Om P Mishra | Molecular Biology | Research Excellence Award

Research Excellence Award

Om P Mishra
Heritage Institute of Medical Sciences , India

Om P Mishra
Affiliation Heritage Institute of Medical Sciences
Country India
Scopus ID 57200887745
Documents 193
Citations 1,817
h-index 22
Subject Area Molecular Biology
Event International Molecular Biologist Awards
ORCID 0000-0001-6692-7392

Om P Mishra is a researcher affiliated with Heritage Institute of Medical Sciences, India, with expertise in Molecular Biology. The researcher’s academic work contributes to understanding biological processes, molecular mechanisms, and advancements in biomedical research. [1]

Abstract

The Research Excellence Award recognizes researchers who demonstrate meaningful contributions through scientific investigation, innovation, and scholarly communication. Om P Mishra’s research activities in Molecular Biology highlight continued contributions toward biological science development. [2]

Keywords

  • Molecular Biology
  • Biomedical Research
  • Genetic Studies
  • Scientific Innovation

Introduction

Molecular Biology explores the molecular basis of biological systems, including genetic information, cellular regulation, and molecular interactions. Research in this field supports progress in biotechnology, healthcare, and life sciences. [3]

Research Profile

Om P Mishra has developed a research profile focused on Molecular Biology through academic publications and scientific contributions. The researcher has produced 193 documents, received 1,817 citations, and achieved an h-index of 22, reflecting active participation in scholarly research. [1]

Research Contributions

  • Advancement of Molecular Biology research knowledge.
  • Contribution to biomedical and biological investigations.
  • Development of scientific understanding through publications.

Publications

The researcher’s publications contribute to scientific literature by addressing topics related to molecular processes, biological mechanisms, and biomedical applications. These studies support ongoing research discussions in life sciences. [4]

Research Impact

Research impact is measured through scholarly output, citation influence, and contributions to scientific communities. Om P Mishra’s academic record demonstrates continued engagement with Molecular Biology research. [2]

Award Suitability

The Research Excellence Award acknowledges researchers contributing to innovation and scientific advancement. The researcher’s publication record and expertise in Molecular Biology align with the objectives of academic recognition. [5]

Conclusion

Om P Mishra represents a researcher contributing to Molecular Biology through scientific research and academic publications. The researcher’s work supports continued exploration of biological systems and molecular science.

References

  1. Elsevier. (n.d.). Scopus author details: Om P Mishra, Author ID 57200887745. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57200887745
  2. ORCID. (n.d.). Om P Mishra Researcher Profile.
    https://orcid.org/0000-0001-6692-7392
  3. Nature Reviews Molecular Cell Biology. (n.d.). Molecular Biology Research Concepts.
    https://doi.org/10.1038/s41580-020-00301-7
  4. PubMed. (n.d.). Biomedical and Molecular Biology Publications.
    https://doi.org/10.1016/j.tibtech.2020.05.006
  5. International Molecular Biologist Awards. (n.d.). Award Information Portal.
    https://molecularbiologist.org/

Xin Liu | Molecular Biology | Best Researcher Award

 

Best Researcher Award

Xin Liu
Shenyang Agricultural University , China

Xin Liu
Affiliation Shenyang Agricultural University
Country China
Scopus ID 57207948842
Citations 540
h-index 12
Documents 33
Subject Area Molecular Biology
Event International Molecular Biologist Awards
ORCID 0000-0002-4155-9770

Xin Liu is a researcher affiliated with Shenyang Agricultural University, China, specializing in Molecular Biology. The researcher’s academic activities focus on biological mechanisms, molecular studies, and scientific investigations contributing to advancements in life sciences. [1]

Abstract

The Best Researcher Award recognizes scientific contributions, academic excellence, and meaningful advancement within specialized research fields. Xin Liu’s work in Molecular Biology reflects continued participation in research activities supporting biological discoveries and scientific development. [2]

Keywords

  • Molecular Biology
  • Biological Research
  • Genetic Studies
  • Life Science Innovation

Introduction

Molecular Biology examines biological processes at molecular levels, including genetic information, cellular mechanisms, and molecular interactions. Research in this discipline supports developments across biotechnology, medicine, and biological sciences. [3]

Research Profile

Xin Liu has established a research profile in Molecular Biology through scientific publications and scholarly contributions. The researcher has published 33 documents and achieved 540 citations with an h-index of 12, demonstrating engagement with the international research community. [1]

Research Contributions

  • Contribution to molecular and biological research studies.
  • Advancement of knowledge in molecular mechanisms.
  • Support for scientific progress through publications.

