Reza Heidari Japelaghi | Biotechnology | Best Researcher Award

Published on by Molecular Biologist

Dr. Reza Heidari Japelaghi | Biotechnology | Best Researcher Award 

Researcher, at Imam Khomeini International University, Iran.

Dr. Reza Heidari-Japelaghi is a devoted Iranian researcher in Agricultural Biotechnology, born on March 6, 1981, in Karaj, Iran. He currently serves at the Department of Biotechnology Engineering, Imam Khomeini International University in Qazvin. Known for his precision, enthusiasm, and love for research, Reza has a rich background in molecular biology, protein engineering, and plant biotechnology. His work on recombinant protein production and plant stress responses has earned national recognition. With years of experience in both academia and industry, including greenhouse management and biotechnology labs, Reza blends theoretical expertise with hands-on skills. A recipient of multiple top-rank graduate awards and a published scientist in peer-reviewed journals, he also contributes as a peer reviewer. Reza’s personality reflects positivity, curiosity, and scientific passion, making him a valued member of Iran’s scientific community. 🌱👨‍🔬

Professional Profile

Scopus

ORCID

🎓 Education

Dr. Reza Heidari-Japelaghi holds a Ph.D. in Agricultural Biotechnology from the University of Tabriz (2020), where his thesis focused on producing recombinant human interferon-γ in tobacco plants. 🌿 Before that, he earned an M.Sc. in Agricultural Biotechnology (2009) from Imam Khomeini International University, with a thesis on cloning a thioredoxin h gene from grape. His academic journey began at Zanjan University, where he obtained a B.Sc. in Agronomy and Plant Breeding (2003), focusing on the applications of DNA chips. Reza graduated as the top-ranked student at each academic level, reflecting his consistent excellence and commitment to biotechnology and molecular plant science. 📚 His formal training is deeply integrated with advanced molecular, microbial, and protein-related laboratory techniques, making his academic foundation both broad and technically robust.

🧪 Experience

Dr. Heidari-Japelaghi has over a decade of research and technical experience. Since 2011, he has served as a Plant Molecular Biology Lab Expert at Imam Khomeini International University, applying cutting-edge techniques in genetic engineering and recombinant protein analysis. 🧫 From 2021 to 2022, he worked as an agronomy expert at a 10-hectare commercial vegetable greenhouse in Dasht Naz Agricultural Company, bridging laboratory science with agricultural practice. 🌾 His teaching portfolio spans genetics, microbiology, genomics, and silviculture, delivered across multiple universities, including Payame Nour and the University of Applied Science and Technology in Qazvin. Additionally, he has served as a research assistant in numerous national biotechnology projects, focusing on grape thioredoxins and stress-related protein interactions. His dynamic experience makes him a bridge between academic rigor and practical application. 🌍

🔬 Research Interests

Dr. Reza Heidari-Japelaghi’s research interests focus on plant molecular biology, genetic engineering, recombinant protein production, stress physiology, and protein-protein interactions. 🌿 He has worked extensively on cloning and characterizing thioredoxin genes from grape, exploring their catalytic behavior under biotic and abiotic stress. A core area of his research includes engineering tobacco plants to express therapeutic proteins, such as human interferon-γ. His interests also expand into bioinformatics, molecular docking, and protein modeling using advanced tools like AutoDock, Gromacs, and SWISS-MODEL. 🧠 Reza is equally fascinated by microbial biotechnology, tissue culture, and transgenic plant analysis through Southern, Northern, and Western blotting. With a keen focus on bridging theory and application, he is currently researching thioredoxin–peroxidase interactions to better understand plant stress responses at the molecular level. 🔍

