Ghader Ghasemi | Medicinal Plants | Best Researcher Award

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Dr. Ghader Ghasemi | Medicinal Plants | Best Researcher Award

Medicinal Plants, Horticulture Crops Research Department, West Azerbaijan Agricultural and Natural Resources Research and Education Centre, AREEO, Urmia, Iran

Dr. Ghader Ghasemi is a researcher at the Agricultural and Natural Resources Research and Education Center of West Azerbaijan, Iran. With a strong background in horticultural sciences and plant biotechnology, he has contributed extensively to plant research, focusing on medicinal plants, essential oils, and plant breeding. His work integrates morphological and phytochemical diversity studies, emphasizing agricultural sustainability and bioactive compounds. Dr. Ghasemi has received multiple awards from Iran’s National Elites Foundation and has served as a lecturer, consultant, and editor in various academic journals. He is also a certified forensic expert and has contributed as a reviewer for international journals such as Scientific Reports and Journal of Food Measurement and Characterization. His research aims to enhance plant-based solutions for agriculture, medicine, and industry.

Profile

Google Scholar

🎓 Education 

  • Ph.D. in Horticultural Sciences – Plant Breeding & Biotechnology (2018-2023)
    📍 Tarbiat Modares University
    📝 Dissertation: Morphological diversity, essential oil profile, and isoflavonoid content in hybrid rhizomes of Iris germanica in Iran.

  • M.Sc. in Horticultural Sciences – Physiology & Breeding of Medicinal Plants (2016-2018)
    📍 Urmia University
    📝 Thesis: Morphological and phytochemical diversity of different Rheum (rhubarb) populations in Iran.

  • B.Sc. in Agricultural Engineering – Horticultural Sciences (2012-2016)
    📍 Urmia University
    📝 Project: Evaluating the effect of Achillea millefolium (yarrow) ethanol extract on common weeds.

💼 Professional Experience 

  • 🌱 Researcher at Agricultural & Natural Resources Research Center, West Azerbaijan (Present)
  • 🏗️ Green Space Manager at Urmia Combined Cycle Power Plant (2018-Present)
  • ⚖️ Official Judiciary Expert in Horticultural Sciences, West Azerbaijan Province (2021-Present)
  • 🎓 Lecturer at Urmia University & Applied Science University (2019-Present)
  • 📑 Research Consultant for M.Sc. students at Urmia University (2017-Present)
  • 📰 Editor & Reviewer for international journals, including Scientific Reports and Journal of Food Measurement and Characterization (2017-Present)
  • 👨‍🏫 High School Teacher for the Ministry of Education (2016-2017)
  • 🌾 Agricultural Consultant for the “Alongside Agriculture” project, Jihad Agriculture Organization, Urmia (2015-2017)

🏆 Awards & Honors 

  • 🌟 Shahid Ahmadi Roshan Elite Project Award (2019)
  • 💡 Winner of Jihad University’s Idea Show Festival (2019)
  • 🏅 Shahid Vezvaei National Elite Project Award (2019, 2020, 2021)
  • 🎖️ Shahid Sayyad Shirazi National Elite Project Award (2019)
  • 🏆 Shahid Mousavi National Elite Project Award (2021)
  • 📜 Prestigious Professor Morteza Khoshkhou Zetaab Scientific Scholarship (2023)

🔬 Research Focus 

Dr. Ghader Ghasemi’s research primarily focuses on phytochemistry, essential oils, plant breeding, and agricultural biotechnology. His studies include:

  • 🧪 Essential oil profiling & bioactivity: Investigating antifungal, antioxidant, and insecticidal properties.
  • 🌱 Medicinal plant breeding: Enhancing secondary metabolites for pharmaceutical and agricultural applications.
  • 📊 Morphological & genetic diversity: Studying plant populations, particularly Rheum ribes, Cuminum cyminum, and Iris germanica.
  • 💡 Advanced extraction techniques: Using ultrasonic and response surface methodologies (RSM) for optimizing bioactive compound extraction.
  • 🌍 Sustainable agriculture: Enhancing crop resilience and productivity through innovative agricultural practices.

