Beril Anilanmert | Analytical Chemistry | Outstanding Contribution Award

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Assoc. Prof. Dr. Beril Anilanmert | Analytical Chemistry | Outstanding Contribution Award

Istanbul University-Cerrahpasa Institute of Forensic Sciences and Legal Medicine | Turkey

Beril Anılanmert is an accomplished Turkish forensic scientist and analytical chemist, with dual doctorates: one in forensic sciences from Istanbul University, and another in analytical chemistry from Marmara University. She also holds an MSc and a BPharm from Marmara, with specialization in pharmacy and analytical methods. She is an Associate Professor at Istanbul University‑Cerrahpaşa in the Institute of Forensic Sciences, Department of Natural and Applied Sciences. Prior positions include associate professorship at Istanbul University, medical research positions in forensic medicine, assistant professorship in pharmacy, and earlier work as a research assistant. Her research has centered on development and validation of sensitive analytical techniques (especially LC‑MS/MS, HPLC, etc.) for detecting psychoactive substances, designer drugs, date‑rape drugs, explosive residues, and related toxicants in biological and environmental matrices. She has led multiple funded projects, published over 100 peer‑reviewed articles in high‑impact and SCI/SSCI journals, authored several book chapters, and contributed to laboratory accreditation and capacity building. Her work combines methodological rigor with strong applicability to forensic, public health, and legal challenges. She has published 107 items, with 167 citations in Web of Science (WoS), 182 in Scopus, and a WoS and Scopus h‑index of 7. These reflect modest citation counts relative to publication volume, but indicate a solid presence in her fields.

Profiles : Scopus | Orcid

Featured Publications

  • Rayimoğlu, G., Yonar, F. C., & Anılanmert, B. (2025). From one strand dyed/undyed hair with/without root to fast and successful STR profiling and evaluation with principle component analysis. Electrophoresis.

  • Anılanmert, B., Çağlar-Andac, S., & Narin, İ. (2023). Urgent first‑step screening method for ketamine, phenobarbital, zopiclone, zolpidem, phenytoin and thiopental in adulterated soft drink. Pakistan Journal of Pharmaceutical Sciences, 36(5), 1407‑1414.

  • Cavus Yonar, F., Anılanmert, B., & Acikkol, M. (2024). Short‑cut route validated for monitoring fentanyl and its metabolite in urine using LC–MS/MS, in a wide concentration range. Future Journal of Pharmaceutical Sciences, 10, Article 82.

  • Anılanmert, B., & Yonar, F. C. (2023). Speedy Gonzales analysis method in one drop of beverage, for crimes committed with drugs from three different groups. Analytical Sciences, 39(6), 843‑849.

  • Şener, H., Anılanmert, B., Mavis, M. E., Goksu Gursu, G., & Cengiz, S. (2022). LC‑MS/MS monitoring for explosives residues and OGSR with diverse ionization temperatures in soil & hands: 30 minutes for extraction + elution. Acta Chromatographica, 34(3), 304‑314.

 

Rosaria Saletti | Chemical Biology | Best Researcher Award

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Prof. Rosaria Saletti | Chemical Biology | Best Researcher Award

University of Catania | Italy

Prof. Rosaria Saletti is an Associate Professor of Organic Chemistry at the University of Catania, where she leads the Organic Mass Spectrometry Laboratory within the Department of Chemical Sciences. Graduating cum laude in Chemistry from the same university, Prof. Saletti has established herself as an expert in mass spectrometry, proteomics, and protein structural characterization. Her research is centered on the application of liquid chromatography-mass spectrometry (LC-MS) techniques for the analysis of proteins in various biological and food matrices. Her investigations have contributed significantly to the comparative proteomics of cereal kernels, characterization of milk proteins, and the study of VDAC (Voltage-Dependent Anion Channel) proteins. Notably, her work has helped clarify the molecular underpinnings of allergenicity in milk and advanced the understanding of disulfide bonding and post-translational modifications in mitochondrial proteins. Prof. Saletti has participated in numerous national and European research projects, including the Italian Human ProteomeNet (FIRB), SAMOTHRACE, and multiple PRIN projects (2006, 2022). She also contributes to international networks such as the European Network CHRX CT94-0425 and FAIR CT96-1170. Her industry collaborations include partnerships with SIFI SpA, Wyeth-Lederle, and Zoetis Manufacturing Italia. She is the author of over 100 publications indexed in Scopus, with 2,008 citations and an h-index of 29 (Scopus) and 2,650 citations with an h-index of 31 on Google Scholar. Prof. Saletti has also co-authored several book chapters on mass spectrometry and proteomics and holds editorial roles in journals like Foods and Current Clinical Pharmacology. Her international collaborations span renowned institutions such as the University of Mainz, Technical University of Denmark, and Rothamsted Research, UK. She is an active member of the Italian Chemical Society, Italian Proteomic Association, and European Proteomics Association. Prof. Saletti’s scientific rigor and contributions to analytical chemistry have made her a respected figure in proteomic research worldwide.

