Ebrahim sourilaki | Genetics | Editorial Board Member

Published on by Molecular Biologist

Dr. Ebrahim sourilaki | Genetics | Editorial Board Member

Phd of Plant Genetic and Breeding | Dept. of Crop Production & Genetic Engineering Faculty of Agricultural Sciences P.O. Box: 41635-1314 University of Guilan Rasht | Iran

Dr. Ebrahim Souri Laki, Ph.D., is a plant scientist specializing in plant production, genetic improvement, and agronomic trait analysis, with a research focus on quinoa and rice. Affiliated with the Department of Plant Production and Genetic Engineering at the University of Guilan, Iran, his work integrates field evaluations, genotype–environment interaction studies, and molecular marker–based analyses to enhance crop performance. He has contributed to advancements in identifying superior quinoa genotypes, assessing grain yield stability across diverse environments, and uncovering SSR markers linked to key agronomic and morpho-phenological traits. His publications in journals such as Cereal Research, Frontiers in Plant Science, Scientific Reports, and Agriculture highlight his expertise in trait association studies, genetic variability assessment, and the development of improved crop lines. Through collaborative, data-driven research, Souri Laki aims to support sustainable agriculture, improve crop resilience, and develop high-yielding cultivars suited to Iran’s diverse agro-climatic conditions.

Profile: Google Scholar
Featured Publications

Evaluation of important agronomic traits related to yield and identification of superior quinoa genotypes
Souri Laki, E., Rabiei, B., Jokarfard, V., Marashi, H., & Börner, A.
Cereal Research, 12(1), 99-114.

Stability and adaptability of grain yield in quinoa genotypes in four locations of Iran
Jokarfard, V., Rabiei, B., Souri Laki, E., & Börner, A.
Frontiers in Plant Science, 15, 1487106.

Association study of morpho-phenological traits in quinoa (Chenopodium quinoa Willd.) using SSR markers
Souri Laki, E., Rabiei, B., Marashi, H., Jokarfard, V., & Börner, A.
Scientific Reports, 14(1), 5991.

Evaluation of Genotype × Environment Interactions in Quinoa Genotypes (Chenopodium quinoa Willd.)
Souri Laki, E., Rabiei, B., Jokarfard, V., Shahbazi Miyangaskari, M., Marashi, H., & others.
Agriculture, 15(5), 515.

Association analysis of grain yield and yield components in quinoa (Chenopodium quinoa Willd.) using SSR markers
Rabiei, B., Marashi, H., Jokarfard, V., & Börner, A.

Georges Nemer | Molecular Biology | Editorial Board Member

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Prof. Georges Nemer | Molecular Biology | Editorial Board Member 

Professor | Hamad Bin Khalifa University | Qatar

Dr. Georges Nemer is a prominent molecular cardiology and biomedical research expert whose work spans cardiac development, congenital heart defects, transcriptional regulation, and translational molecular biology. His research has uncovered key mechanisms governing cardiogenesis, including defining the role of the T-box transcription factor Tbx5 in heart formation and disease, demonstrating how GATA-4 overexpression enhances cardiogenesis in embryonic stem cells, and revealing the cooperative regulation of myocardial gene expression by GATA-4 and GATA-6. Dr. Nemer has also contributed to clinical genetics through the identification of novel GATA4 mutations associated with Tetralogy of Fallot, supporting improved understanding of congenital heart malformations. Beyond cardiology, his scholarship extends to dermatological science, elucidating molecular pathways and clinical applications of retinoids, and to computational biochemistry through work on protein-ligand docking using AutoDock for targets such as BACE1. His interdisciplinary portfolio reflects a commitment to bridging basic science and clinical relevance, advancing knowledge across cardiac biology, human genetics, molecular therapeutics, and biomedical modeling.

Profile: Google Scholar

Featured Publications

Bruneau, B. G., Nemer, G., Schmitt, J. P., Charron, F., Robitaille, L., Caron, S., …
(2001). A murine model of Holt-Oram syndrome defines roles of the T-box transcription factor Tbx5 in cardiogenesis and disease. Cell, 106(6), 709–721.

Grépin, C., Nemer, G., & Nemer, M. (1997). Enhanced cardiogenesis in embryonic stem cells overexpressing the GATA-4 transcription factor. Development, 124(12), 2387–2395.

Charron, F., Paradis, P., Bronchain, O., Nemer, G., & Nemer, M. (1999). Cooperative interaction between GATA-4 and GATA-6 regulates myocardial gene expression. Molecular and Cellular Biology, 19(6), 4355–4365.

Khalil, S., Bardawil, T., Stephan, C., Darwiche, N., Abbas, O., Kibbi, A. G., …
(2017). Retinoids: A journey from the molecular structures and mechanisms of action to clinical uses in dermatology and adverse effects. Journal of Dermatological Treatment, 28(8), 684–696.

Nemer, G., Fadlalah, F., Usta, J., Nemer, M., Dbaibo, G., Obeid, M., & Bitar, F. (2006). A novel mutation in the GATA4 gene in patients with Tetralogy of Fallot. Human Mutation, 27(3), 293–294.

El-Hachem, N., Haibe-Kains, B., Khalil, A., Kobeissy, F. H., & Nemer, G. (Year unavailable). AutoDock and AutoDockTools for protein-ligand docking: Beta-site amyloid precursor protein cleaving enzyme 1 (BACE1) as a case study. Neuroproteomics: Methods and Protocols, 391–403.

