Mahdi Yahyazadeh Balalami | Biological Sciences | Young Scientist Award

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Assist. Prof. Dr. Mahdi Yahyazadeh Balalami | Biological Sciences | Young Scientist Award

Researcher from Research Institute of Forests and Rangelands, Iran

Mahdi Yahyazadeh Balalami is a dedicated researcher specializing in plant secondary metabolites, particularly medicinal alkaloids. With a robust academic foundation and over a decade of research experience, he has established himself in the fields of plant biology, phytochemistry, and analytical techniques. He is currently an Assistant Professor at the Medicinal Plant Research Division, Research Institute of Forests and Rangelands in Tehran, Iran, where he focuses full-time on research. Mahdi has contributed extensively to understanding the biosynthesis and purification of plant alkaloids, including significant work on Papaver somniferum and Catharanthus roseus. His scientific journey is marked by international collaborations with prestigious institutions such as the Technische Universität Braunschweig in Germany and Kyoto University in Japan. His hands-on experience in molecular biology, chromatography, and gene expression analysis demonstrates his versatility and commitment to scientific innovation. He has also served as a scientific consultant for industry, bridging the gap between academic research and practical applications. Mahdi’s scholarly achievements are reflected in his awards, publications, and the application of his work in pharmaceutical development. His career trajectory underscores a strong dedication to advancing plant-based therapeutic research and applying it in both academic and industrial contexts.

Professional Profile

Education

Mahdi Yahyazadeh Balalami holds an impressive academic background across various institutions and countries. He earned his Ph.D. in Plant Biology from Technische Universität Braunschweig in Germany between August 2013 and July 2017. His dissertation, supervised by Professor Dirk Selmar, focused on the impact of abiotic stress on alkaloid biosynthesis, a critical topic for both plant biology and pharmaceutical applications. His doctoral performance was graded as “Very Good.” Prior to that, Mahdi completed his Master of Science in Agricultural Engineering with a specialization in Horticulture Science from Tarbiat Modares University, Tehran, Iran, in January 2007. His MSc thesis addressed the effects of essential oils on extending the shelf life of orange fruits, demonstrating his early interest in plant-derived bioactive compounds. He earned a Bachelor’s degree in Agricultural Engineering – Plant Products from Islamic Azad University, Chalous, Iran, in 2000 with a GPA of 17.18/20. Mahdi also holds an Associate Degree in Orchard Products Technology from Tonekabon Agricultural Higher Education Institute. His academic progression reflects a consistent focus on plant sciences, particularly those with practical implications for health and agriculture. Each stage of his education laid a foundation for his future research on medicinal plants and their chemical constituents.

Professional Experience

Dr. Mahdi Yahyazadeh Balalami’s professional experience spans academic research, industry consultancy, and international collaborations. Since January 2020, he has served as an Assistant Professor at the Medicinal Plant Research Division of the Research Institute of Forests and Rangelands in Tehran, Iran, dedicating 100% of his time to research. Simultaneously, since May 2019, he has acted as a scientific consultant at Temad Pharmaceutical Company, focusing on improving alkaloid extraction methods from Papaver species and developing HPLC analysis protocols. Mahdi is also affiliated as a researcher with the Institute for Plant Biology at Technische Universität Braunschweig, Germany, where he collaborates on natural product transfer studies. His prior roles include multiple internships and assistantships in Germany and Japan, notably at Kyoto University and various departments within TU Braunschweig. These experiences involved gene cloning, heterologous expression in yeast, alkaloid purification, and transcriptome analysis. His hands-on experience with chromatography systems, bioinformatics tools, and laboratory instrumentation has made him a well-rounded researcher. Mahdi’s career reflects a balance between theoretical expertise and experimental application, enriched by cross-cultural academic exposure and industrial relevance. His long-standing commitment to medicinal plant research continues to yield valuable insights into phytochemical biosynthesis and plant-based therapeutics.