Profiles : Scopus | Orcid | Google scholar

Featured Publications

Pittalà, M. G. G., Cucina, A., Conti-Nibali, S., Cunsolo, V., Di Francesco, A., Saletti, R., & Reina, S. (2025). Structural characterization of intra- and intermolecular disulfide bonds in voltage-dependent anion channel 3 (VDAC3) protein from Rattus norvegicus by high-resolution mass spectrometry. Analytical and Bioanalytical Chemistry, 1–16.

Di Francesco, A., Lanzoni, A., De Santis, M. A., Pittalà, M. G. G., Saletti, R., Cunsolo, V., & Righetti, P. G. (2025). In-depth shotgun proteomic characterization of chickpea (Cicer arietinum L.): A case study on the genotype Pascià grown using two water regimes. ACS Agricultural Science & Technology.

Pittalà, M. G. G., Reina, S., Cucina, A., Cunsolo, V., Guarino, F., Di Francesco, A., Saletti, R., & De Pinto, V. (2024). Intramolecular disulfide bridges in voltage-dependent anion channel 2 (VDAC2) protein from Rattus norvegicus revealed by high-resolution mass spectrometry. Journal of the American Society for Mass Spectrometry, 35(7), 1422–1433.

Di Francesco, A., De Santis, M. A., Lanzoni, A., Pittalà, M. G. G., Saletti, R., & Cunsolo, V. (2024). Mass spectrometry characterization of the SDS-PAGE protein profile of legumins and vicilins from chickpea seed. Foods, 13(6), 887.

Pittalà, M. G. G., Di Francesco, A., Cucina, A., Saletti, R., Zilberstein, G., Zilberstein, S., Cappellini, E., & Righetti, P. G. (2023). Count Dracula resurrected: Proteomic analysis of Vlad III the Impaler’s documents by EVA technology and mass spectrometry. Analytical Chemistry, 95(34), 12732–12744.

Punginelli, D., Catania, V., Vazzana, M., Mauro, M., Spinello, A., Barone, G., Cunsolo, V., Saletti, R., Di Francesco, A., Arizza, V., & Schillaci, D. (2022). A novel peptide with antifungal activity from red swamp crayfish Procambarus clarkii. Antibiotics, 11(12), 1792.

 

Yuejai Kang | Medicinal Chemistry | Best Researcher Award

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Assist. Prof. Dr. Yuejai Kang | Medicinal Chemistry | Best Researcher Award

Kunsan National University, South Korea

Profiles

Early Academic Pursuits

Dr. Yuejai Kang began his academic journey with a background in social sciences, equipping him with a broad perspective that complements his scientific approach. Driven by a passion for marine and aquatic ecosystems, he transitioned into the field of Aquatic Life Medicine, completing both undergraduate and postgraduate studies. His academic pursuits culminated in a doctoral degree in Biotechnology, with a specialization in aquatic animal diseases. His Ph.D. research focused on enhancing disease resistance in olive flounder (Paralichthys olivaceus) through systems producing CpG DNA and double-stranded RNA, forming the basis for his long-term research in aquatic immunology and disease prevention.

Professional Endeavors

As an Assistant Professor in the Department of Aquatic Life Medicine at Kunsan National University, Dr. Kang has built a career spanning over two decades in aquatic veterinary sciences. His professional responsibilities encompass research leadership, academic instruction, and mentorship, alongside active participation in interdisciplinary projects addressing aquatic animal health. He continues to collaborate with government and industry partners, applying academic insights to real-world aquaculture challenges.