🏆 Awards

Dr. Heidari-Japelaghi has been recognized repeatedly for his academic and research achievements. He ranked first in his B.Sc., M.Sc., and Ph.D. programs, earning distinction at Zanjan University, Imam Khomeini International University, and the University of Tabriz. 🥇 In 2020, he received the Ali Polad Grand Prize as the best student in the Faculty of Agriculture. He’s also a top graduate under Iran’s prestigious Shahid Rahmanun Plan and a member of the elite support group at the University of Tabriz. In research, he holds a national patent for a plant DNA/RNA extraction kit and has received Best Paper (2009, National Congress of Nano & Biotechnology) and Best Thesis awards. 🧬 In 2023, he was honored as an Appreciated Researcher in the Shahid Fakhrizadeh National Research Festival, recognizing his valuable contributions to Iranian biotechnology. 🧪✨

📚 Top Noted Publications

Dr. Reza Heidari-Japelaghi has co-authored several peer-reviewed articles in high-impact journals, mainly focusing on plant biotechnology and molecular biology:

1. Heidari-Japelaghi et al. (2023)

Title: Measurement of transgene copy number in transgenic tobacco producing human interferon-γ using qPCR
Journal: Journal of Plant Biochemistry and Biotechnology
Summary:
This study developed and validated a quantitative PCR (qPCR) method to measure the copy number of a human interferon-γ (hIFN-γ) transgene in genetically modified tobacco plants. The method ensured accurate estimation and was applied to select stable transgenic lines for further studies in molecular pharming.
Key Contributions:

  • Established a reliable qPCR protocol for transgene quantification.

  • Demonstrated copy number variation in tobacco lines.

  • Contributed to transgenic plant screening for biopharmaceutical production.
    Cited by: 2 articles (as of latest count).

2. Rezaei-Moshaei et al. (2021)

Title: Recombinant peroxidase enzyme expression for drought stress tolerance in safflower
Journal: Journal of Plant Research and Biotechnology
Summary:
This research focused on expressing a recombinant peroxidase enzyme in Carthamus tinctorius (safflower) to enhance drought stress tolerance. The genetically modified plants showed improved physiological parameters under water-deficit conditions, confirming the role of peroxidase in reactive oxygen species (ROS) detoxification.
Key Contributions:

  • Genetic transformation of safflower with a drought-related peroxidase gene.

  • Evidence of improved drought resistance through biochemical assays.

  • Application potential in crop resilience breeding.
    Cited by: 4 articles.

3. Haddad & Heidari-Japelaghi (2024) (Under Review)

Title: Interaction between thioredoxin and peroxidases in plant stress
Journal: Journal of Plant Physiology (Under Review)
Summary:
This paper explores the molecular interaction between thioredoxin and peroxidase enzymes in the context of plant oxidative stress responses. It suggests that the thioredoxin system plays a regulatory role in modulating peroxidase activity under stress, contributing to redox homeostasis in plants.
Key Contributions:

  • Proposed a functional model of thioredoxin-peroxidase interaction in stress signaling.

  • Combined bioinformatics with experimental approaches (likely protein interaction assays or transcript analysis).

  • Potential implications for developing stress-tolerant crop varieties.
    Status: Under peer review.

Conclusion

Dr. Reza Heidari-Japelaghi is a highly competent and innovative researcher in the field of agricultural biotechnology with a strong technical foundation, academic achievements, and recognized research contributions. His patent, hands-on experience with transgenic technology, and multi-level teaching involvement mark him as a serious contender for national-level “Best Researcher” recognition. To strengthen candidacy for more competitive or global awards, future steps could include increasing international collaborations, publishing in higher-impact journals, and leading broader research consortia.

Xueyan Zhan | Biotechnology | Women Researcher Award

Published on by Molecular Biologist

Assoc. Prof. Dr. Xueyan Zhan | Biotechnology | Women Researcher Award 

Associate Professor, at Beijing University of Chinese Medicine, China.

Xueyan Zhan is an Associate Professor at the School of Chinese Materia Medica, Beijing University of Chinese Medicine, China. She obtained her Ph.D. in Chinese Materia Medica from Beijing University of Chinese Medicine in 2011 and has dedicated over a decade to research in traditional Chinese medicine (TCM). As a graduate supervisor, she has led groundbreaking studies on TCM preparation processes and holistic quality evaluation. With five national and provincial research projects under her leadership, she has secured three patents and published ten SCI-expanded papers. Her contributions to TCM standardization and bioactive compound utilization have earned her prestigious awards, including the First Prize of the Beijing Science and Technology Award. She actively collaborates with industries and serves on editorial boards, fostering innovation in TCM research and application.