📚 Publications 

  1. 🧪 Composition, Antifungal, Phytotoxic, and Insecticidal Activities of Thymus kotschyanus Essential Oil – Molecules, 2020
  2. 🍋 Lippia citrodora Essential Oil Effects on Raspberry Phytochemical Content – Scientia Horticulturae, 2019
  3. 🌿 Antioxidant & Antifungal Activities of a New Cuminum cyminum Chemovar – Food Science & Biotechnology, 2019
  4. 🍀 Phytochemical Properties & Antioxidant Activity of Artemisia sieberi Essential Oil – Natural Product Research, 2021
  5. 🌾 Oxygenated Monoterpenes & Phytotoxic Activity of Cuminum cyminum Essential Oil – Natural Product Research, 2020
  6. 🌱 Phytochemical Diversity in Rheum ribes Populations in Iran – Ecophytochemistry Journal of Medicinal Plants, 2017
  7. 🔬 Optimization of Ultrasonic Extraction of Rheum ribes Antioxidants Using RSM – Scientific Reports, 2024
  8. 🍇 Phytochemical & Antioxidant Analysis of Small Fruits from Urmia – Food Science & Technology, 2019
  9. 🌍 Study on Rheum ribes Genotypes’ Phytochemical Properties & Antioxidant Activity – Journal of Food Research, 2018
  10. 🌸 Multivariate Analysis of Iris germanica Essential Oil & Antioxidant Properties – Industrial Crops & Products, 2023
  11. 🍓 Effects of Sodium Nitroprusside on Strawberry Physicochemical Properties – Scientific Reports, 2024
  12. 🌿 Antioxidant & Phytochemical Composition of Satureja sahendica Essential Oil – Journal of Pharmacy & Allied Medicine, 2024
  13. 🌺 Morphological & Phytochemical Traits of Rubus ulmifolius (Blackberry) in Urmia – Research in Pomology, 2024
  14. 📖 Phytopharmaceuticals from Ornamental Resources: Traditional Medicine to BioplatformsPhytopharm, 2023
  15. 🍂 Diversity in Elaeagnus angustifolia (Anabi) Genotypes in Urmia – Iranian Journal of Rangelands & Forests, 2023
  16. 🪻 Essential Oil Byproducts of Iris germanica Hybrids & Parents – Iranian Journal of Horticultural Science, 2022
  17. 🍓 Interaction of Sodium-Nitroprusside & Nano-Potassium on Strawberry Fruit – Iranian Journal of Horticultural Science, 2022

Nazila Biglari | biotechnology | Best Paper Award

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Dr. Nazila Biglari | biotechnology | Best Paper Award

Researcher, University Sains Malaysia (USM), Malaysia

🔬 Dr. Nazila Biglari is a dynamic project manager and innovative scientist specializing in microbiology, biotechnology, and polymer research. With a strong background in microbial fermentation and biopolymer production, she has successfully led interdisciplinary research projects. She has extensive experience in developing commercial applications for bioplastics, probiotics, and pharmaceutical compounds. Dr. Biglari has worked as a research assistant at Yeditepe University and Tabriz University, contributing to pharmaceutical and medical biotechnology. As a project manager at Universiti Sains Malaysia, she supervised multiple biotechnological projects, focusing on microbial polymer engineering. Her expertise extends to quality control, environmental microbiology, and medical laboratory testing. Recognized for her contributions, she has received prestigious awards and has been published in high-impact journals. Her work integrates microbiology with material science, offering innovative solutions for sustainable applications.

Profile

Education

🎓 Ph.D. in Biotechnology – Universiti Sains Malaysia

  • Research on polyhydroxyalkanoates (PHAs) production using genetically modified Cupriavidus necator.
  • Developed novel fermentation strategies for high-cell-density cultures.
  • Engineered biopolymers with enhanced molecular weight for commercial applications.

🎓 M.Sc. in Environmental Microbiology – Universiti Sains Malaysia

  • Investigated thermophilic Actinomycetes from extreme environments in Iran and Malaysia.
  • Studied microbial ecology, physiology, and phosphate solubilization for agricultural use.

