Minoo Rassoulzadegan | Plant Genetics | Botany Scientist Excellence Award

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Prof. Minoo Rassoulzadegan | Plant Genetics | Botany Scientist Excellence Award

Researcher at Erciyes University, Turkey

Prof. Minoo Rassoulzadegan is an internationally acclaimed molecular geneticist renowned for her pioneering work in epigenetic inheritance and RNA-mediated heredity. With over four decades of research experience, she has redefined the classical boundaries of inheritance by introducing concepts such as paramutation and transvection in mammals—phenomena traditionally known in plant systems. As a former CNRS Director of Research and current faculty at Erciyes University in Turkey, her work continues to influence genetic and developmental biology across species. She has published extensively in prestigious journals including Nature, Developmental Cell, and PLoS Genetics, among others. Her groundbreaking discovery that RNA molecules in sperm can transmit epigenetic traits across generations has not only challenged Mendelian genetics but also opened new frontiers in disease inheritance, behavioral neuroscience, and environmental epigenetics. Prof. Rassoulzadegan is also a revered mentor, having guided numerous researchers globally. Her research bridges plants and mammals, showing the evolutionary continuity of epigenetic mechanisms.

Professional Profile 

Education

Prof. Rassoulzadegan began her academic journey in France at Nice University – Faculty of Sciences, where she earned her Bachelor’s (BS) degree in Biology between 1972 and 1975. She continued her studies there with a Master of Science (MSc) in Biochemistry from 1975 to 1976, followed by a PhD in Molecular Genetics, which she completed in 1979. Her academic training laid a strong foundation in biological systems, with a special focus on the molecular underpinnings of genetic regulation. Her doctoral work laid the groundwork for her later paradigm-shifting research in mouse genetics and epigenetic control. This progression through biology, biochemistry, and molecular genetics provided her with an interdisciplinary framework that allowed her to bridge knowledge across species. She later supplemented her training with specialized studies in embryonic manipulation at Cold Spring Harbor Laboratory (USA) in 1984—an experience that further refined her techniques in early developmental biology and germline research.

Professional Experience

Prof. Rassoulzadegan has held influential research and academic positions throughout her career. She began as an Attaché de Recherche in 1979 with the CNRS (Centre National de la Recherche Scientifique) and rose through the ranks to become Directrice de Recherche by 1986. From 2004 to 2011, she served as Director of Inserm Unit 636, leading innovative research in RNA biology and epigenetics. Since 2012, she has been a Group Leader at the Institut de Biologie Valrose (IBV) in France and has remained scientifically active even after moving to Erciyes University in Turkey. Her professional journey is marked by leadership in both research direction and scientific mentorship. She has collaborated with world-renowned scientists and played a crucial role in shaping understanding of genetic regulation through RNA. Her transnational academic career reflects her status as a global scientific ambassador and role model in the life sciences community.

Research Interests

Prof. Rassoulzadegan’s research interests lie at the cutting edge of molecular genetics, epigenetics, RNA biology, and transgenerational inheritance. Her primary focus has been on understanding how small RNAs in sperm and other germline cells contribute to non-Mendelian patterns of inheritance. Her groundbreaking discovery that RNA molecules can carry hereditary information and influence phenotype has revolutionized genetics. She investigates mechanisms of paramutation, a form of epigenetic regulation initially characterized in plants, and was among the first to demonstrate its existence in mammals. Her work also extends into the role of epigenetic changes in diseases such as obesity, metabolic disorders, neurodevelopmental conditions like autism, and stress-related endocrine dysfunction. Lately, she has expanded her interest into RNA-based biomarkers, exploring their potential in predictive medicine and reproductive health. Her research embodies a convergence of basic science and translational relevance, drawing conceptual parallels between plant and animal models of heredity.

Research Skills

Prof. Rassoulzadegan is equipped with a powerful arsenal of research skills encompassing molecular cloning, mouse model development, embryonic microinjection, RNA isolation, epigenetic profiling, transcriptomics, and bioinformatics. She has mastered advanced CRISPR-Cas9 genome editing techniques, and her laboratory routinely generates transgenic mouse models to study the heritability of RNA signatures. Her expertise extends to small RNA sequencing, analysis of DNA methylation, histone modifications, and non-coding RNA function in germline cells. A critical aspect of her skill set lies in her ability to design cross-species experiments that model human diseases and test her hypotheses of RNA-mediated inheritance. She is also proficient in data interpretation tools used in systems biology and functional genomics. Her lab has pioneered several in vivo and in vitro assays to dissect complex hereditary signals, making her not only a theoretician but also an experimentalist of the highest order.

