Call for papers/Topics Full Articles/ Reviews/ Shorts Papers/ Abstracts are welcomed in the following research fields: 1. Fundamental Bioscience This area focuses on understanding the "blueprints" of life and how biological systems function at their most basic levels. Molecular and Cellular Biology Signal transduction pathways and cellular communication. Organelle function and protein trafficking. Cell cycle regulation and programmed cell death (apoptosis). Genetics and Genomics Epigenetics and gene expression regulation. Population genetics and evolutionary biology. Comparative genomics and functional transcriptomics. Biochemistry and Structural Biology Enzyme kinetics and metabolic pathways. Protein folding, misfolding, and proteomics. Metabolomics and the study of small-molecule intermediates. Microbiology and Virology Microbial pathogenesis and host-pathogen interactions. The human microbiome and its role in systemic health. Viral replication strategies and zoonotic transmission. 2. Biotechnology This field uses the knowledge from Bioscience to develop products, tools, and organisms for specific industrial or therapeutic uses. Genetic Engineering and Synthetic Biology CRISPR-Cas9 and next-generation gene editing. Design and construction of synthetic gene circuits. Metabolic engineering for biofuel and specialty chemical production. Bioprocess Engineering Fermentation technology and bioreactor design. Downstream processing (purification and separation of biologicals). Scale-up strategies for monoclonal antibody production. Agricultural and Environmental Biotechnology Genetically Modified Organisms (GMOs) for crop resilience. Bioremediation: Using microbes to clean environmental pollutants. Molecular farming (producing pharmaceuticals in plants). Pharmaceutical Biotechnology Vaccine development (mRNA, viral vectors, recombinant proteins). Pharmacogenomics: Personalized medicine based on genetic profiles. Drug delivery systems (liposomes, nanoparticles). 3. Biomedical Engineering This field applies engineering principles and design concepts to healthcare, bridging the gap between engineering and medicine. Biomechanics and Human Performance Kinematics and dynamics of human movement. Orthopedic biomechanics (spine, joint, and bone mechanics). Fluid mechanics of the cardiovascular and pulmonary systems. Biomaterials and Tissue Engineering Biocompatibility and the foreign body response. Scaffold design for 3D cell culture and organ regeneration. Smart materials and "bio-inks" for 3D bioprinting. Biomedical Instrumentation and Biosensors Bioelectric signal processing (ECG, EEG, EMG). Point-of-care diagnostic devices (e.g., glucose monitors). Wearable health technology and remote patient monitoring. Medical Imaging and Radiology Physics of MRI, CT, PET, and Ultrasound. Computer-aided diagnosis and medical image processing. Molecular imaging and contrast agent development. Neural Engineering and Rehabilitation Brain-computer interfaces (BCIs). Neural prosthetics and neurostimulation. Robotic-assisted surgery and exoskeletons. 4. Interrelated Cross-Disciplinary Topics These topics represent the convergence of all three fields, where biology meets advanced computation and ethical oversight. Bioinformatics and Computational Biology Big data analytics in "Omics" research. Molecular modeling and docking for drug discovery. Systems biology: Modeling complex biological networks. Regenerative Medicine Stem cell biology and differentiation protocols. Gene therapy delivery (in vivo and ex vivo). Organ-on-a-chip technology for drug toxicity testing. Nanobiotechnology Nano-scale sensors for early cancer detection. Targeted drug delivery using functionalized nanoparticles. DNA origami and molecular machines. Bioethics, Regulation, and Policy Ethical implications of human germline editing. Intellectual property and patenting of biological discoveries. Regulatory pathways (FDA/EMA) for biological and medical devices.