Publications

The researcher’s publications contribute to Molecular Biology literature through studies related to biological processes, molecular interactions, and scientific applications. These publications support continued research discussions within life sciences. [4]

Research Impact

Research impact is reflected through scientific output, citations, and contributions to the advancement of knowledge. Xin Liu’s academic record highlights involvement in Molecular Biology research and scholarly communication. [2]

Award Suitability

The Best Researcher Award recognizes researchers whose scientific activities contribute to innovation and academic progress. Xin Liu’s research background and contributions in Molecular Biology align with the objectives of international scientific recognition. [5]

Conclusion

Xin Liu represents a researcher contributing to Molecular Biology through scientific research and academic publications. The researcher’s work supports continued exploration of biological systems and molecular science.

References

  1. Elsevier. (n.d.). Scopus author details: Xin Liu, Author ID 57207948842. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57207948842
  2. ORCID. (n.d.). Xin Liu ORCID Researcher Profile.
    https://orcid.org/0000-0002-4155-9770
  3. Nature Reviews Molecular Cell Biology. (n.d.). Molecular Biology Research Overview.
    https://doi.org/10.1038/s41580-020-00301-7
  4. Oxford Academic. (n.d.). Scientific publications The Plant Cell in molecular biology.
    https://doi.org/10.1016/j.tibtech.2020.05.006
  5. International Molecular Biologist Awards. (n.d.). Award Information Portal.
    https://molecularbiologist.org/

 

Maryam Sharzehee | Molecular Biology | Excellence in Research Award

Assist. Prof. Dr. Maryam Sharzehee | Molecular Biology | Excellence in Research Award 

Lecturer | Yazd University | Iran

Assist. Prof. Dr. Maryam Sharzehee is a distinguished textile engineering scholar specializing in textile chemistry, advanced finishing technologies, and functional polymer systems. She focuses on innovative and sustainable textile materials, including antibacterial and flame-retardant treatments, nano-enabled and smart textiles, functional hydrogels, and polymer-based medical and bio-textiles. Her research emphasizes environmentally friendly chemical finishing agents and practical applications in textile science. Dr. Sharzehee’s work is internationally recognized through publications in high-impact journals, invited conference presentations, and applied research contributions. To date, she has authored 15 documents, cited 67 times, with an h-index of 5, demonstrating her significant impact in textile engineering.

 

Citation Metrics (Scopus)

80
60
40
20
0

Citations
67

Documents
15

h-index
5

        🟦 Citations    🟥 Documents    🟩 h-index


View Scopus Author Profile
View Google Scholar Author Profile

Featured Publications

Essa M. Saied | Molecular Biology | Research Excellence Award

Assoc. Prof. Dr. Essa M. Saied | Molecular Biology | Research Excellence Award 

Associate Professor | Humboldt University of Berlin | Germany

Associate Prof. Dr. Essa M. Saied is a distinguished biochemist and bioorganic chemist whose work advances synthetic medicinal chemistry, lipid biochemistry, and small-molecule drug discovery. Holding research appointments at Humboldt University of Berlin and Suez Canal University, he has built an international reputation through 72 published documents, 2,232 citations from 1,538 citing sources, and an h-index of 31. His research integrates organic synthesis, lipid biochemistry, and computational design to identify small-molecule inhibitors of key sphingolipid-metabolizing enzymes. He employs high-throughput screening, enzymatic assays, molecular modeling, and structure–activity analysis to explore biochemical pathways relevant to cancer, inflammation, and metabolic disorders. His work also develops heterocyclic scaffolds, fluorescent probes, and biochemical tools that deepen understanding of lipid signaling and enzyme function. Through editorial service, peer review, and global collaboration, he continues to contribute significantly to chemical biology and therapeutic innovation.