Awards and Honors

Prof. Rassoulzadegan’s scientific excellence has earned her multiple prestigious honors. Most notably, she was elected as a Member of the European Molecular Biology Organization (EMBO) in 2009, a recognition given only to the most accomplished life scientists in Europe. Her work has been extensively cited and celebrated in top-tier journals, garnering respect from across the biomedical and plant research communities. She has been invited as a keynote speaker at numerous international conferences and has served on editorial boards of reputed journals in genetics and molecular biology. Her legacy also includes mentorship of emerging scientists, many of whom have gone on to become leaders in genetics, epigenetics, and developmental biology. Her continuous innovation, global research engagement, and visionary contributions to science underscore her status as a trailblazer in RNA epigenetics and inheritance.

Conclusion

Prof. Dr. Minoo Rassoulzadegan is a visionary and highly accomplished scientist whose discoveries in RNA-mediated epigenetic inheritance have profoundly influenced both plant and animal genetics. While her core domain is molecular biology and mammalian epigenetics, the conceptual origin and translational relevance of her work to plant sciences make her a strong and intellectually justified candidate for the Botany Scientist Excellence Award, especially if the award recognizes cross-disciplinary excellence or epigenetic insights with botanical significance. If the award committee values conceptual innovation with plant science implications over strict taxonomic boundaries, Prof. Rassoulzadegan is not only suitable but exemplary.

Publications Top Noted

  1. LncRNA TERRA in hybrid with DNA is a relevant biomarker for monitoring patients with meningioma
    Scientific Reports, 2025

  2. RNA-Mediated Non-Mendelian Inheritance in Mice: The Power of Memory
    Biomolecules, 2025

  3. Impact of mild traumatic brain injury (mTBI) on sperm genome integrity: insights from a mouse model
    Journal of Endocrinological Investigation, 2025

  4. Psoriatic skin transcript phenotype: androgen/estrogen and cortisone/cortisol imbalance with increasing DNA damage response
    Molecular Biology Reports, 20241 citation

  5. Experimentally altering microRNA levels in embryos alters adult phenotypes
    Scientific Reports, 20241 citation

  6. Autism-Related Cc2d1a Heterozygous Mice: Increased Levels of miRNAs Retained in DNA/RNA Hybrid Profiles (R-Loop)
    Biomolecules, 2024

  7. Trans Species RNA Activity: Sperm RNA of the Father of an Autistic Child Programs Glial Cells and Behavioral Disorders in Mice
    Biomolecules, 20245 citations

  8. RNA-Mediated Inheritance of Mammalian Spermatozoa (Book Chapter)
    Year not specified

  9. Alterations in serum mir-126-3p levels over time: A marker of pituitary insufficiency following head trauma
    Neuroendocrinology, 20233 citations

  10. From Data to Insights: Machine Learning Empowers Prognostic Biomarker Prediction in Autism
    Journal of Personalized Medicine, 20236 citations

Saeedeh Zarbakhsh | Horticulture | Young Scientist Award

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Dr. Saeedeh Zarbakhsh | Horticulture | Young Scientist Award

Postdoc Researcher at University of Tehran, Iran

Dr. Saeedeh Zarbakhsh is an emerging scientist in the field of plant sciences, specializing in plant responses to abiotic stress, in vitro culture, and physiological adaptations under controlled environmental conditions. Currently a postdoctoral researcher at the University of Tehran, she integrates conventional plant biology with modern computational techniques, including machine learning, to optimize crop performance under artificial lighting. With 17 publications in reputable journals and editorial appointments in the Plant Stress journal, she is building a notable academic presence. Her research contributions span tissue culture innovations, postharvest physiology, and predictive modeling in plant science. She is also actively engaged in academic instruction and workshop facilitation, bridging theory and practice for students and stakeholders. Her interdisciplinary approach, combining plant physiology with data science, places her at the forefront of sustainable agriculture research, especially under climate change and resource-limited conditions.

