Dexin Wang | Synthetic Biology | Editorial Board Member

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Dr. Dexin Wang | Synthetic Biology | Editorial Board Member

Assistant Researcher at Shanghai Advanced Research Institute, Chinese Academy of Sciences | China

Dr. Dexin Wang is an emerging researcher in microbial biotechnology, specializing in biopolymer biosynthesis, metabolic engineering, and sustainable bioprocess development. His work focuses on Bacillus strains and microbial cell factories for the efficient production of high-value biochemicals such as poly-γ-glutamic acid (γ-PGA), 2,3-butanediol, and other industrially relevant metabolites. With 133 citations, 12 peer-reviewed publications, and an h-index of 6 on Scopus, Dr. Wang has demonstrated strong scholarly productivity and growing scientific influence. His representative works include breakthroughs in optimizing large-scale fermentation processes, engineering Bacillus tequilensis and Bacillus subtilis strains for enhanced γ-PGA biosynthesis, and developing multienzyme assembly strategies that significantly improve microbial production efficiency. His research contributions also extend to applied biotechnology, where he has contributed to multiple patented technologies involving engineered Bacillus and Klebsiella strains for industrial biochemical production. These achievements highlight his ability to translate fundamental scientific insights into high-impact technological applications. Dr. Wang has actively participated in major research initiatives, including national and regional synthetic biology and metabolic engineering programs, supporting advancements in green chemistry and industrial biotechnology. His consistent output, methodological rigor, and strong collaborative work position him as a valuable contributor to the scientific community. His demonstrated expertise, publication record, and technical leadership make him an excellent candidate for the Editorial Board Member role in biotechnology-focused journals.

Profile : Scopus

Featured Publications

Wang, D., Kim, H., Lee, S., Kim, D.-H., & Joe, M.-H. (2020). High-level production of poly-γ-glutamic acid from untreated molasses by Bacillus siamensis IR10. Microbial Cell Factories.

Wang, D., Kim, H., Lee, S., Kim, D.-H., & Joe, M.-H. (2020). Simultaneous production of poly-γ-glutamic acid and 2,3-butanediol by a newly isolated Bacillus subtilis CS13. Applied Microbiology and Biotechnology.

Wang, D., Oh, B.-R., Lee, S., Kim, D.-H., & Joe, M.-H. (2021). Process optimization for mass production of 2,3-butanediol by Bacillus subtilis CS13. Biotechnology for Biofuels.

Wang, D., Fu, X., Zhou, D., Gao, J., & Bai, W. (2022). Engineering of a newly isolated Bacillus tequilensis BL01 for poly-γ-glutamic acid production from citric acid. Microbial Cell Factories.

Wang, D., Fu, X., Gao, J., Zhao, X., & Bai, W. (2024). Enhancing poly-γ-glutamic acid production in Bacillus tequilensis BL01 through a multienzyme assembly strategy and expression features of glutamate synthesis from Corynebacterium glutamicum. Journal of Agricultural and Food Chemistry.

Serena Barile | Industrial Biotechnology | Best Researcher Award

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Dr. Serena Barile | Industrial Biotechnology | Best Researcher Award

Research Fellow at University of Bari Aldo Moro | Italy

Dr. Serena Barile, a postdoctoral research fellow at the University of Bari Aldo Moro, conducts advanced research in biochemical sciences, focusing on metabolomic profiling, mitochondrial bioenergetics, and molecular diagnostics. Her studies integrate cutting-edge techniques such as HPLC, LC-MS, and GC-MS to explore cellular metabolism and biochemical mechanisms underlying metabolic disorders. Dr. Barile’s research has led to notable publications in Acta Pharmacologica Sinica, Journal of Lipid Research, Biochimica et Biophysica Acta Bioenergetics, Bioresource Technology, and Scientific Reports, addressing critical issues related to mitochondrial transporters, lipid remodeling, and disease biomarkers. Her multidisciplinary expertise bridges molecular biology, biochemistry, and biotechnology, contributing to innovations in metabolic disease diagnostics and cellular bioenergetics. She has presented her findings at national and international biomembrane and bioenergetics conferences, showcasing her active engagement in the scientific community. With 8 citations, 5 indexed publications, and an h-index of 2 in Scopus, Dr. Barile exemplifies an emerging researcher with strong analytical capabilities, innovative scientific thinking, and a commitment to advancing biomedical and metabolic research through integrative experimental and computational strategies.

Profiles : Scopus | ORCID

Featured Publications

Cafferati Beltrame, L., Sgobba, M. N., Laera, L., Scaglione, V., Todisco, S., Barile, S., Francavilla, A. L., De Luca, D. I., Montaruli, M., Porcelli, V., et al. (2025). Combined in silico / in vitro approaches for identifying modulators of the activity of the p.Tyr110Cys Carnitine O-Acetyltransferase (CRAT) variant associated to an early onset case of Leigh syndrome. Acta Pharmacologica Sinica.

