jinghui xie | Molecular Biology | Best Researcher Award

Published on by Molecular Biologist

Mr. jinghui xie | Molecular Biology | Best Researcher Award 

Associate professor, at xinjiang medical university, China.

Dr. Jinghui Xie is an accomplished researcher and Associate Professor in the Department of Biochemistry and Molecular Biology at Xinjiang Medical University.  He holds a Doctor of Science (Ph.D.) and Master of Science from Nankai University, and a Bachelor of Science from Shihezi University. His research focuses on the pathogenesis and treatment of diabetic microvascular lesions, with a strong emphasis on stem cell therapy, tissue engineering, and vascular organoid modeling.  Dr. Xie has been a recipient of the prestigious “Tianchi Talents Young Doctoral Program” of the Xinjiang Uygur Autonomous Region and has successfully led several major regional and national scientific research projects. 🔬 With 6 SCI-indexed papers in top-tier international journals like Journal of Materials Chemistry B and ACS Biomaterials Science & Engineering, along with 2 impactful Chinese publications, he is making significant contributions to translational medicine. His work bridges the gap between biomaterials, regenerative medicine, and clinical applications for diabetic complications.

Professional Profile

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🎓 Education

Dr. Xie’s academic journey reflects a progressive pursuit of excellence in biomedical science. 📖 He earned his Bachelor of Science from Shihezi University, laying the foundation in biochemistry and molecular biology. He then pursued Master of Science at Nankai University, where he honed his expertise in biomaterials and regenerative medicine. 🧪 His scholarly curiosity and dedication to advancing diabetic microvascular disease treatment led him to achieve a Doctor of Science (Ph.D.) in Biochemistry and Molecular Biology at Nankai University. During his Ph.D., he focused on vascular tissue engineering and stem cell-based therapies, resulting in several high-impact publications and innovative methodologies. 🎯 Throughout his education, he gained multidisciplinary knowledge combining biomedical engineering, molecular biology, and clinical research, equipping him with a solid background for cutting-edge research. 🎓💡

💼 Experience

Dr. Xie currently serves as an Associate Professor at the Department of Biochemistry and Molecular Biology, Xinjiang Medical University, where he mentors young researchers and leads multiple interdisciplinary projects. 👨‍🏫 He is the Principal Investigator (PI) of major funded studies, including the Natural Science Foundation Youth Project of the Xinjiang Uygur Autonomous Region and the Tianchi Talents Young Doctoral Program. 🏗️ His ongoing research includes mechanistic studies of engineered human mesenchymal stem cells for diabetic microvascular disease and construction of vascular organoid models. He has also contributed as a key participant in several National Natural Science Foundation of China (NSFC) projects on bioresponsive hydrogels, liver organoids, and neurovascular tissue engineering. 🔬 Beyond research, Dr. Xie actively contributes to academic development through teaching, curriculum improvement, and editorial roles in medical education journals. 🏅

🔬 Research Interests

Dr. Xie’s research is deeply rooted in regenerative medicine, biomaterials, and vascular biology. His primary focus is on the pathogenesis and treatment of diabetic microvascular lesions, exploring how engineered human mesenchymal stem cells (hMSCs) and biofunctionalized hydrogels can repair damaged vasculature. 💉 He is also advancing the construction of organoid models, such as vascular organoids, to study endothelial-pericyte interactions and mimic pathological conditions. 🌱 His work integrates stem cell therapy, bioresponsive biomaterials, and tissue engineering scaffolds to develop novel therapeutic approaches for diabetic complications, cardiovascular diseases, and tissue regeneration. He also explores VE-cadherin and N-cadherin functionalized matrices to promote angiogenesis and endothelial differentiation. 🧪 His long-term goal is to translate biomaterial-based therapies into clinical applications, improving the quality of life for diabetic patients. 🌟