Research Interests

Mahdi Yahyazadeh Balalami’s research interests lie at the intersection of plant biology, phytochemistry, molecular genetics, and pharmacognosy. His primary focus is on the biosynthesis, extraction, and analysis of plant-derived alkaloids with therapeutic potential. His research explores the biochemical and genetic pathways of alkaloid production in medicinal plants such as Chelidonium majus, Catharanthus roseus, and Papaver somniferum. He is particularly interested in how abiotic stress influences secondary metabolite biosynthesis, a subject he explored deeply during his Ph.D. studies. Mahdi’s academic work is complemented by applied research on improving extraction techniques and developing advanced HPLC methods for the pharmaceutical industry. He has also contributed to projects involving horizontal natural product transfer, which investigates how bioactive compounds can move between organisms or across species boundaries—a novel area with implications for synthetic biology and drug discovery. Furthermore, his collaborations with institutions in Germany and Japan have broadened his expertise in gene cloning, yeast expression systems, and countercurrent chromatography. Mahdi’s research ultimately aims to enhance the efficiency, sustainability, and biological relevance of plant-based drug production through a better understanding of plant metabolism and bioengineering.

Research Skills

Dr. Mahdi Yahyazadeh Balalami possesses a comprehensive and highly specialized set of research skills in plant molecular biology and phytochemistry. He has extensive experience in cloning P450 genes and expressing them in yeast systems, demonstrating his strong molecular biology foundation. His work includes transcriptomic analysis using qRT-PCR to study gene expression in alkaloid biosynthesis pathways, particularly involving enzymes like stylopine synthase. Mahdi is proficient in a range of analytical techniques such as HPLC-DAD, LC-MS, LC-MS/MS, GC-MS, NMR, and X-ray crystallography, which he has used for the purification and structural elucidation of plant alkaloids. His hands-on experience with Counter Current Chromatography (CCC) and preparative chromatography allows him to isolate bioactive compounds with high precision. He is also skilled in handling plant growth under controlled environmental conditions, essential for studying secondary metabolite production. His familiarity with bioinformatics tools such as MEGA7, BioEdit, SAS, SPSS, Maestro, Chimera, and Autodock Vina enables him to analyze sequences and model molecular interactions. This integration of wet-lab and computational expertise allows Mahdi to conduct interdisciplinary research that bridges plant science, pharmacology, and biotechnology. His methodological rigor and technical versatility make him a valuable contributor to medicinal plant research.

Awards and Honors

Mahdi Yahyazadeh Balalami has received several notable awards and recognitions throughout his academic and research career. During his Ph.D. studies, he was awarded a 48-month scholarship by the Iranian Ministry of Science, Research and Technology, supporting his education at Technische Universität Braunschweig in Germany from 2013 to 2017. This competitive scholarship reflects both his academic excellence and the national confidence in his research potential. Earlier, in 2004, Mahdi ranked 12th among more than 1500 candidates in Iran’s nationwide M.Sc. entrance examination, securing a place at the prestigious Tarbiat Modares University. In 2009, he was honored by the Iranian Nano Committee for his contribution to nano-related research, underlining his early engagement in innovative scientific domains. These honors highlight not only his academic diligence but also his consistent trajectory of achievement across different levels of education and research. Recognition from both national bodies and research institutions reinforces the impact and quality of his scientific contributions. These awards reflect a strong commitment to advancing plant-based biotechnology, further cementing his position as a researcher capable of delivering both foundational knowledge and practical applications in the field of medicinal plant science.

Conclusion

In conclusion, Dr. Mahdi Yahyazadeh Balalami exemplifies the qualities of an outstanding researcher in the field of medicinal plant science. His career is marked by a clear focus on plant-derived bioactive compounds, with notable specialization in alkaloid biosynthesis, extraction, and analysis. His work bridges fundamental plant biology and practical pharmaceutical applications, and he has demonstrated strong leadership in both academic and industrial research settings. Mahdi’s extensive international experience, especially in Germany and Japan, showcases his collaborative spirit and adaptability across research cultures. He is equipped with a rare combination of skills in molecular biology, phytochemistry, and analytical instrumentation, supported by his use of advanced software tools. His educational achievements, research excellence, and multiple recognitions further affirm his dedication and competence. While his research output could benefit from broader publication visibility and expanded interdisciplinary collaborations, his foundation is exceptionally strong. Mahdi is a well-qualified candidate for the Best Researcher Award, and his continued work holds promise for significant advancements in natural product research and pharmaceutical development. His career reflects a persistent drive to contribute meaningful scientific knowledge and innovation in the realm of medicinal plants and plant-based therapeutics.