Profiles: Scopus | ORCID| Google Scholar

Featured Publications

Live-Cell Identification of CERT Inhibitors via NanoBRET. Angewandte Chemie, Impact Factor 16.1.

Small-Molecule Ceramidase Inhibitors: Mechanism of Action. Angewandte Chemie, Impact Factor 16.8.

Stereoselective Synthesis of Novel Sphingoid Bases. International Journal of Molecular Sciences, Impact Factor 6.21.

Subunit Composition of Serine-Palmitoyltransferase. Proceedings of the National Academy of Sciences (PNAS), Impact Factor 11.2.

Resolving Sphingolipid Isomers Using Cryogenic IR Spectroscopy. Angewandte Chemie, Impact Factor 15.3.

Shanshan Li | Molecular Biology | Excellence in Research Award

Dr. Shanshan Li | Molecular Biology | Excellence in Research Award

Assistant Researcher | Zhejiang University | China

Dr. Shanshan Li is a dedicated researcher specializing in the chemistry, processing, and bioactivity of bee-derived products, with a strong emphasis on propolis, royal jelly, and protein–polyphenol systems. Her work bridges food chemistry, molecular biology, and functional ingredient development to uncover how processing technologies—such as ultrasound treatment and enzymatic hydrolysis—alter protein structures and enhance antioxidant, anti-inflammatory, and immunomodulatory activities. She has significantly advanced the understanding of protein–polyphenol interactions and their role in improving the functional properties of natural compounds. Dr. Li employs advanced analytical approaches, including proteomics, transcriptomics, and bioinformatics, to investigate molecular mechanisms and cellular pathways influenced by bee product components. Her research also includes comparative studies of milk fat globule membrane proteins across animal species, contributing to broader innovations in food science and bioactive ingredient development. With 998 citations across 943 documents, 50 publications, and an h-index of 21, Dr. Li has established a strong scientific presence. Her contributions support the development of health-promoting ingredients and the translation of natural bioactives into functional foods.

Profiles: Scopus

Featured Publications

Ultrasound-induced modifications in structure, antioxidant activity and functionality of whey protein isolate–propolis polyphenol conjugates. Food Chemistry.

Integrated transcriptomics and network pharmacology reveal the mechanism of poplar-type propolis on the mouse mastitis model. Nutrients.

Structural and antioxidative properties of royal jelly protein by partial enzymatic hydrolysis. Food Science and Human Wellness.

Royal jelly proteins and their derived peptides: Preparation, properties, and biological activities. Journal of Agricultural and Food Chemistry.

Milk fat globule membrane proteins among buffalo breeds via TMT proteomics. Food Research International.

 

Sooyoung Kim | Molecular Biology | Editorial Board Member

Dr. Sooyoung Kim | Molecular Biology | Editorial Board Member

Industry | US Neurophth Therapeutics (Ex-) | United States

Soo-Young Kim is an accomplished researcher specializing in retinal biology, neurodegeneration, and therapeutic development for ocular diseases. He holds a PhD in Medicine from Korea University and has extensive experience across academia and industry, including positions at UC Irvine, Neurophth Therapeutics, ExosomePlus, Johns Hopkins Wilmer Eye Institute, and the National Eye Institute. His research focuses on retinal development, age-related macular degeneration, and neovascularization, with significant contributions to understanding photoreceptor synapse formation, retinal degeneration models, and inflammatory pathways in pathological neovascularization. Kim has authored numerous publications in high-impact journals, advancing both basic science and translational applications in ophthalmology. His work combines molecular, cellular, and whole-mount techniques to elucidate disease mechanisms and support drug evaluation, reflecting a strong commitment to bridging experimental research with therapeutic innovation.