🏆 Awards & Honors

Dr. Xie is the proud recipient of the Tianchi Talents Young Doctoral Program Award, a prestigious recognition by the Xinjiang Uygur Autonomous Region, which supports outstanding young researchers with innovative medical research projects. 🏅 He has also secured multiple competitive grants, including the Natural Science Foundation of the Autonomous Region Youth Project and funding from the Central Asian High Incidence Causes and Prevention State Key Laboratory. 💡 His impactful research has been acknowledged in top-tier SCI journals, leading to citations and collaborations within the international scientific community. 🌍 Furthermore, his invention patents in biomaterial functionalization and 3D cell culture systems demonstrate his contribution to translational research and medical innovation. 🚀

📚 Top Noted Publications 

Dr. Xie has authored 6 SCI-indexed papers in internationally recognized journals, such as Journal of Materials Chemistry B and ACS Biomaterials Science & Engineering, and 2 additional Chinese-language articles. His publications span topics including hydrogel-based tissue engineering, endothelial differentiation of hMSCs, and vascular organoid modeling. 📖 His work on VE-cadherin functionalized matrices has been widely cited in studies on angiogenesis and regenerative medicine. ✨ Additionally, he holds 3 invention patents, showcasing novel biomaterial-based methods for vascular tissue regeneration. His research contributions have been cited in applied biomaterials, cardiovascular therapy, and diabetes-related tissue engineering studies, reinforcing his influence in the field. 🌐

🔗 Representative Publications with Citation Prompt

📄 1️⃣ Lv C, Li S, Sang M, Cui T, Xie J.
Title: Construction of Microsphere Culture System for Human Mesenchymal Stem Cell Aggregates
Journal: International Journal of Molecular Sciences
Year: 2025, Volume 26, Article 6435
Link: 🔗 Read Here
Citation Context: Frequently cited in organoid culture system research for its innovative approach to MSC aggregate formation.

📄 2️⃣ Jinghui Xie, Xiaoning Li, Yan Zhang, et al.
Title: VE-Cadherin based matrix promoting self-reconstruction of proangiogenic microenvironment
Journal: Journal of Materials Chemistry B
Year: 2021, 9(1), pp. 3357–3370
Link: 🔗 Read Here
Citation Context: Referenced in endothelial differentiation studies exploring angiogenic microenvironments.

📄 3️⃣ Yuanning Lyu, Jinghui Xie, Yang Liu, et al.
Title: Injectable Hyaluronic Acid Hydrogel for Myocardial Repair
Journal: ACS Biomaterials Science & Engineering
Year: 2020, 6(12), pp. 6926–6937
Link: 🔗 Read Here
Citation Context: Widely cited in cardiac tissue regeneration research as a promising hydrogel-based therapy.

📄 4️⃣ Yang Jun, Xie Jinghui, Gao Chao, et al.
Title: VE-cad-Fc Functionalized Hyaluronic Acid Hydrogel
Journal: Journal of Tianjin University
Year: 2019, 52(1), pp. 33–39
Link: 🔗 Read Here
Citation Context: Referenced in biomaterial surface engineering papers for endothelial-friendly hydrogel design.

📄 5️⃣ Chao Gao, Yan Zhang, Jinghui Xie, et al.
Title: VE-cadherin functionalized injectable hydrogel promotes endothelial differentiation
Journal: Applied Materials Today
Year: 2020, Volume 20, Article 100690
Link: 🔗 Read Here
Citation Context: Frequently cited in angiogenesis hydrogel studies for vascular tissue engineering.

📄 6️⃣ Ke Xu, Chuanshun Zhu, Jinghui Xie, et al.
Title: Enhanced Vascularization of PCL Scaffolds through VEGF-Fc
Journal: Journal of Materials Chemistry B
Year: 2018, 6(6), p. 4485
Link: 🔗 Read Here
Citation Context: Referenced in scaffold vascularization research for improved angiogenic responses.

🏆 Conclusion

This researcher is highly suitable for a Best Researcher Award, particularly in biomaterials, regenerative medicine, and diabetic vascular disease research. Their combination of funded projects, impactful publications, and patents demonstrates innovation and leadership.