Publications Top Notes

  1. High variations of the thebaine concentrations in Iranian poppy (Papaver bracteatum Lindl.) from various regions in Iran
    Authors: Mahdi Yahyazadeh, Mahshid Rahimifard, Najmeh Hadi, Zahra Shirazi, Samaneh Asadi-sanam, Razieh Azimi, Yousef Ajani, Maryam Makizadeh, Aiuob Moradi, Mahmood Bidarlord, et al.
    Year: 2024

  2. A Major Loss of Phenyl Ethyl Alcohol by the Distillation Procedure of Rosa damascene Mill
    Authors: Kamkar Jaimand, Mohammad Bagher Rezaee, Razieh Azimi, Someyeh Fekry, Mahdi Yahyazadeh, Shahrokh Karimi, Firoozeh Hatami
    Year: 2023

  3. Chemical composition of essential oil in Anthemis lorestanica from Isfahan province in Iran
    Authors: K. Jaimand, S. Davazdahemami, B. Bahreininejad, L. Safaii, F. Sefidkon, M. B. Rezaei, R. Azimi, M. Yahyazadeh, S. Karimi, F. Hatamy, et al.
    Year: 2023

  4. Effect of Geographical Location on Yield and Chemical Composition of Teucrium orientale L. Essential Oils Collected from Eleven Different Localities in Iran
    Authors: Mahshid Rahimifard, Fatemeh Sefidkon, Razieh Azimi, Somayeh Fekri Qomi, Maryam Makkizadeh Tafti, Mahmoud Naderi, Mahdi Yahyazadeh, Parvin Salehi Shanjani
    Year: 2023

  5. Genome-wide identification and expression profile analysis of metal tolerance protein gene family in Eucalyptus grandis under metal stresses
    Authors: Zahra Shirazi, Fatemeh Khakdan, Fariba Rafiei, Mahdi Yahyazadeh Balalami, Mojtaba Ranjbar
    Year: 2023

  6. Impact of Aridity on Specialized Metabolism: Concentration of Natural Products in Plants
    Authors: Mahdi Yahyazadeh, Sara Abouzeid, Laura Lewerenz, Tahani Hijazin, Dirk Selmar
    Year: 2023

  7. Impact of Aridity on Specialized Metabolism: Concentration of Natural Products in Plants
    Book Chapter in: Medicinal Plants: Their Response to Abiotic Stress
    Authors: M. Yahyazadeh, S. Abouzeid, L. Lewerenz, T. Hijazin, D. Selmar
    Year: 2023

  8. Bio-evaluation of Untapped Alkaloids from Vinca minor Enriched by Methyl-jasmonate-induced Stress: an Integrated Approach
    Authors: F. F. El-Senduny, A. A. Elgazar, H. A. Alwasify, A. Abed, M. Foda, S. Abouzeid, L. Lewerenz, D. Selmar, F. Badria
    Year: 2022

  9. Biochemistry and Molecular Basis of Intracellular Flavonoid Transport in Plants
    Authors: B. Pucker, D. Selmar
    Year: 2022

  10. Favorable Impacts of Drought Stress on the Quality of Medicinal Plants: Improvement of Composition and Content of Their Natural Products
    Authors: S. Abouzeid, L. Lewerenz, M. Yahyazadeh, A. Radwan, T. Hijazin, M. Kleinwächter, D. Selmar
    Year: 2022

  11. Horizontal Natural Product Transfer: A Phenomenon Which Is Responsible for the Widespread Alkaloidal Contaminations of Herbal Products
    Authors: T. Hijazin, L. Lewerenz, M. Yahyazadeh, D. Selmar
    Year: 2022

Linda Medlin | Toxic Algae | Women Researcher Award

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Prof Dr. Linda Medlin | Toxic Algae | Women Researcher Award

Professor at Marine Biological Association of the UK, United Kingdom.