Professional Profile 

Education🎓

Dr. Zarbakhsh holds a Ph.D. in Plant Physiology, during which she investigated the in vitro and in vivo modulation of drought and salinity stress in pomegranate using gamma-aminobutyric acid (GABA). Her M.Sc. research focused on postharvest quality and the effects of gamma irradiation on date fruit cultivars, reflecting an early interest in crop resilience and food preservation. She has cultivated a research foundation rooted in plant stress biology, supported by strong academic training in physiology, tissue culture, and postharvest technology. Her education has not only been focused on fundamental sciences but also geared toward practical applications in agriculture and food security. This strong academic base has equipped her with the theoretical knowledge and technical skill set necessary for interdisciplinary and applied plant research.

Professional Experience💼

Currently a postdoctoral researcher at the University of Tehran, Dr. Zarbakhsh is working on machine learning-based modeling of plant traits under artificial light conditions, using basil as a model crop. She has previously served as a lecturer at various universities in Iran, delivering courses in plant physiology, stress biology, and tissue culture. Her professional background also includes organizing and leading workshops for researchers and practitioners, thereby extending her influence beyond academia. In addition to academic roles, her postdoctoral research includes a consultancy aspect, translating lab results into practical, scalable systems for controlled-environment agriculture. Her work environment emphasizes collaboration, multidisciplinary integration, and problem-solving—traits that are evident in her current and past research projects.

Research Interest🔬

Dr. Zarbakhsh’s primary research interests lie in plant stress physiology, controlled-environment agriculture, in vitro propagation, and postharvest biology. She is particularly focused on how plants respond to abiotic stresses such as drought, salinity, and artificial light conditions. Her recent postdoctoral work integrates machine learning to predict and optimize photosynthesis, morphology, and crop yield, which shows her commitment to innovation. Her research also explores the physiological mechanisms of plant resilience, biostimulant applications, and enhancing crop quality during postharvest handling. By applying both classical physiological approaches and modern computational tools, she aims to develop sustainable solutions for global agriculture, especially under climate and resource pressures.

Research Skill🔎

Dr. Zarbakhsh possesses a diverse set of research skills that span experimental plant biology, in vitro tissue culture, gas exchange analysis, fluorescence imaging, and controlled-environment system design. Her proficiency in using machine learning algorithms to interpret complex physiological datasets is a unique strength in her field. She is experienced in designing experiments involving drought/salinity simulations, stress biomarker quantification, and statistical modeling. Furthermore, she has hands-on expertise in artificial lighting protocols for plant growth and understands both plant-environment interactions and computational optimization. Her skill set is enriched by her ability to communicate findings through scientific writing and peer-reviewed publications.

Awards and Honors🏆

While specific awards are not listed in her profile, Dr. Saeedeh Zarbakhsh holds multiple editorial positions, including Guest Editor for a Special Issue on biostimulants in the Plant Stress journal and Junior Editor since 2024. These appointments reflect peer recognition of her scientific competence and subject expertise. Her selection for a competitive postdoctoral research project also serves as a mark of merit. With her growing body of publications and contributions to scholarly literature, she is positioning herself for future accolades, particularly in the domains of plant stress physiology and sustainable agriculture.

Conclusion📝

Dr. Saeedeh Zarbakhsh is a promising early-career researcher with strong interdisciplinary skills, a growing scientific publication record, and demonstrated leadership in both research and outreach. Her innovative postdoctoral work using AI for predicting plant performance under artificial light stands out as cutting-edge.

Publications Top Noted📚

 

  • 2019Influence of postharvest gamma irradiation on the antioxidant system, microbial and shelf life quality of three cultivars of date fruits (Phoenix dactylifera L.)
    Authors: S. Zarbakhsh, S. Rastegar
    Journal: Scientia Horticulturae 247, 275-286
    Citations: 50

  • 2023Exogenous γ-aminobutyric acid improves the photosynthesis efficiency, soluble sugar contents, and mineral nutrients in pomegranate plants exposed to drought, salinity, and …
    Authors: S. Zarbakhsh, A.R. Shahsavar
    Journal: BMC Plant Biology 23 (1), 543
    Citations: 42

