Lijuan Deng | Molecular Mechanisms Signaling | Molecular Cell Biology Award

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Mrs. Lijuan Deng | Molecular Mechanisms Signaling | Molecular Cell Biology Award

Mrs. Lijuan Deng , Zhongshan Institute for Drug Discovery , China

Lijuan Deng is a passionate graduate student researcher at the Zhongshan Institute for Drug Discovery in China, specializing in the molecular mechanisms underlying metabolic diseases. Her scientific curiosity centers on gene regulation, signaling pathways, and metabolic dysregulation in disease progression, particularly metabolic-associated fatty liver disease (MASLD). Her translational approach blends experimental models and bioinformatics to bridge basic science and therapeutic innovation. Lijuan has already co-authored a publication in The FASEB Journal, identifying CDKN1A as a key regulator in MASLD. She is also the inventor of a patent-pending technique for nascent RNA labeling in extracellular vesicles. Through collaborations with clinical researchers and a solid foundation in molecular biology techniques, she is positioning herself as a rising talent in cell biology. Her work promises to advance understanding and treatment of metabolic diseases.

Publication Profile:

Orcid

✅ Strengths for the Award:

  1. Innovative Research: Lijuan Deng has significantly contributed to the understanding of MASLD (Metabolic-Associated Steatotic Liver Disease) by identifying CDKN1A as a key regulatory gene through integrated transcriptomic analysis and experimental validation.

  2. Translational Focus: Her research bridges molecular biology and clinical application, enhancing its impact in drug discovery and disease diagnostics.

  3. Publication Record: She is the first author of a peer-reviewed article published in The FASEB Journal (SCI-indexed), showcasing her ability to conduct and communicate high-quality research.

  4. Patent Innovation: She holds a pending patent for a novel method involving nascent RNA labeling in extracellular vesicles, showing her drive toward technological advancement and biomedical innovation.

  5. Collaborative Approach: Active collaboration with the Department of Endocrinology at Shenzhen Second People’s Hospital reflects strong interdisciplinary and clinical integration.

🧩 Areas for Improvement:

  1. Expanded Publication Portfolio: Increasing the number of peer-reviewed articles will strengthen her academic visibility and impact.

  2. Professional Networking: Engagement in international cell biology societies or conferences and obtaining professional memberships can support broader recognition and growth.

  3. Editorial/Leadership Roles: Participation in editorial boards, review panels, or student leadership roles can enrich her professional development profile.

🎓 Education:

Lijuan Deng is currently pursuing her graduate studies in molecular biology at the Zhongshan Institute for Drug Discovery, where she focuses on translational biomedical research. Her academic foundation includes advanced coursework in biochemistry, molecular genetics, and cellular signaling. Through structured academic training, she has acquired proficiency in modern laboratory methods, including RNA sequencing, qPCR, western blotting, and exosome analysis. Her education emphasizes critical thinking and scientific rigor, enabling her to design experiments, analyze data, and interpret biological outcomes. She regularly participates in academic seminars, journal clubs, and collaborative workshops to refine her scientific acumen. Her thesis research is centered around identifying novel molecular targets in MASLD, a field gaining global relevance. Lijuan’s education is not only shaping her technical capabilities but also nurturing her ambition to contribute to impactful, real-world medical solutions through cell biology research.

💼 Experience:

Lijuan Deng has gained extensive laboratory experience as a graduate student researcher at the Zhongshan Institute for Drug Discovery. Her hands-on work includes both cellular and animal models, with a strong focus on metabolic disease mechanisms. She played a key role in identifying CDKN1A as a potential MASLD progression factor, combining transcriptomic data analysis with molecular validation. Additionally, she has worked on exosome-based biomarker discovery and developed a patent-pending method for nascent RNA labeling. She collaborates with the Department of Endocrinology at Shenzhen Second People’s Hospital, providing a clinical dimension to her work. Though early in her career, her contributions to translational research are already making an impact. She is skilled in molecular biology, gene expression profiling, and therapeutic target screening. Her research experience has been shaped by interdisciplinary collaboration, scientific publications, and the ambition to innovate within the field of molecular cell biology.