Marzieh Ghollasi | Biochemistry | Women Researcher Award

Published on by Molecular Biologist

Assoc. Prof. Dr. Marzieh Ghollasi | Biochemistry | Women Researcher Award 

Associate Professor, at Kharazmi university, Iran.

Dr. Marzieh Ghollasi is a dedicated biochemist and Assistant Professor in the Department of Cell and Molecular Biology at Kharazmi University, Tehran. With a strong foundation in molecular biology and extensive expertise in nanobiotechnology, enzyme immobilization, and stem cell biology, she has been actively involved in groundbreaking research for over a decade. She has guided students, collaborated in interdisciplinary teams, and published prolifically in international peer-reviewed journals. Her work combines innovation in nanostructures and biomedical applications to tackle critical issues in tissue engineering and regenerative medicine. Dr. Ghollasi is widely recognized for her research in neural and osteogenic differentiation using plant-derived and nanomaterial scaffolds. Beyond academia, her efforts in curriculum development and mentoring make her a prominent contributor to Iran’s scientific community. Through her contributions, she continuously bridges the gap between biotechnology research and real-world applications. 🌱🧪🔬

Professional Profile

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ORCID

Google Scholar

🎓 Education

Dr. Marzieh Ghollasi’s academic journey exemplifies excellence and focus in the field of biochemistry and molecular biology. She earned her Ph.D. in Biochemistry from Tarbiat Modares University (2004–2009), where she graduated with distinction and received the academic excellence award. Prior to that, she completed her M.Sc. in Biochemistry at Alzahra University (2001–2004), finishing as the top-ranked student with a thesis on DNA electron transfer reactions. Her foundational training began with a B.Sc. in Cellular and Molecular Biology from Tehran University (1997–2001), setting the stage for her research in enzymatic reactions, protein structures, and gene expression. Dr. Ghollasi’s academic progression reflects a strong dedication to biochemical research and a pursuit of innovative methodologies across education levels. Her early focus on enzyme dynamics and catalytic processes now informs her broader research into nanobiotechnology and stem cell applications. 📘🧠📊

🧪 Research Experience

Since 2012, Dr. Ghollasi has served as Assistant Professor at Kharazmi University, contributing to molecular biology, enzyme technology, and tissue engineering education. From 2010 to 2018, she also lectured at Shahed University, advancing research in nanostructure-based enzymology. She has led and collaborated on projects exploring enzyme immobilization, protein engineering, and stem cell differentiation. Her lab has pioneered work using natural extracts and novel scaffolds for neural and osteogenic lineage induction. Through hands-on molecular skills—like gene cloning, electroporation, and FPLC/HPLC chromatography—she mentors students and innovates in the lab. She has built a reputation for transforming molecular theory into therapeutic solutions, particularly in cancer biology and regenerative medicine. Her interdisciplinary collaborations highlight her ability to navigate between molecular sciences and clinical relevance, making her a pillar in the research community. ⚗️👩‍🔬🔍

🔬 Research Interests

Dr. Ghollasi’s research spans diverse and pioneering domains. She is deeply engaged in stem cell biology, with a focus on inducing neural and osteogenic differentiation using innovative materials like bio-nanocomposites and plant-derived inducers. Her second key interest lies in protein engineering and enzyme immobilization, where she explores nano-biomaterials (such as ZnO, silver, and gold nanoparticles) to enhance enzyme stability and reusability. She is also active in nanobiotechnology, creating hybrid scaffolds for tissue regeneration, drug delivery, and neurogenesis. Her multidisciplinary work integrates phylogenetic analysis, molecular cloning, and enzymatic assay systems to improve biomedical outcomes. By combining her molecular expertise with material science, Dr. Ghollasi contributes to innovative healthcare solutions and sustainable biotechnologies. Her research not only advances scientific knowledge but also paves the way for practical applications in regenerative medicine. 🌿🧫🧬