🎓 B.Sc. in General Microbiology – Azad University, Iran

  • Gained hands-on experience in bacteriology, immunology, and chemical analysis.

Experience

🧪 Research Assistant – Yeditepe University, Turkey (2023)

  • Worked on beta-lactam inhibitors for pharmaceutical applications.
  • Developed fermentation-based production methods for these inhibitors.

🧪 Research Assistant – Tabriz University, Iran (2022)

  • Conducted studies on Coenzyme Q10 and probiotics production through microbial fermentation.

🧪 Project Manager – Universiti Sains Malaysia (2016–2019)

  • Led multiple microbiology and biotechnology research projects.
  • Supervised students in polymer research and bioprocessing techniques.
  • Developed bioinformatics approaches for engineering novel copolymers.

🧪 Quality Inspector – BornaMoin, Iran (2007–2008)

  • Conducted microbiological testing on food products.
  • Ensured compliance with regulatory standards in the Quality Control Department.

🧪 Medical Laboratory Assistant – Afzalipour University Hospital, Iran (2005–2006)

  • Performed microbiological, serological, and hematological testing on patient samples.

Awards and Honors

🏅 USM Fellowship – Universiti Sains Malaysia
🏅 Best Ph.D. Thesis Nomination – Universiti Sains Malaysia
🏅 Sanggar Sanjung Awards – Recognized for excellence in journal publications and innovative research (2021)

Research Focus

🔬 Biopolymers & Sustainable Materials – Development of biodegradable plastics, especially polyhydroxyalkanoates (PHAs).
🧫 Microbial Fermentation – Optimization of microbial systems for the production of high-value compounds like probiotics, CoQ10, and beta-lactam inhibitors.
🛠 Bioprocess Engineering – Upstream and downstream process development for biotechnology applications.
🦠 Environmental Microbiology – Exploration of extremophiles for industrial and agricultural applications.
🧪 Pharmaceutical Biotechnology – Production of novel bioactive compounds through microbial engineering.

Publications

📄 Enhancement of bioplastic polyhydroxybutyrate P(3HB) production from glucose by newly engineered strain Cupriavidus necator NSDG-GG using response modeling
📄 Conjugated polymer-based composite scaffolds for tissue engineering and regenerative medicine
📄 A study on the effects of increment and decrement repeated fed-batch feeding of glucose on the production of poly (3-hydroxybutyrate) [P (3HB)] by a newly engineered Cupriavidus necator
📄 The ability of Streptomyces spp. isolated from Iranian soil to solubilize rock phosphate
📄 Application of Polysaccharide-Based Materials in Food Packaging
📄 Metal-organic frameworks integrated into carbohydrate polymers as promising platforms for tissue engineering
📄 Cellulose and Its Derivatives in Food Industry
📄 A short review on polysaccharide-based nanocomposite adsorbents for separation and biomedical applications
📄 Improving Bioplastic Production: Enhanced P (3HB-co-3HHx) Synthesis from Glucose by Using Mutant Cupriavidus necator

Trevena Youssef | Biochemistry | Best Researcher Award

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Ms. Trevena Youssef | Biochemistry | Best Researcher Award

Trevena Youssef at Memorial university, Canada

Trevena Youssef is a dedicated Ph.D. candidate at Memorial University in Biochemistry, specializing in structural investigations using tandem mass spectrometry. Her research delves into the mass spectrometric analysis of marine bacterial lipids and otolith proteins. With a robust background in carbohydrate chemistry and microbiology, Trevena is committed to advancing biochemical science through innovative techniques and collaborative research efforts.

Author Metrics

ORCID Profile

Trevena Youssef’s academic impact is reflected in her author metrics, which include citation counts and h-index values. These metrics highlight the influence and reach of her research within the scientific community. Her publications in high-impact journals such as Biochem and Carbohydrate Research demonstrate her significant contributions to the fields of biochemistry and proteomics.

