Luciana Veras de Aquino Figueiroa | Agricultural and Biological Sciences | Best Researcher Award

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Dr. Luciana Veras de Aquino Figueiroa | Agricultural and Biological Sciences | Best Researcher Award

PhD at Federal Rural University of the Semi-Arid Region | Brazil

Dr. Luciana Veras de Aquino Figueiroa is a dedicated veterinary researcher and academic recognized for her interdisciplinary contributions to animal health, pathology, and agricultural sciences. She has built a solid academic foundation with advanced training in Veterinary Medicine, Animal Production, and Clinical Practice for Small Animals, complemented by doctoral research in Animal Science focusing on pathology and environmental toxicology. Her professional experience spans teaching, research, and technical consultancy, with emphasis on animal pathology, aquaculture health, food inspection, and biosafety. Throughout her career, she has contributed to multiple institutional projects and research groups, supporting the development of sustainable animal health management practices in both terrestrial and aquatic systems. Her work integrates applied veterinary pathology with modern diagnostic tools such as histomorphometry, cell culture, and electron microscopy to investigate diseases, environmental contaminants, and food safety risks. She has published several peer-reviewed articles and book chapters addressing topics such as bacterial and viral infections in aquaculture, histopathological alterations caused by pollutants, and quality control in products of animal origin. Dr. Luciana Veras de Aquino Figueiroa’s research interests focus on veterinary pathology, environmental toxicology, animal welfare, and food hygiene, with particular attention to the impacts of endocrine disruptors like bisphenol A on neural and reproductive systems of model organisms. Additionally, she has participated in collaborative studies on parasitic diseases in domestic birds, antimicrobial safety, and biochemical assessments in experimental animal models, contributing to scientific advancement and public health awareness. Beyond research, she has organized and participated in scientific congresses, professional training programs, and technical courses, promoting capacity building in veterinary inspection and animal health monitoring. Her academic and professional endeavors highlight a commitment to integrating veterinary science with environmental sustainability, aiming to improve animal production efficiency and human food safety. Through her rigorous research and collaborative leadership, Dr. Luciana Veras de Aquino Figueiroa continues to contribute to the evolution of agricultural and biological sciences, advancing knowledge that bridges clinical veterinary practice, ecological balance, and technological innovation for a more resilient and sustainable future.

Profle: Orcid

Featured Publications:

Figueirôa, L. V. A., Teófilo, T. S., Batista, J. S., Feijó, F. M. C., & Lima, J. T. A. X. (2024). Clinical and histopathological evidence of Hepatobacter penaei in Litopenaeus vannamei culture with high mortality. Archives of Veterinary Science, 29(3).

Campêlo, M. C. S., Medeiros, J. M. S., Rebouças, L. O. S., Figueirôa, L. V. A., Oliveira, P. V. C., Lima, P. O., & Silva, J. B. A. (2020). Shelf life and consumer preference for sun-dried meat produced with different levels of sodium chloride. Research, Society and Development, 9(10).

Campêlo, M. C. S., Medeiros, J. M. S., Rebouças, L. O. S., Figueirôa, L. V. A., Rocha, M. O. C., Oliveira, P. V. C., Lima, P. O., & Silva, J. B. A. (2020). Shelf life of sun-dried meat through the use of modified atmosphere. Research, Society and Development, 9(9).

Shengze Yan | Agricultural and Biological Sciences | Best Researcher Award

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Mr.Shengze Yan | Agricultural and Biological Sciences | Best Researcher Award 

Assistant Research Fellow at Sanming Academy of Agricultural Sciences | China

Mr. Shengze Yan is an accomplished researcher and Assistant Research Fellow at the Edible Fungi Research Institute of the Sanming Academy of Agricultural Sciences, Fujian Province, China, recognized for his significant contributions to agricultural and biological sciences. With a strong academic foundation in agricultural research, his career focuses on advancing edible fungus cultivation and genetic breeding to improve sustainability and productivity in mushroom farming. Since joining the Sanming Academy of Agricultural Sciences, he has demonstrated exceptional leadership and innovation by leading and participating in 13 provincial and municipal research projects, including the Science and Technology Plan Project of Fujian Province. His research has resulted in the publication of 15 scientific papers in respected national and international journals, showcasing his expertise in molecular biology, genetic analysis, and fungal physiology. Among his notable achievements is the development and patenting of a novel cultivation method for Stropharia rugosoannulata using fermentation tunnels, a breakthrough that enhances resource efficiency and production yields. His published work, “Transcriptome Analysis Reveals Critical Genes Involved in the Response of Stropharia rugosoannulata to High Temperature and Drought Stress,” highlights his commitment to understanding environmental stress responses in fungi and developing adaptive strategies for sustainable agriculture. Mr. Shengze Yan’s research interests extend to the exploration of genetic and molecular mechanisms underlying fungal adaptation, innovation in cultivation technologies, and the integration of biological research with agricultural applications for climate resilience and food security. His work exemplifies the intersection of science and sustainability, aiming to contribute to global agricultural development and ecological balance. Through his dedication to excellence in research, innovation, and collaboration, Mr. Shengze Yan continues to play a pivotal role in advancing the frontiers of agricultural biotechnology, promoting sustainable food systems, and contributing valuable insights that strengthen the scientific understanding of edible fungi in a rapidly changing world.