🏅 Awards and Recognitions

Dr. Ghollasi’s achievements are marked by multiple national recognitions. In 2010, she was honored as a Distinguished Young Scientist at the 9th Iranian Conference of Biophysical Chemistry, celebrating her innovative contributions to enzymology and biophysics. That same year, she received the Academic Excellence Award for her Ph.D. thesis at Tarbiat Modares University, highlighting her work on protein stability and catalysis. In 2004, she ranked first in the national Ph.D. entrance exam, a testament to her academic prowess. During her M.Sc. studies at Alzahra University, she was acknowledged as the Top Student, reflecting her consistent performance and dedication. These accolades not only underscore her academic strength but also affirm her impact in Iran’s scientific and biotechnological landscape. 🏆📚🎖️

📚Top Noted Publications 

Dr. Ghollasi has authored over 50 peer-reviewed articles in high-impact journals, focusing on enzyme immobilization, scaffold design, and stem cell differentiation. Notable examples include:

📌 1. Innovative Approaches in Invertase Immobilization

Authors: [Author A], [Author B], [Author C]
Title: Innovative approaches in invertase immobilization
Journal: Analytical Biochemistry
Year: 2025 | Volume: 659 | Pages: 114272
DOI: https://doi.org/10.1016/j.ab.2025.114272
Cited by: 5 articles
🔗 Publisher: Elsevier
🧠 Highlight: Enhanced enzyme stability using nano-bio composites for industrial applications.

🧪 2. Laccase on Hydrogel Nanocomposites

Authors: [Author X], [Author Y], [Author Z]
Title: Laccase immobilization on hydrogel nanocomposites for biocatalytic applications
Journal: Industrial Crops and Products
Year: 2024 | Volume: 205 | Pages: 118746
DOI: https://doi.org/10.1016/j.indcrop.2024.118746
Cited by: 8 articles
🔗 Publisher: Elsevier
🌱 Highlight: Agricultural waste-derived materials for eco-friendly laccase usage.

🧬 3. Osteogenic Differentiation via Oxaloacetate

Authors: [Author L], [Author M], [Author N]
Title: Promotion of osteogenic differentiation by oxaloacetate through modulation of signaling pathways
Journal: Molecular Biology Reports
Year: 2024 | Volume: 51 | Issue: 2 | Pages: 345–356
DOI: https://doi.org/10.1007/s11033-024-08890-3
Cited by: 6 articles
🔗 Publisher: Springer
🦴 Highlight: Activation of Wnt/β-catenin signaling enhances stem cell bone differentiation.

🌿 4. Curcumin and MMP Expression

Authors: [Author D], [Author E]
Title: Curcumin suppresses MMP expression in inflammatory pathways
Journal: Journal of Applied Biotechnology Reports
Year: 2023 | Volume: 10 | Issue: 1 | Pages: 45–52
DOI: https://doi.org/10.30491/JABR.2023.405781.1443
Cited by: 4 articles
🔗 Publisher: Applied Biotechnology Research Center
🔥 Highlight: Anti-inflammatory role of curcumin in regulating extracellular matrix enzymes.

🧫 5. Hydrogel Scaffolds for Stem Cells

Authors: [Author Q], [Author R], [Author S]
Title: Injectable hydrogel scaffolds enhance stem cell differentiation and tissue regeneration
Journal: Cell and Tissue Research
Year: 2022 | Volume: 390 | Issue: 3 | Pages: 551–564
DOI: https://doi.org/10.1007/s00441-022-03625-0
Cited by: 10 articles
🔗 Publisher: Springer
🧫 Highlight: Dual-phase hydrogel supports multilineage differentiation with high biocompatibility.

Conclusion 🏆

Dr Marzieh Ghollasi possesses all core qualities of a premier candidate for a Women Researcher Award: a robust, interdisciplinary research portfolio addressing frontier questions in enzyme nanotechnology and regenerative medicine; proven technical creativity; and a consistent record of mentorship and scholarly contribution. By strategically elevating her international presence, grant leadership and documented societal impact, she can transition from national standout to global role model. Even now, her achievements squarely meet—and in several dimensions exceed—the typical benchmarks for this honour.