Linda Karen Medlin’s research focuses on the taxonomy, systematics, and molecular genetics of phytoplankton, especially diatoms. She explores their biodiversity, evolutionary relationships, and ecological roles in marine and freshwater environments. Medlin integrates traditional morphological methods with modern molecular techniques to develop new identification and classification methodologies. Her research aims to understand phytoplankton’s genetic diversity, adaptive strategies, and responses to environmental changes, with implications for environmental monitoring, ecological modeling, and aquatic ecosystem management.

Profile

Education

Linda Karen Medlin earned her Ph.D. in Botany from Texas A&M University in 1983, where she was a member of Phi Kappa Phi. She completed her M.S. in Biology at Texas A&M University in 1977 and received her B.S. in Education with a focus on Biology and French from the University of Texas at Austin in 1970. Her specialized training includes courses in freshwater and marine diatom taxonomy directed by Ruth Patrick, molecular genetics/systematics led by M.L. Sogin, and advanced molecular systematics at the University of Reading. Medlin also participated in international phytoplankton courses and workshops sponsored by organizations such as UNESCO and SCOR. Her educational background and training reflect her extensive expertise in phycology and marine biology.

Professional Experience

Linda Karen Medlin’s professional experience is marked by significant contributions to marine biology and phycology. She is a Senior Scientist at the Alfred Wegener Institute for Polar and Marine Research, where she has been instrumental in research on marine phytoplankton. Prior to this, Medlin was a Research Scientist at the Marine Biological Laboratory in Woods Hole, Massachusetts, focusing on phytoplankton taxonomy and molecular genetics. She has also held positions as a Research Associate at the University of Texas at Austin and as a Lecturer in Biology at Texas A&M University. Medlin’s work includes substantial research on diatom taxonomy and marine ecosystem health, supported by her roles in several international research projects and collaborations. Her career reflects a deep commitment to advancing understanding in marine and freshwater biology through both research and teaching.

Research Focus:

Linda Karen Medlin’s research focuses on the taxonomy, systematics, and molecular genetics of marine and freshwater phytoplankton, particularly diatoms. She is renowned for her work on the diversity and evolutionary relationships of diatom species, employing advanced techniques in molecular biology and genetics to unravel the complexities of phytoplankton classification and phylogeny. Her research also explores the ecological roles of phytoplankton in marine and freshwater ecosystems, including their responses to environmental changes and their impact on biogeochemical cycles. Medlin has significantly contributed to understanding the biodiversity and distribution patterns of these microorganisms, enhancing knowledge of their ecological significance and potential applications in monitoring environmental health. Her work integrates field studies, laboratory experiments, and computational analyses, aiming to bridge gaps between taxonomy, ecology, and evolutionary biology in the study of phytoplankton.

Award and Honors

Linda Karen Medlin has been recognized with several prestigious awards and honors throughout her distinguished career. She received the “Diatom Research Excellence Award” from the International Society for Diatom Research, acknowledging her significant contributions to diatom taxonomy and systematics. Medlin was also honored with the “Outstanding Researcher Award” by her home institution for her innovative research on phytoplankton diversity and molecular genetics. In addition, she has been a recipient of the “Excellence in Marine Science Award” from the Marine Biological Association for her impactful work on marine phytoplankton and their ecological roles. Her achievements in advancing the understanding of phytoplankton biodiversity and environmental interactions have earned her international recognition and respect within the scientific community. These honors highlight her dedication to advancing the field of phytoplankton research and her contributions to marine and freshwater ecology.

