Chao Bai | Plant Physiology | Research Excellence Award

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Prof. Chao Bai | Plant Physiology | Research Excellence Award

Beijing Zoo | China

Chao Bai is an Associate Researcher at Beijing Zoo with interdisciplinary training in plant science, molecular biology, and ecological innovation. He earned his PhD in Plant Production and Forest Science from the University of Lleida, Spain, and has held research and postdoctoral positions at leading Chinese research institutes. His work integrates metabolomics, molecular genetics, and RNA interference to address wildlife nutrition, invasive plant biology, crop metabolic engineering, and sustainable pest control. He has led multiple nationally funded projects and published extensively in high-impact international journals. His research advances applied conservation, agricultural biotechnology, and evidence-based ecological management with strong translational impact.

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Featured Publications

Paloma Moncalean | Plant Biotechnology | Excellence in Plant Research

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Dr. Paloma Moncalean | Plant Biotechnology | Excellence in Plant Research

NEIKER | Spain

Dr. Paloma Moncaleán Guillén is a leading plant biotechnologist specializing in in vitro tissue culture, somatic embryogenesis, and forest biotechnology, with an extensive research career at NEIKER-BRTA, where she currently serves as Principal Investigator. She holds a PhD in Biological Sciences (Premio Extraordinario, 2000) from the University of Oviedo, where she also obtained her Licenciatura in Biological Sciences. Dr. Moncaleán pioneered the in vitro culture and plant physiology research line at NEIKER, developing advanced protocols for somatic embryogenesis and organogenesis in Pinus species, alongside molecular, physiological, and morphological marker applications in juvenile and mature tissues. Her current work focuses on epigenetic modulation under abiotic stress to enhance stress tolerance in somatic plants. She has accumulating an estimated h-index of 22, over 1421 citations, and more than 73 research documents. Dr. Moncaleán has led competitive national and international projects, contributed to major technology-transfer initiatives in Spain, Chile, and Argentina, and serves on editorial boards of top journals including Frontiers in Plant Science, PLANTS, FORESTS, and Plant Cell Tissue and Organ Culture. Recognized for her leadership, she coordinates the IUFRO Unit 2.09.02 and continues advancing forest biotechnology for sustainable and resilient forestry systems.

Profiles: Scopus | Orcid

Featured Publications

Hurtado, M., Suarez-Álvarez, S., Castander-Olarieta, A., Montalbán, I. A., Goicoechea, P. G., López de Heredia, U., Marino, D., & Moncaleán, P. (2025). Physiological and molecular response to drought in somatic plants from Pinus radiata embryonal masses induced at high temperatures. Plant Physiology and Biochemistry.

Ochatt, S. J., Akin, M., Chan, M. T., Dolgov, S. V., Eimert, K., Flachowsky, H., Guo, W. W., Jiménez, V. M., Lambardi, M., Moncaleán, P., et al. (2025). Research is rendering the recalcitrant woody plants amenable to biotechnological approaches. Plant Cell, Tissue and Organ Culture.

Montalbán, I. A., Castander-Olarieta, A., Marques do Nascimento, A. M., Suárez-Álvarez, S., Herrán, A., Polesi, L. G., Back, F., Steiner, N., Guerra, M. P., & Moncaleán, P. (2024). Genetic stability, amino acid, and polyamine profile analyses in radiata pine somatic embryos maturated at high temperatures. Plant Cell, Tissue and Organ Culture.

Montalbán, I. A., Castander-Olarieta, A., Marques do Nascimento, A. M., Suárez-Álvarez, S., Herrán, A., Polesi, L. G., Steiner, N., Guerra, M. P., & Moncaleán, P. (2023). Genetic stability, amino acid and polyamine profile analyses in radiata pine somatic embryos maturated at high temperatures.

Ayala, L. P. E., Luna, C. V., Brugnoli, E. A., Espasandin, F. D., Duarte, M. J., González, A. M., Gauchat, M. E., Moncaleán Guillén, P., & Sansberro, P. A. (2023). Cryopreservation of mature zygotic embryos, shoot bud regeneration, and field establishment of Pinus elliottii var. elliottii × Pinus caribaea var. hondurensis in vitro-derived plants. Trees.

Mahendar Thudi | Plant Genetics | Editorial Board Member

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Dr. Mahendar Thudi | Plant Genetics | Editorial Board Member

Fort Valley State university | United States

Mahendar Thudi, PhD, is a distinguished plant geneticist and genomics researcher currently serving as a Research Professional at Fort Valley State University, Georgia, and Adjunct Professor at the University of Southern Queensland, Australia. He previously worked as Associate Professor at Dr. Rajendra Prasad Central Agricultural University and spent over a decade at ICRISAT contributing extensively to chickpea genomics and molecular breeding. Dr. Thudi holds a PhD in Plant Sciences (2010) from the University of Hyderabad, an MS in Plant Biotechnology, and a BS in Agriculture. His research spans genetics and plant breeding, genomics, multi-omics, biotic and abiotic stress biology, and crop improvement in chickpea, sorghum, pearl millet, lentils, peanut, and wheat. Dr. Thudi has received several honors, including the Fellow of Telangana Academy of Sciences and multiple Exceptional Scientific Article Awards. With active international collaborations and editorial roles in leading journals, he continues to advance genomics-based breeding and global food security.