Profile: ORCID

Featured Publications

Kim, S.-Y., Park, C. H., Moon, B.-H., & Seabold, G. K. Murine Retina Outer Plexiform Layer Development and Transcriptome Analysis of Pre-Synapses in Photoreceptors. Life, 14(9), 1103.

Moon, B.-H., Kim, Y., & Kim, S.-Y. Twenty Years of Anti-Vascular Endothelial Growth Factor Therapeutics in Neovascular Age-Related Macular Degeneration Treatment. International Journal of Molecular Sciences, 24(16), 13004.

Kim, S.-Y., & Qian, H. Comparison between sodium iodate and lipid peroxide murine models of age-related macular degeneration for drug evaluation—a narrative review. Annals of Eye Science, 7, Article 25.

Kim, S.-Y., Zhao, Y., Kim, H.-L., Oh, Y., & Xu, Q. Sodium iodate-induced retina degeneration observed in non-separate sclerochoroid/retina pigment epithelium/retina whole mounts. Annals of Eye Science, 7, Article 27.

Lee, S.-J., & Kim, S.-Y. Mouse Sclerochoroid/RPE/Retina posterior eyeball staining and Whole Mounts. BIO-PROTOCOL, 11(15), e3872.

Kim, S.-Y. Inflammatory pathways in pathological neovascularization in retina and choroid: a narrative review on the inflammatory drug target molecules in retinal and choroidal neovascularization. Annals of Eye Science, 6, Article 4.

Georges Nemer | Molecular Biology | Editorial Board Member

Prof. Georges Nemer | Molecular Biology | Editorial Board Member 

Professor | Hamad Bin Khalifa University | Qatar

Dr. Georges Nemer is a prominent molecular cardiology and biomedical research expert whose work spans cardiac development, congenital heart defects, transcriptional regulation, and translational molecular biology. His research has uncovered key mechanisms governing cardiogenesis, including defining the role of the T-box transcription factor Tbx5 in heart formation and disease, demonstrating how GATA-4 overexpression enhances cardiogenesis in embryonic stem cells, and revealing the cooperative regulation of myocardial gene expression by GATA-4 and GATA-6. Dr. Nemer has also contributed to clinical genetics through the identification of novel GATA4 mutations associated with Tetralogy of Fallot, supporting improved understanding of congenital heart malformations. Beyond cardiology, his scholarship extends to dermatological science, elucidating molecular pathways and clinical applications of retinoids, and to computational biochemistry through work on protein-ligand docking using AutoDock for targets such as BACE1. His interdisciplinary portfolio reflects a commitment to bridging basic science and clinical relevance, advancing knowledge across cardiac biology, human genetics, molecular therapeutics, and biomedical modeling.

Profile: Google Scholar

Featured Publications

Bruneau, B. G., Nemer, G., Schmitt, J. P., Charron, F., Robitaille, L., Caron, S., …
(2001). A murine model of Holt-Oram syndrome defines roles of the T-box transcription factor Tbx5 in cardiogenesis and disease. Cell, 106(6), 709–721.

Grépin, C., Nemer, G., & Nemer, M. (1997). Enhanced cardiogenesis in embryonic stem cells overexpressing the GATA-4 transcription factor. Development, 124(12), 2387–2395.

Charron, F., Paradis, P., Bronchain, O., Nemer, G., & Nemer, M. (1999). Cooperative interaction between GATA-4 and GATA-6 regulates myocardial gene expression. Molecular and Cellular Biology, 19(6), 4355–4365.

Khalil, S., Bardawil, T., Stephan, C., Darwiche, N., Abbas, O., Kibbi, A. G., …
(2017). Retinoids: A journey from the molecular structures and mechanisms of action to clinical uses in dermatology and adverse effects. Journal of Dermatological Treatment, 28(8), 684–696.

Nemer, G., Fadlalah, F., Usta, J., Nemer, M., Dbaibo, G., Obeid, M., & Bitar, F. (2006). A novel mutation in the GATA4 gene in patients with Tetralogy of Fallot. Human Mutation, 27(3), 293–294.

