Integrative Genetics and Proteomics bridges genomic and proteomic technologies to understand how genetic information is translated into functional protein networks controlling cellular biology and disease processes globally. This advanced resource synthesizes concepts from genetics, molecular biology, mass spectrometry, and bioinformatics to explain modern systems-level biology. The book systematically covers genome sequencing, variant analysis, gene expression, protein identification, post-translational modifications, and protein-protein interactions. Topics span functional proteomics applications in drug discovery, biomarker identification, disease mechanism elucidation, and personalized medicine development. Coverage includes bioinformatics tools, data interpretation, quality control, and statistical analysis across diverse genomic and proteomic datasets. The book emphasizes systems approaches that integrate genetic and proteomic data to reveal biological complexity and disease etiology. Featuring international case studies and examples from precision medicine applications, Integrative Genetics and Proteomics equips researchers, bioinformaticians, and healthcare professionals with comprehensive understanding of integrating genomic-proteomic approaches for advancing biomedical science worldwide.