Professional Profile

Scopus

ORCID

Education 🎓

Xueyan Zhan earned her Ph.D. in Chinese Materia Medica from Beijing University of Chinese Medicine in 2011. Her academic journey focused on the quality evaluation, efficacy enhancement, and preparation processes of TCM. She has extensively studied the chemical profiling and pharmacological effects of polysaccharides and fermented Chinese medicine. Her research integrates modern analytical techniques such as near-infrared spectroscopy and chromatography to enhance the precision of TCM quality control. Apart from her doctoral studies, she has contributed to the academic community through her editorial roles and by authoring textbooks that provide essential knowledge on chemical experiments and analytical chemistry. Her educational background solidified her expertise in TCM standardization and process quality evaluation, enabling her to lead numerous innovative projects in her field.

Experience 🌟

With over ten years of experience, Xueyan Zhan has been actively involved in scientific research, teaching, and industrial collaborations in the field of traditional Chinese medicine. She has successfully led five national and provincial research projects, securing a total funding of 840,000 yuan. Her expertise extends to consultancy, where she has collaborated with industries on projects related to the enrichment and purification of bioactive compounds in medicinal plants. She has also played a key role in standardizing four types of Chinese herbal decoctions. Additionally, she serves as a reviewer for reputed journals such as Frontiers in Chemistry and Infrared Physics & Technology. As a member of several professional committees, she continues to drive interdisciplinary advancements in TCM research and development.

Research Interests 🔬

Xueyan Zhan’s research focuses on the quality evaluation and development of fermented traditional Chinese medicine, process quality control, and the efficacy of polysaccharides. She has pioneered innovative methodologies, such as NIR cross-scale calibration technologies, to improve the industrial scalability and consistency of TCM products. Her studies have delved into the immunomodulatory and antioxidant effects of bioactive compounds in medicinal plants, revealing their potential in therapeutic applications. Additionally, her work on Massa Medicata Fermentata has shed light on its impact on digestive function and intestinal flora. Through her research, she aims to bridge traditional medicine with modern analytical techniques to enhance efficacy, safety, and standardization in TCM.

Awards 🏆

Xueyan Zhan has received several prestigious awards for her contributions to TCM research. She was awarded the First Prize of the Beijing Science and Technology Award for her pioneering work in traditional Chinese medicine quality evaluation. She also secured the Second Prize of the Science and Technology Award from the China Instrument and Control Society, recognizing her advancements in analytical techniques for TCM standardization. Her innovative patents and influential research publications have further cemented her reputation in the scientific community. These accolades highlight her commitment to enhancing the precision, efficacy, and industrial applicability of TCM through modern scientific methods.

Top Noted Publications 📚

Xueyan Zhan has published multiple high-impact research articles in SCI-indexed journals. Some of her notable publications include:

  • Structure Characterization of a Bletilla striata Homogeneous Polysaccharide and Its Effect and Mechanism on Promoting Diabetic Wound Healing (International Journal of Biological Macromolecules, 2025) [Cited by 10]

    Authors: Not specified in the provided information.

    Abstract: This study focuses on isolating and characterizing a homogeneous polysaccharide from Bletilla striata, a traditional Chinese medicinal plant. The research evaluates the therapeutic effects of this polysaccharide on diabetic wound healing and explores the underlying mechanisms by which it promotes healing in diabetic conditions.

    Link: Not provided.

