Tarek Yousef | Phytochemistry | Research Excellence Award

Published on by Botany Scientist

Prof. Dr. Tarek Yousef | Phytochemistry | Research Excellence Award

Professor at Imam Mohammad Ibn Saud Islamic University | Saudi Arabia

Prof. Dr. Tarek Yousef, a distinguished professor of inorganic chemistry and expert in toxicology and narcotics analysis, has built an influential scientific and academic career characterized by excellence in research, innovation, and teaching. Beginning his academic path with a strong foundation in chemistry from Mansoura University, he advanced through postgraduate studies that focused on physicochemical investigations of hydrazones and their metal complexes and later expanded into physicochemical studies on thiosemicarbazide derivatives of toxic transition metals and their analytical and biological applications, establishing his early reputation for precision and depth in inorganic and coordination chemistry. His long service as an expert in forensic toxicology and narcotic drugs allowed him to translate chemical science into impactful analytical and medico-legal applications. He progressed academically from demonstrator to assistant professor, associate professor, and professor at the Science College of Al Imam Muhammad Ibn Saud Islamic University, contributing significantly to curriculum development, scientific leadership, and chemical education. His teaching career spans general chemistry, inorganic chemistry, analytical chemistry, and advanced topics, enabling him to mentor several generations of students in Egypt and Saudi Arabia. With strong computational chemistry skills and extensive laboratory expertise, he integrates modern digital tools with classical analytical methodologies. His profile is enriched by participation in diverse national and international scientific conferences, workshops, and training programs covering themes such as molecular modeling, forensic science advancements, nanotechnology applications, information-technology-based research tools, genetic-structure-based medicine, cybersecurity in scientific research, and scientific publishing excellence. His professional competencies include analytical thinking, leadership in developing others, handling advanced instrumentation, and continuous self-development. Through his broad scholarly activities, contributions to forensic and inorganic chemistry, and active engagement in scientific communities, Tarek Ahmed Ibrahim Yousef stands as a respected academic figure whose work continues to influence chemical research, toxicology, and higher education.

Profile :  Scopus | Orcid | Google Scholar

Featured Publications : 

Design and multifunctional characterization of bis[4-carbomethoxypyridinium] hexabromostannate(IV): A new organic–inorganic hybrid for nonlinear optical and dielectric applications. Journal of Molecular Structure.

Structure–property relationships in morpholinium hexahalostannate(IV) hybrid materials: Impact of halide substitution on optical and nonlinear responses. Journal of Solid State Chemistry.

Phenyl mercury(II)-pyrrolidinedithiocarbamate complexes: Spectroscopic studies, Hirshfeld surface analysis, DFT investigation, and crystal structure of [PhHg(κ³N,S,S-PyDT)]₂. Journal of Molecular Structure.

Leveraging the fragment merging approach for synthetizing novel selanyl phenyl acetamide thiazolidinedione hybrids endowed with apoptotic potential for cancer treatment. Drug Development Research.

Ni(II) and Cu(II) mixed-ligand complexes of saccharinate and 2,6-diacetylaminopyridine: Synthesis, X-ray characterization, antibacterial activity, and molecular docking studies. Inorganica Chimica Acta.

Dr. Mostafa Sagharyan | Plant Physiology | Editorial Board Member

Published on by Botany Scientist

Dr. Mostafa Sagharyan | Plant Physiology | Editorial Board Member

Postodoc at Tarbiat Modares University | Iran

Dr. Mostafa Sagharyan is an accomplished plant physiologist whose academic journey spans advanced training from leading Iranian universities, culminating in a doctorate focused on microRNA-mediated regulation of phenylpropanoid biosynthesis in Linum album cell cultures under elicitor treatments such as methyl jasmonate and phenylalanine. His academic foundation began with undergraduate studies in plant biology, followed by a master’s specialization in plant physiology, where he optimized callus induction and plant regeneration protocols in Nepeta binaloudensis, achieving distinguished academic performance at both graduate levels and earning top ranking in doctoral program entrance examinations. His research portfolio reflects deep expertise in plant biochemistry, molecular signaling pathways, metabolic engineering, and plant stress resilience, with notable contributions to understanding how regulatory molecules, elicitors, and environmental factors modulate phenolic compound production, lignan biosynthesis, carbohydrate and amino acid metabolism, nitric-oxide-mediated signaling, and defensive responses in various plant systems. As the primary designer, performer, data analyst, and lead author of multiple impactful publications in international journals, his work has explored hydrogen sulfide interaction mechanisms in plants, microRNA expression dynamics influencing secondary metabolite pathways, metabolic shifts triggered by exogenous amino acids, the biochemical consequences of melatonin application, and pollution-responsive phenolic enhancement in medicinal species. His experience includes operating advanced analytical platforms such as HPLC and preparative-HPLC, conducting enzyme assays, spectrophotometric and fluorometric analyses, and applying molecular techniques ranging from nucleic acid extraction and PCR-based quantification to gene cloning, Western blotting, and flow cytometry. Mostafa is also proficient in bioinformatic and statistical analysis using R, SPSS, Prism, FlowJo, MetaboAnalyst, and primer design tools, complementing his strong background in plant tissue culture, hairy root transformation, and metabolite assessment. Alongside his research activities, he has contributed to teaching biostatistics, SPSS analysis, and plant physiology for Olympiad students, demonstrating a commitment to scientific training and academic mentorship. His scholarly achievements, research excellence, and technical versatility position him as a dynamic and innovative researcher in modern plant science.

Profile : Scopus | ORCID

Featured Publications : 

Sagharyan, M., & Sharifi, M. (2024). Metabolic and physiological changes induced by exogenous phenylalanine in Linum album cells. Journal of Plant Growth Regulation.

Esmaeili, S., Sharifi, M., Ghanati, F., Soltani, B. M., Samari, E., & Sagharyan, M. (2023). Exogenous melatonin induces phenolic compounds production in Linum album cells by altering nitric oxide and salicylic acid. Scientific Reports.

Sagharyan, M., Sharifi, M., & Samari, E. (2023). Methyl jasmonate redirects the dynamics of carbohydrates and amino acids toward lignans accumulation in Linum album cells. Plant Physiology and Biochemistry.

Khodamoradi, S., Sagharyan, M., Samari, E., & Sharifi, M. (2022). Changes in phenolic compounds production as a defensive mechanism against hydrogen sulfide pollution in Scrophularia striata. Plant Physiology and Biochemistry.

Tashackori, H., Sharifi, M., Ahmadian Chashmi, N., Behmanesh, M., Safaie, N., & Sagharyan, M. (2021). Physiological, biochemical, and molecular responses of Linum album to digested cell wall of Piriformospora indica. Physiology and Molecular Biology of Plants.