🧬 Research Focus:

Lijuan Deng’s research is primarily focused on the molecular underpinnings of metabolic-associated fatty liver disease (MASLD), a key manifestation of metabolic syndrome. She investigates how dysregulated genes, signaling networks, and lipid metabolism contribute to disease initiation and progression. A major highlight of her work is identifying CDKN1A as a potential risk factor in MASLD using integrated bioinformatics and experimental techniques. Additionally, she explores the utility of extracellular vesicles as carriers of diagnostic biomarkers and therapeutic molecules. Her patent-pending work involves a novel method for labeling nascent RNA within exosomes, opening possibilities for tracking dynamic RNA communication in disease contexts. Her research strategy merges molecular biology with disease modeling, aiming to bridge laboratory discoveries with potential therapeutic strategies. Through strong collaborations and a translational research outlook, Lijuan is dedicated to uncovering actionable insights that can inform drug development for complex metabolic disorders.

📚 Publications Top Notes:

  • 🧾 “Identification of CDKN1A as a potential key risk factor in MASLD progression.”The FASEB Journal, 2025. DOI: 10.1096/fj.202402942R

🧾 Conclusion:

Lijuan Deng stands out as an emerging researcher with strong foundations in molecular cell biology and a clear orientation toward translational science. Her innovative work in MASLD, combined with an SCI publication and a pending patent, make her a highly suitable and promising candidate for the Molecular Cell Biology Award. While she is in the early stages of her career, her achievements thus far indicate substantial potential for future contributions to the field.

Alma Burlingame | Molecular Mechanisms Signaling | Best Researcher Award

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Prof. Alma Burlingame | Molecular Mechanisms Signaling | Best Researcher Award

Prof. Alma Burlingame , UCSF , United States

Alma L. Burlingame is a distinguished Professor of Chemistry and Pharmaceutical Chemistry at the University of California, San Francisco. She has over five decades of experience in the fields of mass spectrometry, proteomics, and systems biology. With expertise in the identification and study of unknown proteins and post-translational modifications like phosphorylation, acetylation, and glycosylation, her work has contributed significantly to understanding protein dynamics. Dr. Burlingame has been a pioneer in proximity-biotin labeling for protein complex discovery and has earned widespread recognition for her interdisciplinary contributions to molecular biology and chemistry. Her long-standing collaboration with various international research institutions has fostered advancements in protein interaction and cellular signaling pathways, marking her as a leader in her field.

Publication Profile:

Scopus

Strengths for the Award:

  1. Innovative Contributions: Dr. Burlingame has made significant contributions to mass spectrometry, proteomics, and systems biology, especially in the development of new methodologies for protein analysis and post-translational modifications. Her work in identifying and studying unknown proteins and their modifications has broadened the scope of proteomics.

  2. Multidisciplinary Expertise: Her expertise spans across various fields including chemistry, physics, biological sciences, and medicine, demonstrating her versatility and depth of knowledge in complex scientific issues.

  3. Impact on the Scientific Community: Through her extensive publication record and influential research, Dr. Burlingame has advanced our understanding of protein dynamics, cell signaling, and the role of glycosylation and phosphorylation in health and disease.

  4. Leadership and Mentorship: Dr. Burlingame’s leadership roles, particularly as a co-chair of major international symposia, reflect her stature in the scientific community. Additionally, her mentorship of students and postdocs has helped shape the next generation of scientists in proteomics and systems biology.

Areas for Improvement:

  1. Broader Collaboration with Clinical Applications: While Dr. Burlingame’s research is foundational in proteomics, further expansion of collaborative work with clinical researchers could enhance the practical application of her discoveries, particularly in disease diagnosis and therapeutics.

  2. Public Outreach: Given the complexity of her research, efforts to communicate her findings to broader audiences could help bridge the gap between academic research and public understanding of the significance of proteomics in health.