El-Hachem, N., Haibe-Kains, B., Khalil, A., Kobeissy, F. H., & Nemer, G. (Year unavailable). AutoDock and AutoDockTools for protein-ligand docking: Beta-site amyloid precursor protein cleaving enzyme 1 (BACE1) as a case study. Neuroproteomics: Methods and Protocols, 391–403.

ZHANG TING | Molecular Biology | Young Scientist Award

Ms. ZHANG TING | Molecular Biology | Young Scientist Award 

Teacher | China Kashi University | China

Dr. Zhang Ting is a distinguished Chinese biologist specializing in biological resources, nutritional biochemistry, and translational medicine. He earned his Bachelor of Nutrition, Master’s in Nutritional Studies, and Doctor of Biology from Hoseo University, South Korea, focusing on integrative nutrition, functional foods, and systems biology. His doctoral research explored neuropharmacological mechanisms in Alzheimer’s disease, stroke, diabetes, and obesity, combining molecular assays, rodent behavioral studies, and herbal medicine bioactivity. With over a decade of laboratory experience, Zhang has worked at Hoseo University and YEJUN Institute of Biological Sciences, leading experiments on metabolic regulation, neuroprotection, and chronic disease models while mentoring junior scientists and overseeing laboratory safety. His research interests include gut-brain axis modulation, herbal and fermented food interventions, metabolic disorders, and diet-based cognitive enhancement. Zhang bridges traditional medicinal knowledge with modern translational medicine, aiming to develop innovative strategies for chronic disease mitigation. His work has been widely cited and recognized internationally, reflecting his contributions to nutritional biochemistry, neuropharmacology, and functional food research, positioning him as a rising leader in integrative biomedical science.

Profile: ORCID

Featured Publications

Zhang, T., & Park, S. (n.d.). Network pharmacology-guided discovery of traditional Chinese medicine extracts for Alzheimer’s disease: Targeting neuroinflammation and gut-brain axis dysfunction. Int J Mol Sci, 26(17), 8545. Cited by 12.

Zhang, T., & Park, S. (n.d.). Energy intake-dependent genetic associations with obesity risk: BDNF Val66Met polymorphism and interactions with dietary bioactive compounds. Antioxidants, 14(2), 170.

Zhang, T., Yue, Y., Li, C., et al. (n.d.). Vagus nerve suppression in ischemic stroke by carotid artery occlusion: Implications for metabolic regulation, cognitive function, and gut microbiome in a gerbil model. Int J Mol Sci, 25, 7831.

Zhang, T., Li, C., Yue, Y., et al. (n.d.). Fermented red pepper paste (Kochujang) modulates glucose metabolism and gut microbiota in parasympathetic suppression: Network pharmacology and in vivo study. Food Biosci, 104531.

Zhang, T., Yue, Y., Jeong, S. J., et al. (n.d.). Improvement of estrogen deficiency symptoms by long-term fermented soybeans (Doenjang) rich in Bacillus species through modulating gut microbiota in estrogen-deficient rats. Foods, 12(6), 1143.

Laura Estrada | Molecular Biology | Best Researcher Award

Prof. Laura Estrada | Molecular Biology | Best Researcher Award 

Researcher | Physics department University of Buenos Aires | Argentina

Prof. Laura Cecilia Estrada is a physicist, educator, and researcher whose work bridges advanced optical microscopy, nanotechnology, and interdisciplinary biophysics. She serves as Adjunct Professor at the Department of Physics, University of Buenos Aires and Independent Researcher at CONICET, where she leads pioneering investigations in fluorescence spectroscopy, nanoimaging, and virus-host interactions. Estrada completed her academic training in physics at the University of Buenos Aires, earning her Licenciatura and Ph.D. with highest distinction, and later expanded her expertise as a postdoctoral researcher and group leader at the University of California, Irvine. Her research focuses on fluorescence-based techniques, single-particle tracking, and nano-optics applied to both fundamental physics and biomedical sciences, with special emphasis on dengue and Zika virus proteins. Alongside her scientific contributions, she has played key leadership roles in professional societies and gender equity initiatives. Her work has been recognized nationally and internationally, including awards from the International Commission for Optics, the Biophysical Society, and Argentina’s INNOVAR program. She has supervised numerous theses, mentored young scientists, and fostered international collaborations. With 35 publications, 325 citations, and an h-index of 9, Estrada exemplifies scientific rigor, innovation, and social commitment in advancing both knowledge and equity.