Contributions and Research Focus

Dr. Kang’s research is primarily centered on understanding and managing viral and bacterial diseases in aquatic animals. He has contributed significantly to the development of vaccines, immunostimulants, therapeutics, and antibiotics tailored for use in aquaculture. His work explores host-pathogen interactions, mechanisms of disease resistance, and the molecular basis of immunity in fish species. He has investigated the antiviral potential of agents such as remdesivir against fish viruses belonging to the Rhabdoviridae family. Additionally, he is extending his expertise into the study of environmental toxicology, examining how pollutants and environmental stressors affect aquatic disease dynamics.

Impact and Influence

Dr. Kang’s work has had a tangible impact on the aquaculture sector, improving disease control strategies and promoting sustainable fish farming practices. His studies have helped enhance disease resistance in cultured species, reducing mortality and economic losses in aquaculture operations. His scientific contributions are influencing policy development and management practices in aquatic health both nationally and internationally.

Academic Citations and Publications

With a strong publication record, Dr. Kang has authored 50 research papers in peer-reviewed journals, contributing to the global knowledge base in aquatic health science. His work is frequently cited by peers in related fields such as virology, marine biology, fish pathology, and biotechnology, underlining the broad relevance and scientific merit of his research. Notably, his publication on the antiviral effects of remdesivir has gained recognition for its innovative approach to controlling viral infections in aquatic species.

Technical Skills

Dr. Kang’s technical expertise includes advanced molecular biology methods, such as nucleic acid-based vaccine development, diagnostic PCR, and immunological assays. He is adept in laboratory and field-based pathogen challenge experiments, cell culture, and microbiological diagnostics. His hands-on proficiency supports high-quality experimental design and data interpretation in fish health research.

Teaching Experience

In addition to his research, Dr. Kang plays a vital role in academic instruction and student development. He teaches core courses in aquatic medicine and biotechnology and has supervised numerous undergraduate and postgraduate research projects. He emphasizes practical learning, scientific reasoning, and innovation, inspiring students to pursue careers in marine and aquatic science.

Legacy and Future Contributions

Looking ahead, Dr. Kang aims to further explore the intersection of environmental toxicology and aquatic disease, with a focus on how emerging contaminants affect fish health and immune responses. He is committed to advancing integrated disease management approaches and fostering collaborative research networks. Through his continued efforts, he seeks to contribute to the sustainability and resilience of aquaculture systems worldwide.

Notable Publications

First report and pathogenicity of Vibrio campbellii (VC<sub>AHPND</sub>) isolated in South Korea
Authors: Choi H.-J., Choi D.-Y., Lee J.-H., Kim J.-H., Kang Y.J.
Journal: Journal of Fish Diseases
Year: 2024

Process optimization for microfluidic preparation of liposomes using food-grade components
Authors: Hong S.-C., Hong C.R., Kim M., Kang Y.J., Jung Y.H., Park K.-M., Choi J., Chang P.-S.
Journal: Food Chemistry
Year: 2024

Protective Effects of Long Double-Stranded RNA with Different CpG Motifs against Miamiensis avidus and Viral Hemorrhagic Septicemia Virus (VHSV) Infections in Olive Flounder (Paralichthys olivaceus)
Authors: Choi H.-J., Choi D.-Y., Park J.-J., Jung H.J., Kim B.-S., Hong S.-C., Kim J.-H., Kang Y.J.
Journal: Fishes
Year: 2024

The use, application and efficacy of biofloc technology (BFT) in shrimp aquaculture industry: A review
Authors: Yu Y.-B., Choi J.-H., Lee J.-H., Jo A.-H., Lee J.-W., Choi H.J., Kang Y.J., Choi C.Y., Kang J.-C., Lee K.M., et al.
Journal: Environmental Technology and Innovation
Year: 2024

Toxic Effects of Microplastics (Polyethylene) Exposure on Neurotransmitter, Stress Indicators and Immunity in Korean Bullhead (Pseudobagrus fulvidraco)
Authors: Lee J.-H., Choi J.-H., Kang Y.J., Choi Y.J., Choi C.Y., Kang J.-C., Kim J.-H.
Journal: SSRN
Year: 2024