Zainib Babar | Agricultural and Biological Sciences | Best Researcher Award

Posted on by Phenomenological Research Awards

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

Sajid Mehmood | Agricultural and Biological Sciences | Best Researcher Award

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Assoc. Prof. Sajid Mehmood | Agricultural and Biological Sciences | Best Researcher Award 

Associate Professor at Hainan University | China

Assoc. Prof. Sajid Mehmood is a distinguished academic and researcher in soil science, environmental sustainability, and agricultural innovation. With a strong background in soil fertility, nanotechnology applications in agriculture, and heavy metal remediation, he has established himself as a recognized scholar in his field. His research contributions span across biochar applications, environmental pollution management, and sustainable crop production. He has published widely in high-impact journals, edited influential scientific books, and presented at leading international conferences. His extensive citation record and collaborative projects highlight his impact, making him an outstanding candidate for recognition in research excellence.

Profile:

Orcid | Google Scholar

Education:

Assoc. Prof. Sajid Mehmood completed his doctoral studies in Soil Science at Huazhong Agricultural University, China, where his dissertation focused on soil properties and heavy metal environmental behaviors. Prior to this, he earned a Master of Science in Soil Science and a Bachelor of Science in Agriculture from PMAS-Arid Agricultural University, Pakistan. His academic foundation combines theory with applied research, emphasizing soil fertility, nutrient management, and environmental remediation. Through his academic training, he developed expertise in ecosystem assessment, soil morphology, and agricultural sustainability, forming the basis of his subsequent innovative and impactful career in research and teaching.

Experience:

Assoc. Prof. Sajid Mehmood has gained extensive professional experience across multiple prestigious institutions. He is currently serving as an Associate Professor at Hainan University, where he leads impactful projects on tropical agriculture climate change adaptation, and environmental sustainability. His prior positions include postdoctoral fellowships at Hainan University and Guangzhou University where he conducted pioneering work on soil remediation, pollutant reduction, and sustainable agriculture practices. He also served as a research associate at the National Natural Science Foundation of China contributing to international collaborations. His career demonstrates consistent commitment to advancing knowledge and addressing real-world environmental challenges through academic research.

Research Interest:

Assoc. Prof. Sajid Mehmood’s research interests lie at the intersection of soil science, environmental remediation, and sustainable agriculture. His work emphasizes the use of biochar, nanomaterials, and natural amendments to mitigate heavy metal contamination in soil and water. He explores plant–soil interactions under environmental stress, nanotechnology applications for soil fertility improvement, and the development of sustainable farming techniques for food security. He is also deeply engaged in studying the impacts of climate change on soil and crop systems, advancing scientific solutions for sustainable agricultural practices. His research provides practical applications while contributing to global environmental sustainability.

Awards and Honors:

Assoc. Prof. Sajid Mehmood has been recognized with awards and honors that reflect his academic excellence, impactful research, and scientific leadership. His published works have earned him recognition in high-ranking journals, and his citation impact demonstrates the wide relevance of his contributions. He has been invited as an international speaker at notable conferences and has played significant roles in collaborative research initiatives worldwide. His editorial contributions to books on heavy metal remediation and plant–microbe interactions further underscore his recognition. These achievements showcase his outstanding leadership, innovation, and dedication, making him an exemplary nominee for prestigious academic awards.

Publications:

Title: Silicon occurrence, uptake, transport and mechanisms of heavy metals, minerals and salinity enhanced tolerance in plants with future prospects: a review
Citation: 277
Year of Publication: 2016

Title: Biochar alleviates Cd phytotoxicity by minimizing bioavailability and oxidative stress in pak choi Brassica chinensis L. cultivated in Cd-polluted soil
Citation: 220
Year of Publication: 2019

Title: Facilely synthesized cobalt doped hydroxyapatite as hydroxyl promoted peroxymonosulfate activator for degradation of Rhodamine B
Citation: 189
Year of Publication: 2020

Title: Sugarcane bagasse-derived biochar reduces the cadmium and chromium bioavailability to mash bean and enhances the microbial activity in contaminated soil
Citation: 174
Year of Publication: 2018

Title: Nitric oxide induces rice tolerance to excessive nickel by regulating nickel uptake, reactive oxygen species detoxification and defense-related gene expression
Citation: 172
Year of Publication: 2018

Title: Changes in phosphorus fractions associated with soil chemical properties under long-term organic and inorganic fertilization in paddy soils of southern China
Citation: 165
Year of Publication: 2019

Title: Impact of different amendments on biochemical responses of sesame Sesamum indicum L. plants grown in lead-cadmium contaminated soil
Citation: 134
Year of Publication: 2018

Conclusion:

Assoc. Prof. Sajid Mehmood embodies the qualities of a leading researcher and academic in soil science and environmental sustainability. His educational achievements, international research experience, and innovative projects underscore his capacity to contribute transformative knowledge. His work on biochar, nanomaterials, and remediation strategies has advanced sustainable agriculture and environmental protection globally. With strong evidence of research excellence, impactful publications, and professional recognition, he is well-positioned as a deserving nominee. His career reflects a commitment to scientific advancement and sustainable development, making him an exemplary candidate for distinguished academic and research awards.