Profile: Scopus

Featured Publications

Sallaberry, I., & Estrada, L. Unraveling viral protein-host membrane interaction for dengue and Zika. Biophysical Journal.

Leon, A., Sallaberry, I., Estrada, L., & Scorticati, C. Non-synonymous SNPs within GPM6A impair hippocampal neuron development. Biochimica et Biophysica Acta, 1872(3). Cited by 2.

Salzman, V., & Estrada, L. Replicative lifespan determination of yeast using microfluidic chip. Biology Open, 13(11). Cited by 5.

Gaggioli, E., Estrada, L., & Bruno, O. Boundary layer structures in transport theory. Physical Review E, 110. Cited by 3.

Philipp, N., Gratton, E., & Estrada, L. Protein-membrane interaction via radial FCS. Methods and Applications in Fluorescence, 11(4). Cited by 12.

Gabriel, M., & Estrada, L. Dengue Virus Capsid Protein Dynamics in live cells. Scientific Reports, 10. Cited by 45.

Shangze Li | Molecular Biology | Best Researcher Award

Assoc. Prof. Dr. Shangze Li | Molecular Biology | Best Researcher Award 

Assistant to the Dean | Chongqing University | China

Dr. Shangze Li (Ph.D., Associate Professor, Ph.D. Supervisor) is a distinguished researcher in the fields of antiviral innate immune signaling, inflammatory responses, and tumor biology. He is based at the School of Medicine, Chongqing University, where he leads a research group and supervises doctoral students. His work integrates advanced genetic engineering technologies such as gene knockout, knock-in approaches, and disease models to investigate the molecular basis of immune regulation and cancer development. Dr. Li has published extensively in leading international journals including Nature Communications, Cell Death and Differentiation, Cancer Research, Oncogene, and Cancer Letters, with several contributions featured in Nature Index journals. His studies have been widely cited, reflecting both scientific impact and relevance to the global biomedical community. In addition to research, he is actively involved in teaching, mentoring, editorial service, and academic leadership, contributing to the advancement of both education and medical research.

Professional Profile

Scopus

ORCID

Google Scholar

Education 

Dr. Li completed his doctoral degree in Cell Biology at Wuhan University, where he focused on the molecular mechanisms that link immune regulation to tumorigenesis. Prior to his doctoral training, he pursued two undergraduate degrees, one in Bioengineering from the Chengdu University of Technology and another in Business Administration from the University of Electronic Science and Technology of China. This unique combination of scientific and managerial education provided him with both technical expertise and leadership skills. After completing his doctorate, Dr. Li undertook postdoctoral training at the Feinberg School of Medicine, Northwestern University, where he worked on projects exploring molecular oncology, innate immunity, and translational approaches in cancer research. His diverse academic background, spanning engineering, business, molecular biology, and medical research, has prepared him to integrate interdisciplinary knowledge in his career. This foundation continues to guide his role as a scientist, supervisor, and contributor to medical and biological sciences.

Experience 

Dr. Li began his professional research career at the Feinberg School of Medicine, Northwestern University, where he served as a postdoctoral researcher in molecular oncology and immune regulation. Following this period of international training, he returned to China and accepted an appointment at Zhongnan Hospital of Wuhan University and the College of Life Sciences, where he contributed to teaching and research in biomedical sciences. He later joined the School of Medicine at Chongqing University as a faculty member, where he was subsequently promoted to Associate Professor and Ph.D. Supervisor. In this role, he leads a laboratory focused on investigating immune signaling and cancer development. In addition to his research and teaching, Dr. Li has taken on administrative responsibilities, serving as Assistant to the Dean and Deputy Director of Shared Core Facilities for Medical Research. His experience reflects a career that balances leadership, education, and internationally recognized scientific research.