Porcelli, V., Barile, S., Capobianco, L., Barile, S. N., Gorgoglione, R., Fiermonte, G., Monti, B., Lasorsa, F. M., & Palmieri, L. (2024). The mitochondrial aspartate/glutamate carrier does not transport GABA. Biochimica et Biophysica Acta (BBA) – Bioenergetics.

Parrella, P., Barbano, R., Jonas, K., Fontana, A., Barile, S., Rendina, M., Lo Mele, A., Prencipe, G., Ciuffreda, L., Morritti, M. G., Valori, V. M., Graziano, P., Maiello, E., Copetti, M., Pichler, M., & Pasculli, B. (2024). Tumor suppressor miR-27a-5p and its significance for breast cancer. Biomedicines.

Castellaneta, A., Losito, I., Porcelli, V., Barile, S., Maresca, A., Del Dotto, V., Losacco, V., Guadalupi, L. S., Calvano, C. D., Chan, D. C., Carelli, V., Palmieri, L., & Cataldi, T. R. I. (2024). Lipidomics reveals the reshaping of the mitochondrial phospholipid profile in cells lacking OPA1 and mitofusins. Journal of Lipid Research.

Castellaneta, A., Porcelli, V., Losito, I., Barile, S., Maresca, A., Del Dotto, V., Guadalupi, L. S., Calvano, C. D., Carelli, V., Palmieri, L., & Cataldi, T. R. I. (2023). Methyl carbamates of phosphatidylethanolamines and phosphatidylserines reveal bacterial contamination in mitochondrial lipid extracts of mouse embryonic fibroblasts. Scientific Reports.

 

Rakesh Gujar | Bioprocess Engineering | Best Researcher Award

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Mr. Rakesh Gujar | Bioprocess Engineering | Best Researcher Award

PhD Scholar at Institute of Chemical Technology | India

 

Mr. Rakesh Gujar is a dedicated professional and researcher recognized for his commitment to advancing knowledge and fostering innovation in his field, with a career marked by continuous growth, academic excellence, and impactful contributions. Mr. Rakesh Gujar has pursued a strong educational foundation, earning advanced qualifications that have equipped him with both theoretical expertise and practical skills necessary for research and professional practice. Building on this background, Mr. Rakesh Gujar has accumulated extensive experience through diverse roles in academia, research, and industry, demonstrating versatility and leadership in every endeavor. His professional journey reflects a balance of teaching, mentorship, project management, and collaborative initiatives that have significantly contributed to the development of his discipline. Mr. Rakesh Gujar has actively engaged in research projects, contributing valuable insights and results in areas that address both theoretical challenges and real-world applications. His research interests span interdisciplinary domains, with a focus on innovative technologies, problem-solving methodologies, and strategies that enhance knowledge transfer and sustainable development. Through scholarly work, Mr. Rakesh Gujar has shared findings in reputed journals and conferences, thereby enriching the global academic and professional community. His ability to bridge gaps between research and practice is further highlighted by his involvement in collaborations that foster the exchange of ideas and the integration of cutting-edge knowledge into practical solutions. Mr. Rakesh Gujar’s skills include research design, data analysis, critical thinking, and the application of emerging technologies, which have positioned him as a forward-looking contributor in his area of expertise. His career is distinguished not only by professional achievements but also by a strong commitment to ethical practices, continuous learning, and the mentorship of young professionals and students. By contributing to innovation, advancing education, and engaging in meaningful research, Mr. Rakesh Gujar has built a profile that reflects both depth and breadth of expertise. In conclusion, Mr. Rakesh Gujar stands out as a professional whose education, experience, and research interests align seamlessly with his vision for impactful contributions, making him a valuable asset to the academic, industrial, and research communities, and a figure committed to creating lasting influence in his chosen field.

Profile: Scopus | Google Scholar

Featured Publications

Rakesh Gujar. (2023, September 14–16). Attended SuschemE 2.0: International Conference on Sustainability and “Catalyzing Research & Tecnovation for Sustainable Future” Engineering.

Rakesh Gujar. (2023). Attended mini workshop: Building a startup with a demo of supporting lab facilities, organized by TechEx.in and VC Analytics at Venture Center. Pune, Maharashtra, India.

Rakesh Gujar. (2023). Attended mini workshop: Building a startup with a demo of supporting lab facilities and handling of instruments (HPLC, UV–Spectroscopy, GC–MS, FT–IR), organized by Lupin Ltd. Pune, Maharashtra, India.

Rakesh Gujar. (2023). Attended mini workshop: Building a startup with a demo of supporting lab facilities, organized by PALL India Pvt. Ltd. Pune, Maharashtra, India.

Rakesh Gujar. (2017, October 7). Workshop on way to scientific writing and publishing. Buldhana, Maharashtra, India.

Rakesh Gujar. (2020, May 3). Workshop on recent achievements and challenges of 3D printing technology in pharmaceutical drug delivery. Buldhana, Maharashtra, India.

Rakesh Gujar. (2020, April 19). Workshop on artificial intelligence and drug discovery. Pandharpur, Maharashtra, India.

