ChangLong Wen | Molecular Biology | Best Scholar Award

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Prof. Dr. ChangLong Wen | Molecular Biology | Best Scholar Award 

Director | Beijing Agriculture And Forestry Academy Of Sciences | China 

Dr. Changlong Wen is a distinguished Professor and Director at the Beijing Vegetable Research Center, Beijing Academy of Agriculture and Forestry Sciences (BAAFS), specializing in vegetable molecular breeding, genomics, and biotechnology. His research has significantly advanced the molecular breeding and improvement of key horticultural crops such as cucumber, watermelon, hot pepper, and zucchini, focusing on traits like yield, disease resistance, and stress tolerance. Dr. Wen’s scientific excellence is reflected in his 2,249 citations, 66 peer-reviewed publications, and an h-index of 29, underscoring his influential contributions to plant science and agricultural biotechnology. He has published in prestigious journals including Nature Communications, Plant Physiology, Plant Biotechnology Journal, and Journal of Integrative Plant Biology. His work on molecular regulation of plant growth and genome-wide gene mining has provided critical insights into crop improvement strategies at both national and international levels. A recipient of numerous national and provincial science awards, Dr. Wen has been honored with distinctions such as the ShenNong Scholar Young Talent (2024), Beijing Scholar Young Talent (2024), and National Talent Program Young Talent (2021). His leadership has contributed to several major Science and Technology Progress Awards, reflecting innovation in genomic breeding technologies and the successful development of high-quality crop varieties. Through his extensive collaborations and translational research, Dr. Wen continues to drive advancements in sustainable agriculture and food security, bridging fundamental plant genomics with applied breeding technologies to benefit both scientific communities and society at large.

Profiles: Scopus | ORCID |ResearchGate

Featured Publications

  1. Zhang, X., … Wen, C. L.* (2025). The natural Msc-4 allele confers genic male sterility via conserved and divergent gene regulatory mechanisms in pepper. Plant Physiology.

  2. Xia, C. X., … Wen, C. L.* (2025). The silicon efflux transporter BEC1 is essential for bloom formation and stress tolerance in cucumber. Journal of Integrative Plant Biology.

  3. Li, Y., … Wen, C. L.* (2025). CAD1 enhances antioxidant activity to facilitate cold storage by regulating flavonoid synthesis in cucumber. Agriculture Communications. (5 citations)

  4. Liu, H., … Wen, C. L.* (2025). Telomere-to-telomere genome assembly of eggplant (Solanum melongena L.) promotes gene fine localization of the green stripe (GS) in pericarp. International Journal of Biological Macromolecules.

  5. Zhou, P., … Wen, C. L.* (2024). Identification of powdery mildew resistance-related genes in butternut squash (Cucurbita moschata). International Journal of Molecular Sciences. (3 citations)

Asadollah Ahmadikhah | Genetics and Genomics | Best Researcher Award

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Assoc. Prof. Dr. Asadollah Ahmadikhah | Genetics and Genomics | Best Researcher Award 

Professor, researcher | Shahid Beheshti University | Iran

Dr. Asadollah Ahmadikhah is an Associate Professor in the Department of Cellular and Molecular Biology, Faculty of Life Sciences and Biotechnology at Shahid Beheshti University, Tehran, Iran. With a research focus on plant biotechnology, molecular genetics, and genomic breeding, his work has significantly advanced the understanding of molecular mechanisms underlying stress tolerance, yield improvement, and genetic diversity in crop plants, particularly rice and medicinal species. Dr. Ahmadikhah has authored over 60 peer-reviewed publications in international journals such as Scientific Reports, Frontiers in Plant Science, BMC Plant Biology, and Plant Biotechnology Journal, collectively garnering more than 1,700 citations and an h-index of 20 (Google Scholar). His research contributions span transcriptome analyses, genome-wide association studies (GWAS), gene mapping, and bioinformatics-driven gene discovery, leading to the identification of key genes involved in abiotic stress responses and yield-related traits. He has actively supervised 40 M.Sc. theses and 10 Ph.D. dissertations, nurturing the next generation of molecular biologists and biotechnologists. His commitment to academic excellence is reflected in his diverse teaching portfolio, covering molecular genetics, genomics, bioinformatics, and plant molecular breeding across undergraduate to doctoral levels. A contributor to several national and international collaborations, Dr. Ahmadikhah has also registered multiple gene sequences and RNA-Seq datasets in NCBI and led seven funded research projects. His recent studies integrate meta-transcriptomic and multi-omics approaches to reveal complex gene networks in plants under environmental stresses, offering valuable insights for sustainable agriculture and crop improvement. Through his extensive scientific output, mentorship, and collaborative initiatives, Dr. Ahmadikhah continues to make a profound impact on agricultural biotechnology and molecular genetics research, bridging innovation and application for global food security and resilience.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate

Featured Publications

  1. Narimani, H., Rahimi, M. M., Ahmadikhah, A., & Vaezi, B. (2010). Study on the effects of foliar spray of micronutrient on yield and yield components of durum wheat. Archives of Applied Science Research, 2(6), 168–176. (Citations: 194)

  2. Kordi, M., Farrokhi, N., Pech-Canul, M. I., & Ahmadikhah, A. (2024). Rice husk at a glance: from agro-industrial to modern applications. Rice Science, 31(1), 14–32. (Citations: 136)

  3. Ahmadikhah, A., & Karlov, G. I. (2006). Molecular mapping of the fertility-restoration gene Rf4 for WA-cytoplasmic male sterility in rice. Plant Breeding, 125(4), 363–367. (Citations: 114)

  4. Ali, S. O., & Ahmadikhah, A. (2009). The effects of drought stress on improved cotton varieties in Golestan Province of Iran. International Journal of Plant Production, 3(1), 17–26. (Citations: 92)

  5. Ahmadikhah, A., Nasrollanejad, S., & Alishah, O. (2008). Quantitative studies for investigating variation and its effect on heterosis of rice. International Journal of Plant Production, 2(4), 297–308. (Citations: 84)