Profile: Orcid

Featured Publications:

Yan, S.; Wang, S.; Zhan, M.; Huang, X.; Xie, T.; Wang, R.; Lu, H.; Luo, Q.; Ye, W. (2025). Transcriptome Analysis Reveals Critical Genes Involved in the Response of Stropharia rugosoannulata to High Temperature and Drought Stress. Current Issues in Molecular Biology.

Zainib Babar | Agricultural and Biological Sciences | Best Researcher Award

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Dr.Zainib Babar | Agricultural and Biological Sciences | Best Researcher Award 

PhD at Shanghai Jiao Tong University | China 

Dr. Zainib Babar is an emerging scholar in agricultural and biological sciences, specializing in plant–microbe interactions, molecular biology, and plant immunity. Her academic foundation includes advanced training in horticulture, molecular genetics, and plant biotechnology, culminating in a doctoral degree from a leading institution where her research focused on identifying and characterizing conserved RxLR effectors of Plasmopara viticola that target host proteins involved in grapevine immune signaling. Her work provides critical insights into the molecular basis of plant resistance, contributing to the development of sustainable strategies for crop protection and productivity improvement. She possesses strong expertise in both experimental and computational biology, including gene cloning, protein purification, quantitative reverse transcription PCR, yeast hybridization, protein modeling, and bioinformatics analysis using R-Studio, Tb-tools, and ITASSER. Her prior research experience includes work on CRISPR/Cas-mediated genome editing in cotton for viral resistance, reflecting her commitment to addressing global agricultural challenges through genetic innovation. Dr. Zainib Babar has served as a lecturer, sharing her knowledge in biochemistry and molecular sciences, and has participated in numerous international conferences, symposiums, and workshops on plant biotechnology and genomics. Her scholarly output includes publications in reputable journals such as the Journal of Biomolecular Structure and Dynamics and Frontiers in Molecular Biosciences, where she has contributed to studies on protein–pathogen interactions and computational drug discovery. She has been recognized with multiple academic awards, including prestigious scholarships for her research excellence and participation in global scientific training programs. With 226 citations by 189 documents, 5 publications, and an h-index of 5, Dr. Zainib Babar demonstrates a growing international reputation for scientific innovation and collaboration. Her research continues to focus on the molecular mechanisms of plant defense and the application of biotechnology to enhance crop resilience and food security. Through her dedication to advancing knowledge at the intersection of molecular biology and agricultural science, she exemplifies the next generation of researchers striving to create sustainable solutions for the global agricultural sector.

Profile: Scopus | Orcid | Google Scholar

Featured Publications:

Babar, Z., Khan, A., Hussain, A., Liu, J., Wu, W., Fu, P., & Lu, J. A highly conserved oomycete effector PvRxLR15 hijacks Vv14-3-3ω to suppress plant immunity. Horticulture Research.

Babar, Z., Hussain, A., Khan, A., & Lu, J. NLR-driven plant immunity: Mechanisms, regulation, evolution, and application.

Khan, A., Babar, Z., & Lu, J. The LWY motif of PvRxLR111 is required for VvSGT1-mediated resistance in grapevines.

Babar, Z., Khan, M., Zahra, M., Anwar, M., Noor, K., Hashmi, H. F., Suleman, M., & Wei, D.-Q. (2020). Drug similarity and structure-based screening of medicinal compounds to target macrodomain-I from SARS-CoV-2 to rescue the host immune system: A molecular dynamics study. Journal of Biomolecular Structure and Dynamics, 39(18), 1–15.

Khan, A., Ali, S. S., Khan, M. T., Saleem, S., Ali, A., Suleman, M., Babar, Z., Shafiq, A., Khan, M., & Wei, D.-Q. (2020). Combined drug repurposing and virtual screening strategies with molecular dynamics simulation identified potent inhibitors for SARS-CoV-2 main protease (3CLpro). Journal of Biomolecular Structure and Dynamics, 39(10), 1–12.

Khan, A., Khan, M., Saleem, S., Babar, Z., Ali, A., Khan, A. A., Sardar, Z., Hamayun, F., Ali, S. S., & Wei, D.-Q. (2020). Phylogenetic analysis and structural perspectives of RNA-dependent RNA polymerase inhibition from SARS-CoV-2 with natural products. Interdisciplinary Sciences: Computational Life Sciences, 12(3), 1–14.

Khan, A., Junaid, M., Li, C.-D., Saleem, S., Hamayun, F., Shamas, S., Ali, S. S., Babar, Z., & Wei, D.-Q. (2020). Dynamics insights into the gain of flexibility by Helix-12 in ESR1 as a mechanism of resistance to drugs in breast cancer cell lines. Frontiers in Molecular Biosciences, 6, 159