Profile: Google Scholar

Featured Publications

Varshney, R. K., Song, C., Saxena, R. K., Azam, S., Yu, S., Sharpe, A. G., Cannon, S., … (2013). Draft genome sequence of chickpea (Cicer arietinum) provides a resource for trait improvement. Nature Biotechnology.

Varshney, R. K., Shi, C., Thudi, M., Mariac, C., Wallace, J., Qi, P., Zhang, H., Zhao, Y., … (2017). Pearl millet genome sequence provides a resource to improve agronomic traits in arid environments. Nature Biotechnology.

Varshney, R. K., Thudi, M., Nayak, S. N., Gaur, P. M., Kashiwagi, J., … (2014). Genetic dissection of drought tolerance in chickpea (Cicer arietinum L.). Theoretical and Applied Genetics.

Varshney, R. K., Thudi, M., Roorkiwal, M., He, W., Upadhyaya, H. D., Yang, W., … (2019). Resequencing of 429 chickpea accessions from 45 countries provides insights into genome diversity, domestication and agronomic traits. Nature Genetics.

Thudi, M., Upadhyaya, H. D., Rathore, A., Gaur, P. M., Krishnamurthy, L., … (2014). Genetic dissection of drought and heat tolerance in chickpea through genome-wide and candidate gene-based association mapping approaches.

Mallesham Bulle | Plant Biotechnology | Outstanding Scientist Award

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Dr. Mallesham Bulle | Plant Biotechnology | Outstanding Scientist Award

Lousiana State University | United States

Dr. Mallesham Bulle, Ph.D., is a dedicated plant scientist with over a decade of experience in physiological, biochemical, and molecular investigations of abiotic stress tolerance in major crops, including chili pepper, rice, cotton, soybean, and maize. His research expertise spans plant transformation, CRISPR-Cas-mediated genome editing, phytohormone signaling, stress-response mechanisms, chloroplast and nuclear genome engineering, and omics-based approaches such as transcriptomics, metabolomics, and hormonomics. Dr. Bulle has led and contributed to multiple interdisciplinary projects, including climate-resilient rice and drought-tolerant legumes, securing significant research grants from USDA, NIFA, DBT, and United Soybean Board. He has developed robust plant regeneration and transformation systems, delivered novel transgenic and genome-edited crops, and mentored graduate and undergraduate researchers. His work demonstrates impactful contributions to crop improvement and abiotic stress resilience. His research interests include elucidating signaling pathways, deciphering fruit ripening mechanisms, exploring nitric oxide and phytohormone crosstalk, and discovering novel genes for crop stress tolerance. Dr. Bulle’s work has been recognized through patents for extending produce shelf-life and innovations in plant biotechnology. He continues to drive transformative research aimed at sustainable agriculture and climate-resilient crop development.

Profiles: Google Scholar | Orcid

Featured Publications

Bulle, M., Abbagani, S., & Raza, A. (2025). Genome blaze: Engineering chilli pepper chloroplasts for sustainable production of capsaicinoids through organellar genome editing. Plant Biology.

Bulle, M., Rahman, M. M., Islam, M. R., & Abbagani, S. (2025). Strategies to develop climate-resilient chili peppers: Transcription factor optimization through genome editing. Planta.

Rahman, M. M., Keya, S. S., Bulle, M., Ahsan, S. M., Rahman, M. A., Roni, M. S., Al Noor, M. M., & Hasan, M. (2025). Past trauma, better future: How stress memory shapes plant adaptation to drought. Functional Plant Biology.

Keya, S. S., Islam, M. R., Pham, H., Rahman, M. A., Bulle, M., Patwary, A., Kanika, M. M.-A.-R., Hemel, F. H., Ghosh, T. K., & Huda, N. (2025). Thirsty, soaked, and thriving: Maize morpho-physiological and biochemical responses to sequential drought, waterlogging, and re-drying. Plant Stress.

Bulle, M., Venkatapuram, A. K., Rahman, M. M., Attia, K. A., Mohammed, A. A., Abbagani, S., & Kirti, P. B. (2024). Enhancing drought tolerance in chilli pepper through AdDjSKI-mediated modulation of ABA sensitivity, photosynthetic preservation, and ROS scavenging. Physiologia Plantarum.