Research Interest

Linda Karen Medlin’s research interests are centered on the taxonomy, systematics, and molecular genetics of phytoplankton, with a particular focus on diatoms. Her work explores the biodiversity and evolutionary relationships of diatoms, contributing to a deeper understanding of their ecological roles in marine and freshwater environments. Medlin is also interested in the application of molecular techniques to elucidate the complex interactions between phytoplankton communities and their environments. Her research extends to the development of new methodologies for the identification and classification of phytoplankton species, integrating traditional morphological approaches with modern molecular tools. By investigating the genetic diversity and adaptive strategies of phytoplankton, Medlin aims to enhance our knowledge of their responses to environmental changes and their roles in global biogeochemical cycles. Her work has significant implications for environmental monitoring, ecological modeling, and the management of aquatic ecosystems.

Publication Top Notes
  1. “A biosensor monitoring approach for toxic algae: Construction of calibration curves to infer cell numbers in field material”
    • Authors: Linda K. Medlin, M. García-Portela, A.E. Rossignoli, B. Reguera
    • Year: 2024
    • Journal: Harmful Algae
    • Volume: 138
    • Article ID: 102697
  2. “Mapping Selected Emergent Marine Toxin-Producing Organisms Using Historical Samples with Two Methods (Biosensors and Real-Time PCR): A Comparison of Resolution”
    • Authors: G. Mengs, R.F. Stern, J.L. Clarke, M. Faith, Linda K. Medlin
    • Year: 2024
    • Journal: Applied Microbiology
    • Volume: 4(1)
    • Pages: 312–328
  3. “Biodiversity of Harmful Marine Algae”
    • Authors: Linda K. Medlin, A.D. Cembella
    • Year: 2024
    • Book: Encyclopedia of Biodiversity, Third Edition: Volume 1-7
    • Pages: V2-886–V2-901
  4. “Complex Plastids and the Evolution of the Marine Phytoplankton”
    • Authors: A. Gruber, Linda K. Medlin
    • Year: 2023
    • Journal: Journal of Marine Science and Engineering
    • Volume: 11(10)
    • Article ID: 1903
  5. “A Review of the Dinoflagellates and Their Evolution from Fossils to Modern”
    • Authors: J.B. Riding, R.A. Fensome, M.-O. Soyer-Gobillard, Linda K. Medlin
    • Year: 2023
    • Journal: Journal of Marine Science and Engineering
    • Volume: 11(1)
    • Article ID: 1
  6. “Determination of the efficiency of filtration of cultures from microalgae and bacteria using hollow fiber filters”
    • Authors: J. Robla, J. García-Hierro, F.J. Alguacil, G. Mengs, Linda K. Medlin
    • Year: 2021
    • Journal: Environmental Science: Water Research and Technology
    • Volume: 7(7)
    • Pages: 1230–1239
  7. “Local environment shapes adaptation of Phaeocystis antarctica to salinity perturbations: Evidence for physiological resilience”
    • Authors: S. Gäbler-Schwarz, F. Hinz, G.O. Kirst, M. Uttieri, Linda K. Medlin
    • Year: 2021
    • Journal: Journal of Experimental Marine Biology and Ecology
    • Volume: 538
    • Article ID: 151527
  8. “The morphology and phylogeny of the diatom genera Rhizosolenia, Proboscia, Pseudosolenia and Neocalyptrella from Gulf of Thailand and the Andaman Sea, with description of Rhizosolenia loanicola sp. nov., Proboscia siamensis sp. nov. and Probosciales ord. nov.”
    • Authors: A. Boonprakob, N. Lundholm, Linda K. Medlin, Ø. Moestrup
    • Year: 2021
    • Journal: Diatom Research
    • Volume: 36(3)
    • Pages: 143–184
  9. “Advances in the Detection of Toxic Algae Using Electrochemical Biosensors”
    • Authors: Linda K. Medlin, M. Gamella, G. Mengs, S. Campuzano, J.M. Pingarrón
    • Year: 2020
    • Journal: Biosensors
    • Volume: 10(12)
    • Article ID: 207
  10. “Phylogenetic reconstruction of diatoms using a seven-gene dataset, multiple outgroups, and morphological data for a total evidence approach”
    • Authors: Linda K. Medlin, Y. Desdevises
    • Year: 2020
    • Journal: Phycologia
    • Volume: 59(5)
    • Pages: 422–436