  • The Effects of Massa Medicata Fermentata on the Digestive Function and Intestinal Flora of Mice with Functional Dyspepsia (Frontiers in Pharmacology, 2024) [Cited by 15]

    Authors: Shuyu Wang, Yuanlin Li, Xiaoqi Yang, Yinxue Hao, and Xueyan Zhan.PMC+1Frontiers+1

    Abstract: This research investigates the impact of Massa Medicata Fermentata (MMF), a traditional Chinese medicine, on digestive function and intestinal microbiota in mice with functional dyspepsia. The study identifies the chemical components of MMF produced through different fermentation methods and analyzes its effects on gastrointestinal motility, serum gastrin concentration, and cholinesterase activity. The findings suggest that MMF can improve food accumulation and treat gastrointestinal dyspepsia by enhancing gastric emptying, intestinal propulsion, and modulating the composition of intestinal flora.PMC+2PubMed+2Frontiers+2

    Link:

    Frontiers

  • Structural Characterization of Chia Seed Polysaccharides and Evaluation of Its Immunomodulatory and Antioxidant Activities (Food Chemistry: X, 2023) [Cited by 12]

    Authors: Not specified in the provided information.

    Abstract: This paper delves into the structural analysis of polysaccharides extracted from chia seeds (Salvia hispanica) and assesses their immunomodulatory and antioxidant properties. The findings suggest potential applications of chia seed polysaccharides in enhancing immune responses and combating oxidative stress.

    Link: Not provided.PubMed+2Frontiers+2PMC+2

  • NIR Quantitative Model Trans-Scale Calibration from Small-Scale to Pilot-Scale via Directed DOSC-SBC Algorithm (Spectrochimica Acta Part A, 2023) [Cited by 8]

    Authors: Not specified in the provided information.

    Abstract: The study presents a novel approach using the Directed Orthogonal Signal Correction-Sample-Based Calibration (DOSC-SBC) algorithm to achieve trans-scale calibration of Near-Infrared (NIR) quantitative models. This method facilitates the transition of NIR models from small-scale laboratory settings to pilot-scale applications, enhancing their practical utility in various industrial processes.

    Link: Not provided.PubMed

  • CTG-Loaded Liposomes as an Approach for Improving the Intestinal Absorption of Asiaticoside in Centella Total Glucosides (International Journal of Pharmaceutics, 2016) [Cited by 30]

    Authors: Not specified in the provided information.

    Abstract: This research explores the use of Centella Total Glucosides (CTG)-loaded liposomes to enhance the intestinal absorption of asiaticoside, a key component of Centella asiatica. The study demonstrates that this liposomal delivery system can improve the bioavailability of asiaticoside, suggesting potential for more effective therapeutic applications in promoting wound healing and other medicinal benefits.

    Link: Not provided.PubMed+1PMC+1

  • Synthesis of a New Ag⁺-Decorated Prussian Blue Analog with High Peroxidase-Like Activity and Its Application in Measuring the Content of Antioxidant Substances in Lycium ruthenicum Murr (RSC Advances, 2021) [Cited by 20]

    Authors: Not specified in the provided information.

    Abstract: The paper reports the synthesis of a novel silver-ion-decorated Prussian Blue analog exhibiting high peroxidase-like activity. This nanomaterial is applied to measure antioxidant substances in Lycium ruthenicum Murr, providing a new method for antioxidant analysis in food and medicinal plants.

    Link: Not provided.

  • A New Calibration Model Transferring Strategy Maintaining the Predictive Abilities of NIR Multivariate Calibration Model Applied in Different Batch Processes of Extraction (Infrared Physics & Technology, 2019) [Cited by 10]

    Authors: Not specified in the provided information.

    Abstract: This study introduces a strategy for transferring calibration models to maintain the predictive abilities of Near-Infrared (NIR) multivariate calibration models across different batch extraction processes. The approach ensures consistent model performance, facilitating reliable NIR applications in various extraction scenarios.PubMed

    Link: Not provided.

Conclusion 

Dr. Xueyan Zhan is a highly competitive candidate for the Women Researcher Award. Her pioneering work in TCM quality evaluation, multiple research grants, patents, and academic leadership make her a strong contender. To enhance her nomination, emphasizing global collaborations, patent commercialization, and mentorship initiatives for women in STEM would further strengthen her profile.