  • 2018Biochemical, physiological changes and antioxidant responses of cut gladiolus flower ‘White Prosperity’ induced by nitric oxide
    Authors: H. Kazemzadeh-Beneh, D. Samsampour, S. Zarbakhsh
    Journal: Advances in Horticultural Science 32 (3), 421-432
    Citations: 17

  • 2020Quality preservation of minimally processed pomegranate cv. Jahrom arils based on chitosan and organic acid edible coatings
    Authors: S. Zarbakhsh, H. Kazemzadeh‐Beneh, S. Rastegar
    Journal: Journal of Food Safety 40 (2), e12752
    Citations: 16

  • 2024Predicting and optimizing reactive oxygen species metabolism in Punica granatum L. through machine learning: role of exogenous GABA on antioxidant enzyme …
    Authors: S. Zarbakhsh, A.R. Shahsavar, A. Afaghi, M. Hasanuzzaman
    Journal: BMC Plant Biology 24 (1), 65
    Citations: 15

  • 2022Artificial neural network-based model to predict the effect of γ-aminobutyric acid on salinity and drought responsive morphological traits in pomegranate
    Authors: S. Zarbakhsh, A.R. Shahsavar
    Journal: Scientific Reports 12 (1), 16662
    Citations: 13

  • 2024Optimizing PGRs for in vitro shoot proliferation of pomegranate with bayesian-tuned ensemble stacking regression and NSGA-II: a comparative evaluation of machine learning models
    Authors: S. Zarbakhsh, A.R. Shahsavar, M. Soltani
    Journal: Plant Methods 20 (1), 82
    Citations: 4

  • 2017The Effect of Salicylic Acid and Gum Arabic on Some Qualitative and Quantitative Characteristics of Ziziphus mauritiana Lam During Storage
    Authors: S. Zarbakhsh, S. Rastegar
    Journal: Journal of Food Technology and Nutrition 14 (254), 87-98
    Citations: 4

Sang Yeol Lee | Plant Physiology | Best Researcher Award

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Prof. Dr. Sang Yeol Lee | Plant Physiology | Best Researcher Award

Professor at Gyeongsang National University, South Korea

Prof. Dr. Sang Yeol Lee is a renowned scientist in molecular biology, plant sciences, and biochemistry, with over 290 SCI-indexed international publications. He has made groundbreaking contributions to plant stress responses, enzymology, and cellular mechanisms. He earned his B.S. and M.S. from Seoul National University and a Ph.D. in Biochemistry from KAIST, followed by a postdoctoral fellowship at the NIH, USA. Since 1985, he has been a professor at Gyeongsang National University, currently serving as a Distinguished Professor. His career includes research positions at Kyoto University and NIH, along with leadership roles such as President of the Korean Society for Molecular and Cellular Biology (KSMCB) and Director of the National Core Research Center (NCRC). Recognized with multiple prestigious awards, including Best Scientist honors from KAIST, KSMCB, and NAS, Prof. Lee continues to shape global scientific advancements through his research and academic leadership.

Professional Profile 

Education 🎓

Prof. Dr. Sang Yeol Lee has an extensive academic background in biochemical and life sciences. He earned his B.S. in Food Science & Engineering from Seoul National University in 1980, where he developed a strong foundation in scientific research. He then pursued an M.S. in Enzymology from the same institution, completing it in 1982, focusing on biochemical processes and enzymatic functions. To further advance his expertise, he obtained a Ph.D. in Biochemistry from KAIST in 1985, specializing in molecular and cellular biology. Seeking international exposure, he completed a postdoctoral fellowship at the National Institutes of Health (NIH), USA, from 1987 to 1989, where he worked on advanced biochemical research. His educational journey across prestigious institutions equipped him with the knowledge and skills that have contributed to his outstanding research career, leading to significant advancements in molecular biology, enzymology, and plant sciences.

Professional Experience 💼

Prof. Dr. Sang Yeol Lee has had a distinguished career spanning several decades in academia and research. Since 1985, he has been a professor at Gyeongsang National University (GNU), where he currently serves as a Distinguished Professor. His international research experience includes positions as a Research Professor at Kyoto University, Japan (1990-1991), and at the National Institutes of Health (NIH), USA (1991-1992). He has held significant leadership roles, including serving as the Director of the National Core Research Center (NCRC) and as President of the Korean Society for Molecular and Cellular Biology (KSMCB) in 2015. Additionally, he has been an advisor and appraiser for major research organizations such as KOSEF and the Next Generation BioGreen 21 Project. His extensive contributions in research, academic leadership, and policy development have played a crucial role in advancing molecular biology, plant sciences, and biochemical research in Korea and internationally.