Education

Trevena Youssef’s educational background is marked by a progression from foundational studies to advanced research. She is currently pursuing a Ph.D. at Memorial University, focusing on tandem mass spectrometry and structural investigations. Her Master’s degree in Carbohydrate Chemistry from Alexandria University involved synthesizing biologically active compounds, while her Bachelor’s degree from Damanhur University provided a solid grounding in chemistry and microbiology.

Research Focus

Trevena’s research focus is on using tandem mass spectrometry to explore the structural properties of marine bacterial lipids and fish otolith proteins. This work aims to uncover insights into the biochemical characteristics of these substances and their roles in environmental stress responses. Her research employs advanced proteomics techniques to analyze and interpret complex biochemical data.

Professional Journey

Trevena Youssef’s professional journey began with a Bachelor’s degree in Chemistry and Microbiology, followed by a Master’s degree in Carbohydrate Chemistry. Her career advanced with a Ph.D. program at Memorial University, where she has specialized in mass spectrometry and proteomics. Additionally, her role as a teaching assistant has allowed her to gain experience in academic instruction and student mentorship.

Honors & Awards

Throughout her academic career, Trevena has received several honors and awards that recognize her research achievements and contributions to biochemistry. These include accolades for her research excellence and exceptional paper presentations, highlighting her role as a rising researcher in her field.

Publications Noted & Contributions

Trevena Youssef has made notable contributions to scientific literature through her publications. Key works include studies on the proteomics of Atlantic cod otoliths and the synthesis of antimicrobial compounds. Her research has been published in respected journals such as Biochem and Carbohydrate Research, contributing valuable insights into biochemical and proteomic science.

1. Proteomic Blueprint of Atlantic Cod (Gadus morhua) Otoliths Revealing Environmental Stress Insights through Label-Free Quantitative Shotgun Proteomics

  • Journal: BioChem
  • Publication Date: June 19, 2024
  • DOI: 10.3390/biochem4020008
  • Contributors: Trevena N. Youssef, Sherri L. Christian, Rick Rideout, Aaron Adamack, Pierre Thibault, Eric Bonneil, Travis D. Fridgen, Joseph Banoub
  • Overview: This article employs label-free quantitative shotgun proteomics to profile the proteome of Atlantic cod otoliths. The study focuses on understanding how environmental stresses affect these fish through detailed proteomic analysis, potentially offering insights into the impact of environmental changes on marine life.

2. Qualitative Shotgun Proteomics Strategy for Protein Expression Profiling of Fish Otoliths

  • Journal: BioChem
  • Publication Date: July 2023
  • DOI: 10.3390/biochem3030008
  • Contributors: Rick M. Rideout, Trevena Youssef, Aaron T. Adamack, Rince John, Alejandro M. Cohen, Travis Fridgen, Joseph Banoub
  • Overview: This earlier study presents a qualitative shotgun proteomics approach to profiling protein expression in fish otoliths. The focus is on the methodology and application of proteomics to fish otoliths, setting the groundwork for understanding protein expression patterns.

Research Timeline

Trevena’s research timeline reflects her progression from undergraduate studies through advanced research. It includes her Bachelor’s research on cellulose conversion, Master’s research on antimicrobial compounds, and ongoing Ph.D. research on tandem mass spectrometry and proteomics. This timeline highlights her growth as a researcher and her continuous contributions to the field of biochemistry.

Collaborations and Projects

Trevena Youssef has engaged in several collaborative projects with leading researchers and institutions. Her work with Dr. Joseph Banoub on tandem mass spectrometry and her collaborations with Fisheries and Oceans Canada underscore her involvement in high-impact research projects. These collaborations enhance the scope of her work and contribute to significant advancements in biochemistry and marine science.

Conclusion

Trevena Youssef’s recognition with the Best Researcher Award underscores her significant contributions to the field of biochemistry through innovative research and high-impact publications. Her expertise in tandem mass spectrometry and proteomics, combined with her collaborative efforts and multidisciplinary approach, marks her as a leading figure in her field. To further elevate her research impact, focusing on broader outreach, practical applications, and interdisciplinary integration could provide additional avenues for growth and advancement. Continued efforts in securing funding and expanding her research scope will support her ongoing contributions to biochemical science and marine research.