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

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.