Research Interest 🔬

Prof. Dr. Sang Yeol Lee’s research interests lie in molecular biology, plant sciences, enzymology, and biochemical stress responses. His work focuses on understanding plant stress tolerance mechanisms, particularly in relation to oxidative stress, redox signaling, and protein function in plants. He has made significant contributions to identifying key molecular pathways that regulate plant immunity, stress adaptation, and circadian rhythms. His studies on thioredoxin proteins, peroxiredoxins, and protein chaperones have provided critical insights into how plants respond to environmental challenges such as heat, salt, and oxidative stress. Additionally, his research extends to signal transduction, kinase regulation, and epigenetic modifications in plant development and defense. With over 290 SCI-indexed publications, his work has significantly influenced plant molecular biology and agricultural biotechnology, contributing to the development of stress-resistant crops. His research continues to shape advancements in plant stress physiology and biochemical adaptation strategies in response to climate change.

Award and Honor🏆

Prof. Dr. Sang Yeol Lee has received numerous prestigious awards and honors in recognition of his outstanding contributions to molecular biology, plant sciences, and biochemistry. His achievements include the Distinguished Research Award from Gyeongsang National University (2004) and multiple Best Scientist Awards from organizations such as the Korean Society for Molecular and Cellular Biology (KSMCB), the National Academy of Sciences (NAS), and the Ministry of Education, Science, and Technology (MOEST). He was also recognized as one of Korea’s Best Scientists by the Association of Korean Journalists (2004) and received The Best 100-Scientific Achievements of Korea Award (2022). His scientific leadership earned him the Distinguished Alumni Award from KAIST (2013). With a career marked by national and international accolades, Prof. Lee’s research has significantly influenced plant molecular biology, enzymology, and biotechnology, reinforcing his status as one of Korea’s most distinguished scientists in life sciences.

Research Skill🔎

Prof. Dr. Sang Yeol Lee possesses exceptional research skills in molecular biology, biochemistry, plant sciences, and enzymology. His expertise includes protein biochemistry, redox signaling, gene expression analysis, and stress physiology in plants. He has extensive experience in molecular cloning, protein purification, structural biology, and functional genomics, which he has applied to understanding plant stress responses and cellular adaptation mechanisms. His work on thioredoxin proteins, peroxiredoxins, and kinase signaling pathways has provided groundbreaking insights into oxidative stress regulation, plant immunity, and environmental stress tolerance. Additionally, he is skilled in epigenetic analysis, transcriptomics, and advanced biochemical assays, which have contributed to his over 290 SCI-indexed publications. His ability to integrate cutting-edge biochemical techniques with plant molecular biology has enabled him to make significant contributions to agricultural biotechnology, particularly in developing stress-resistant crops and understanding plant adaptation to climate change. His diverse research skill set continues to advance scientific knowledge in plant sciences.

Conclusion📝

Prof. Sang Yeol Lee is a highly accomplished researcher with exceptional contributions to molecular biology and plant sciences. His impressive publication record, leadership in scientific societies, and multiple prestigious awards strongly support his candidacy for the Best Researcher Award. While he already holds a distinguished position, enhancing international collaborations and industrial applications could further solidify his legacy. Based on his credentials, he is an excellent choice for the award.

Publications Top Noted📚

  • NTRC mediates the coupling of chloroplast redox rhythm with nuclear circadian clock in plant cellsSang-yeol Lee et al., Molecular Plant, 2025

  • FAD and NADPH binding sites of YUCCA6 are essential for chaperone activity and oxidative stress tolerance in Arabidopsis thalianaSang-yeol Lee et al., Plant Physiology and Biochemistry, 2025

  • S-nitrosylation switches the Arabidopsis redox sensor protein, QSOX1, from an oxidoreductase to a molecular chaperone under heat stressSang-yeol Lee et al., Plant Physiology and Biochemistry, 2024 (3 citations)

  • Functional changes of OsTrxm from reductase to molecular chaperone under heat shock stressSang-yeol Lee et al., Plant Physiology and Biochemistry, 2023