Jinshan Zhang | Plant Biology | Research Excellence Award

Published on by Cell Biologist

Assoc. Prof. Dr. Jinshan Zhang | Plant Biology | Research Excellence Award

Shandong Bellagen Biotechnology Co. Ltd. | China

Jinshan Zhang is an accomplished plant geneticist and researcher specializing in crop improvement and functional genomics in rice. His work focuses on applying advanced biotechnologies, including CRISPR/Cas9 genome editing and STTM (Short Tandem Target Mimic) systems, to study microRNA functions and enhance stress tolerance. Zhang has investigated the roles of miRNAs, such as miR166, in modulating leaf and xylem architecture to improve drought resistance. He has also characterized key infection-structure genes and kinases in wheat stripe rust. His research has yielded significant insights into gene regulation in rice and wheat, contributing to sustainable crop development and molecular breeding strategies.

Featured Publications

Sunil Gangurde | Plant Molecular Biology | Young Scientist Award

Published on by Cell Biologist

Assoc. Prof. Dr. Sunil Gangurde | Plant Molecular Biology | Young Scientist Award

Shandong Agricultural University | China

Sunil S. Gangurde is a maize and peanut molecular geneticist whose work integrates genomics, molecular breeding, and pathogen–host interaction studies to accelerate crop improvement. His research spans quantitative genetics, high-throughput genotyping, genomic selection, and pan-genomics, with applications in maize, peanut, and vegetable pathosystems. He has contributed significantly to dissecting complex traits related to biotic and abiotic stress tolerance, particularly resistance to Aspergillus flavus infection and heat stress in peanut. His projects include decoding genomic regions controlling pod shell and seed-coat–mediated resistance, developing a pan-genome of A. flavus to understand fungal diversity, and establishing genomic selection pipelines to enhance breeding efficiency. He has also worked on identifying susceptible growth stages in broccoli for improved disease management using fungicide-based strategies. Earlier work involved rapid generation advancement through single-seed high-throughput genotyping, enabling faster genetic gains in groundnut breeding programs. His contributions have been recognized through competitive grants and scientific awards, reflecting his role in developing innovative molecular tools and improving crop resilience. Across global research environments—including CGIAR centers, international universities, and multi-institutional collaborations—he continues to advance genomics-driven solutions for sustainable crop improvement.

Profiles: Google Scholar | Scopus

Featured Publications: 

Gangurde, S. S.*, Chenglai, W., Zhang, J., & Zhang, X. (2025). Divergent selection in moisture-responsive root-branching pathways between tropical and temperate maize germplasm. Journal of Integrative Plant Biology. (In press)

Gangurde, S. S., Asija, S., Bajaj, P., Fountain, J. C., Abbas, H. K., Holbrook, C. C., Kemerait, R. C., & Guo, B. (2025). Draft genome assemblies of 38 Aspergillus parasiticus isolates collected from South Georgia crop fields. Microbiology Resource Announcements, 12, e00083-25.

Shah, P., Gangurde, S. S., Senthil, R., Singam, P., Peerzada, O. H., Janila, P., Singh, K., Mayes, S., & Pandey, M. K. (2025). Identification of high blanchability donors, candidate genes, and markers in groundnut. BMC Plant Biology. (In press)

Mohinuddin, D. K., Gangurde, S. S., Khan, H., Bomireddy, D., Sharma, V., Shah, P., Sagar, U. N., Dube, N., Senthil, R., Tembhurne, B. V., & Nayak, V. H. (2025). Genomic analysis reveals the interplay between ABA-GA in determining dormancy duration in groundnut. Plant Physiology and Biochemistry.

Gangurde, S. S.*, Kaur, N., Guo, B., & Dutta, B. (2025). Leaf epicuticular wax and hormone-mediated resistance to Alternaria brassicicola in broccoli. Physiologia Plantarum, 177(2), e70172.

Sahu, N., Naik, B., Padmavathi, G., Gangurde, S. S., Pandey, M., Bentur, J. S., & Divya, D. (2025). Identification of novel QTL associated with whitebacked planthopper (WBPH) and brown planthopper (BPH) resistance in the rice line RP2068. Gene, 149742.

Moghiya, A., Munghate, R. S., Sharma, V., Mishra, S. P., Jaba, J., Gaurav, S. S., Gangurde, S. S., & Pandey, M. K. (2025). Dissecting genomic regions and candidate genes for pod borer resistance and component traits in pigeonpea minicore collection. Frontiers in Plant Science, 16, 1630435.

Veerendrakumar, H. V., Sudini, H. K., Kiranmayee, B., Devika, T., Gangurde, S. S., Vasanthi, R. P., Kumar, A. N., Bera, S. K., Guo, B., Liao, B., & Varshney, R. K. (2025). Dissecting genomic regions, candidate genes, and pathways using multi-locus genome-wide association study for stem rot disease resistance in groundnut. The Plant Genome, 18(3), e70089.

Rangari, S. K., Dube, N., Sharma, V., Gangurde, S. S., Sharma, M., et al. (2025). InDels in an intronic region of gene Ccsmd04 coding for dormancy/auxin-associated protein control sterility mosaic disease resistance in pigeonpea. International Journal of Biological Macromolecules, 145777.

Roychowdhury, R., Das, S. P., Das, S., Biswas, S., Patel, M. K., Kumar, A., Sarker, U., Choudhary, S. P., Das, R., Yogendra, K., & Gangurde, S. S.* (2025). Advancing vegetable genetics with gene editing: A pathway to food security and nutritional resilience in climate-shifted environments. Functional & Integrative Genomics, 25(1), 1–32.