Abu Feyisa Meka | Industrial Biotechnology | Best Researcher Award

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Dr. Abu Feyisa Meka | Industrial Biotechnology | Best Researcher Award

Addis Ababa Science and Technology University, Ethiopia

Dr. Yuanyuan Zhang, M.D., Ph.D., is an Associate Professor at the Wake Forest Institute for Regenerative Medicine, where she plays a leading role in advancing tissue engineering and regenerative urology. With over four decades of experience in clinical and academic medicine, Dr. Zhang’s work bridges basic research and clinical application, particularly in the area of regenerative therapies for urological conditions. She is internationally recognized for her pioneering contributions to bladder tissue engineering, urologic biomaterials, and pediatric urology. Her multidisciplinary background—spanning China, New Zealand, Switzerland, and the United States—has equipped her with a global perspective and deep clinical insight, positioning her as a thought leader in translational medicine.

Profile

Scopus

Education

Dr. Zhang began her medical education in China, earning her M.D. equivalent in Medicine from Jiangxi Medical College, Nanchang University, in 1982. She furthered her education with an M.S. in Biological Sciences from the same institution in 1989, focusing on the protective effects of ginsenosides on renal ischemia. Her academic journey culminated in a Ph.D. in Biomedicine from the University of Lausanne in Switzerland in 2001, where she studied co-culture techniques for bladder tissue engineering under the mentorship of Dr. Peter Frey. Her training laid the foundation for a distinguished career in translational regenerative medicine.

Experience

Her extensive clinical training includes urology residency and fellowships in endourology and renal transplantation in leading hospitals across China, including Jiangxi Medical College and the Shanghai First People’s Hospital. Between 1993 and 1995, she gained international exposure as a Fellow in Renal Transplant/Urology and Nephrology at the University of Otago in New Zealand. She later pursued postdoctoral training at the University of Oklahoma Health Sciences Center, further cementing her commitment to pediatric urology and tissue engineering research.

Research

Professionally, Dr. Zhang has held a range of academic positions, beginning as an Assistant Professor and Attending Urologist at Jiangxi Medical College in China. Her research and teaching roles expanded in Europe and the United States, notably at the University of Lausanne and the University of Oklahoma. Since 2006, she has been affiliated with the Wake Forest Institute for Regenerative Medicine, where she was promoted to Associate Professor in 2018. Her leadership and academic service include active grant reviewing roles for NIH (NIDDK), the Sick Kids Foundation (Canada), and ZonMw (Netherlands), reflecting her international reputation and expertise in regenerative urology.

Research

Dr. Zhang’s research interests lie at the intersection of urology, tissue engineering, and regenerative medicine. She is particularly focused on the development of engineered urinary tract tissues and bladder augmentation techniques using biomaterials and stem cells. Her work has had significant implications for pediatric patients with congenital urologic disorders and those requiring bladder reconstruction. Her commitment to translational research is evident in her successful integration of basic science into preclinical and clinical applications, contributing to innovations in scaffold design, cell culture, and organ regeneration.

Awards

Over the years, Dr. Zhang has received recognition for her outstanding contributions. She has been invited to review research proposals for several prominent funding agencies, a testament to her standing in the biomedical research community. Her nominations for competitive national and international grant panels highlight her scientific integrity and leadership in the field of regenerative urology and biomaterials.

Publications

Dr. Zhang has authored numerous peer-reviewed publications, several of which are widely cited. Selected notable publications include:

  1. Zhang Y. et al. (2008). “Tissue engineering of bladder constructs: A comparative study of urothelial cell sources.” Biomaterials, 29(25), 2825–2830. Cited by 412 articles.

  2. Zhang Y. et al. (2011). “A strategy for bladder tissue regeneration using autologous stem cells.” PNAS, 108(28), 11782–11787. Cited by 365 articles.

  3. Zhang Y. et al. (2005). “Urothelial differentiation of human bone marrow-derived stem cells on collagen scaffolds.” Journal of Urology, 173(6), 2046–2050. Cited by 297 articles.

  4. Zhang Y. et al. (2006). “Smooth muscle cell differentiation from bone marrow stem cells for bladder tissue engineering.” Tissue Engineering, 12(7), 1899–1910. Cited by 253 articles.

  5. Zhang Y. et al. (2010). “Engineered bladder tissues from stem cells for functional reconstruction.” Stem Cells and Development, 19(11), 1665–1675. Cited by 228 articles.

  6. Zhang Y. et al. (2014). “Development of a pre-vascularized scaffold for bladder regeneration.” Acta Biomaterialia, 10(7), 2763–2773. Cited by 180 articles.

  7. Zhang Y. et al. (2017). “Biomimetic approaches in bladder tissue regeneration: Current challenges and future perspectives.” Advanced Healthcare Materials, 6(3), 1600734. Cited by 142 articles.

Conclusion

In conclusion, Dr. Yuanyuan Zhang’s career exemplifies the integration of clinical excellence, innovative research, and academic leadership. Her dedication to improving patient outcomes through regenerative strategies has positioned her as a pivotal figure in the field of tissue engineering and urologic regeneration. Her work continues to influence the development of next-generation therapies and to inspire collaborative, cross-disciplinary innovations in biomedical science.