumar has made significant contributions to biomedical research, focusing on head and neck cancer detection. His research integrates spectroscopic and imaging devices for non-invasive detection of oral and throat cancers. Dr. Kumar has published 8 journal articles and has contributed to two books. He is well-versed in applying machine learning tools, including PCA, LDA, SVM, and others, to improve cancer diagnosis. His work also involves developing portable devices for in-vivo testing. Dr. Kumar is dedicated to bridging the gap between technology and healthcare, demonstrating excellence in both research and teaching.

Publication Profile:

Orcid

Strengths for the Award:

Dr. Pavan Kumar’s work in the field of head and neck cancer detection using innovative bio-photonics techniques is exemplary. His research focuses on non-invasive diagnostic methods, such as fluorescence spectroscopy, Stokes shift, and diffuse reflectance spectroscopy, which have significant potential in clinical applications for early cancer detection. He has developed portable, handheld devices for in-vivo testing of oral cancers, showcasing his innovation in medical technology. Dr. Kumar’s expertise in machine learning tools like PCA, LDA, and SVM for data classification demonstrates his ability to integrate advanced computational techniques into medical diagnostics. Additionally, his publication record, with 8 journal articles and several book chapters, reflects his dedication to advancing the field. Dr. Kumar has also collaborated with various researchers, further enhancing the depth of his work.

Areas for Improvement:

While Dr. Kumar’s research is highly focused and innovative, expanding his collaborations to include larger multidisciplinary teams or industry partnerships could provide additional avenues for technology transfer and real-world applications. Increasing the scope of his work to include other cancer types or medical conditions could broaden the impact of his research. Furthermore, engaging in more professional memberships and editorial roles could increase his visibility and influence within the global research community.

Education:

Dr. Pavan Kumar completed his Ph.D. in Biomedical Engineering from the Indian Institute of Technology (IIT) Kanpur in 2020. His doctoral research was focused on the development of spectroscopic and imaging techniques for the detection of head and neck cancer. Prior to his Ph.D., he completed a Master’s degree in Biomedical Engineering, gaining a solid foundation in both theoretical and practical aspects of medical technology. His academic journey also includes a postdoctoral position in the Department of Biomedical Engineering at IIT Ropar, where he continued to expand his expertise in the field of bio-photonics and cancer detection. Dr. Kumar’s educational background provided him with the tools to develop innovative methods in cancer diagnosis using fluorescence spectroscopy, Stokes shift, and diffuse reflectance techniques. His education laid the foundation for a career marked by both academic and research excellence.

Experience:

Dr. Pavan Kumar has over five years of experience in academic research, teaching, and development of diagnostic devices. After completing his Ph.D. from IIT Kanpur, Dr. Kumar worked as a postdoctoral fellow at IIT Ropar (January 2020 to January 2021) in the Department of Biomedical Engineering. During this period, he focused on cancer detection using advanced spectroscopic and imaging techniques. Since then, Dr. Kumar has been an active faculty member at the Faculty of Engineering and Technology (FEAT), Datta Meghe Institute of Higher Education and Research (DMIHER), DU, where he teaches medical physics and coordinates project-based learning initiatives. His work combines cutting-edge technology with practical applications, such as in-vivo cancer detection using handheld devices. Dr. Kumar has published extensively in peer-reviewed journals, with his work focused on applying machine learning models to improve diagnostic accuracy. His contributions have significantly advanced the fields of biomedical engineering and bio-photonics.

Research Focus:

Dr. Pavan Kumar’s primary research focus lies in the development of advanced spectroscopic and imaging techniques for the early detection of head and neck cancers. Specifically, he has concentrated on fluorescence spectroscopy, Stokes shift (SS), and diffuse reflectance (DR) as non-invasive tools for diagnosing oral and throat cancers. His work includes the development of handheld, portable devices that use fluorescence for in-vivo testing of oral mucosal lesions. Dr. Kumar’s research also integrates machine learning algorithms, such as Principal Component Analysis (PCA), Linear Discriminant Analysis (LDA), and Support Vector Machines (SVM), to classify different stages of cancer and enhance diagnostic precision. Additionally, his exploration of human saliva as a diagnostic medium for cancer detection demonstrates his commitment to innovative, cost-effective solutions in healthcare. Through his interdisciplinary research, Dr. Kumar is pushing the boundaries of bio-photonics to provide accessible and accurate diagnostic tools for cancer detection.

Publications Top Notes:

  1. Detection of Oral Mucosal Lesions by Fluorescence Spectroscopy and Classification of Cancerous Stages by Support Vector Machine – Lasers in Medical Science (2024) 🔬📊

  2. Human Saliva as a Substitute Diagnostic Medium for the Detection of Oral Lesions Using Stokes Shift Spectroscopy – Asian Pacific Journal of Cancer Prevention (2023) 💧🦷

  3. In-vivo Testing of Oral Mucosal Lesions with an In-house Developed Portable Imaging Device and Comparison with Spectroscopy Results – Journal of Fluorescence (2023) 💡🔍

  4. Detection of Oral Cancer Using Fluorescence Spectroscopy and Classification of Different Stages of Cancer by Multivariate Analysis – ICETEMS Conference (2022) 🦷📉

  5. Fluorescence-Based Handheld Imaging Device for In-vivo Detection of Oral Precancer – Optics InfoBase (2021) 💡🖥️

  6. Porphyrin as a Biomarker for the Detection of COVID-19 Using Fluorescence Spectroscopy and Human Body Fluid Saliva – Applied Research Development (2021) 🦠🧪

  7. Fluorescence-Based Handheld Imaging Device for In-vivo Detection of Oral Precancer – Translational Biophotonics (2021) 💡📱

  8. Detection of Inaccessible Head and Neck Lesions Using Human Saliva and Fluorescence Spectroscopy – Lasers in Medical Science (2021) 👄🔬

  9. Human Tissue and Saliva as Diagnostic Media for Detection of Oral Cancer Using Stokes Shift Spectroscopy – Asian Journal of Physics (2020) 🔬🧪

  10. In Vivo Detection of Oral Precancer Using a Fluorescence-Based, In-House-Fabricated Device – Lasers in Medical Science (2019) 🦷💡

Conclusion:

Dr. Pavan Kumar is undoubtedly a highly deserving candidate for the Research for Best Researcher Award. His contributions to cancer detection, especially in head and neck cancers, using spectroscopy and machine learning, have the potential to revolutionize diagnostic methods. His innovative approach to bio-photonics and commitment to advancing medical technology make him an outstanding researcher in his field. With continued growth in collaboration and outreach, Dr. Kumar’s work has the potential to make a profound impact on global healthcare.