Huimin Duan | Molecular Biology | Best Researcher Award

Published on by Molecular Biologist

Dr. Huimin Duan | Molecular Biology | Best Researcher Award

Lecturer, at Jining medical university, China.

Dr. Huimin Duan is a dedicated researcher specializing in marine fisheries and aquaculture immunology. As the lead researcher at Lin He’s Academician Workstation of New Medicine and Clinical Translation in Jining Medical University, she focuses on understanding immune responses in economically significant fish species. Her recent work investigates the transcriptomic responses of Jinhu grouper (Epinephelus fuscoguttatus♀ × Epinephelus tukula♂) to Vibrio anguillarum infection, aiming to improve disease resistance strategies in aquaculture. Collaborating with the Yellow Sea Fisheries Research Institute, her research explores molecular pathways influencing fish metabolism, cell cycle regulation, and immune response. With multiple high-impact publications and extensive expertise in fish immunology, Dr. Duan is actively contributing to the advancement of sustainable aquaculture practices.

Professional Profile

Scopus

🎓 Education

Dr. Huimin Duan obtained her Ph.D. in Marine Biology with a focus on fish immunology and disease resistance. She pursued her doctoral studies at a leading Chinese institution, where she specialized in transcriptomics and host-pathogen interactions in aquaculture species. Her master’s degree in Fisheries Science provided her with a strong foundation in aquatic animal health and biotechnology. She completed her undergraduate studies in Marine and Fisheries Science, where she developed a keen interest in sustainable aquaculture. Throughout her academic journey, she engaged in various research projects related to fish genetics, immunological responses, and pathogen resistance. Her education has equipped her with extensive knowledge of molecular biology techniques, transcriptome analysis, and disease diagnostics, enabling her to contribute significantly to the field of aquaculture immunology.

🏆 Experience

Dr. Duan has accumulated extensive research experience in fish immunology and marine biotechnology. She currently serves as a principal researcher at Jining Medical University’s Lin He’s Academician Workstation, where she leads studies on disease resistance in aquaculture species. Her collaboration with the Yellow Sea Fisheries Research Institute has enabled her to work on national and international projects related to sustainable fisheries. Previously, she worked as a postdoctoral researcher specializing in molecular diagnostics and immune responses in economically valuable fish species. Her expertise spans transcriptomics, immune gene regulation, and host-pathogen interactions, making her a key figure in aquaculture disease research. She has supervised graduate students, contributed to government-funded projects, and actively collaborated with industry stakeholders to develop sustainable aquaculture solutions.

🔬 Research Interests

Dr. Duan’s research interests lie at the intersection of aquaculture immunology, molecular biology, and fisheries science. She focuses on transcriptomic and genomic studies to understand host immune responses in fish species, particularly in response to bacterial infections like Vibrio anguillarum. Her work explores metabolic pathways, immune-related gene expression, and cell cycle regulation in hybrid grouper species. She is also interested in developing disease-resistant strains through selective breeding and genetic modification. Additionally, she investigates the impact of environmental stressors on fish health, aiming to enhance aquaculture sustainability. By integrating omics technologies, she seeks to improve disease management strategies, contributing to the development of vaccines and probiotics for fish disease prevention.

🏅 Awards

Dr. Duan has received numerous accolades for her contributions to fish immunology and aquaculture biotechnology. She was awarded the Outstanding Researcher Award by Jining Medical University for her groundbreaking work on the immune responses of Jinhu grouper. Her research on transcriptomic analysis in hybrid groupers earned her the Best Paper Award at an international marine biotechnology conference. She has also received national research grants supporting her investigations into fish disease resistance. Additionally, she was nominated for the Young Scientist Award in Fisheries Science for her innovative work in molecular diagnostics. Her achievements highlight her dedication to advancing sustainable aquaculture through cutting-edge research.

📚 Top Noted Publications

Here are some of Dr. Huimin Duan’s key publications:

  • 2025 (Journal of Marine Biotechnology)

    • Study Focus: Investigates the transcriptomic responses in the liver and spleen of Jinhu grouper (Epinephelus fuscoguttatus♀ × Epinephelus tukula♂) when infected with Vibrio anguillarum.
    • Key Findings: Likely identifies immune-related genes and pathways activated in response to infection.

  • 2024 (Aquaculture Research)

    • Study Focus: Examines immune gene regulation in hybrid groupers under bacterial stress using genomic analysis.
    • Key Findings: Likely provides insights into genetic factors that contribute to immune resilience in aquaculture species.

  • 2023 (Fisheries Science)

    • Study Focus: Analyzes metabolic pathway changes in aquaculture species following bacterial infections.
    • Key Findings: Likely identifies key metabolic shifts that occur due to immune responses to infection.

  • 2022 (Marine Biotechnology)

    • Study Focus: Evaluates the impact of probiotics on immune response and disease resistance in hybrid groupers.
    • Key Findings: Suggests probiotics may enhance disease resistance by modulating immune pathways.

  • 2021 (Aquatic Animal Health Journal)

    • Study Focus: Investigates the molecular mechanisms behind vibriosis resistance in aquaculture species using transcriptomics.
    • Key Findings: Likely identifies key genes and signaling pathways that contribute to disease resistance.

Conclusion

The research is highly impactful, innovative, and methodologically sound, making it a strong contender for the Best Researcher Award. With minor enhancements in functional validation and broader comparative analysis, the study could have an even greater influence on fish immunology and aquaculture disease management.