Education:

Dr. Burlingame earned her Bachelor of Science degree from the University of Rhode Island in 1959. She went on to complete her PhD in Chemistry and Physics at the Massachusetts Institute of Technology (MIT) in 1962. She further honed her scientific expertise as a Guggenheim Fellow at the Karolinska Institute in Stockholm, Sweden, in 1972, specializing in Physiological Chemistry. Over the years, Dr. Burlingame has continued to advance her education, conducting cutting-edge research in the realms of mass spectrometry, proteomics, and the study of post-translational modifications. Her rigorous academic background, combined with her groundbreaking work, has made her a respected figure in biochemistry and molecular biology.

Experience:

Dr. Burlingame has held several prominent positions throughout her distinguished career. She currently serves as a Professor of Chemistry and Pharmaceutical Chemistry at the University of California, San Francisco. She has also held significant roles such as a University Fellow at Hong Kong Baptist University and Professor of Biochemistry at University College London. Dr. Burlingame has been recognized by the American Association for the Advancement of Science and has been an elected Fellow since 1990. Her professional journey includes visiting professorships at leading institutions such as the Ludwig Institute for Cancer Research. Additionally, she has co-chaired major international symposia on mass spectrometry, enhancing her reputation in the global scientific community. Her leadership and influence in research have made her a pivotal figure in mass spectrometry and proteomics.

Awards and Honors:

Dr. Burlingame has earned numerous prestigious honors throughout her career. In 2018, she was awarded the Albert Nelson Marquis Lifetime Achievement Award for her long-standing contributions to scientific research. She was named a Fellow of the American Society of Biochemistry and Molecular Biology in 2022. Her significant achievements were further recognized when she received the MCP Lectureship Plenary Award at the Society for Glycobiology in 2013. Additionally, she was honored with the Achievement Award from the International Forum of Proteomics in 2012 for her impactful work in proteomics. Her longstanding contributions to the field of mass spectrometry have made her an internationally respected leader, and she continues to inspire future generations of scientists.

Research Focus:

Dr. Burlingame’s research focuses on mass spectrometry, proteomics, and systems biology, with a specific emphasis on protein sequencing, identification, and the dynamics of post-translational modifications (PTMs). She has made significant contributions to understanding the site-specific dynamics of PTMs like phosphorylation, acetylation, and glycosylation, and their roles in cell signaling and differentiation. Her group is particularly known for its work in proximity-biotin labeling, a technique used for protein complex discovery and interactomics. She has also studied the dynamic nature of proteins involved in cellular processes such as protein synthesis, cell signaling, and differentiation. By studying how PTMs influence cellular functions, Dr. Burlingame’s work helps to uncover mechanisms underlying diseases like cancer and neurological disorders. Her innovative approaches in mass spectrometry and proteomics continue to influence the understanding of complex biological systems.

Publications Top Notes:

  1. Revealing nascent proteomics in signaling pathways and cell differentiation 🧬🔬

  2. Locally translated mTOR controls axonal local translation in nerve injury 🧠💥

  3. Mapping axon initial segment structure and function by multiplexed proximity biotinylation 🧬⚡

  4. Capture, release, and identification of newly synthesized proteins for improved profiling of functional translatomes 🔍🔬

  5. Endothelial-secreted Endocan activates PDGFRA and regulates vascularity and spatial phenotype in glioblastoma 💉🧠

  6. Functional screen identifies RBM42 as a mediator of oncogenic mRNA translation specificity 🧬🔍

  7. Phosphorylation-driven epichaperome assembly is a regulator of cellular adaptability and proliferation 🔑🧬

  8. TRIM46 Is Required for Microtubule Fasciculation In Vivo But Not Axon Specification or Axon Initial Segment Formation 🧠⚙️

  9. RAPIDASH: Tag-free enrichment of ribosome-associated proteins reveals composition dynamics in embryonic tissue, cancer cells, and macrophages 🧬📊

  10. Remodelling of the translatome controls diet and its impact on tumorigenesis 🥗🎯

Conclusion:

Dr. Alma Burlingame is undoubtedly a leading figure in the fields of mass spectrometry and proteomics. Her innovative research, mentorship, and contributions to the understanding of protein modifications and their implications for health make her a highly deserving candidate for the Best Researcher Award. Her work has had a profound and lasting impact on molecular biology, and she continues to be a driving force in scientific discovery.