Research Interests 

Dr. Li’s research centers on the molecular mechanisms of innate immune signaling, inflammation, and tumor biology. His work explores how signaling pathways regulate immune homeostasis and contribute to tumor initiation and progression. He employs genetically modified cell lines, CRISPR-based technologies, and animal models to examine the functional roles of key genes in these processes. His studies often focus on ubiquitination and deubiquitination pathways, NF-κB signaling, and the crosstalk between cellular metabolism and cell death. This approach provides critical insights into how molecular dysregulation drives oncogenesis and resistance to therapy. His research also emphasizes translational applications, identifying potential biomarkers and therapeutic strategies that may guide novel approaches in cancer treatment and immune-related diseases. By integrating molecular biology, immunology, and cancer research, Dr. Li contributes to advancing both fundamental scientific knowledge and practical innovations for improving health outcomes.

Awards 

Dr. Li’s research achievements have been recognized through broad citation and publication in top international journals. His scholarly contributions have been acknowledged in Nature Communications, Molecular Cancer, Cancer Research, and other leading journals, with some articles featured as cover stories in Nature Index publications. His body of work has earned substantial recognition in the scientific community, reflected in a strong citation record and consistent invitations to review for leading journals. He has also served as Guest Editor for Vaccines and as a reviewer for the National Natural Science Foundation of China, underscoring his role as a trusted scientific evaluator. Beyond research output, Dr. Li has contributed actively to professional organizations, including serving as a council member of the Chongqing Association of Young Scientists and participating in national academic initiatives. His record demonstrates recognition for both scholarly impact and professional service, positioning him as a strong candidate for scientific honors.

Top Noted Publications 

Dr. Li has authored more than forty peer-reviewed publications, including a substantial number as first or corresponding author. His research has appeared in high-impact journals such as Nature Communications, Molecular Cancer, Oncogene, Cancer Research, and Cancer Letters. Selected publications include Ubiquitin-Specific Protease 1 Promotes Bladder Cancer Progression in Cells, CLK2 mediates NF-κB regulation in Nature Communications, Crosstalk between metabolism and cell death in tumorigenesis in Molecular Cancer, USP14 promotes colorectal cancer progression in Cell Death & Disease, and MAPK signaling and drug resistance in prostate cancer in Cancer Research. These publications reflect his long-term focus on the molecular basis of immune regulation and cancer biology. His findings have been widely cited and have advanced understanding of tumorigenesis, therapeutic resistance, and immunoregulation. Collectively, his research portfolio highlights his contributions to both fundamental science and translational medicine, strengthening his standing as an influential scholar in the field of biomedical research.

Title: Ubiquitin-Specific Protease 1 Promotes Bladder Cancer Progression
Journal: Cells
Year: 2024
Cited by: 15+

Title: CLK2 mediates IkappaBalpha-independent NF-κB regulation
Journal: Nature Communications
Year: 2024
Cited by: 30+

Title: Crosstalk between metabolism and cell death in tumorigenesis
Journal:  Molecular Cancer
Year: 2024
Cited by: 40+

Title: USP14 promotes colorectal cancer progression
Journal: Cell Death & Disease
Year: 2023
Cited by: 25+

Title: Activation of MAPK by CXCR7 causes drug resistance
Journal: Cancer Research
Year: 2019
Cited by: 200+

Conclusion

Dr. Shangze Li is a highly suitable candidate for the Best Researcher Award. His outstanding research achievements, strong academic influence, and balanced contributions to teaching, mentorship, and professional service highlight his excellence as a scholar. With continued focus on international collaboration, high-impact publications, and global leadership roles, he is exceptionally well-positioned to be recognized with this award.